US20100023421A1 - Computer system for rule-based clothing matching and filtering considering fit rules and fashion rules - Google Patents
Computer system for rule-based clothing matching and filtering considering fit rules and fashion rules Download PDFInfo
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- US20100023421A1 US20100023421A1 US12/534,757 US53475709A US2010023421A1 US 20100023421 A1 US20100023421 A1 US 20100023421A1 US 53475709 A US53475709 A US 53475709A US 2010023421 A1 US2010023421 A1 US 2010023421A1
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- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41H—APPLIANCES OR METHODS FOR MAKING CLOTHES, e.g. FOR DRESS-MAKING OR FOR TAILORING, NOT OTHERWISE PROVIDED FOR
- A41H3/00—Patterns for cutting-out; Methods of drafting or marking-out such patterns, e.g. on the cloth
- A41H3/007—Methods of drafting or marking-out patterns using computers
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q30/00—Commerce
- G06Q30/06—Buying, selling or leasing transactions
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q30/00—Commerce
- G06Q30/06—Buying, selling or leasing transactions
- G06Q30/0601—Electronic shopping [e-shopping]
Definitions
- the present disclosure may be related to the following commonly assigned applications/patents.
- the present invention relates to computer systems for providing consumer access to databases of clothing items and in particular to computer systems that programmatically match clothing items with individual consumers' data, possibly including searching, sorting, ranking and filtering database items.
- a merchant compiles a database of their products and/or services, possibly including information about each product (size, color, type, description, price, etc.). Then the merchant provides consumers with an external electronic interface to that database, such as through a Web server, giving access to those consumers with Internet connectivity on their computers, computing devices, or telecommunication devices. Consumers can then review the merchant's available offerings, select items of interest, and even order them by interacting with the merchant's interface (e.g., selecting items and quantities, arranging for payment, arranging for delivery, etc.).
- Online shopping is more remote and less physical than in-person shopping, as computers and computer displays are limited in what they can provide to the potential consumer. For example, the consumer will not be able to feel, smell, hold or manipulate the actual product being ordered.
- These shortcomings are not an issue where the consumer knows the product and it is unchanging. For example, when the consumer is ordering a specific book by title known to the consumer or a familiar bag of pet food, all the consumer really needs is minimal information, and possibly a photo of the item, to ensure that they are ordering the specific item they had in mind.
- online ordering has been somewhat limiting.
- fit can be inferred from a description. For example, the fit for a belt that is 38 inches long and one inch wide might be inferred from that description alone. However, for other items, such as a dress, fit might not be so straightforward and in some cases, the best approach is for the consumer to physically have the item and try it on, which is impossible with online shopping. Another difficulty is the wide variety of clothing items that can include garments, accessories, shoes, belts, etc. The complexity of online shopping is further compounded for the consumer trying to assemble an outfit, that is, a set of two or more clothing items intended to be used or worn together.
- One approach is to take measurements from the consumer, assume other measurements, and then custom make the desired clothing item according to tailoring assumptions and/or standard models. Because of the wide variety of human body shapes and garment types this may work well for some people but not others.
- Another approach is to have clothing items represented by geometric models: scan an image of the consumer (or the consumer herself), and then use computer graphics techniques to generate a combined image of the consumer and a geometric model of a garment in an attempt to show a simulation of how that consumer might look, if she were actually wearing that garment.
- Such an approach takes time and might require the consumer to “virtually” try on a great many clothing items—one after another.
- Another attempt to deal with these problems involves analyzing a wide range of a market population and then designing a range of body shapes and designs for a particular garment based on that population. For example, manufacturers might be directed to produce several shapes of a particular pant to offer different fit choices in pants given what the population for the market for such pants is estimated at. The problem is that this approach still relies on the trial and error of locating that pant and determining individually whether it is a good match.
- a server system accessible to users using client systems can match consumers with garments and provide an improved, online, clothes shopping system, where a consumer is presented with a personalized online clothing store, wherein the consumer using a consumer client system can browse a list of garments matching the consumer's dimensions, body shape, preferences and fashion needs, wherein the garments are also filtered so that those shown also match fit and fashion rules so that selected garments have a higher probability of both fitting and flattering.
- a computer implemented method may present garments to a consumer using a computer by reading a database of garments, wherein the database of garments includes parameters for at least some of the garments represented by records in the database of garments, the parameters including at least a garment type, reading data representing a plurality of garment types, the data including, for each type of the plurality of garment types, a set of tolerance ranges for that garment type, obtaining consumer measurements from the consumer or a source derived from the consumer, obtaining garment measurements for garments in the database of garments, comparing customer measurements to garment measurements, scoring garments from the database of garments based on garment measurements, customer measurements and the set of tolerance ranges for each garment based on its garment type, and presenting the consumer with a computer generated filtered listed of garments from the database of garments ordered, at least approximately, according to garment scores.
- the scores can take into account customer preferences determined based on customer inputs. Garment type and the set of tolerance ranges might be determined by input from a fashion expert. The filtering might be done using thresholds on scores.
- the clothes shopping system can be a computerized implementation of a consumer-garment matching method.
- the consumer-garment matching method comprises up to four processes: definition, categorization, match assessment, and personalized shopping.
- a definition process comprises defining: a) human body shapes, b) human body heights, c) garment types, d) fit rules, and e) fashion rules.
- seven body shapes are defined, six body heights are defined, sixteen garment types are defined, and a plurality of fit rules and fashion rules are defined.
- Each definition may include a plurality of data points, formulae, tolerances and/or tolerance ranges.
- the resultant definitions can be stored in computer database tables or similar data structures.
- a categorization process allows for the collection of individual consumer records and individual garment records into computer databases.
- a consumer record describes an individual consumer, including his or her body measurements and personal profile, e.g., clothing preferences (such as fabric color), preferred tolerances (such as snugness of fit), and the like.
- the process can categorize the consumer by body shape and height, and assign to the consumer's record a corresponding shape code and a corresponding height code, wherein the codes represent a specific one of such shapes or body height bins.
- a garment record describes an individual garment, including its measurements and profile, e.g., its color, fabric, tolerances, etc.
- Garments can be categorized by body shape, which is assigned to a garment record in the form of the corresponding shape code or codes. Additionally, garments can also be categorized by garment type, and a garment type code stored in the garment's garment record.
- a match assessment process compares a consumer's record to one or more garment records and produces a scored, sorted and filtered list of matching garments.
- the match assessment process applies a series of three filters: the measurement filter, the profile filter and the shape code filter.
- the measurement filter uses fit rules with tolerances to compare a consumer's measurements to a garment's measurements in order to determine if the garment would physically fit the consumer at various critical measurement points, taking into account the desired fit from the design's perspective and the consumer's desired fit.
- the measurement filter also computes a score (a “priority code”), indicating how well the garment fits the consumer.
- a score a “priority code”
- the profile filter uses fashion rules with tolerances to compare a consumer's profile and preferences with a garment's profile in order to determine if the garment suits and flatters the consumer and reflects the consumer's preferences for style and fit.
- the profile filter also computes the priority code score indicating how suitable the garment is for the consumer.
- the shape code filter compares the consumer's shape code with the garment's shape code(s) to determine if the garment's shape matches the consumer's body shape.
- a personalized shopping process presents a filtered and ranked list of matching garments for recommendation to the consumer in an individually customized online shopping environment.
- the consumer's personalized store the consumer may purchase recommended garments that have a high probability of fitting and flattering and suit the consumer's clothing preferences.
- FIG. 1 is an illustration of a clothes shopping system, in accordance with described embodiments.
- FIG. 2 is a simplified block diagram of a consumer-garment matching method, in accordance with described embodiments.
- FIG. 3 is a simplified block diagram of a definition process, in accordance with described embodiments.
- FIGS. 4A-D illustrate height and length measurement techniques, in accordance with described embodiments.
- FIGS. 5 a and 5 b are simplified block diagrams of a categorization process, in accordance with described embodiments; FIG. 5 a shows a consumer recording process and FIG. 5 b shows a garment recording process.
- FIG. 6 is a simplified block diagram of a match assessment process, in accordance with described embodiments.
- FIGS. 7-13 are flowcharts illustrating a match assessment process for a fitted dress, in accordance with described embodiments.
- FIG. 14 is an illustration of example output from a match assessment process, in accordance with described embodiments.
- FIG. 15 is an illustration of a garment display interface, in accordance with described embodiments.
- An improved online clothes shopping system is described herein, where a consumer is presented with a personalized online store that lists clothing items for sale that are most likely to fit and flatter that particular consumer and match that consumer's preferences for style and fit.
- the presented list of items is generated by a computerized garment-consumer matching method that matches the fit and fashion of individual clothing items to individual consumers.
- Clothing items are commonly thought to include garments (dresses, coats, pants, shirts, tops, bottoms, socks, shoes, bathing suits, capes, etc.), but might also include worn or carried items such as necklaces, watches, purses, hats, accessories, etc.
- worn or carried items such as necklaces, watches, purses, hats, accessories, etc.
- sized and fitted garments are the items being shopped for, but it should be understood that unless otherwise indicated, the present invention may be used for shopping for other clothing items as well.
- an outfit is a collection of two or more clothing items intended to be worn or used together.
- garments and consumers are compared.
- the garment measurements, garment style/proportion and garment attributes color, weave, fabric content, price, etc.
- consumer measurements, consumer body proportion such as shape code
- consumer fit and style and fashion preferences how snug/loose, color, classic/contemporary/romantic, etc.
- Fashion rules can be defined for various garment style(s) that suit a particular body proportion, both for garments and for outfits, including accessorizing. Fashion rules (programmatically defining fashion expertise) can be “overlaid” on the matches to recommend the best combinations that will fit and flatter. In this manner, a consumer might be presented with a large number of garments to choose from, but each would be more likely to be a “good choice”, while leave out those garments that are less likely to fit or flatter. There could be a wide variety of garments and styles, etc., but organized as a personal store for that consumer.
- FIG. 1 is a high-level diagram depicting a clothes shopping system 100 , which is a computer implementation of a consumer-garment matching method in accordance with one embodiment of the present invention.
- the clothes shopping system is a client-server system, i.e., an assemblage of hardware and software for data processing and distribution by way of networks, as those with ordinary skill in the art will appreciate.
- the system hardware may include, or be, a single or multiple computers, or a combination of multiple computing devices, including but not limited to: PCs, PDAs, cell phones, servers, firewalls, and routers.
- the term software involves any instructions that may be executed on a computer processor of any kind.
- the system software may be implemented in any computer language, and may be executed as compiled object code, assembly, or machine code, or a combination of these and others.
- the software may include one or more modules, files, programs, and combinations thereof.
- the software may be in the form of one or more applications and suites and may include low-level drivers, object code, and other lower level software.
- the software may be stored on and executed from any local or remote machine-readable media, for example without limitation, magnetic media (e.g., hard disks, tape, floppy disks, card media), optical media (e.g., CD, DVD), flash memory products (e.g., memory stick, compact flash and others), Radio Frequency Identification tags (RFID), SmartCardsTM, and volatile and non-volatile silicon memory products (e.g., random access memory (RAM), programmable read-only memory (PROM), electronically erasable programmable read-only memory (EEPROM), and others), and also on paper (e.g., printed UPC barcodes).
- magnetic media e.g., hard disks, tape, floppy disks, card media
- optical media e.g., CD, DVD
- flash memory products e.g., memory stick, compact flash and others
- RFID Radio Frequency Identification tags
- SmartCardsTM Radio Frequency Identification tags
- volatile and non-volatile silicon memory products e.g
- Data transfer to the system and throughout its components may be achieved in a conventional fashion employing a standard suite of TCP/IP protocols, including but not limited to Hypertext Transfer Protocol (HTTP) and File Transfer Protocol (FTP).
- HTTP Hypertext Transfer Protocol
- FTP File Transfer Protocol
- XML eXtensible Markup Language
- Additional and fewer components, units, modules or other arrangement of software, hardware and data structures may be used to achieve the invention described herein.
- An example network is the Internet, but the invention is not so limited.
- a clothes shopping system 100 is comprised of three interconnecting areas: a consumer module 110 , a manufacturer module 120 , and an administrative backend 130 ,, all operating in a networked environment that may include local and/or wide area networks (LAN/WAN) 150 , and the Internet 140 .
- LAN/WAN local and/or wide area networks
- the administrative backend 130 uses administrator workstations 132 , web servers 134 , file and application servers 136 , and database servers 138 .
- the backend houses the consumer-garment matching software, the consumer and garment record databases 139 a - 139 b, definition & rules database 139 c, and the online store website with all of its necessary ecommerce components, such as Webpage generators, order processing, tracking, shipping, billing, email and security.
- Administrator workstations allow for the management of the entire system and all of its parts, including the inputting and editing of data.
- the manufacturer module 120 uses software/hardware that allows a manufacturer to input data into the garment records that represent the garments the manufacturer makes. For example, for each garment of a particular size or SKU, a manufacturer enters the garment's dimensional measurements and profile data into the manufacturer module. This data may be entered manually via a workstation 122 or automatically by interfacing with the manufacturer's own internal systems, such as CAD systems 124 and PLM (product lifetime management) systems, and/or pattern making systems. This inputted garment data might then be subjected to the garment categorization process 220 , as described herein. Additionally, the module may provide the manufacturer with computed output from the system, such as the shape codes of their various garments. The manufacturer may now employ the system's output in his manufacturing process; for example, to print shape code(s) on a garment's label or sales tag, or to electronically embed part or all of a garment's record in its RFID tag.
- the consumer module 110 is typically accessed by consumers via personal computers at home, school or office 112 .
- the consumer module 110 may also be accessed through cellular phones 116 , PDAs 114 and other networked devices, such as kiosks 118 in retail stores at malls, shopping centers, etc. It is through the consumer module 110 that a consumer can input her measurements, preferences and profile data into her consumer record. This inputted consumer data might then be subjected to the consumer categorization process 220 , as described herein. And importantly, the consumer module enables the consumer to shop and buy at her personalized online clothes store.
- FIG. 2 is a simplified block-diagram depicting a consumer-garment matching method 200 and the data inputs, outputs and interdependence of its constituent processes: a definition process 210 , a categorization process 220 , a match assessment process 230 , and a personalized shopping process 240 , described herein.
- FIG. 3 depicts a definition process 210 .
- the definition process defines a) human body shapes into a set of shapes (represented by shape codes 1 through 7 in this embodiment), b) human body heights into a set of heights (represented by height codes 1 through 6 in this embodiment), c) garment types (sixteen in this embodiment), d) fit rules, and e) fashion rules.
- Table 1 lists twenty-one such measurements as used in one embodiment of the present invention. Other embodiments may use more, fewer or different body measurements. A similar or identical set of measurements may also be used by the categorization process 220 when collecting body measurement data from any individual consumer via the consumer module 110 . Note: The measurement reference numbers appearing in Table 1 will be subsequently used throughout this document to concisely write formulae. The lowercase “c” (for consumer) denotes these measurements are provided by the consumer, such as might result from personal manual measurements.
