WO2006028484A1 - Calculation of driver score based on vehicle operation - Google Patents
Calculation of driver score based on vehicle operation Download PDFInfo
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- WO2006028484A1 WO2006028484A1 PCT/US2005/000914 US2005000914W WO2006028484A1 WO 2006028484 A1 WO2006028484 A1 WO 2006028484A1 US 2005000914 W US2005000914 W US 2005000914W WO 2006028484 A1 WO2006028484 A1 WO 2006028484A1
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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
- G06Q40/00—Finance; Insurance; Tax strategies; Processing of corporate or income taxes
- G06Q40/08—Insurance
Definitions
- the present invention is directed towards data acquisition and processing of information related to various driver characteristics and, more particularly to collecting driver characteristic data and generating and driver score based on the collected driver characteristic data.
- the driver score can then be applied in the calculation of insurance premiums or risk analysis.
- the insurance industry can be likened to an evening at a Las Vegas Black Jack table. The casino has picked the game and established the rules in such a manner that statistically over a period of time, the casino will win. Sure, some individual tourist will walk away with hundreds or thousands of dollars; however, compared to the number of visitors that leave tens, hundreds, thousands, and even tens or hundreds of thousands of dollars behind, these infrequent winners are negligible. This is quite evident upon staying at one of the casinos and viewing the elaborate decorations, the granite tiling in the bathrooms, the reduced pricing for food and of course, the open bar for active gamblers.
- the odds setters in the insurance industry include highly compensated and highly educated and trained actuarial scientists.
- the actuarial scientists acquire and analyze large amounts of varied data that is even remotely related to the calculation of insurance risks, and apply the results of this analysis in the calculation of insurance premiums.
- the task faced by the actuarial scientists is to derive insurance premiums for a large domain of individuals that in the long run, will result in the amount of premiums collected by the insurance company to be significantly larger than the amount of required insurance payouts.
- the insurance industry generates individual policies that are more likely than not to be profitable to the insurance company.
- the various aspects of the policies include premiums, deductibles, exclusions, liability limitations, etc.
- the policies are developed based on various characteristics of the individual seeking the policy, the characteristics of the general populous, and the characteristics of categories of the general populous that maybe applicable.
- the data related to the various characteristics of the individual are gathered through the use of standard forms, personal interviews, obtaining the applicant's public motor vehicle driving record maintained by governmental agencies or a combination of any of these methods. This data results in a classification of the applicant to a broad actuarial class for which insurance rates are assigned based upon the empirical experience of the insurer. Many factors are relevant to such classification in a particular actuarial class.
- some insurance companies address this need by providing discounts and surcharges for some types of use of the vehicle, equipment on the vehicle, and type of driver. For instance, the insurance company my add surcharges if the vehicle is being used for business. Likewise, the insurance company may provide discounts for vehicles that include airbags, antilock brakes, and theft deterrent devices, or if the driver has a good driving record or is a good student.
- the insurance industry is faced with significant problems based on their current methodologies.
- the information obtained by the insurance company is time constrained.
- an insured party may live in a large city when obtaining- the policy and subsequently move to the suburbs.
- the insured party may change jobs and consequently have a drastic change in the number of miles traveled during an insurance policy period.
- the insured party may end up paying a higher premium than would otherwise be available.
- the insurance company is vulnerable to churn based on lower premiums that may be offered by a competitor, hi addition, the information collected by the insurance company may not be verifiable, and even existing public records may include limited or erroneous information. Thus, there is a need in the art for a more reliable and non-time sensitive mechanism for collection of information regarding the insured party.
- the present invention addresses these needs in the art, as well as other needs that are not herein identified, by providing a system and method for monitoring the use of a vehicle and calculating a driver score based on the monitored use.
- the driver score can then be applied in a variety of manners to achieve a variety of results, including but not limited to, determining or adjusting the terms of an insurance policy, such as changing the premium, the deductibles, the exclusions, the duration or the like.
- a vehicle monitor is installed or coupled to a vehicle to be monitored. The vehicle monitor collects data from various sensors to identify vehicle operation data. Based at least in part on the vehicle operation data, a driver score is calculated and then the driver score is applied in setting or modifying the terms of the insurance policy either on a retroactive basis or on a forward looking basis.
