WO2002073904A2 - Short range rf network with roaming terminals, and method therefor - Google Patents
Short range rf network with roaming terminals, and method therefor Download PDFInfo
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- WO2002073904A2 WO2002073904A2 PCT/IB2002/000372 IB0200372W WO02073904A2 WO 2002073904 A2 WO2002073904 A2 WO 2002073904A2 IB 0200372 W IB0200372 W IB 0200372W WO 02073904 A2 WO02073904 A2 WO 02073904A2
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- node
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- mobile device
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/02—Processing of mobility data, e.g. registration information at HLR [Home Location Register] or VLR [Visitor Location Register]; Transfer of mobility data, e.g. between HLR, VLR or external networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W80/00—Wireless network protocols or protocol adaptations to wireless operation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
- H04W84/10—Small scale networks; Flat hierarchical networks
Definitions
- the present invention relates to short-range RF networks and, more particularly, to client communication as a client roams through the network.
- Such communication can occur between two or more terminal devices (e.g. telephones, computers, printers, facsimile machines, personal digital assistants (PDAs), etc.) by wired connection such as by connecting electrical conductors to the devices, or by wireless communication using infrared signals or radio frequency (RF) signals.
- terminal devices e.g. telephones, computers, printers, facsimile machines, personal digital assistants (PDAs), etc.
- wired connection such as by connecting electrical conductors to the devices, or by wireless communication using infrared signals or radio frequency (RF) signals.
- RF signals are preferred as they do not require line-of-sight interaction between a transmitter and a receiver of a terminal device pair.
- Bluetooth Short-range RF technology
- This system will be commercially available in the near future and it operates in the open spectrum around 2.45 GHz.
- This unlicensed radio band known as the ⁇ ndustrial-Scientific-Medical (ISM) band, is globally available.
- the operating range of the Bluetooth RF system is approximately 10 meters for a normal power mode, and has proven to be economically efficient.
- 79 or 23 RF channels are used, the channel separation being 1 MHz.
- the channel is represented by a pseudo-random hopping sequence through the 79 or 23 RF channels.
- the hopping is unique in a small area, called a piconet.
- One of the Bluetooth devices in the piconet functions as a master and the others as slaves.
- Each channel is further divided into time slots, each 625 is in duration, during which packets can be transmitted by the master and slaves. It is planned that Bluetooth chips having the described characteristics will be installed in various kinds of electronic devices for enabling communication among the separate devices.
- Wireless relay networks also exist which, in effect, extend an operating range of a local RF system by utilizing relay devices to interface with and provide communication between two or more terminal devices.
- Such a network is disclosed in PCT Application No. WO 98/17032 wherein a plurality of communication nodes are wirelessly connected to each other and to a host device for providing numerous communication links for data to be communicated between the host and terminal devices interfaced with the nodes.
- Such systems when deployed in such places as department stores and shopping malls, have been extended to provide unsolicited advertising and promotional messages to terminal devices.
- Such systems have also been extended to include Internet servers which allow a terminal device connected to the short-range wireless relay network to initiate an Internet session.
- Internet servers which allow a terminal device connected to the short-range wireless relay network to initiate an Internet session.
- Such systems experience drawbacks when a user on a terminal device roams from the coverage area of one transceiver into the coverage area of another.
- One drawback of such a system is that a terminal device's Internet address changes as it roams from one node's coverage area into another, effectively terminating any Internet sessions that may have been in progress, thereby requiring new Internet connections to be made as the terminal device roams.
- Another drawback of such a system is that local content supplied to a terminal device according to its location when it initiated communication may no longer be appropriate after it roams to a different transceiver's coverage area.
- the present invention discloses a system, apparatus and method for communicating services to a wireless terminal operating within a wireless short-range network while the wireless terminal is moving through the short-range network.
- the wireless terminal is not limited to any present navigation structure, and provides the ability to remotely access services.