- FIGS. 4A-4D depict the positions and techniques for acquiring body measurements to obtain data shown in Table 1, as an example.
- the displays of FIGS. 4A-4D might include instructions to the reader, as instruction blocks 215 ( a ), 215 ( b ), 215 ( c ) and 215 ( d ).
- human body shapes are defined by a body shape defining process 212 .
- the body shape defining process is a series of calculations establishing arithmetic and/or geometric relationships between the different body measurements to generate an outline of a body.
- the shape defining process considers front and side outlines in two and three dimensions for each measurement and evaluates the relative proportions of certain points on the torso including, but not limited to: the proportion of the shoulders to the hips, the shoulders to the bust, the bust to the waist, the waist to the hip, the proportion of the body mass that is in the front bisection of the body, etc.
- one of the calculations of the shape defining process might determine the value of the shoulder circumference minus the hip circumference. Referring to the measurement reference numbers in Table 1, this calculation can be represented as the formula 1Cc-5Cc. Another calculation is bust circumference minus front bust divided by bust circumference, i.e., (2Cc-7Fc)/2Cc. Table 2 lists the formulae and result names for the thirteen such calculations used by the shape defining process in one embodiment. Note: the two preceding example calculations can be found listed in Table 2 as Values 1 and 6 respectively.
- a shape code may be determined using the three-dimensional (3-D) lines of the body's measurements and relative proportions of height and girth of shoulders, bust, waist, high hips and hips and knee. Such 3-D measurements may be used to determine a curve for the shape of the body in 3-D. A comparison of the two 3-D measurements may be used to determine a body shape code geometrically.
- human body measurement data taken from representative samples of the human population and sub-populations form the inputs of the shape defining process 212 .
- the sample body measurement data is statistically analyzed to discern clustered subsets within the population, each sharing common data values.
- Each body shape is defined by a core set of measurement values together with an acceptable range of deviation from the mean for each value. In one embodiment, there are seven such subsets named and coded as “Shape 1” through “Shape 7”. In other embodiments, there might be more or fewer shape codes.
- the height defining process is a series of calculations establishing arithmetic and/or geometric relationships between the total body height (11Hc in Table 1) and hip circumference (5Cc).
- the sample data is statistically analyzed to discern clustered subsets within the population, each sharing common data values within an acceptable range of deviation from the mean for each value. In one embodiment there are six such subsets named and coded as “Height 1” through “Height 6”. It should be noted that other embodiments might have more or fewer than six height codes.
- the definitions of the seven body shape codes and six body height codes are stored in the definitions & rules database 139 c as maintained by database server 138 . Thus, having been defined, these seven body shape codes may then be assigned by the categorization process 220 to individual consumers whose measurements fall within the range of values corresponding to any particular shape code. Similarly, the six body height codes may be assigned by the categorization process to individual consumers whose measurements fall within the range of values corresponding to any particular height code. Similarly, shape codes may also be assigned to individual garments and outfits.
- Table 3 lists twenty-seven such measurements as used in one embodiment of the present invention. Other embodiments may use more, fewer or different garment measurements. A similar or identical set of measurements may be used by the categorization process 220 when collecting garment measurement data for any individual garment via the manufacturer module 120 . Note: The measurement reference numbers appearing in Table 3 will be subsequently used throughout this document to concisely write formulae. The lowercase “g” denotes these are garment measurements.
- the input employed to define garment types, fit rules and fashion rules is human fashion expertise. There are clothing designers and fashion experts skilled in the art and business of apparel making whose experience is called upon to define various garment types. Table 4 lists an example of sixteen such garment types as used in one embodiment.
- a garment's type will necessarily affect which measurements are considered. For example, while a jacket may have a shoulder circumference (1Cg), a pair of pants would not.
- measurement tolerances will also vary by garment type. Since they are cut differently, a Straight Dress (D2) may have a different bust tolerance than a Fitted Dress (D1). Because measurements and tolerances vary by garment type, each garment type has a corresponding Garment Type Definition Table, setting forth a generalized fit rule for that garment type.
- Table 5 is the Garment Type Definition Table for a Fitted Jacket as used in one embodiment.
- a garment type definition table specifies the measurements, tolerances and order of calculation to be used by the measurement filter 232 during a match assessment 230 , as defined herein.
- Tolerances may be specified as discrete values, discrete percentages, a range of values or percentages, and/or an array of values or percentages.
- Tolerance specifications can have absolute or “fuzzy” values or ranges, and may use comparative operands, such as equal to, greater than, etc. Tolerance specifications might also vary by shape code.
- an individual garment may have idiosyncratic properties that are unique to that garment.
- a particular Fitted Dress may be made of very stretchy fabric giving its shoulder, bust and waist tolerances greater ranges than the standard tolerances specified by the Fitted Dress Definition Table (not pictured).
- the generalized fit rule and tolerances of a garment type definition table can be overridden by idiosyncratic rules and tolerances that are specified in an individual garment's garment record, as defined herein.
- Garment type definitions together with their fit rules and tolerances are stored in a definitions & rules database 139 c as maintained by database server 138 .
- the fashion rules comprise of multivariate comparisons of data including, but not limited to, shape and height codes, garment type, fabric color and pattern, hair and skin color, neckline, sleeve and pocket styles, etc.
- one fashion rule posits that for each body height there are certain skirt styles that are more flattering.
- Table 6a is a Height Code/Skirt Code Table listing skirt styles suitable for each height code, as used in one embodiment.
- Table 6b lists the skirt style names corresponding to the skirt code numbers referenced in Table 6a.
- Skirt Style Code/Skirt Style Name Table Skirt Style Code Skirt Style Name 1 A-Line 2 Straight 3 Pleated 4 Gathered 5 Full 6 Flared 7 Gored 8 Bias 9 Wrap 10 Dirndl 11 Circle 12 Trumpet 13 Tiered 14 Yoked 15 Tulip 16 Asymmetrical 17 Other
- Table 7a is a Shape Code/Neckline Style Table listing neckline styles suitable for each shape code as used in one embodiment.
- the Shape Codes are represented by the letters M-Y-S-H-A-P-E. Some neckline styles are not recommended (those preceded with “not”), while the remainder are recommended.
- Table 7b lists the neckline style names corresponding to the neckline code numbers referenced in Table 7a, in one example.
- tolerances that may be specified as discrete values, discrete percentages, a range of values or percentages, and/or an array of values or percentages.
- Tolerance specifications can have absolute or “fuzzy” values or ranges, and may use comparative operands, such as equal to, greater than, etc. Tolerance specifications might also vary by shape-code.
- the Fashion rules, tolerances and fashion suitability tables are stored by the definition process 210 in a definitions & rules database 139 c as maintained by database server 138 .
- a categorization process 220 provides a means to: collect data describing individual consumers and individual garments, categorize those consumers and garments by shape and/or height, and store the resulting consumer and garment records in computer databases.
- a consumer record 229 a is data describing an individual consumer, including her body measurements and personal profile data, e.g., her clothing preferences (such as fabric color) together with her preferred tolerances (such as snugness of fit across the bust).
- a means is provided to categorize the consumer by body shape and height, and to store the corresponding shape code and height code in her record.
- a consumer may also be assigned a unique identification number.
- a garment record 229 b is data describing an individual garment, including its measurements and profile, e.g., its color, fabric, tolerances, etc.
- a means is provided to categorize the garment by body shape, and assign the corresponding shape code or codes to its record. Additionally, the garment is categorized by garment type, and the corresponding garment type code is assigned to the garment's record. A garment may also be assigned a unique identification number.
- the consumer records 229 a are stored by the categorization process 220 in a consumer database 139 a, while garment records 229 b are stored in a garment database 139 b.
- the consumer and garment databases are maintained by database server 138 .
- a categorization process 220 has two sub-processes: consumer recording 221 ( FIG. 5 a ) and garment recording 222 ( FIG. 5 b ).
- the consumer module 110 supplies the consumer measurement and profile data that form the inputs of the consumer recording process. (In practice, that data may also be input or edited via the administrative backend 130 .)
- An individual consumer's body measurements such as those listed in Table 1 and depicted in FIGS. 4A-4D , are input into a consumer shape categorization process 223 .
- the consumer shape categorization process may be implemented using a series of calculations that establish arithmetic and/or geometric relationships between the different body measurements. These calculations closely follow the transforms of the shape defining process 212 used in the definition process 210 described above, but also included in the calculation is a best-fit analysis to determine which body shape the individual consumer most closely matches.
- the resulting shape code is assigned to the consumer and stored in her record 229 a.
- a shape might also be generated by a combination of measurements and other profile questions, such as profile questions answered by the consumer (e.g., “is your stomach fuller than your bottom”) or by a combination of profile questions without measurements.
- Jane accesses the consumer module 140 of the clothes shopping system 100 and avails herself of the opportunity to shop and learn her shape code. Following on-screen instructions she uses a tape measure to collect her body measurements and enters them into an online form. She also enters her other profile information. This data is sent to backend 130 for consumer recording. Jane's returned shape code may be displayed to her. She may also receive an email containing her shape code in a printable, machine-readable format, such as a barcode. The resultant shape code may be physically sent to Jane in a variety of forms, such as a printed receipt, or embedded along with all, or part, of her consumer record on a magnetic card, or a SmartCardTM, etc. It may also be forwarded to her cellular phone, e.g., as a data file or an executable program. A consumer's body measurements may also be collected automatically; for example, by a full-body scanner at a retail establishment.
- a consumer height categorization process 224 calculates a consumer's height code.
- the height categorization process calculates the relationship between the consumer's total height and her hip circumference (measurement references 11Hc and 5Cc, respectively, in Table 1).
- Table 8 lists the calculations, as used in one embodiment, to assign a height code to a consumer.
- the assigned height code can be stored in the consumer's record 229 a.
- a consumer's profile is data describing an individual consumer, her clothing preferences and her preferred tolerances.
- Table 9 lists 32 profile data points as used in one embodiment. Note: values given are examples and may in practice be represented by code numbers, arrays, ranges, etc.
- the manufacturer module 120 supplies the garment measurements and profile data that form the inputs of the garment recording process 232 . (In practice, that data may also be input or edited via the administrative backend 130 .)
- the measurements of any particular garment may include values for all, or a subset, of those garment measurements listed earlier in Table 3. For different garment types there are different critical measurements. For example, a dress will have different measurement points than a jacket or pants. These measurements may be taken from the pattern guide, or be imported from the CAD representation in the manufacturer's cutting system, or manually from the garment itself.
- a garment's measurements are inputs to a garment shape categorization process 225 .
- the garment shape categorization process may comprise a series of calculations that establish arithmetic and/or geometric relationships (expressed as curves) between the various garment measurements.
- the garment's curves derived from the measurements, are compared to the curves represented by each of the seven body shapes to determine whether the garment is suitable for one or more body shapes.
- the curves are compared in front, side and back profiles.
- the curves may also be compared three-dimensionally (i.e., 3-D) with the volume of the front half of a body shape being compared with the volume of the front half of the garment.
- a best-fit analysis determines which body shape or shapes the garment most closely matches, as it is possible for a garment to be appropriate for more than one body shape.
- the resulting shape codes are assigned to the garment and stored in its garment record 229 b.
- a garment's profile data is data describing an individual garment.
- Table 10 lists an example of 23 such data points as used in one embodiment. Note: values given are examples and may in practice be represented by code numbers, arrays, ranges, etc.
- the consumer records 229 a can be stored in a consumer database 139 a, while garment records 229 b can be stored in a garment database 139 b.
- the consumer and garment databases can be maintained by database server 138 .
- FIG. 6 depicts a match assessment process 230 .
- the match assessment process may be carried out at the administrative backend 130 utilizing application 136 , Web 134 , database 138 , and other servers.
- the match assessment process may be used to compare an individual consumer's record 229 a with one, or more, garment records 229 b.
- the match assessment process is conducted iteratively, i.e., by comparing the consumer's record to each garment's record in turn, until all garment records have been compared. This results in a scored, sorted and filtered list of those garments which match that consumer.
- the match assessment process might also be described formulaically as locating a person in an N-dimensional person space (P) based on their shape, measurements, etc., locate a garment in an N-dimensional garment space (G), repeat this for all the garments, to generate a mapping of person to garments, f: P->G.
- the inputs of the match assessment process are a consumer record 229 a obtained from the consumer database 139 a as maintained by database server 138 , and one, or more, garment records 229 b obtained from the garment database 139 b, also maintained by database server 138 .
- the match assessment process 230 is comprised of three filters: a measurement filter 232 , a profile filter 234 , and a shape code filter 236 .
- the output of the filters is a ranked and sorted listing of matching garments.
- the sorting is composed of seven “Holding Bins” 238 —one for each shape code, and a Bin D 239 —“Don't Display” i.e., discarded garments that do not fit the consumer.
- a garment is temporarily assigned a priority code (Profile Reference #123Dg).
- the priority code determines a garment's rank within its holding bin 238 . This is most useful for the personal shopping process 240 , as described herein, where the priority code determines the order in which matching garments are displayed to the consumer.
- Table 11 lists the data that comprises Jane's consumer record, containing her Consumer ID, body measurements, height code, shape code, and profile data.
- Table 12 lists the data that comprises the dress' garment record, containing its Garment ID, measurements, shape code(s), and profile data. Note that the bust, waist and other tolerance values (28Dg thru 35Dg) are calculated by referencing tolerance ranges specified in the Garment Type Definition Table for a Fitted Dress (not shown). These garment tolerances indicate the designer's preferred fit for the garment; they should not be confused with the consumer's preferred tolerances (1001Dc-1004Dc).
- the first step of a match assessment is to determine the garment's type.
- the garment is a Fitted Dress. Its type code (Table 12, item 103Dg) is “D1”.
- retrieve the garment type definition table for a fitted dress from the definition & rules database 139 c as maintained by database server 138 .
- the garment type definition of a fitted dress (not pictured, but similar in format to Table 5) specifies which measurements, tolerances and order of calculation are used by the measurement filter.
- the data to populate a data structure containing garment data as illustrated in Table 12 might be provided all or in part by the garment vendors.
- garment vendors might provide size, height code, body shape, etc. in an uploadable file that is uploaded to populate garment records.
- a vendor module might be included to provide vendors with an interface to provide that data.
- the garment record is generated, in whole or part, from descriptions of the garment. This would allow, for example, automated processing of text and other descriptions of garments, perhaps from a vendor's web resources describing that vendor's garments and outfits. An example might be a collection of web pages or a database used for driving a web shopping system.
- shape codes might even be determined from the descriptions, such as by processing text describing a garment according to heuristics to arrive at temporary placeholder “estimate” shape codes (until a fashion reviewer reviews the assignment) or the final shape codes to drive usage, such as in a personal store application.
- measurement filter 232 compares the measurements of a garment with those of a consumer.