- the vehicle monitor may be used to determine a driver score that serves as input for calculating the terms of a new insurance policy.
- the vehicle monitor may be used to determine a driver score that serves as input for modifying the terms of an existing insurance policy.
- the driver score can be used to determine whether a party qualifies for insurance.
- the vehicle monitor may operate to collect a variety of information or operating parameters including the times during which the vehicle is operated, the geographic areas or sub- areas within which the vehicle is operated and the speeds at which the vehicle is operated. Other parameters could also be monitored by the vehicle monitor and all or only subsets of this information may be used in the determination of the driver score.
- the determination of the driver score can be accomplished by the vehicle monitor, by a central system or by a combination of both.
- other extrinsic data such as claim propensities, vehicle types, driver records and demographics may also be used in determining or adjusting the terms of the insurance policy.
- this extrinsic data may also be applied in the calculation of the driver score.
- Fig. 1 is a block diagram of an environment suitable for various embodiments of the present invention.
- Fig. 2 is a mapping diagram of a geographic region that is divided into sub-areas that illustrates the second parameter - where the vehicle is used.
- Fig. 3 is a flow diagram illustrating the steps involved in an embodiment of the present invention. DETAILED DESCRIPTION OF THE INVENTION
- the present invention is directed towards acquiring performance and usage data through various sensors and monitors within and without a vehicle, utilizing the performance and usage data to generate a driver score, and then utilizing the driver score in the calculations of insurance premiums or rating factors.
- the present invention includes at least four distinct aspects. These aspects include: (1) the methods and devices utilized in the acquisition of performance and usage data; (2) the types of performance and usage data collected and the treatment of the ranges of the data values; (3) the method to calculate the drivers score based at least in part on the performance and usage data; and (4) the application of the driver score in the calculation of insurance premiums, rating factors, risk analysis, etc.
- Fig. 1 is a block diagram of an environment suitable for various embodiments of the present invention.
- Three vehicles 111-113 are shown, for illustrative purposes, operating within the environment.
- Each of the vehicles is equipped with a data collection and recording system 140 but the details are only shown with respect to one of the vehicles 111.
- the data collection and recording system is shown as including two data collection interfaces: a GPS interface 120 and a vehicle bus interface 130. It should be understood that the present invention is not limited to these two interfaces nor are these two interfaces required for the present invention. Other interfaces are also anticipated such as weather information interfaces, clock interface, or other similar interfaces.
- the vehicle bus interface 130 can acquire information such as the speed of the vehicle, state of the windshield wipers, state of the lights (on, off, fog lights, brights, etc.), amount of pressure applied to the brakes, motion through the use of an accelerometer, time of day, temperature, vehicle maintenance, operation of equipment within the vehicle such as radios, cellular telephones, DVD players or the like, the volume at which audio equipment is operated, and the identity of the driver based on the entry of an identification number, seat settings, weight or the like, status of seat belts, number of passengers, etc.
- the GPS interface 120 can acquire information such as the location of the vehicle, time of day, direction of motion, speed of the vehicle, etc.
- a recording system 140 collects information from the data collection interfaces and either stores the information locally, transmits the information through transmitter 150, or applies processing to the information prior to either storing or transmitting the information. For instance, in an exemplary embodiment of the present invention, the system may only operate to collect time of day, location and speed information. In such an embodiment, the data recording system 140 operates to filter the data available from the data collection interfaces and only provide the necessary information to the central system. In an alternative embodiment, the data recording system 140 may operate to transmit all available information and a central system 170 operates to filter out the unnecessary information. [0018] The data from the various vehicles 111-113 is received by a receiver 160 and then provided
- the central system can perform processing on the received data, either alone or in conjunction with back end processing 180.
- the back end processing 180 may include input from actuarial scientist or other data collection and processing systems.
- the invention may be embodied within an environment that uses wireless technology to periodically transmit collected data to the central system 170.
- the wireless technology may include pager technology or cellular technology conforming to any of a variety of past, existing or future technologies including FLEX, REFLEX, POCSAG, AMPS, NAMPS, TDMA, CDMA, GSM, GPRS or the like.