- One aspect of the invention provides a short-range RF network comprising a plurality of nodes connected wirelessly to each other, and to at least one resource; at least one mobile device wirelessly communicating with at least one of the plurality of nodes, and capable of roaming out of one node's coverage area into another node's coverage area; and a periodically updated first database for maintaining infonnation concerning the at least one mobile device currently in communication with at least one of the plurality of nodes for each node of the short-range RF network; the at least one resource having a periodically updated second database including information concerning the plurality of nodes of the short-range RF network and relative infonnation concerning the first databases of each node of the short-range RF network; the at least one mobile device being arranged to send a user-initiated request for data using the short-range RF network, the network being arranged to forward said request to the at least one resource; the at least one resource being arranged to provide the requested data via the network to a node communicating with the at least one mobile
- Another aspect of the invention provides a method of operating a short-range RF network, the network comprising a plurality of nodes connected wirelessly to each other, and to at least one resource; and at least one mobile device wirelessly communicating with at least one of the plurality of nodes, and capable of roaming out of one node's coverage area into another node's coverage area; and the method comprising the steps of periodically updating a first database for maintaining information concerning the at least one mobile device currently in communication with at least one of the plurality of nodes for each node of the short-range RF network; in the at least one resource, periodically updating a second database including information concerning the plurality of nodes of the short-range RF network and relative information concerning the first databases of each node of the short-range RF network; sending a request for data using the short-range RF network, the request initiated by a user of the at least one mobile device and forwarding the request to the at least one resource; and providing the requested data to a node communicating with the at least one mobile device according to the periodically updated
- FIG. 1 is a block diagram of a short-range RF network embodying a system in which the present invention may be practiced;
- Fig. 2 summarizes the contents of various databases according to one embodiment ofthe present invention;
- Fig. 3 shows a typical scenario of a client roaming through one embodiment of a system ofthe present invention
- Fig. 4 is an exemplary system flow diagram of the handling of a client upon entering the coverage area of a node
- Fig. 5 is an exemplary system flow diagram of handling of a client request for server content
- Fig. 6 is an exemplary system flow diagram of handling of client with a pending server-content request leaving the coverage area of a node
- Fig. 7 is an exemplary system flow diagram of handling a client's session after reconnection to a different node
- Fig. 8 is a diagram illustrating the timing of exemplary roaming of clients through the network.
- DETAILED DESCRIPTION OF THE PRESENTLY PREFERRED EMBODIMENTS In the following description of the various embodiments, reference is made to the accompanying drawings which fonu a part hereof, and in which is shown by way of illustration various embodiments in which the invention may be practiced. It is to be understood that other embodiments may be utilized and structural and functional modifications may be made without departing from the scope of the present invention.
- Fig. 1 is a block diagram of one embodiment of a communication system according to the present invention.
- a system would typically be deployed in a site such as a department store, shopping mall, or factory floor, i.e., an area that is relatively small, but yet is larger than could be covered by a single short-range RF transceiver which typically has a maximum range of less than 100 meters.
- a plurality of short- range RF transceivers 400 through 4nn are deployed as nodes and are physically positioned so as to cover the entire site, with each covering a particular portion of the site.
- Each node includes a node database 400-10, 410-n ... 4nn-10. There typically is overlap between the coverage areas of two adjacent nodes.
- a plurality of users can use the system. Each must be equipped with a terminal capable of short-range RF communication.
- the terminals are denominated in this exemplary system with numbers 500 through 5nn. Only one such tenninal device, arbitrarily identified as 523, is illustrated in the example of Fig. 1.
- the tenninal device (the "client” ofthe system) is typically (but is not limited to) a mobile telephone that is equipped to function in conjunction with a mobile telephone system such as the cellular or GSM systems, as well as with short-range RF nodes.
- the tenninal device typically can function for both voice and data communication.
- Data communication capability of the terminal device typically includes compatibility with the wireless application protocol (WAP) standard used on the world-wide web.
- WAP wireless application protocol
- the inventive system includes at least one network host 100 which coordinates the activities of nodes 400-4nn, including the reception and transmission of voice and data.
- all the illustrated nodes are shown as communicating directly with the network host 100. In some deployments, some of the nodes may not be within range of network host 100 and would communicate with network host 100 by relaying through other ofthe nodes. Such routing is discussed in related application serial number 09/614,508.