- the measurement filter may be comprised of four sets of comparisons: circumference comparisons, front comparisons, height comparisons, and length or other design parameters comparisons. Depending upon garment type, fewer comparisons may be made. For example, a pair of pants would not require a sleeve comparison.
- the measurement filter 232 determines if the consumer's body part can physically fit within the garment's part.
- a circumference comparison calculates the garment's circumference #Cg minus the corresponding consumer's circumference #Cc, as illustrated in the following formula for shoulder circumferences:
- the dress has a bust circumference (2Cg) of 34 and Jane's bust is 32 (2Cc).
- Measurement filter 232 processes the next data point—waist circumference (3C).
- step 722 the garment is discarded (step 722 ) and a match assessment is started on the next garment, if any. Since this dress fits Jane at all critical circumferences, measurement filter 232 proceeds to calculate the front comparisons.
- measurement filter 232 compares the front data points 6 F through 10F for garment and consumer.
- a front comparison calculates the garment front (#Fg) minus the consumer front (#Fc). This formula is for comparing shoulder front:
- the dress has a shoulder front (6Fg) of 19 and Jane's shoulder front (6Fc) is 18.
- the difference between the garment's shoulder front and the consumer's shoulder front is calculated:
- 1 is more than zero and less than, or equal to, the dress' shoulder tolerance (28Dg) times Jane's front shoulder (6Fc) divided by Jane's shoulder circumference (1Cc):
- Measurement filter 232 proceeds to process the next data point—bust front (7F).
- bust front 7F
- Measurement filter 232 proceeds to process the next data point—waist front (8F).
- Measurement filter 232 proceeds to process the next data point—high hip front (9F).
- Measurement filter 232 proceeds to process the next data point, “hip front (10F)”.
- hip front 10F
- step 822 the garment is discarded (step 822 ) and a match assessment is started on the next garment, if any. Since this dress fits Jane at all critical front comparisons, measurement filter 232 proceeds to calculate the height comparisons.
- measurement filter 232 calculates the heights and ensures that any differences are greater than zero. Measurement filter 232 calculates the consumer shoulder height (12Hc) minus the garment shoulder to hem height (15Hc), which may be expressed in the following equation:
- measurement filter 232 processes the next data point. Otherwise, measurement filter 232 discards the current garment into Bin D and proceeds to assess the next garment, if any.
- a flowchart 900 of these calculations is depicted in FIG. 9 .
- step 904 the difference evaluated by the height equation. For example, when Jane's knee height is 17 and the dress' desired length is 0,
- a match is found at step 904 , and measurement filter 232 may proceed to the shoulders to waist height comparison (12H).
- measurement filter 232 calculates the difference between consumer shoulder height (12Hc) and consumer waist height (14Hc), using the formula:
- measurement filter 232 processes the next data point. Otherwise, measurement filter 232 discards the current garment (step 922 ) and proceeds to assess the next garment, if any.
- Measurement filter 232 may proceed process sleeve comparisons at step 910 .
- Measurement filter 232 now proceeds to sleeve length (23Dg).
- a garment's priority code (123Dg) equals zero. However, during match assessment process 230 , the priority code may be temporarily given a numerical value for ranking purposes. If a garment fails any profile filter comparison it is “penalized” by having a number added to its priority code.
- the priority code determines the order in which garments are recommended and displayed to the consumer in her personalized online store (unless other ordering overrides, such as by also organizing all suitable garments for that consumer into categories). The higher a garment's priority code, the less suitable it is for the consumer and the later it will be displayed to her. The lower a garment's priority code, the more likely it will be displayed. A garment with a priority code of “1” will be recommended and appear before a garment with a priority code of “5”.
- a “1” is added to the priority code when any profile comparison fails. Note that the value of this penalty could be variable and weighted to a particular comparison. For example, failure to match a consumer's color preference may penalize a garment by 3, whereas failure to match a consumer's fabric preference may only penalize it by 2.
- each consumer profile data point may be assigned a secondary value, referred to as an “importance value”, to indicate its relative importance to the consumer.
- Profile filter 234 compares the consumer's desired fit for certain circumferences. That is, the measurement filter's previous circumference comparisons may be re-run using the consumer's desired tolerances in lieu of the garment's tolerances. For example, a sweater may be designed to fit loosely across the bust, but the consumer prefers a snug fit at her bust. In that case the profile filter would re-run the bust circumference comparison using a snug tolerance value. Then if the sweater does not fit snugly at the consumer's bust, its priority code is incremented, thus penalizing the sweater but not entirely discarding it, because it still fits the consumer, albeit more loosely than she prefers.
- profile filter 234 runs a modified version of that circumference calculation, substituting the consumer's tolerance for the garment's tolerance.
- a flowchart 1000 of these desired fit comparisons is depicted in FIG. 10 .
- step 1002 if the consumer shoulder tolerance (1001Dc) is less than the garment shoulder tolerance (28Dg), then at step 1004 , the shoulder circumference calculation is re-run by substituting the consumer's shoulder tolerance for the garment's shoulder tolerance. If at step 1006 , the garment fails the recalculation, then the priority code is increased by one (step 1008 ) and the next comparison is performed. Therefore, the measurement filter's shoulder circumference comparison given earlier as:
- Jane's bust, waist and hip tolerances (1002Dc-1004Dc) are not less than the corresponding garment tolerances (29Dg, 30Dg and 32Dg), so there is no need to recalculate those circumferences. However, if they were recalculated a “1” would be added to the priority code for each recalculation failure.
- match assessment process 230 proceeds to the other profile comparisons with the dress' priority code still equaling zero.
- a flowchart 1100 of the profile comparison calculations is depicted in FIG. 11 .
- Match assessment process 230 compares these four consumer and garment data points as follows.
- the first data point is whether garment color (115Dg) is contained in the array of values in the consumer's color palette (1005Dc).
- the next data point is whether the garment style (118Dg) is contained in the array of values in the consumer's desires styles (1006Dc).
- the next data point is whether garment fabric (119Dg) is contained in the array of values in the consumer's desired fabrics (1007Dc).
- the next data point is whether garment retail price (107Dg) is less than or equal to consumer's “I usually spend” (1013Dg).
- match assessment process 230 proceeds to step 1104 and adds one to the garment's priority code each time a comparison fails.
- the weights assigned to each comparison might be different than one and/or vary from comparison to comparison.
- Match assessment process 230 proceeds to the size comparison 1112 still having a priority code of zero.
- match assessment process 230 compares the garment's manufacturer size (121Dg) with the consumer's usual size (1012Dc). This is an array of size values dependent on garment type. As noted above, manufacturers' sizes are notoriously variable from manufacture to manufacturer and even internally inconsistent. A manufacturer often has its own proprietary sizing scheme, e.g., “A” versus “10.” So, a separate size lookup table (not shown here) is employed to normalize the garment's manufacturer size (121D) for use in the size comparison. Referring to our example data in Tables 11 and 12, the garment's manufacturer size (121Dg) is 1. The size lookup table indicates a “Smart Fashions” size 1 dress corresponds to a size 8.
- match assessment process 230 subtracts the garment's normalized manufacturer size from the consumer's usual size. If at step 1114 , the difference is more than a size tolerance range of plus or minus 4, then match assessment process 230 adds one to the priority code. Steps 1112 & 1114 may be expressed by the following equation: ((1012Dc ⁇ 121Dg)> ⁇ 4). In this example, Jane's usual dress size is 10 and the dress' normalized manufacture's size is 8. In other words, ((10 ⁇ 8)> ⁇ 4) is FALSE. So, this dress is still a perfect match and its priority code is unchanged at zero.
- fashion rules and tolerances are defined in fashion suitability tables that are stored in a definitions and rules database 139 c as maintained by database server 138 .
- a plurality of such tables is employed during fashion suitability comparisons.
- a flowchart 1200 of the fashion suitability comparison calculations is depicted in FIG. 12 .
- Match assessment process 230 compares two consumer and garment data points as follows. At step 1202 , if the garment's skirt style (114Dg) is contained in the array of suitable values for the consumer's height code (as listed in Table 6a, for example). Then, at step 1206 , if garment neckline style (110Dg) is contained in the array of suitable values for the consumer's shape code (as listed in Table 7a, for example), 3) then this garment is a match and its priority code is not changed. Otherwise, match assessment process 230 proceeds to step 1204 and adds 1 to the garment's priority code each time a fashion suitability comparison fails.
- Jane's height code (101Hc) is 2.
- the garment's skirt style (114Dg) is “A-line”, or skirt style code 1.
- Jane's shape code (100Sc) is 5.
- the garment's neckline style (110Dg) is “crew/jewel”.
- FIG. 14 depicts holding bins 238 , which form the final output of the match assessment process 230 .
- FIG. 13 depicts a shape code filter 236 .
- the shape code filter inserts the garment (represented by its ID) and its priority code into the bin or bins corresponding to its shape code(s) as illustrated in FIG. 14 .
- a garment's shape code may be an array of numbers, e.g., 3, 5, 7. In this case the garment would be placed in bins 3, 5 and 7.
- the garment is inserted into the bins by ascending order of its priority code.
- the garments are thus segregated by shape code, and ordered from most suitable to least suitable. Garments that share a consumer's shape code and have a priority code of zero are considered “best matches”.
- Match assessment process 230 then proceeds to a match assessment of the next garment, if any. Otherwise, the match assessment process ends with the output being a scored, ranked, sorted and filtered list of those garments which match the consumer to various degrees. This list may be used by a personalized shopping process 240 for the purpose of displaying matching garments to the consumer. Further it may be stored as a table, keyed to the consumer's record in consumer database 139 a, as maintained by database server 138 .
- the dress' shape code is “1.5”. So, it will be inserted into both holding bins 1 and 5. And it will be inserted at the very top of each bin, because its priority code equals zero. In Jane's personalized store, this dress may be recommended to her as a BEST match because the dress shares Jane's shape code of 5 and has a priority code of zero.
- a plurality of garments may be assembled into an outfit.
- one outfit may include three garments: a Fitted Jacket, a Straight Top and Fitted Pants.
- an outfit may be treated as a garment.
- an outfit has its own record in the garment database 139 b.
- the outfit's record may contain pointers the records of its constituent garments.
- Outfits are also assigned their own shape codes by combining the shape codes of their constituent garments according to an outfit categorization process. Thus outfits may also be included in a match assessment as described above. The consumer may be presented with both individual garments and outfits during the personalized shopping process.
- a personalized shopping process 240 presents a consumer with her personal online clothing store, where she may browse and purchase recommended garments that she can trust will fit and flatter her body and suit her clothing preferences.
- the consumer is presented with a personal store, which shows the customer garments, outfits and complementary accessories that match the customer's measurements, body shape, height code, personal preferences and fashion styling, that will fit her and flatter her as determined by the fashion suitability rules. Only those garments, outfits and complementary accessories that fit and flatter the consumer are displayed in her Personal Store. These items may be displayed in a plurality of modes; e.g., ranked by personal fashion preference, or price, or color, or seasonal trends, and so forth. And they may be displayed in any combination that the match assessment result allows.
- the consumer uses a kiosk in a retail store where the selection represents what is available in inventory at that moment on the floor and the consumer may print out and shop using a recommendation/personal selection.
- a consumer's personal online store is accessed through consumer module 110 of the clothes shopping system 100 .
- Jane may shop at her online store by using a Web browser on her home PC.
- the online store utilizes typical and necessary ecommerce components, such as Webpage generators, order processing, tracking, shipping, billing, email, security, etc., not pictured here.
- the personal store may be implemented as a freestanding website served by a server system, or as a subsection within another website, or as a web service, or within a standalone application outside of a browser environment (e.g., a “widget” or “gadget”), or in some combination of the above.
- the results of a match assessment 230 of multiple garments and outfits may be displayed to the consumer using a graphical user interface (GUI) 1500 as depicted in FIG. 15 .
- GUI graphical user interface
- Interface 1500 allows the consumer to quickly view and filter the results of a match assessment query.
- the garments may be displayed in garment area 1520 .
- the priority code assigned each garment may be used to determine their order of display. For example, BEST-fit garments, those with a priority code of zero, may be displayed first.
- the consumer may “page” through the garments by selecting the page controls 1560 .
- a garment may be displayed with picture(s), descriptive text, ordering information, shopping cart buttons, etc.
- the results of a match assessment may also be emailed to the consumer, delivered via cellular phone, PDA, physically mailed in the form of a personalized printed catalog, or other delivery methods.
- the consumer may wish to consider garments that are less-than-perfect matches for her. If so, those garments having priority codes greater than zero may then be displayed in the order of their suitability, according to priority code.
- the garment's priority code may be displayed as a code or as an icon by the interface in order to indicate to the consumer how suitable that garment is for her.
- the consumer may also browse garments of different body shapes.
- a shape control 1510 is a row of icons/text depicting the seven body shapes of this embodiment. Clicking on a body shape icon selects that shape and the remainder of the page 1512 is updated with garments matching that body shape.
- interface 1500 is first displayed, the consumer's body shape may be automatically selected and the matching garments displayed in area 1512 .
- the GUI might provide an icon, scale, number line, or other graphical representation of a gauge for the consumer that indicates to the consumer how well the garment fits and where with respect to the garments' tolerances, the consumer's measurements fall, thus allowing the consumer to determine how snug is snug, etc.
- the GUI should provide an option to allow the consumer to purchase garments that are not within prespecified preferences.
- Additional filter controls 1570 may be displayed.
- a garment type (102Dg) filter lists the various types of matching garments, such as “Dresses.”
- a brand (106Dg) Filter lists brands and designers, such as “Smart Fashions”.
- a style (118Dg) filter lists clothing styles, such as “Romantic.”
- a filter could be displayed for any, or all, garment profile data points, such as color (115Dg), fabric (119Dg), sleeve style (112Dg), etc.
- interface 1500 will show all matching garments that are jackets.
- multiple and discontinuous selections are made using a “checkbox” selection interface, as those familiar in the art will appreciate.
- Jane may click Skirts, Pants, Brand A, Romantic, and Artsy.
- the garment area 1520 may then be updated with garments meeting all of those selected filter options.
- the personal online store can fetch, sort and display matching garments in many useful ways.
- the consumer may purchase one or more garments, with confidence that the garments are likely to fit and flatter her.
- the consumer can, with one or more click, purchase and entire outfit with multiple components.
- the personal store can be shared with friends and family, indicating to them the filtered garments that fit and flatter, without needing to provide those others with fit information, size information, preferences, etc.
- elements of the systems described above can be expanded to cover a personal mall, wherein filtering is done as above, but over multiple online retail outlets.
- the particular retail outlets that are part of the system would depend on a number of criteria and the operator of the matching system might provide that access in exchange for commissions, as well as upselling, cross-marketing and providing other useful features for the consumer.
- An advantage to those retailers who join the personal mall and provide a virtual storefront is reduced return rates. With proper arrangement of the personal mall, each retail outlet can present its own brand and may be the shipper that ships the products directly to the consumer.