- the system may include pager technology or cellular technology conforming to any of a variety of past, existing or future technologies including FLEX, REFLEX, POCSAG, AMPS, NAMPS, TDMA, CDMA, GSM, GPRS or the like.
- the system may include pager technology or cellular technology conforming to any of a variety of past, existing or future technologies including FLEX, REFLEX, POCSAG, AMPS, NAMPS, TDMA, CDMA, GSM, GPRS or the like.
- the system may include pager technology or cellular technology conforming to any of a variety of past, existing or
- the data recording system 140 may store the data for later retrieval. Such later retrieval could be accomplished through a local wireless system, such as blue tooth, INFRARED, FM, AM, or I.E.E.E. 802.11 technology, or through a physical wired technology or even through the use of a memory card, storage media or print out.
- a local wireless system such as blue tooth, INFRARED, FM, AM, or I.E.E.E. 802.11 technology
- a physical wired technology or even through the use of a memory card, storage media or print out.
- the data is used to generate a driver score.
- the driver score is based at least in part on the data collected by the vehicles and provided to the central system 170. However, additional data that is received independent from the data collection systems in the individual vehicles could also be used in calculating the driver score. This information may include the traditional information that has been collected by insurance companies
- 5 for years as is listed in the background section may include other information such as satellite tracking of the vehicle, cellular signal tracking of the vehicle, weather information, mapping information, hazardous road condition information, or the like.
- the driver score is basically a value that encompasses a variety of parameters.
- the driver score reflects a qualitative view of the driving characteristics for a particular vehicle or a
- the driver score can reflect various characteristics.
- the driver score operates to establish a risk level associated with insuring a particular driver.
- Other uses of the driver score may include, but are not limited to, verifying the accuracy of information provided to an insurance company, verifying compliance of a teenaged driver within guidelines established by his or her parents, verify compliance of teenaged drivers with local/regional laws such as curfew and
- an insurance company can offer a product embodying aspects of this invention to its customers and offer a discount based on the inclusion of the product.
- the customer can further agree to be bound by restrictions to gain other discounts. For instance, an insured party can agree to maintain within the speed limit to obtain a premium discount in exchange for allowing
- the present invention can also be utilized as a theft deterrent, similar to a LO-JACK type system in that the location of the vehicle can be monitored.
- the driver score reflects an insurance risk and is used to either increase or decrease an insurance premium or otherwise modify the terms of an insurance policy.
- the present invention can be illustrated through the use of an exemplary embodiment that bases the driver score on the following information: when the vehicle is in use, where the vehicle is used, and how the vehicle is used.
- Table 1 illustrates a simple heuristic that can be applied to determine a weighted score
- Various sensors or collection interfaces could be used to determine the time of day that a vehicle is operated such as through the GPS system, the vehicle bus, or through notifying the central system through a wireless interface. Regardless of the technique used, the time of day operational characteristics of a vehicle can be determined over a period of time and continually updated over time. The actual times that the vehicle is operated can be recorded by the recording system 140 and reported to the central system 170 or categories of times can be reported. Table 1 shows one technique to breakdown the operation of a vehicle within three time-categories, normal traffic, peak traffic and risk traffic. For instance peak traffic could include the times between 7:00-9:00 AM and 4:00-7:00 PM, risk traffic could include late night driving, such as between 11:00 PM to 4:00 AM and normal traffic would include the remainder.
- Table 1 lists driving characteristics for three vehicles or drivers (Driver A, B and C). The driving characteristics provide a percentage of driving time that the vehicle is operated, or the driver operates a vehicle during the listed time categories.
- a weighted score is calculated by multiplying the percentage of time that a vehicle is operated in a particular category by the risk factor associated with that category and then summing the products for each of the categories.
- Driver A's weighted score is determined as follows:
- Driver B has more of a tendency to drive during normal traffic (80%) and thus, has a much lower weighted score of 0.76.
- Driver C has a tendency to drive late at night in the risk traffic category and thus has a weighted score of 1.9. Thus, Driver C has the highest weighted score. If it is desired not to penalize a driver that happens to be assigned to night shift work, one technique to alleviate an adverse affect based on Driver Cs weighted score would be to apply a cap. For instance, if the late night percentage is capped at 50%, then the weighted score for Driver C drops to 1.65. This illustrates how the driver score can be flexible and fair by basing the data on more than just the actually measured data.