- a user of a terminal device initiates communication with a node in the coverage area of which the user is currently located.
- a user of terminal device 523 initiates communication with node 400, which in turn links the user through Bluetooth chip 120 to network host 100.
- the user might converse with users at other tenninal devices (not shown) or the user might choose to communicate via Internet 250 with a web server such as 260, or a remote user such as
- Network host 100 includes LAN interface 140, which links network host 100 to content server 200 via LAN 300.
- Content server 200 includes WAP/Web server 230 which links the desired communication to Internet 250.
- Network host 100 in conjunction with content server 200, with its content database 210B and its ability to communicate over Internet 250, together comprise a resource for obtaining content upon a user's request.
- Network host 100 includes host database 110, which is divided into client database 110A and node database HOB.
- Client database 1 10A stores client-dependent information for each client, including:
- Client Address i.e., the Bluetooth Address of the Client
- Node Address i.e., the node through which the client is connected
- Node database 1 10B stores node-dependent information, including:
- Connection settings parameters that are sent to the client when the connection is fo ⁇ ued between a client and the node. These parameters are applied on the client's behalf when accessing infonnation from the server, e.g., WAP service URL.
- infonnation e.g., WAP service URL.
- Node identification is included in the URL and forms the basis for location dependent services
- Node dependent infonnation including alias names and other settings.
- Content server 200 is typically a PC, equipped with at least the following software:
- WAP/WEB Server 230 (WAP or WEB according to the type of clients)
- Network applications 220 (a collection of servlets or other software components for providing client services, including location-dependent services)
- Administration software 225 (applied in configuring the nodes and the network)
- Content server 200 includes server database 210, which in turn includes a mirror copy 210A of the host database 1 10; content database 210B; and client database HOC.
- Content database 210B includes general content and location- and time- dependent Information (e.g., maps, advertisements that are destined for particular nodes only, etc.). There are several keys to this database, such as node address/node alias name, type of content (advertisement, warning, map, announcement, etc.), broadcast schedule, and keywords.
- Client database 210C contains:
- Personalization information which can be applied in order to generate personalized content. This infonnation is accessed according to the client address.
- Temporary content stores the cun-ent state and content of the client connection and can be applied in handoff, i.e., when the client moves out of range ofthe initial node and forms a connection to another node).
- Administration software 225 includes an application that can open the node database HOB and save the contents in mirror database 210A.
- Administration software 225 allows the network operator to modify node database HOB (e.g., to give alias names and connection parameters) and save the changes to network host 100, which distributes the changes to the nodes.
- Content database 210B can directly include content (e.g., text), or it can include links to other content source (e.g., URL's pointing to WAP decks). Each database entry includes a list of node addresses or alias names that describes which nodes should receive the current content.
- Content may be streaming content, such as stock reports that continuously and repetitively scroll across the user's screen, or one-time content comprising a discrete, non-repeating portion.
- the Bluetooth INQUIRY procedure is used for the Bluetooth transceivers in the node and in the client device to leam of each other and to acquire each other's Bluetooth addresses. Thereafter, a PPP- connection is formed and the client is assigned an IP number and a Port (the client can be contacted from outside the network by using the network host's IP number and the client's Port number).
- the corresponding information (Client Address, Node Address, Client's IP number, Client's Port number) is stored in client database 110A.
- Connection parameters e.g., WAP connection parameters, such as URL
- infonnation e.g., WAP deck
- the requested URL uniquely identifies the client to the servlet.
- the URL also includes several parameter fields that are transmitted to the servlets (client address and node address).
- the contacted servlet generates content for the client by searching content database 210B (location dependent). If the client has been personalized in the databases, it is possible to personalize the generated content (and also filter the content).
- the Servlet/WAP server sends the generated content to the client by applying the JP:Port address. If the client's IP:Port cannot be resolved directly from the content server, it can be requested from the host (as keyed according to the client address). The client receives the content and can follow links and request additional content.
- client database 210C Content (e.g., WAP decks) and other connection parameters are stored as temporary content in client database 210C.