Abstract
Description
- The present disclosure may be related to the following commonly assigned applications/patents.
- This application is a continuation of U.S. patent application Ser. No. 11/697,688, filed Apr. 6, 2007 which is a continuation-in-part and claims priority from U.S. patent application Ser. No. 11/412,321, filed on Apr. 26, 2006, which in turn claimed the benefit of (1) U.S. Provisional Patent Application No. 60/676,678, filed Apr. 27, 2005, entitled “A Method for Specifying the Fit of Garments and Matching the Fit of Individual Garments to Individual Consumers Based on a Recommendation Engine”, and (2) U.S. Provisional Patent Application No. 60/779,300, filed Mar. 6, 2006, entitled “Method of Specifying the Fit of Garments and Matching the Fit of Individual Garments to Individual Consumers Based on a Recommendation Engine (combining measurements, preferences and body shape process)”. The respective disclosures of these applications/patents are incorporated herein by reference in their entirety for all purposes.
- The present invention relates to computer systems for providing consumer access to databases of clothing items and in particular to computer systems that programmatically match clothing items with individual consumers' data, possibly including searching, sorting, ranking and filtering database items.
- As more and more consumers rely on electronic online access to information about products for purchase, more and more merchants will need to consider providing electronic access to information about goods and services available to those consumers. In a typical electronic commerce situation, a merchant compiles a database of their products and/or services, possibly including information about each product (size, color, type, description, price, etc.). Then the merchant provides consumers with an external electronic interface to that database, such as through a Web server, giving access to those consumers with Internet connectivity on their computers, computing devices, or telecommunication devices. Consumers can then review the merchant's available offerings, select items of interest, and even order them by interacting with the merchant's interface (e.g., selecting items and quantities, arranging for payment, arranging for delivery, etc.).
- Online shopping is more remote and less physical than in-person shopping, as computers and computer displays are limited in what they can provide to the potential consumer. For example, the consumer will not be able to feel, smell, hold or manipulate the actual product being ordered. These shortcomings are not an issue where the consumer knows the product and it is unchanging. For example, when the consumer is ordering a specific book by title known to the consumer or a familiar bag of pet food, all the consumer really needs is minimal information, and possibly a photo of the item, to ensure that they are ordering the specific item they had in mind. However, with some other classes of goods, online ordering has been somewhat limiting.
- For example, when ordering items of clothing, online shopping has significant limitations. For one, because consumers rarely buy the exact same article of clothing over and over, they often do not have specific clothing items in mind while shopping, such as a particular brand, size, color, etc. of pants. More typically, a consumer is purchasing some item of clothing he or she does not already have an exact copy of; so there may be a question of how that item might fit and look when worn by that consumer.
- With some clothing items, fit can be inferred from a description. For example, the fit for a belt that is 38 inches long and one inch wide might be inferred from that description alone. However, for other items, such as a dress, fit might not be so straightforward and in some cases, the best approach is for the consumer to physically have the item and try it on, which is impossible with online shopping. Another difficulty is the wide variety of clothing items that can include garments, accessories, shoes, belts, etc. The complexity of online shopping is further compounded for the consumer trying to assemble an outfit, that is, a set of two or more clothing items intended to be used or worn together.
- A number of approaches have been tried to bridge the gap between online shopping for clothing items and having the item in hand to try on.
- One approach is to take measurements from the consumer, assume other measurements, and then custom make the desired clothing item according to tailoring assumptions and/or standard models. Because of the wide variety of human body shapes and garment types this may work well for some people but not others.
- Another approach is to have clothing items represented by geometric models: scan an image of the consumer (or the consumer herself), and then use computer graphics techniques to generate a combined image of the consumer and a geometric model of a garment in an attempt to show a simulation of how that consumer might look, if she were actually wearing that garment. Such an approach takes time and might require the consumer to “virtually” try on a great many clothing items—one after another.
- Online apparel shopping results in greater percentages of returns compared with purchases made at a physical store. Most of the return rate for women's clothing sold in the U.S. is due to size and fit problems.
- One cause of fit problems is a lack of standards. The U.S. Department of Commerce withdrew the commercial standard for the sizing of women's apparel in 1983, and since then clothing manufacturers and retailers have repeatedly redefined the previous standards or invented their own proprietary sizing schemes. The garment size for an individual often differs from one brand of apparel to another and from one style to another. This is commonly seen with women's clothing. A dress labeled “
size 10” of a particular style from one manufacturer fits differently than asize 10 from another manufacturer or perhaps even a different style from the same manufacturer. One may fit well, the other not at all. Even within a single size from a single manufacturer, there can be fit problems caused by the wide variation in consumers' body shapes. Consumers typically must try on multiple garments before finding and buying one that fits. - There are more than 5,000 designers and each of them might use a particular body fit model that represents a different body proportion and change these models from season to season and style to style. Thus, what fits changes based on designer, style of garment, season, and can also change with different fabrics and weaves and washes.
- The lack of sizing standards combined with unreliable labeling cause apparel fit problems, which in turn cause a very high rate of apparel returns, lost sales, brand dissatisfaction, time wasted in fitting rooms, and intense consumer frustration. The problems are only compounded when consumers attempt to make clothing purchases online instead of trying on actual clothing items in a bricks-and-mortar store.
- Another attempt to deal with these problems involves analyzing a wide range of a market population and then designing a range of body shapes and designs for a particular garment based on that population. For example, manufacturers might be directed to produce several shapes of a particular pant to offer different fit choices in pants given what the population for the market for such pants is estimated at. The problem is that this approach still relies on the trial and error of locating that pant and determining individually whether it is a good match.
- Improved methods and apparatus are needed.
- In embodiments of computer-implemented methods for matching fit and fashion of individual garments to individual consumers according to the present invention, a server system accessible to users using client systems can match consumers with garments and provide an improved, online, clothes shopping system, where a consumer is presented with a personalized online clothing store, wherein the consumer using a consumer client system can browse a list of garments matching the consumer's dimensions, body shape, preferences and fashion needs, wherein the garments are also filtered so that those shown also match fit and fashion rules so that selected garments have a higher probability of both fitting and flattering.
- A computer implemented method may present garments to a consumer using a computer by reading a database of garments, wherein the database of garments includes parameters for at least some of the garments represented by records in the database of garments, the parameters including at least a garment type, reading data representing a plurality of garment types, the data including, for each type of the plurality of garment types, a set of tolerance ranges for that garment type, obtaining consumer measurements from the consumer or a source derived from the consumer, obtaining garment measurements for garments in the database of garments, comparing customer measurements to garment measurements, scoring garments from the database of garments based on garment measurements, customer measurements and the set of tolerance ranges for each garment based on its garment type, and presenting the consumer with a computer generated filtered listed of garments from the database of garments ordered, at least approximately, according to garment scores.
- The scores can take into account customer preferences determined based on customer inputs. Garment type and the set of tolerance ranges might be determined by input from a fashion expert. The filtering might be done using thresholds on scores.
- The clothes shopping system can be a computerized implementation of a consumer-garment matching method. In specific embodiments, the consumer-garment matching method comprises up to four processes: definition, categorization, match assessment, and personalized shopping.
- A definition process comprises defining: a) human body shapes, b) human body heights, c) garment types, d) fit rules, and e) fashion rules. In one specific embodiment, seven body shapes are defined, six body heights are defined, sixteen garment types are defined, and a plurality of fit rules and fashion rules are defined. Each definition may include a plurality of data points, formulae, tolerances and/or tolerance ranges. The resultant definitions can be stored in computer database tables or similar data structures.
- A categorization process allows for the collection of individual consumer records and individual garment records into computer databases. A consumer record describes an individual consumer, including his or her body measurements and personal profile, e.g., clothing preferences (such as fabric color), preferred tolerances (such as snugness of fit), and the like. The process can categorize the consumer by body shape and height, and assign to the consumer's record a corresponding shape code and a corresponding height code, wherein the codes represent a specific one of such shapes or body height bins. A garment record describes an individual garment, including its measurements and profile, e.g., its color, fabric, tolerances, etc. Garments can be categorized by body shape, which is assigned to a garment record in the form of the corresponding shape code or codes. Additionally, garments can also be categorized by garment type, and a garment type code stored in the garment's garment record.
- A match assessment process compares a consumer's record to one or more garment records and produces a scored, sorted and filtered list of matching garments. In one specific embodiment, when conducting a consumer-to-garment comparison, the match assessment process applies a series of three filters: the measurement filter, the profile filter and the shape code filter. The measurement filter uses fit rules with tolerances to compare a consumer's measurements to a garment's measurements in order to determine if the garment would physically fit the consumer at various critical measurement points, taking into account the desired fit from the design's perspective and the consumer's desired fit.
- The measurement filter also computes a score (a “priority code”), indicating how well the garment fits the consumer. The profile filter uses fashion rules with tolerances to compare a consumer's profile and preferences with a garment's profile in order to determine if the garment suits and flatters the consumer and reflects the consumer's preferences for style and fit. The profile filter also computes the priority code score indicating how suitable the garment is for the consumer. The shape code filter compares the consumer's shape code with the garment's shape code(s) to determine if the garment's shape matches the consumer's body shape.
- Finally, a personalized shopping process presents a filtered and ranked list of matching garments for recommendation to the consumer in an individually customized online shopping environment. Through this, the consumer's personalized store, the consumer may purchase recommended garments that have a high probability of fitting and flattering and suit the consumer's clothing preferences.
- The following detailed description together with the accompanying drawings will provide a better understanding of the nature and advantages of the present invention.
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FIG. 1 is an illustration of a clothes shopping system, in accordance with described embodiments. -
FIG. 2 is a simplified block diagram of a consumer-garment matching method, in accordance with described embodiments. -
FIG. 3 is a simplified block diagram of a definition process, in accordance with described embodiments. -
FIGS. 4A-D illustrate height and length measurement techniques, in accordance with described embodiments. -
FIGS. 5 a and 5 b are simplified block diagrams of a categorization process, in accordance with described embodiments;FIG. 5 a shows a consumer recording process andFIG. 5 b shows a garment recording process. -
FIG. 6 is a simplified block diagram of a match assessment process, in accordance with described embodiments. -
FIGS. 7-13 are flowcharts illustrating a match assessment process for a fitted dress, in accordance with described embodiments. -
FIG. 14 is an illustration of example output from a match assessment process, in accordance with described embodiments. -
FIG. 15 is an illustration of a garment display interface, in accordance with described embodiments. - These and other embodiments of the invention are described in further detail below.
- An improved online clothes shopping system is described herein, where a consumer is presented with a personalized online store that lists clothing items for sale that are most likely to fit and flatter that particular consumer and match that consumer's preferences for style and fit. The presented list of items is generated by a computerized garment-consumer matching method that matches the fit and fashion of individual clothing items to individual consumers.
- Clothing items are commonly thought to include garments (dresses, coats, pants, shirts, tops, bottoms, socks, shoes, bathing suits, capes, etc.), but might also include worn or carried items such as necklaces, watches, purses, hats, accessories, etc. In any of the following examples, sized and fitted garments are the items being shopped for, but it should be understood that unless otherwise indicated, the present invention may be used for shopping for other clothing items as well. As used herein, an outfit is a collection of two or more clothing items intended to be worn or used together.
- In describing embodiments of the invention, female consumers and women's apparel will serve as examples. However, the invention is not intended to be limited to women's apparel as the invention may be used for various types of apparel including men's and children's apparel. Throughout this description the embodiments and examples shown should be considered as exemplary rather than limitations of the present invention.
- In a matching process, garments and consumers are compared. For garments, the garment measurements, garment style/proportion and garment attributes (color, weave, fabric content, price, etc.) might be taken into account, while for the consumer, consumer measurements, consumer body proportion (such as shape code), and consumer fit and style and fashion preferences (how snug/loose, color, classic/contemporary/romantic, etc.), might be taken into account.
- Fashion rules can be defined for various garment style(s) that suit a particular body proportion, both for garments and for outfits, including accessorizing. Fashion rules (programmatically defining fashion expertise) can be “overlaid” on the matches to recommend the best combinations that will fit and flatter. In this manner, a consumer might be presented with a large number of garments to choose from, but each would be more likely to be a “good choice”, while leave out those garments that are less likely to fit or flatter. There could be a wide variety of garments and styles, etc., but organized as a personal store for that consumer.
-
FIG. 1 is a high-level diagram depicting aclothes shopping system 100, which is a computer implementation of a consumer-garment matching method in accordance with one embodiment of the present invention. The clothes shopping system is a client-server system, i.e., an assemblage of hardware and software for data processing and distribution by way of networks, as those with ordinary skill in the art will appreciate. The system hardware may include, or be, a single or multiple computers, or a combination of multiple computing devices, including but not limited to: PCs, PDAs, cell phones, servers, firewalls, and routers. - As used herein, the term software involves any instructions that may be executed on a computer processor of any kind. The system software may be implemented in any computer language, and may be executed as compiled object code, assembly, or machine code, or a combination of these and others. The software may include one or more modules, files, programs, and combinations thereof. The software may be in the form of one or more applications and suites and may include low-level drivers, object code, and other lower level software.
- The software may be stored on and executed from any local or remote machine-readable media, for example without limitation, magnetic media (e.g., hard disks, tape, floppy disks, card media), optical media (e.g., CD, DVD), flash memory products (e.g., memory stick, compact flash and others), Radio Frequency Identification tags (RFID), SmartCards™, and volatile and non-volatile silicon memory products (e.g., random access memory (RAM), programmable read-only memory (PROM), electronically erasable programmable read-only memory (EEPROM), and others), and also on paper (e.g., printed UPC barcodes).
- Data transfer to the system and throughout its components may be achieved in a conventional fashion employing a standard suite of TCP/IP protocols, including but not limited to Hypertext Transfer Protocol (HTTP) and File Transfer Protocol (FTP). The eXtensible Markup Language (XML), an interchange format for the exchange of data across the Internet and between databases of different vendors and different operating systems, may be employed to facilitate data exchange and inter-process communication. Additional and fewer components, units, modules or other arrangement of software, hardware and data structures may be used to achieve the invention described herein. An example network is the Internet, but the invention is not so limited.