- the insurance company may decide not to penalize a night shift worker simply because his job forces him to travel within a higher risk time period.
- 100311 It should be understood that this example is provided for illustrative purposes only and that the present invention may use other techniques to calculate such a weighted score. For instance, rather than percentages of time, the actual number of hours averaged over a period of time, such as a day, week, month or quarter could be utilized.
- the application of risk factors to the various time categories can be adjusted based on a variety of factors, some of which may include, but are not necessarily required, are type of vehicle, driver's record, population of the area, etc.
- (0032 J Fig. 2 is a mapping diagram of a geographic region that is divided into sub-areas that illustrates the second parameter - where the vehicle is used.
- the region includes 5 sub-areas A-E.
- the sub-areas can be defined based on any of a variety of techniques including zip codes, area codes, counties, states, cellular cells, longitude and latitude, traffic density, population, road density, or any of a variety of other techniques of combinations of techniques.
- risk factor data for the region can be obtained and applied in the determination of a weighted score for this parameter.
- Table 3 illustrates a simple heuristic that can be applied to determine a weighted score reflecting the second parameter - where the vehicle is used.
- the risk factor data for each region identifies a driving risk associated with that region.
- a high risk factor indicates that the area has a higher probability of resulting in an incident, such as a traffic accident, when a vehicle is operated in the area.
- the risk factor values are multiplied by the percentage of time that the vehicle/driver is within that region or sub-area and then the products are summed to obtain the weighted score.
- the tables used to calculate a weighted score based on time of day and area can be combined into a multi-dimensional table.
- each of the sub-areas in the region could include a time of day table that includes different risk factors based on sub-area and time of day.
- the area surrounding a subway station may have a high risk factor during peak traffic but a very low risk factor during normal traffic.
- various techniques can be applied to calculate the weighted scores and the examples provided in this description are simply to illustrate calculation of a value that rates driver characteristics.
- certain aspects of the selection of parameters and assignment of risk factors and techniques to calculate the score that are disclosed herein are also considered novel.
- Table 4 illustrates a simple heuristic that can be applied to determine a weighted score reflecting the third parameter - how the vehicle is used. This example shows one alternative for calculating the driver score, or elements of the driver score by using an offset rather than a weighted score.
- the illustrated heuristic identifies offsets to be added to the weighted scores calculated in accordance with the first two parameters.
- the offset is based on ranges of miles per hour centered on the speed limit and the types of roadways being traveled. For instance, a set of offsets are provided for the highways, streets, and limited access roadways for speeds that are 5 mph above or below the posted speed limit and speeds that are 15 mph above or below the posted speed limit.
- This particular configuration is once again provided as an example only and the present invention is not limited to this particular configuration.
- one set of offsets could also be used when the vehicle is a particular threshold below the speed limit and another set of offsets could be used when the vehicle is above the posted speed limit, in addition, the structure defined in Table 4 is set up as a penalty system.
- An award system could also be established to subtract offsets from the score based on conforming to the speed limit.
- the main focus of the present invention is to provide a means for calculating a driver score that is based on various operational parameters. In the example provided, these parameters have included when the vehicle is in use, where the vehicle is used and how the vehicle is used.
- the driver score can be determined.
- the driver score is simply the sum of the "when” and “where” parameters plus the penalty or offset determined by the "how” parameters.
- Table 5 illustrates the calculation of the driver score for Driver A, Driver B and Driver C.
- the driver score could be calculated in different manners, such as multiplying the weighted score for the "when” with the weighted score for the "where" and than adding in the offsets. It will be appreciated that the particular technique employed, although novel in and of itself, in no way limits other aspects of the present invention.
- Driver A has a driver score of 3.7
- Driver B has a driver score of 2.225
- Driver C has a driver scored of 2.9275.
- Driver A is a higher risk driver than Driver B or Driver C.
- the driver score can then be used in a variety of manners. For instance, the driver score could be used as one of several parameters entered into the calculation of an automobile insurance premium or, as an offset or adjustment to an automobile insurance premium.
- the driver score could also be used for providing discounts or rate adjustments for life and/or health insurance.