- In one embodiment, a
clothes shopping system 100 is comprised of three interconnecting areas: aconsumer module 110, amanufacturer module 120, and anadministrative backend 130,, all operating in a networked environment that may include local and/or wide area networks (LAN/WAN) 150, and theInternet 140. - The
administrative backend 130 usesadministrator workstations 132,web servers 134, file andapplication servers 136, anddatabase servers 138. The backend houses the consumer-garment matching software, the consumer and garment record databases 139 a-139 b, definition &rules database 139 c, and the online store website with all of its necessary ecommerce components, such as Webpage generators, order processing, tracking, shipping, billing, email and security. Administrator workstations allow for the management of the entire system and all of its parts, including the inputting and editing of data. - The
manufacturer module 120 uses software/hardware that allows a manufacturer to input data into the garment records that represent the garments the manufacturer makes. For example, for each garment of a particular size or SKU, a manufacturer enters the garment's dimensional measurements and profile data into the manufacturer module. This data may be entered manually via aworkstation 122 or automatically by interfacing with the manufacturer's own internal systems, such asCAD systems 124 and PLM (product lifetime management) systems, and/or pattern making systems. This inputted garment data might then be subjected to thegarment categorization process 220, as described herein. Additionally, the module may provide the manufacturer with computed output from the system, such as the shape codes of their various garments. The manufacturer may now employ the system's output in his manufacturing process; for example, to print shape code(s) on a garment's label or sales tag, or to electronically embed part or all of a garment's record in its RFID tag. - The
consumer module 110 is typically accessed by consumers via personal computers at home, school oroffice 112. Theconsumer module 110 may also be accessed throughcellular phones 116,PDAs 114 and other networked devices, such askiosks 118 in retail stores at malls, shopping centers, etc. It is through theconsumer module 110 that a consumer can input her measurements, preferences and profile data into her consumer record. This inputted consumer data might then be subjected to theconsumer categorization process 220, as described herein. And importantly, the consumer module enables the consumer to shop and buy at her personalized online clothes store. - Data such as consumer and garment records, that normally are input via the consumer and manufacturer modules, might also be input and edited via the
administrative backend 130. -
FIG. 2 is a simplified block-diagram depicting a consumer-garment matching method 200 and the data inputs, outputs and interdependence of its constituent processes: adefinition process 210, acategorization process 220, amatch assessment process 230, and apersonalized shopping process 240, described herein. -
FIG. 3 depicts adefinition process 210. The definition process defines a) human body shapes into a set of shapes (represented byshape codes 1 through 7 in this embodiment), b) human body heights into a set of heights (represented byheight codes 1 through 6 in this embodiment), c) garment types (sixteen in this embodiment), d) fit rules, and e) fashion rules. - Prior to defining either human body shapes or human body heights, it is first necessary to determine a list of critical measurements of the human body. Table 1 lists twenty-one such measurements as used in one embodiment of the present invention. Other embodiments may use more, fewer or different body measurements. A similar or identical set of measurements may also be used by the
categorization process 220 when collecting body measurement data from any individual consumer via theconsumer module 110. Note: The measurement reference numbers appearing in Table 1 will be subsequently used throughout this document to concisely write formulae. The lowercase “c” (for consumer) denotes these measurements are provided by the consumer, such as might result from personal manual measurements. -
TABLE 1 Body Measurements Measurement Measurement Name Reference # 7Shoulder Circumference 1Cc Bust Circumference 2Cc Waist Circumference 3Cc High Hip Circumference 4Cc Hip Circumference 5Cc Shoulder to Shoulder Front 6Fc Bust Front 7Fc Waist Front 8Fc High Hip Front 9Fc Hip Front 10Fc Top of Head Height 11Hc Shoulders Height 12Hc Bust Height 13Hc Waist Height 14Hc High Hips Height 15Hc Hips Height 16Hc Knee Height 17Hc Total Rise 18Dc Armhole Circumference 19Dc Inseam 20Dc Arm 21Dc -
FIGS. 4A-4D depict the positions and techniques for acquiring body measurements to obtain data shown in Table 1, as an example. - The displays of
FIGS. 4A-4D might include instructions to the reader, as instruction blocks 215(a), 215(b), 215(c) and 215(d). Examples of instruction blocks are: - 215(a) in
FIG. 4A : -
- Measure the CIRCUMFERENCE of your body at various points.
- Shoulders: Measure around shoulders, just below the shoulder joint, going outside your arms at the widest point.
- Bust: Measure bust at fullest point and straight across back.
- Waist: Measure around torso at your waistline.
- High Hips: Measure over top of hip bones, 2″-4″ below waist.
- Hips: Measure at the fullest part, usually 7″-9″ from waist.
- One Thigh: Measure at the fullest part of one thigh on one leg (your choice).
- Upper Arm: Measure the circumference of the thickest part of your upper arm (that bicep muscle!).
- 215(b) in
FIG. 4B : -
- Measure the FRONT OF YOU from the middle of one side to the middle of the other only. It helps if you are wearing lightweight, form fitting clothes with side seams to help locate the side of your body.
- Front of Shoulders: Measure from mid point of upper arm just below the shoulder joint to the same point of the opposite side, crossing the front of your body.
- Front of bust: Measure from as close to middle of one side of your body to the middle of the other crossing over the fullest part of your bust.
- Front of Waist: Measure from middle of one side to the middle of the other at your waist.
- Front of High Hips: Measure over top of hip bones, 2″-4″ below waist.
- Front of Hips: Measure from the middle of one side to the middle of the other at the fullest part of your hips, usually 7″-9″ from waist.
- 215(c) in
FIG. 4C : -
- Measure the HEIGHT of the following by taping or attaching a measuring tape to the bottom of a wall or doorway (floor—measurement zero) to measure the heights. A book, ruler or straight edge can help. This will give a vertical silhouette.
- Top of head: Measure from the floor to the top of your head.
- Should height: Measure from the floor to the top of your shoulder joint.
- Bust height: Measure from the floor to the fullest point of your bust.
- Waist Height: Measure from the floor to your waistline.
- High hip height: Measure from the floor to your high hip (your hip bone, usually 2″-4″ below your waist).
- Hip height: Measure from the floor to the fullest point of your hips.
- Knee height: Measure from the floor to the mid-point of your knee.
- 215(d) in
FIG. 4D : -
- Almost done, just a few more!
- Across upper back: Measure across your upper back from end of shoulder joint to end of shoulder joint. Or, for a shortcut, use a favorite jacket, measuring from shoulder seam to shoulder seam.
- Arm hole circumference: Measure top of should under arm and back around to the top of the arm.
- Arm length: Measure from the middle of the shoulder joint to the wrist joint, with slightly bent elbow.
- Rise (of pants): Start at middle for your waist in back, pass tape measure between your legs and up to the middle of your waist in front. Do not pull tight on this measurement, and don't make it too loose. Keep comfort in mind and make sure you are measuring your body accurately. A shortcut is to measure your favorite pair of pants.
- Inseam (leg length): Measure from the crotch to the floor on the inside of your leg. Or, for a shortcut, measure the inseam of your favorite pair of pants.
- Referring again to
FIG. 3 , depicting the definition process, human body shapes are defined by a bodyshape defining process 212. The body shape defining process is a series of calculations establishing arithmetic and/or geometric relationships between the different body measurements to generate an outline of a body. The shape defining process considers front and side outlines in two and three dimensions for each measurement and evaluates the relative proportions of certain points on the torso including, but not limited to: the proportion of the shoulders to the hips, the shoulders to the bust, the bust to the waist, the waist to the hip, the proportion of the body mass that is in the front bisection of the body, etc. - For example, one of the calculations of the shape defining process might determine the value of the shoulder circumference minus the hip circumference. Referring to the measurement reference numbers in Table 1, this calculation can be represented as the formula 1Cc-5Cc. Another calculation is bust circumference minus front bust divided by bust circumference, i.e., (2Cc-7Fc)/2Cc. Table 2 lists the formulae and result names for the thirteen such calculations used by the shape defining process in one embodiment. Note: the two preceding example calculations can be found listed in Table 2 as
Values -
TABLE 2 Shape Defining Process Calculations Measurement Formula = Result Name 1Cc − 5Cc = Value1 2Cc − 3Cc = Value2 2Cc − 5Cc = Value3 5Cc − 3Cc = Value4 (1Cc − 7Fc)/1Cc = Value5 (2Cc − 7Fc)/2Cc = Value6 (3Cc − 8Fc)/3Cc = Value7 (4Cc − 10Fc)/4Cc = Value8 (5Cc − 10Fc)/5Cc = Value9 12Hc − 16Hc = Value10 13Hc − 14Hc = Value11 16Hc − 14Hc = Value12 16Hc − 17Hc = Value13 - In another embodiment, a shape code may be determined using the three-dimensional (3-D) lines of the body's measurements and relative proportions of height and girth of shoulders, bust, waist, high hips and hips and knee. Such 3-D measurements may be used to determine a curve for the shape of the body in 3-D. A comparison of the two 3-D measurements may be used to determine a body shape code geometrically.
- Referring to
FIG. 3 , human body measurement data taken from representative samples of the human population and sub-populations (e.g., U.S. women aged 40-65) form the inputs of theshape defining process 212. The sample body measurement data is statistically analyzed to discern clustered subsets within the population, each sharing common data values. Each body shape is defined by a core set of measurement values together with an acceptable range of deviation from the mean for each value. In one embodiment, there are seven such subsets named and coded as “Shape 1” through “Shape 7”. In other embodiments, there might be more or fewer shape codes. - Similarly, the same sample body measurement data form the inputs of a body
height defining process 214. The height defining process is a series of calculations establishing arithmetic and/or geometric relationships between the total body height (11Hc in Table 1) and hip circumference (5Cc). The sample data is statistically analyzed to discern clustered subsets within the population, each sharing common data values within an acceptable range of deviation from the mean for each value. In one embodiment there are six such subsets named and coded as “Height 1” through “Height 6”. It should be noted that other embodiments might have more or fewer than six height codes. - The definitions of the seven body shape codes and six body height codes are stored in the definitions &
rules database 139 c as maintained bydatabase server 138. Thus, having been defined, these seven body shape codes may then be assigned by thecategorization process 220 to individual consumers whose measurements fall within the range of values corresponding to any particular shape code. Similarly, the six body height codes may be assigned by the categorization process to individual consumers whose measurements fall within the range of values corresponding to any particular height code. Similarly, shape codes may also be assigned to individual garments and outfits. - Prior to defining garment types or the fit and fashion rules, as defined herein, it is first necessary to determine a list of critical garment measurements. Table 3 lists twenty-seven such measurements as used in one embodiment of the present invention. Other embodiments may use more, fewer or different garment measurements. A similar or identical set of measurements may be used by the
categorization process 220 when collecting garment measurement data for any individual garment via themanufacturer module 120. Note: The measurement reference numbers appearing in Table 3 will be subsequently used throughout this document to concisely write formulae. The lowercase “g” denotes these are garment measurements. -
TABLE 3 Garment Measurements Measurement Measurement Name Reference Shoulder Circumference 1Cg Bust Circumference 2Cg Waist Circumference 3Cg High Hip Circumference 4Cg Hip Circumference 5Cg Shoulder to Shoulder Front 6Fg Bust Front 7Fg Waist Front 8Fg High Hip Front 9Fg Hip Front 10Fg Shoulder to Bust Height 11Hg Shoulder to Waist Height 12Hg Shoulder to High Hip Height 13Hg Shoulder to Hip Height 14Hg Shoulder to Hem Height 15Hg Waist to Hem Height 16Hg Center Front to Hem Height 17Hg Center Back to Hem Height 18Hg Outseam 19Hg Total Rise 20Dg Armhole Circumference 21Dg Inseam 22Dg Sleeve Length 23Dg Neck to Shoulder 24Dg Front Rise 25Dg Thigh Circumference 26Dg Bottom of Leg Circumference 27Dg - Referring to
FIG. 3 , the input employed to define garment types, fit rules and fashion rules is human fashion expertise. There are clothing designers and fashion experts skilled in the art and business of apparel making whose experience is called upon to define various garment types. Table 4 lists an example of sixteen such garment types as used in one embodiment. -
TABLE 4 Garment Types Garment Type Garment Type Name Reference Fitted Dress D1 Straight Dress D2 Knit Dress D3 Fitted Jacket J1 Straight Jacket J2 Knit Jacket J3 Fitted Top T1 Straight Top T2 Knit Top T3 Fitted Skirt S1 Straight Skirt S2 Fitted Pants P1 Straight Pants P2 Overalls P3 Fitted Coat C1 Straight Coat C2 - As defined herein, during a
match assessment 230 the measurements of a particular garment are compared to the measurements of a particular consumer. But a garment's type will necessarily affect which measurements are considered. For example, while a jacket may have a shoulder circumference (1Cg), a pair of pants would not. Similarly, measurement tolerances will also vary by garment type. Since they are cut differently, a Straight Dress (D2) may have a different bust tolerance than a Fitted Dress (D1). Because measurements and tolerances vary by garment type, each garment type has a corresponding Garment Type Definition Table, setting forth a generalized fit rule for that garment type. - Table 5 is the Garment Type Definition Table for a Fitted Jacket as used in one embodiment. In this embodiment, there are three tolerances for most measurements, namely “snug”, “regular” and “loose”. Of course, other sets of tolerances could be used instead.
-
TABLE 5 Garment Type Definition Table for Fitted Jacket (J1) Tolerance Tolerance Tolerance Measurement Name Number Name Percent Range Shoulder Circumference 1 snug 0.949 0.974 (1Cg) 2 regular 0.923 0.949 3 loose 0.897 0.923 Bust Circumference (2Cg) 1 snug 0.944 0.986 2 regular 0.903 0.944 3 loose 0.889 0.903 Waist Circumference (3Cg) 1 snug 0.948 0.983 2 regular 0.914 0.948 3 loose 0.862 0.914 High Hip Circumference 1 snug 0.959 0.986 (4Cg) 2 regular 0.932 0.959 3 loose 0.892 0.932 Hip Circumference (5Cg) 1 snug 0.963 0.988 2 regular 0.939 0.963 3 loose 0.902 0.939 Armhole Circumference 1 snug 0.956 0.971 (21Dg) 2 regular 0.912 0.956 3 loose 0.824 0.912 Shoulder Front (6Fg) 1 snug 0.949 0.974 2 regular 0.923 0.949 3 loose 0.897 0.923 Bust Front (7Fg) 1 snug 0.944 0.986 2 regular 0.903 0.944 3 loose 0.889 0.903 Waist Front (8Fg) 1 snug 0.948 0.983 2 regular 0.914 0.948 3 loose 0.862 0.914 High Hip Front (9Fg) 1 snug 0.959 0.986 2 regular 0.932 0.959 3 loose 0.892 0.932 Hip Front (10Fg) 1 snug 0.963 0.988 2 regular 0.939 0.963 3 loose 0.902 0.939 Shoulder to Waist Height 1 snug 0.954 1 (12Hg) 2 regular 0.9 0.954 3 loose 0.846 0.9 Shoulder to Hem Height 1 bust 1.326 2.326 (15Hg) 2 waist 0.948 1.2 3 high hip 0.979 1.17 4 hip 1.012 1.327 5 thigh 1.228 1.377 6 mini 0.727 0.9 7 above knee 0.9 0.953 8 at knee 0.953 1.04 9 below knee 1.04 1.137 10 mid-calf 1.137 1.277 11 ankle length 1.347 1.42 12 floor length 1.42 1.463 Sleeve Length (23Dg) 0 no n/a n/a preference 1 strap n/a n/a 2 sleeveless n/a n/a 3 short 0.201 0.531 4 three 0.64 0.919 quarters 5 long 0.953 1.039 Neck to Shoulder Length 1 snug 0.949 0.974 (24Dg) 2 regular 0.923 0.949 3 loose 0.897 0.923 - A garment type definition table specifies the measurements, tolerances and order of calculation to be used by the
measurement filter 232 during amatch assessment 230, as defined herein. Tolerances may be specified as discrete values, discrete percentages, a range of values or percentages, and/or an array of values or percentages. Tolerance specifications can have absolute or “fuzzy” values or ranges, and may use comparative operands, such as equal to, greater than, etc. Tolerance specifications might also vary by shape code. - At times, an individual garment may have idiosyncratic properties that are unique to that garment. For example, a particular Fitted Dress may be made of very stretchy fabric giving its shoulder, bust and waist tolerances greater ranges than the standard tolerances specified by the Fitted Dress Definition Table (not pictured). In such cases the generalized fit rule and tolerances of a garment type definition table can be overridden by idiosyncratic rules and tolerances that are specified in an individual garment's garment record, as defined herein.
- Garment type definitions together with their fit rules and tolerances are stored in a definitions &
rules database 139 c as maintained bydatabase server 138. - Whether a garment flatters its wearer is a matter of opinion. Judgments of fashion, style and taste are highly variable by place, time and culture. Nevertheless, there are arbiters of taste and fashion experts who formulate general rules and guidelines helpful in determining whether a garment flatters a wearer. For example, one rule might state that garments with thick horizontal stripes are unsuitable on short round bodies. Referring again to
FIG. 3 , fashion expertise forms the input for defining a plurality of such fashion rules as used by the consumer-garment matching method defined herein. The fashion rules, defined in a collection of Fashion Suitability Tables, comprise of multivariate comparisons of data including, but not limited to, shape and height codes, garment type, fabric color and pattern, hair and skin color, neckline, sleeve and pocket styles, etc. For example, one fashion rule posits that for each body height there are certain skirt styles that are more flattering. Table 6a is a Height Code/Skirt Code Table listing skirt styles suitable for each height code, as used in one embodiment. Table 6b lists the skirt style names corresponding to the skirt code numbers referenced in Table 6a. -
TABLE 6a Height Code/Skirt Code Suitability Table Height Code Skirt Style Codes 1 1, 2, 4, 6, 7, 8, 9, 10, 12, 14, 15, 17 2 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 3 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 14, 16, 17 4 1, 3, 6, 7, 8, 9, 14, 16, 17 5 1, 3, 6, 7, 8, 9, 10, 14, 16, 17 6 1, 2, 3, 6, 7, 8, 9, 11, 13, 14, 16, 17 -
TABLE 6b Skirt Style Code/Skirt Style Name Table Skirt Style Code Skirt Style Name 1 A-Line 2 Straight 3 Pleated 4 Gathered 5 Full 6 Flared 7 Gored 8 Bias 9 Wrap 10 Dirndl 11 Circle 12 Trumpet 13 Tiered 14 Yoked 15 Tulip 16 Asymmetrical 17 Other - Another fashion rule states that for each body shape there are certain neckline styles which are more flattering. Table 7a is a Shape Code/Neckline Style Table listing neckline styles suitable for each shape code as used in one embodiment. In Table 7a, the Shape Codes are represented by the letters M-Y-S-H-A-P-E. Some neckline styles are not recommended (those preceded with “not”), while the remainder are recommended. Table 7b lists the neckline style names corresponding to the neckline code numbers referenced in Table 7a, in one example.
-
TABLE 7a Shape Code/Neckline Style Suitability Table Shape Code Neckline Style Code 1 (M) Not(2, 9) 2 (Y) Not(4, 6, 9) 3 (S) All 4 (H) Not(6, 9, 10) 5 (A) Not(10) 6 (P) Not(0, 4, 6, 9) 7 (E) Not(0, 5, 10) -
TABLE 7b Neckline Style Code/Neckline Style Name Table Neckline Style Code Neckline Style Name 0 None/ Strapless 1 Convertible Collar (Including Mandarin) 2 Cowl 3 Scoop 4 Bateau 5 Crew/ Jewel 6 Turtle/ Mock 7 Gathered 8 V- Neck 9 Square 10 Halter 11 Straps 12 Off- Shoulder 13 Shawl 14 Henley 15 Placket 16 Sweetheart 17 Asymmetrical/ Yoke 18 Bow/Tie 19 Other - Like fit rules, certain fashion rules might employ tolerances that may be specified as discrete values, discrete percentages, a range of values or percentages, and/or an array of values or percentages. Tolerance specifications can have absolute or “fuzzy” values or ranges, and may use comparative operands, such as equal to, greater than, etc. Tolerance specifications might also vary by shape-code.
- The Fashion rules, tolerances and fashion suitability tables are stored by the
definition process 210 in a definitions &rules database 139 c as maintained bydatabase server 138. - A
categorization process 220 provides a means to: collect data describing individual consumers and individual garments, categorize those consumers and garments by shape and/or height, and store the resulting consumer and garment records in computer databases. Aconsumer record 229 a is data describing an individual consumer, including her body measurements and personal profile data, e.g., her clothing preferences (such as fabric color) together with her preferred tolerances (such as snugness of fit across the bust). A means is provided to categorize the consumer by body shape and height, and to store the corresponding shape code and height code in her record. A consumer may also be assigned a unique identification number. - A
garment record 229 b is data describing an individual garment, including its measurements and profile, e.g., its color, fabric, tolerances, etc. A means is provided to categorize the garment by body shape, and assign the corresponding shape code or codes to its record. Additionally, the garment is categorized by garment type, and the corresponding garment type code is assigned to the garment's record. A garment may also be assigned a unique identification number. - The consumer records 229 a are stored by the
categorization process 220 in aconsumer database 139 a, whilegarment records 229 b are stored in agarment database 139 b. The consumer and garment databases are maintained bydatabase server 138. - As embodied herein and depicted in
FIGS. 5 a-5 b, acategorization process 220 has two sub-processes: consumer recording 221 (FIG. 5 a) and garment recording 222 (FIG. 5 b). - The
consumer module 110, described herein, supplies the consumer measurement and profile data that form the inputs of the consumer recording process. (In practice, that data may also be input or edited via theadministrative backend 130.) An individual consumer's body measurements, such as those listed in Table 1 and depicted inFIGS. 4A-4D , are input into a consumershape categorization process 223. The consumer shape categorization process may be implemented using a series of calculations that establish arithmetic and/or geometric relationships between the different body measurements. These calculations closely follow the transforms of theshape defining process 212 used in thedefinition process 210 described above, but also included in the calculation is a best-fit analysis to determine which body shape the individual consumer most closely matches. The resulting shape code is assigned to the consumer and stored in herrecord 229 a. A shape might also be generated by a combination of measurements and other profile questions, such as profile questions answered by the consumer (e.g., “is your stomach fuller than your bottom”) or by a combination of profile questions without measurements. - Consider a consumer, Jane. Using her
home PC 112, Jane accesses theconsumer module 140 of theclothes shopping system 100 and avails herself of the opportunity to shop and learn her shape code. Following on-screen instructions she uses a tape measure to collect her body measurements and enters them into an online form. She also enters her other profile information. This data is sent to backend 130 for consumer recording. Jane's returned shape code may be displayed to her. She may also receive an email containing her shape code in a printable, machine-readable format, such as a barcode. The resultant shape code may be physically sent to Jane in a variety of forms, such as a printed receipt, or embedded along with all, or part, of her consumer record on a magnetic card, or a SmartCard™, etc. It may also be forwarded to her cellular phone, e.g., as a data file or an executable program. A consumer's body measurements may also be collected automatically; for example, by a full-body scanner at a retail establishment. - In a similar fashion, a consumer
height categorization process 224 calculates a consumer's height code. The height categorization process calculates the relationship between the consumer's total height and her hip circumference (measurement references 11Hc and 5Cc, respectively, in Table 1). Table 8 lists the calculations, as used in one embodiment, to assign a height code to a consumer. The assigned height code can be stored in the consumer's record 229 a. -
TABLE 8 Consumer Height Categorization Process Calculations Example Height Measurement Formulae Height Name Code 11Hc < 63″ and 5Cc < 48″ Petite 1 63″ <= 11HC <= 68″ and 5Cc < 48″ Regular 2 11HC > 68″ and 5Cc < 48″ Tall 3 11HC < 63″ and 48″ <= 5Cc < 50″ Petite Plus 4 63″ <= 11HC <= 68″ and 50″ <= 5Cc <= 52″ Regular Plus 5 11HC > 68″ and 5Cc > 52″ Tall Plus 6 - An individual consumer's profile data, as collected via the
consumer module 110, are also input and stored in the consumer's record 229 a. A consumer's profile is data describing an individual consumer, her clothing preferences and her preferred tolerances. Table 9 lists 32 profile data points as used in one embodiment. Note: values given are examples and may in practice be represented by code numbers, arrays, ranges, etc. For example, Bust Tolerance (1002D) may be a numeric value (1=snug, 2=regular, 3=loose fitting); homeowner (1029D) may be a Boolean value (0 or 1); while “Brands I buy” (1008D) may be an array of alphanumeric values derived from a lookup table of popular brands (e.g., EF234, C656). -
TABLE 9 Consumer Profile Data Example Profile Name Profile Reference Value Shoulder Tolerance 1001Dc regular Bust Tolerance 1002Dc regular Waist Tolerance 1003Dc snug Hip Tolerance 1004Dc loose My Color Palette 1005Dc Autumn Styles Desired 1006Dc romantic, dramatic, casual Fabrics Desired 1007Dc cotton, wool, linen Brands/Designers I buy 1008Dc Brand1, Brand2 Brands/Designers I like 1009Dc Brand3, Brand2 Clothes I find it difficult to find 1010Dc pants Normally I wear style 1011Dc petite Normally I buy size 1012Dc 6 I usually spend amount per outfit 1013Dc $350 I wear my pants 1014Dc 1″ below waist I usually shop at 1015Dc retail I buy on sale 1016Dc occasionally % of purchases online 1017Dc 15% I have returned 1018Dc often I usually spend per shop 1019Dc $100 I get my news from 1020Dc online, TV I get my fashion news from 1021Dc TV, magazines My favorite websites 1022Dc myshape.com Associations I belong to 1023Dc Zonta My hobbies 1024Dc knitting I volunteer 1025Dc yes I meditate 1026Dc no I enjoy sports 1027Dc tennis, swimming Music I prefer 1028Dc soft rock Homeowner 1029Dc Yes Car I drive 1030Dc Toyota Prius My children 1031Dc girl 8, boy 6My household income 1032Dc >$65,000 - The
manufacturer module 120, described herein, supplies the garment measurements and profile data that form the inputs of thegarment recording process 232. (In practice, that data may also be input or edited via theadministrative backend 130.) The measurements of any particular garment may include values for all, or a subset, of those garment measurements listed earlier in Table 3. For different garment types there are different critical measurements. For example, a dress will have different measurement points than a jacket or pants. These measurements may be taken from the pattern guide, or be imported from the CAD representation in the manufacturer's cutting system, or manually from the garment itself. - Referring again to
FIGS. 5 a-5 b, a garment's measurements are inputs to a garmentshape categorization process 225. In one embodiment, the garment shape categorization process may comprise a series of calculations that establish arithmetic and/or geometric relationships (expressed as curves) between the various garment measurements. The garment's curves, derived from the measurements, are compared to the curves represented by each of the seven body shapes to determine whether the garment is suitable for one or more body shapes. The curves are compared in front, side and back profiles. The curves may also be compared three-dimensionally (i.e., 3-D) with the volume of the front half of a body shape being compared with the volume of the front half of the garment. A best-fit analysis determines which body shape or shapes the garment most closely matches, as it is possible for a garment to be appropriate for more than one body shape. The resulting shape codes are assigned to the garment and stored in itsgarment record 229 b. - An individual garment's profile data, as collected via the
manufacturer module 120, are also input and stored in the garment'srecord 229 b. A garment's profile is data describing an individual garment. Table 10 lists an example of 23 such data points as used in one embodiment. Note: values given are examples and may in practice be represented by code numbers, arrays, ranges, etc. -
TABLE 10 Garment Profile Data Example Profile Profile Name Reference Value FIT (1 = snug 1B, 1W, 1H; 101Cg 2B, 2W 2 = fitted 2B, 2W, 2H; 3 = loose 3B, 3W, 3H) Garment Type 102Dg Fitted Dress Garment Type Code 103Dg D1 Garment Descriptor 104Dg Fitted Description 105Dg Natasha's, bust darts Brand 106Dg Smart Fashions Recommended Retail Price 107Dg $375 Pocket 108Dg 4 front pockets Collars and Yokes 109Dg round Neckline 110Dg crew/jewel Fastening 111Dg side zipper Sleeve style 112Dg long sleeves Leg Style 113Dg ~ Skirt Style 114Dg a-line Color 115Dg chocolate brown Origin 116Dg Australia Use 117Dg career Style 118Dg classic Fabric 119Dg 72% polyester 22% viscose, 6% elastane Care Instructions 120Dg hand wash do not tumble dry or dry clean Manufacturer's Size 121Dg 1 Priority Code 123Dg - The consumer records 229 a can be stored in a
consumer database 139 a, whilegarment records 229 b can be stored in agarment database 139 b. The consumer and garment databases can be maintained bydatabase server 138. -
FIG. 6 depicts amatch assessment process 230. The match assessment process may be carried out at theadministrative backend 130 utilizingapplication 136,Web 134,database 138, and other servers. In one embodiment, the match assessment process may be used to compare an individual consumer's record 229 a with one, or more,garment records 229 b. When more than one garment is considered, the match assessment process is conducted iteratively, i.e., by comparing the consumer's record to each garment's record in turn, until all garment records have been compared. This results in a scored, sorted and filtered list of those garments which match that consumer. The match assessment process might also be described formulaically as locating a person in an N-dimensional person space (P) based on their shape, measurements, etc., locate a garment in an N-dimensional garment space (G), repeat this for all the garments, to generate a mapping of person to garments, f: P->G. - The inputs of the match assessment process are a
consumer record 229 a obtained from theconsumer database 139 a as maintained bydatabase server 138, and one, or more,garment records 229 b obtained from thegarment database 139 b, also maintained bydatabase server 138. - The
match assessment process 230 is comprised of three filters: ameasurement filter 232, aprofile filter 234, and ashape code filter 236. The output of the filters is a ranked and sorted listing of matching garments. In one embodiment, the sorting is composed of seven “Holding Bins” 238—one for each shape code, and aBin D 239—“Don't Display” i.e., discarded garments that do not fit the consumer. During each assessment a garment is temporarily assigned a priority code (Profile Reference #123Dg). The priority code determines a garment's rank within itsholding bin 238. This is most useful for thepersonal shopping process 240, as described herein, where the priority code determines the order in which matching garments are displayed to the consumer. - As an example of the rules and steps needed to conduct a match assessment, consider a consumer, Jane, and a fitted dress from designer “Smart Fashions” (a made-up name for the purposes of this example). Table 11 lists the data that comprises Jane's consumer record, containing her Consumer ID, body measurements, height code, shape code, and profile data.