- Other uses for the driver score may include, but are not limited to State tax credits, purchase price discounts or rebates for automobiles, discounts for extended warranties, discounts for vehicle registration, access to High Occupancy Vehicle (HOV) lanes or the like.
- HOV High Occupancy Vehicle
- Table 6 illustrates one method of applying the driver score.
- the driver score is used to select a rating factor.
- the rating factor is a multiplier to the insurance premium derived using other available rating mechanisms.
- the present invention has been described by way of example as a system that includes a vehicle based component and a central component.
- the vehicle based component collects usage data through one or more interfaces and then provides the usage data to the central system either by means of wireless transmission or other methods.
- the central system calculates a driver score based at least in part on the usage data received, as well as claim propensity information.
- the driver score can be applied in adjusting the premium of an insurance policy or other terms and conditions of the policy.
- Fig. 3 is a flow diagram illustrating the steps involved in an embodiment of the present invention.
- the process begins at step 310 where a new vehicle is selected for driver score based insurance.
- the new vehicle is initialized.
- This process can include a variety of tasks, such as but not limited to nor requiring, installation of the monitoring and recording system into the vehicle, provisioning the system including provisioning of any wireless communication systems, entry of user data into the central system and verification of operation. These tasks can include gathering initial information about the driver, the vehicle, the topographical area in which the vehicle is operated, the identification of what drivers will be utilizing the vehicle, matching the identification of the monitoring and recording system with the drivers, etc.
- the monitoring and recording system begins to monitor the vehicle activity for a first period of time 320.
- the data collected can be provided to the central system either on-line in real-time, periodically over a wireless interface, or through physically docking the vehicle with the central system either locally or remotely.
- the first period of time can vary depending on the particular embodiment but generally is sufficiently long to obtain data that is an accurate portrayal of the vehicle activity. Logically an entire year would seem like a valid period when calculating a driver score for insurance premium purposes but realistically, this would not be practical. Thus, a shorter period of time that encompasses enough variants in the individuals schedule should suffice. For instance, a two to four week period of time may be sufficient if during that period of time, no extreme conditions occur, such as the driver going on vacation, the driver taking an extended road trip or the vehicle being in the shop.
- the system can operate to generate the driver score 330.
- the driver score may include a variety of parameters with various weights applied to the parameters. Several examples have been previously provided, each of which may contain novel aspects of the invention, yet do not operate to limit the generality of the invention to utilize various other parameters, combinations of parameters and the application of various weighting factors.
- step 350 the driver score is applied in the selection and definition of an insurance policy.
- step 360 the terms of the insurance policy can be adjusted.
- the typical application of the driver score is in the adjustment of the insurance premium, however, other adjustments or term settings could also be made, such as but not limited to, changing deductibles, changing exclusions, changing the duration of the policy, etc.
- step 370 the vehicle activity continues to be monitored.
- the monitoring process continues for a second duration of time.
- the second duration of time can be as insignificant as seconds or fractions of seconds or, could be substantial such as days, weeks, etc.
- the second period of time is less in duration than the first period of time but this is not a requirement.
- the driver score is then adjusted at step 380.
- the adjusted driver score is then reapplied in step 360 for adjusting the terms of the insurance policy.
- the driver score and the terms of the insurance policy can be continually updated as the system collects further information about the vehicle activity.
- an insurance policy can simply be issued to an insured party at premiums and terms calculated in the normal fashion. Subsequent premiums and terms can then be adjusted over time by employing the monitoring and driver score calculation aspects of the present invention.
- the present invention can be implemented as a process that runs within a variety of system environments or as an entire system including various components.
- the described embodiments comprise different features, not all of which are required in all embodiments of the invention. Some embodiments of the present invention utilize only some of the features, aspects or possible combinations of the features or aspects. Variations of embodiments of the present invention that are described and embodiments of the present invention comprising different combinations of features noted in the described embodiments will occur to persons of the art.
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US10/936,293 US20060053038A1 (en) | 2004-09-08 | 2004-09-08 | Calculation of driver score based on vehicle operation |
US10/936,293 | 2004-09-08 |
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US20060053038A1 (en) | 2006-03-09 |
US20070027726A1 (en) | 2007-02-01 |
US20060253307A1 (en) | 2006-11-09 |
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