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TABLE 11 Jane's Data Data Point Reference # Data Point Name Example Value Consumer ID 1303 Measurements 1Cc Shoulder Circumference 36.5 2Cc Bust Circumference 32 3Cc Waist Circumference 29 4Cc High Hip Circumference 32 5Cc Hip Circumference 35 6Fc Front/Back Shoulder to Shoulder 19 7Fc Front/back Bust 17 8Fc Front/back Waist 15.5 9Fc Front/back High Hip 4″ below waist 17 10Fc Front/back Hip 9″ below waist or 19 widest point 11Hc Height: Top of Head 64 12Hc Height: Shoulders 53 13Hc Height: Bust 45.5 14Hc Height: Waist 39 15Hc Height: High Hips 37 16Hc Height: Hips 34 17Hc Height: Knee 17 18Dc Total Rise 28 19Dc Armhole Circumference 18 20Dc Inseam 30 21Dc Arm 20 Shape 100Sc Shape Code 5 Height 101Hc Height Code 2 Profile 1001Dc Shoulder Tolerance 1 1002Dc Bust Tolerance 2 1003Dc Waist Tolerance 1 1004Dc Hip Tolerance 4 1005Dc Color Palette red, yellow, brown 1006Dc Styles Desired (Romantic, Dramatic, classic, elegant etc.) 1007Dc Fabrics Desired (codes) cotton, wool, polyester, viscose, elastane 1008Dc Brands/Designers I buy (codes) 1009Dc Brands/Designers I like (codes) 1010Dc I find it difficult to find (pants, outfits, dresses, skirts, tops) 1011Dc Normally I wear (petite, regular, tall) 1012Dc Normally I buy size (codes) 10 1013Dc I usually spend amount per garment $400 or outfit (codes) 1014Dc I wear my pants (at waist, 1″ below, very much below) 1015Dc I usually shop (codes) 1016Dc I buy on sale (always, sometimes, occasionally) 1017Dc % of purchases online 1018Dc I have returned (codes) 1019Dc I usually spend per shop (codes) 1020Dc I get my news from (codes) 1021Dc I get my fashion news from (codes) 1022Dc My favorite websites (list) 1023Dc Associations I belong to (codes) 1024Dc My hobbies (codes) 1025Dc I volunteer 1026Dc I meditate 1027Dc I enjoy sports (codes) 1028Dc Music I prefer (codes) 1029Dc Homeowner (codes) 1030Dc Car I drive (codes) 1031Dc My children (codes) 1032Dc My household income (codes) - Table 12 lists the data that comprises the dress' garment record, containing its Garment ID, measurements, shape code(s), and profile data. Note that the bust, waist and other tolerance values (28Dg thru 35Dg) are calculated by referencing tolerance ranges specified in the Garment Type Definition Table for a Fitted Dress (not shown). These garment tolerances indicate the designer's preferred fit for the garment; they should not be confused with the consumer's preferred tolerances (1001Dc-1004Dc).
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TABLE 12 Example Fields of a Garment Record for a Dress Data Point Reference# Data Point Name Example Value Garment ID G1001 Measurements 1Cg Shoulder Circumference 37 2Cg Bust Circumference 34 3Cg Waist Circumference 30 4Cg High Hip Circumference 34 5Cg Hip Circumference 39 6Fg Shoulder to Shoulder Front 18 7Fg Bust Front 17 8Fg Waist Front 15 9Fg High Hip Front 17.75 10Fg Hip Front 20.5 11Hg Shoulder to Bust Height 9.5 12Hg Shoulder to Waist Height 16.5 13Hg Shoulder to High Hip Height 20.5 14Hg Shoulder to Hip Height 25.5 15Hg Shoulder to Hem Height 38.75 16Hg Waist to Hem Height 17Hg Center Front to Hem Height 40 18Hg Center Back to Hem Height 19Hg Outseam 20Dg Total Rise 21Dg Armhole Circumference 20 22Dg Inseam 23Dg Sleeve Length 22.75 24Dg Neck to Shoulder 25Dg Front Rise 26Dg Thigh Circumference 27Dg Bottom of Leg Circumference 28Dg Shoulder Tolerance 2 29Dg Bust Tolerance 2 30Dg Waist Tolerance 1.25 31Dg High Hip Tolerance 2 32Dg Hip Tolerance 4 33Dg Garment Length (above knee, at 0 (at knee) knee, below knee, mid-calf, floor) 34Dg Sleeve Tolerance 3 35Dg Armhole Tolerance 2 Shape 100Sg Shape Code(s) 1.5 Profile 101Cg FIT (1 = snug 1B, 1W, 1H; 2 = fitted 2B, 2W 2B, 2W, 2H; 3 = loose 3B, 3W, 3H) 102Dg Garment Type Fitted Dress 103Dg Garment Type Code D1 104Dg Garment Descriptor Fitted 105Dg Description Natasha's, bust darts 106Dg Brand Smart Fashions 107Dg Recommended Retail Price $375 108Dg Pocket (codes) 4 front pockets 109Dg Collars and Yokes (codes) round 110Dg Neckline (codes) crew/jewel 111Dg Fastening (zipper, button, hook, side zipper elastic) 112Dg Sleeve style (codes) long sleeves 113Dg Leg Style ~ 114Dg Skirt Style a-line 115Dg Color chocolate brown 116Dg Origin (USA, CHINA, Europe, India, Australia Other) 117Dg Use (career, casual, special occasion, career etc.) 118Dg Style (romantic, dramatic, classic, classic artistic, basic, elegant, trendy, etc.) 119Dg Fabric (codes) 72% polyester 22% viscose, 6% elastane 120Dg Care Instructions (wash, dry clean, hand wash do not other) tumble dry or dry clean 121Dg Manufacturer's Size 1 122Dg Outlier code (customer ID(s)) 123Dg Priority Code (temporarily calculated by match assessment) - The first step of a match assessment is to determine the garment's type. In this example the garment is a Fitted Dress. Its type code (Table 12, item 103Dg) is “D1”. Next, retrieve the garment type definition table for a fitted dress from the definition &
rules database 139 c as maintained bydatabase server 138. The garment type definition of a fitted dress (not pictured, but similar in format to Table 5) specifies which measurements, tolerances and order of calculation are used by the measurement filter. - The data to populate a data structure containing garment data as illustrated in Table 12 might be provided all or in part by the garment vendors. For example, garment vendors might provide size, height code, body shape, etc. in an uploadable file that is uploaded to populate garment records. A vendor module might be included to provide vendors with an interface to provide that data.
- In some variations, the garment record is generated, in whole or part, from descriptions of the garment. This would allow, for example, automated processing of text and other descriptions of garments, perhaps from a vendor's web resources describing that vendor's garments and outfits. An example might be a collection of web pages or a database used for driving a web shopping system. In some embodiments, shape codes might even be determined from the descriptions, such as by processing text describing a garment according to heuristics to arrive at temporary placeholder “estimate” shape codes (until a fashion reviewer reviews the assignment) or the final shape codes to drive usage, such as in a personal store application.
- As illustrated in
FIG. 6 ,measurement filter 232 compares the measurements of a garment with those of a consumer. The measurement filter may be comprised of four sets of comparisons: circumference comparisons, front comparisons, height comparisons, and length or other design parameters comparisons. Depending upon garment type, fewer comparisons may be made. For example, a pair of pants would not require a sleeve comparison. - For each circumference compared, the
measurement filter 232 determines if the consumer's body part can physically fit within the garment's part. A circumference comparison calculates the garment's circumference #Cg minus the corresponding consumer's circumference #Cc, as illustrated in the following formula for shoulder circumferences: -
x=1Cg−1Cc - If the result, x, is between zero and the garment's corresponding tolerance, inclusive, then measurement filter proceeds to the next comparison. For example, 28Dg from Table 12 represents a shoulder comparison and if (0<=x<=28Dg), then the measurement filter would proceed to next data point, otherwise the measurement filter discards the current garment into
Bin D 239 and proceeds to assess the next garment, if any. - In the current example, Jane's and the dress' circumference data points 1C through 5C are compared in this order: bust circumference (2C), waist circumference (3C), hip circumference (5C), shoulder circumference (1C), and finally high hip circumference (4C). A
flowchart 700 of these calculations is depicted inFIG. 7 . - Referring to
FIG. 7 and data in Tables 11 and 12, the dress has a bust circumference (2Cg) of 34 and Jane's bust is 32 (2Cc). Atstep 702, the circumference equations result in 34−32=2, and then atstep 704, since that result, 2, is more than zero and less than or equal to the dress' bust tolerance (29Dg), in this case, it is 2, then a match is deemed found.Measurement filter 232 processes the next data point—waist circumference (3C). Atsteps step 708 because 30−29=1 and 0<=1<=1.25. -
Measurement filter 232 processes the next data point—Hip Circumference (5C). Atsteps step 712 because 39−35=4 and 0<=4<=4. -
Measurement filter 232 processes the next data point—shoulder circumference (1C). Atsteps step 716 because 37−36.5=0.5 and 0<=0.5<=2. -
Measurement filter 232 processes the next data point—high hip circumference (4C). Atsteps step 720 because 34−32=2 and 0<=2<=2. - If any of the above comparisons do not match, then the garment is discarded (step 722) and a match assessment is started on the next garment, if any. Since this dress fits Jane at all critical circumferences,
measurement filter 232 proceeds to calculate the front comparisons. - In one embodiment,
measurement filter 232 compares the front data points 6F through 10F for garment and consumer. A front comparison calculates the garment front (#Fg) minus the consumer front (#Fc). This formula is for comparing shoulder front: -
x=6Fg−6Fc - If (0<=x<=28Dg*(6Fc/1Cc)), where x is the result above, 28Dg is the corresponding tolerance (again 28D through 32D), 6Fc is the consumer front #Fg, and 1Cc is the corresponding consumer circumference #Cc (1Cc through 5Cc), then the garment passes and
measurement filter 232 proceeds to the next data point. Otherwise,measurement filter 232 discards the current garment into Bin D and proceeds to assess the next garment, if any. Aflowchart 800 of these calculations is depicted inFIG. 8 . - Referring to
FIG. 8 and data in tables 11 and 12, the dress has a shoulder front (6Fg) of 19 and Jane's shoulder front (6Fc) is 18. Atstep 802 the difference between the garment's shoulder front and the consumer's shoulder front is calculated: -
19−18=1 - At
step -
0<=1<=2*(19/36.5) - So a match is found at
step 804. -
Measurement filter 232 proceeds to process the next data point—bust front (7F). Atsteps step 808 because 17−17=0 and 0<=0<=2*(17/32). -
Measurement filter 232 proceeds to process the next data point—waist front (8F). Atsteps step 812 because 15.5−15=0.5 and 0<=0.5<=1.25*(16/29). -
Measurement filter 232 proceeds to process the next data point—high hip front (9F). Atsteps step 816 because 17.75−17=0.75 and 0<=0.75<=2*(17/32). -
Measurement filter 232 proceeds to process the next data point, “hip front (10F)”. Atsteps step 820 because 20.5−19=0.5 and 0<=0.5<=4*(19/35). - If any of the above comparisons do not match, then the garment is discarded (step 822) and a match assessment is started on the next garment, if any. Since this dress fits Jane at all critical front comparisons,
measurement filter 232 proceeds to calculate the height comparisons. - In one embodiment,
measurement filter 232 calculates the heights and ensures that any differences are greater than zero.Measurement filter 232 calculates the consumer shoulder height (12Hc) minus the garment shoulder to hem height (15Hc), which may be expressed in the following equation: -
x=12Hc−15Hg - If (0<=x<=17Hc+33Dg), where x is the result above, 17Hc is the consumer knee height and 33Dg is the desired garment length, then
measurement filter 232 processes the next data point. Otherwise,measurement filter 232 discards the current garment into Bin D and proceeds to assess the next garment, if any. Aflowchart 900 of these calculations is depicted inFIG. 9 . - Referring
FIG. 9 and to data in Tables 11 and 12, Jane's shoulder height (12Hc) is 53, and the dress' shoulder to hem (15Hg) is 38.75. Atstep 902, the difference between Jane's shoulder height and the dress' shoulder to hem is calculated: -
53−38.75=14.5 - At
step 904, the difference evaluated by the height equation. For example, when Jane's knee height is 17 and the dress' desired length is 0, -
0<=14.5<=17+0 - A match is found at
step 904, andmeasurement filter 232 may proceed to the shoulders to waist height comparison (12H). - In one embodiment, at
step 906,measurement filter 232 calculates the difference between consumer shoulder height (12Hc) and consumer waist height (14Hc), using the formula: -
x=12Hc−14Hc - If at
step 908, (0<=x<=12Hg) where 12Hg is the garment shoulder to waist height (12Hg), thenmeasurement filter 232 processes the next data point. Otherwise,measurement filter 232 discards the current garment (step 922) and proceeds to assess the next garment, if any. When comparing Jane's and the dress' shoulder to waist height, a match is found atstep 908 because 53−39=14 and 0<=14<=16.5.Measurement filter 232 may proceed process sleeve comparisons atstep 910. - At
step 910, Ifmeasurement filter 232 determines that the consumer armhole circumference (19Dc) is less than, or equal to, the garment armhole circumference (21Dg) thenmeasurement filter 232 proceeds to the next data point. Otherwise,measurement filter 232 discards the current garment (step 922) and proceeds to assess the next garment, if any. Referring to data in Tables 11 and 12, Jane's armhole circumference is 18, and the dress' is 20. Atstep 910, a match is found because 18<=20. -
Measurement filter 232 now proceeds to sleeve length (23Dg). Atsteps 912, if the garment sleeve length (23Dg) minus the garment sleeve tolerance (34Dg) minus the consumer arm length (21Dc) is less than, or equal to, zero, then thematch assessment 230 proceeds toprofile filter 234, as described below. Otherwise,measurement filter 232 discards the current garment (step 922) and proceeds to assess the next garment, if any. In this example, a match is found between Jane's arm and the dress' sleeve length because (22.75−3−20)<=0.Match assessment process 230 may proceed to profilefilter 234. - A garment's priority code (123Dg) equals zero. However, during
match assessment process 230, the priority code may be temporarily given a numerical value for ranking purposes. If a garment fails any profile filter comparison it is “penalized” by having a number added to its priority code. The priority code determines the order in which garments are recommended and displayed to the consumer in her personalized online store (unless other ordering overrides, such as by also organizing all suitable garments for that consumer into categories). The higher a garment's priority code, the less suitable it is for the consumer and the later it will be displayed to her. The lower a garment's priority code, the more likely it will be displayed. A garment with a priority code of “1” will be recommended and appear before a garment with a priority code of “5”. For simplicity in the present example, a “1” is added to the priority code when any profile comparison fails. Note that the value of this penalty could be variable and weighted to a particular comparison. For example, failure to match a consumer's color preference may penalize a garment by 3, whereas failure to match a consumer's fabric preference may only penalize it by 2. - In one embodiment, each consumer profile data point may be assigned a secondary value, referred to as an “importance value”, to indicate its relative importance to the consumer. An importance value may be used to modify a corresponding penalty value, making it higher or lower depending upon how important that particular aspect of a garment is to the consumer. For example, Jane may feel that a garment's fabric is more important than its color. If so, Jane may give fabric an importance value of 2 and color an importance value of 1. Using these importance values to modify the earlier example, it is apparent the garment's color penalty remains 3 (3*1=3), while its fabric penalty jumps from 2 to 4 (2*2=4). For simplicity and clarity in the following examples, all consumer profile data are considered equally important with no importance values being assigned and no modification of penalty values being calculated.
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Profile filter 234 compares the consumer's desired fit for certain circumferences. That is, the measurement filter's previous circumference comparisons may be re-run using the consumer's desired tolerances in lieu of the garment's tolerances. For example, a sweater may be designed to fit loosely across the bust, but the consumer prefers a snug fit at her bust. In that case the profile filter would re-run the bust circumference comparison using a snug tolerance value. Then if the sweater does not fit snugly at the consumer's bust, its priority code is incremented, thus penalizing the sweater but not entirely discarding it, because it still fits the consumer, albeit more loosely than she prefers. Thus, if the consumer's desired tolerance at a particular measurement point is less than the garment's tolerance,profile filter 234 runs a modified version of that circumference calculation, substituting the consumer's tolerance for the garment's tolerance. Aflowchart 1000 of these desired fit comparisons is depicted inFIG. 10 . - At
step 1002, if the consumer shoulder tolerance (1001Dc) is less than the garment shoulder tolerance (28Dg), then atstep 1004, the shoulder circumference calculation is re-run by substituting the consumer's shoulder tolerance for the garment's shoulder tolerance. If atstep 1006, the garment fails the recalculation, then the priority code is increased by one (step 1008) and the next comparison is performed. Therefore, the measurement filter's shoulder circumference comparison given earlier as: -
x=1Cg−1Cc - If (0<=x<=28Dg) then proceed to next comparison, else discard garment now becomes:
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x=1Cg−1Cc - If NOT(0<=x<=1001Dc) then add 1 to priority code. Proceed to next comparison.
- Referring to
FIG. 10 and data in Tables 11 and 12, in the current example Jane's shoulder, bust, waist and hip tolerances (1001Dc through 1004Dc) are used. Jane prefers a snug fit at her shoulders; she has a desired shoulder tolerance of only 1. That is less than the garment's shoulder tolerance of 2, which was used in earlier shoulder circumference comparison. So,profile filter 234 substitutes Jane's value and recalculates the shoulder circumference: -
37−36.5=0.5 -
0<=0.5<=1 - That result is TRUE. Having passed the recalculation, the dress is not penalized, and its priority code remains a perfect zero.
- At
steps 1010 through 1022, Jane's bust, waist and hip tolerances (1002Dc-1004Dc) are not less than the corresponding garment tolerances (29Dg, 30Dg and 32Dg), so there is no need to recalculate those circumferences. However, if they were recalculated a “1” would be added to the priority code for each recalculation failure. - In this example the dress has passed the shoulder circumference recalculation and no further desired fit comparisons need to be recalculated. Thus,
match assessment process 230 proceeds to the other profile comparisons with the dress' priority code still equaling zero. - A
flowchart 1100 of the profile comparison calculations is depicted inFIG. 11 .Match assessment process 230 compares these four consumer and garment data points as follows. Atstep 1102, the first data point is whether garment color (115Dg) is contained in the array of values in the consumer's color palette (1005Dc). Atstep 1106, the next data point is whether the garment style (118Dg) is contained in the array of values in the consumer's desires styles (1006Dc). Atstep 1108, the next data point is whether garment fabric (119Dg) is contained in the array of values in the consumer's desired fabrics (1007Dc). Atstep 1110, the next data point is whether garment retail price (107Dg) is less than or equal to consumer's “I usually spend” (1013Dg). If all of these match, then this garment is a match and its priority code is not changed. Otherwise,match assessment process 230 proceeds to step 1104 and adds one to the garment's priority code each time a comparison fails. In other variations, the weights assigned to each comparison might be different than one and/or vary from comparison to comparison. - Referring to data in Tables 11 and 12, the dress matches all of Jane's color, style, fabric and price preferences.
Match assessment process 230 proceeds to thesize comparison 1112 still having a priority code of zero. - At
step 1112,match assessment process 230 compares the garment's manufacturer size (121Dg) with the consumer's usual size (1012Dc). This is an array of size values dependent on garment type. As noted above, manufacturers' sizes are notoriously variable from manufacture to manufacturer and even internally inconsistent. A manufacturer often has its own proprietary sizing scheme, e.g., “A” versus “10.” So, a separate size lookup table (not shown here) is employed to normalize the garment's manufacturer size (121D) for use in the size comparison. Referring to our example data in Tables 11 and 12, the garment's manufacturer size (121Dg) is 1. The size lookup table indicates a “Smart Fashions”size 1 dress corresponds to asize 8. Atstep 1112,match assessment process 230 subtracts the garment's normalized manufacturer size from the consumer's usual size. If atstep 1114, the difference is more than a size tolerance range of plus orminus 4, then matchassessment process 230 adds one to the priority code.Steps 1112 & 1114 may be expressed by the following equation: ((1012Dc−121Dg)>±4). In this example, Jane's usual dress size is 10 and the dress' normalized manufacture's size is 8. In other words, ((10−8)>±4) is FALSE. So, this dress is still a perfect match and its priority code is unchanged at zero. - As described earlier, fashion rules and tolerances are defined in fashion suitability tables that are stored in a definitions and
rules database 139 c as maintained bydatabase server 138. In one embodiment, a plurality of such tables is employed during fashion suitability comparisons. As with the other profile filter comparisons, when a garment fails any fashion suitability comparison its priority code is incremented. - A
flowchart 1200 of the fashion suitability comparison calculations is depicted inFIG. 12 . In practice many fashion rules may be applied. But for the current example, two fashion suitability comparisons will be made: height code-to-shirt style and shape code-to-neckline style.Match assessment process 230 compares two consumer and garment data points as follows. Atstep 1202, if the garment's skirt style (114Dg) is contained in the array of suitable values for the consumer's height code (as listed in Table 6a, for example). Then, atstep 1206, if garment neckline style (110Dg) is contained in the array of suitable values for the consumer's shape code (as listed in Table 7a, for example), 3) then this garment is a match and its priority code is not changed. Otherwise,match assessment process 230 proceeds to step 1204 and adds 1 to the garment's priority code each time a fashion suitability comparison fails. - Referring to data in Tables 11 and 12, Jane's height code (101Hc) is 2. The garment's skirt style (114Dg) is “A-line”, or
skirt style code 1. Employing the Height Code/Skirt Code Suitability Table (Table 6a), an A-line skirt is suitable for a consumer with a height code of 2. Further, Jane's shape code (100Sc) is 5. The garment's neckline style (110Dg) is “crew/jewel”. Employing the Shape Code/Neckline Style Suitability Table (Table 7a), a crew neckline style is suitable for a consumer with a shape code of 5. - Thus, the dress has passed these fashion suitability comparisons with its priority code still equaling zero.
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FIG. 14 depicts holdingbins 238, which form the final output of thematch assessment process 230. As illustrated, there are seven holding bins, labeled 1 through 7; one for each body shape in this embodiment. In other embodiments, there may be more or fewer bins. In a specific embodiment, there are 42 bins for shape and height combinations. -
FIG. 13 depicts ashape code filter 236. Based on the garment's shape code (100Sg), the shape code filter inserts the garment (represented by its ID) and its priority code into the bin or bins corresponding to its shape code(s) as illustrated inFIG. 14 . For example, a garment's shape code may be an array of numbers, e.g., 3, 5, 7. In this case the garment would be placed inbins Match assessment process 230 then proceeds to a match assessment of the next garment, if any. Otherwise, the match assessment process ends with the output being a scored, ranked, sorted and filtered list of those garments which match the consumer to various degrees. This list may be used by apersonalized shopping process 240 for the purpose of displaying matching garments to the consumer. Further it may be stored as a table, keyed to the consumer's record inconsumer database 139 a, as maintained bydatabase server 138. - Referring to
FIG. 13 and data in Tables 11 and 12, in the current example, the dress' shape code is “1.5”. So, it will be inserted into both holdingbins - In some embodiments, a plurality of garments may be assembled into an outfit. For example, one outfit may include three garments: a Fitted Jacket, a Straight Top and Fitted Pants. For purposes of
clothes shopping system 100, an outfit may be treated as a garment. As such, an outfit has its own record in thegarment database 139 b. Those familiar with the state of the art will appreciate that the outfit's record may contain pointers the records of its constituent garments. Outfits are also assigned their own shape codes by combining the shape codes of their constituent garments according to an outfit categorization process. Thus outfits may also be included in a match assessment as described above. The consumer may be presented with both individual garments and outfits during the personalized shopping process. - A
personalized shopping process 240 presents a consumer with her personal online clothing store, where she may browse and purchase recommended garments that she can trust will fit and flatter her body and suit her clothing preferences. - In one embodiment, the consumer is presented with a personal store, which shows the customer garments, outfits and complementary accessories that match the customer's measurements, body shape, height code, personal preferences and fashion styling, that will fit her and flatter her as determined by the fashion suitability rules. Only those garments, outfits and complementary accessories that fit and flatter the consumer are displayed in her Personal Store. These items may be displayed in a plurality of modes; e.g., ranked by personal fashion preference, or price, or color, or seasonal trends, and so forth. And they may be displayed in any combination that the match assessment result allows. In another embodiment, the consumer uses a kiosk in a retail store where the selection represents what is available in inventory at that moment on the floor and the consumer may print out and shop using a recommendation/personal selection.
- A consumer's personal online store is accessed through
consumer module 110 of theclothes shopping system 100. For example Jane may shop at her online store by using a Web browser on her home PC. As those familiar with the art can appreciate, the online store utilizes typical and necessary ecommerce components, such as Webpage generators, order processing, tracking, shipping, billing, email, security, etc., not pictured here. Additionally, the personal store may be implemented as a freestanding website served by a server system, or as a subsection within another website, or as a web service, or within a standalone application outside of a browser environment (e.g., a “widget” or “gadget”), or in some combination of the above. - In one embodiment, the results of a
match assessment 230 of multiple garments and outfits may be displayed to the consumer using a graphical user interface (GUI) 1500 as depicted inFIG. 15 .Interface 1500 allows the consumer to quickly view and filter the results of a match assessment query. Based upon the contents of the matchassessment holding bins 238 described earlier, the garments may be displayed ingarment area 1520. In one embodiment, the priority code assigned each garment may be used to determine their order of display. For example, BEST-fit garments, those with a priority code of zero, may be displayed first. - The consumer may “page” through the garments by selecting the page controls 1560. A garment may be displayed with picture(s), descriptive text, ordering information, shopping cart buttons, etc. The results of a match assessment may also be emailed to the consumer, delivered via cellular phone, PDA, physically mailed in the form of a personalized printed catalog, or other delivery methods.
- The consumer may wish to consider garments that are less-than-perfect matches for her. If so, those garments having priority codes greater than zero may then be displayed in the order of their suitability, according to priority code. In some embodiments, the garment's priority code may be displayed as a code or as an icon by the interface in order to indicate to the consumer how suitable that garment is for her. The consumer may also browse garments of different body shapes. A
shape control 1510 is a row of icons/text depicting the seven body shapes of this embodiment. Clicking on a body shape icon selects that shape and the remainder of thepage 1512 is updated with garments matching that body shape. Wheninterface 1500 is first displayed, the consumer's body shape may be automatically selected and the matching garments displayed inarea 1512. - The GUI might provide an icon, scale, number line, or other graphical representation of a gauge for the consumer that indicates to the consumer how well the garment fits and where with respect to the garments' tolerances, the consumer's measurements fall, thus allowing the consumer to determine how snug is snug, etc. Of course, the GUI should provide an option to allow the consumer to purchase garments that are not within prespecified preferences.
- Additional filter controls 1570 may be displayed. For example, a garment type (102Dg) filter lists the various types of matching garments, such as “Dresses.” A brand (106Dg) Filter lists brands and designers, such as “Smart Fashions”. A style (118Dg) filter lists clothing styles, such as “Romantic.” In this way, a filter could be displayed for any, or all, garment profile data points, such as color (115Dg), fabric (119Dg), sleeve style (112Dg), etc. For example, when a user selects a filter option, such as “Jackets”,
interface 1500 will show all matching garments that are jackets. - In other embodiments, multiple and discontinuous selections are made using a “checkbox” selection interface, as those familiar in the art will appreciate. For example, Jane may click Skirts, Pants, Brand A, Romantic, and Artsy. The
garment area 1520 may then be updated with garments meeting all of those selected filter options. Thus, the personal online store can fetch, sort and display matching garments in many useful ways. And thus, the consumer may purchase one or more garments, with confidence that the garments are likely to fit and flatter her. In fact, the consumer can, with one or more click, purchase and entire outfit with multiple components. - The personal store can be shared with friends and family, indicating to them the filtered garments that fit and flatter, without needing to provide those others with fit information, size information, preferences, etc.
- In addition to providing the consumer with a personalized store, elements of the systems described above can be expanded to cover a personal mall, wherein filtering is done as above, but over multiple online retail outlets. The particular retail outlets that are part of the system would depend on a number of criteria and the operator of the matching system might provide that access in exchange for commissions, as well as upselling, cross-marketing and providing other useful features for the consumer. An advantage to those retailers who join the personal mall and provide a virtual storefront is reduced return rates. With proper arrangement of the personal mall, each retail outlet can present its own brand and may be the shipper that ships the products directly to the consumer.
- While the invention has been described with respect to exemplary embodiments, one skilled in the art will recognize that numerous modifications are possible. For example, the processes described herein may be implemented using hardware components, software components, and/or any combination thereof Thus, although the invention has been described with respect to exemplary embodiments, it will be appreciated that the invention is intended to cover all modifications and equivalents within the scope of the following claims.
Claims (14)
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Also Published As
Publication number | Publication date |
---|---|
US20070198120A1 (en) | 2007-08-23 |
US7617016B2 (en) | 2009-11-10 |
EP2069977A1 (en) | 2009-06-17 |
AU2008237335A1 (en) | 2008-10-16 |
IL197583A0 (en) | 2009-12-24 |
JP2010524090A (en) | 2010-07-15 |
EP2069977A4 (en) | 2012-02-01 |
WO2008124511A1 (en) | 2008-10-16 |
CA2662948A1 (en) | 2008-10-16 |
CN101548282A (en) | 2009-09-30 |
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