- This temporary content portion of client database 2 I OC database serves as a cache memory, and can be used to preserve parameters during handoff.
- a client When a client is connected to a node, its status is marked “active" in the client database. The client remains connected as long as it is located inside the node's Bluetooth range. When the connection is no longer possible (e.g. client out of range), the connection is terminated. That information is transferred by the node to the network host (status is marked as inactive).
- the last sent content remains in the temporary content portion of client database 210C.
- the client connects to another node and the node/client requests a URL, it is realized that the previous connection was recently terminated. In such a case, the content located in the temporary content portion of client database 2 IOC is transmitted to the client. Exceptions to this are the cases where the delay between the terminated and new connection is sufficiently long (e.g., 1 hour), and the case where the client is using services that update content every time a node is changed (e.g., routing services and maps).
- the old and new information can be combined and sent to the client.
- host 100 and content server 200 as two separate physical entities is a design expedient in a particular embodiment, and is not intended to limit the invention to that configuration.
- the components of host 100 and content server 200 are a design expedient in a particular embodiment, and is not intended to limit the invention to that configuration.
- 200 could exist within other numbers of physical entities, including a single central resource.
- Fig. 2 also shows that each node 4nn has a node database 4nn-10, which stores internal data for use by the node, a client database for containing node-related client data for each client currently connected to the node, and a neighbor node database for containing data regarding the node's neighbors.
- Fig. 3 depicts a portion of a typical deployment wherein nodes 400, 410, 420, 430, and 440 have overlapping coverage areas 400-1, 410-1 , 420-1, 430-1, and 440-1 respectively.
- a client 523 enters the coverage area of the system when he enters coverage area 400-1 at point 400-2.
- client 523 requests network server content through internet 250 (see Fig. 1).
- the client passes out of coverage area 400-1 and enters coverage area 410-1.
- the ensuing discussion shows how the inventive system seamlessly preserves client 523's connection to network server content.
- Fig. 4 The flow in Fig. 4 is entered when client 523 enters node 400's coverage area at point 400-2 (as shown on Fig. 3). Both node 400 and client 523 are periodically performing the inquiry procedure provided, e.g., in the case of Bluetooth network, the Service Discovery Protocol (SDP) according to the Bluetooth specification for learning of other BT transceivers within a transceiver's coverage areas.
- SDP Service Discovery Protocol
- Step 4-2 indicates that client 523 and node 400 learn each other's BT addresses, known in the art as forming a low-level BT connection.
- Step 4-4 indicates that node 400 initiates a PPP connection with client 523.
- node 400 and host 100 determine an available port number to be assigned to client 523; step 4-10 conveys an IP:Port number to client 523, exemplarily stated in Fig. 1 to be 147.19.202.8:842, where the 147.19.202.8 portion is an IP number associated with the present short- range RF network, and 842 is the port number assigned in blocks 4-6 and 4-8.
- step 4-12 client database 1 10A is updated with the information pertaining to client 523's new connection.
- client 523 requests at point 400-3 to receive content.
- the requested content is obtained and forwarded in step 5-16 to client 523.
- step 400-3 indicates the client's request for content, which is forwarded to node 400, which in turn in step 5-1 forwards a URL request through host 100 to server 200, where in block 5-2 content is generated and personalized. This may entail retrieving content from content database 210B, or obtaining content from a remote server over Internet 250, not described.
- Step 5-4 indicates forwarding the content to host 100 where in block 5-6 the node and routing are determined from consulting client database 110A.
- block 5-8 it is checked whether the client still has active status; thus far in the present example, client 523 is active on node 400, so the content is forwarded in step 5-10 to node 400.
- step 5-12 results in storing the transmitted data in storage 210C
- step 5-16 forwards the content to client 523.
- step 5-20 results in updating client database 21 OC to mark that content temporary as delivered.
- step 5-24 results in storing the content in storage 21 OC. Forwarding that content upon the client's return will be discussed in connection with Fig. 7.
- client 523 leaves coverage area 400-1 at point 400-4, and thus his status changes to inactive.
- the content requested by client 523 is of an ongoing nature, and continues to emanate from block 5-2.
- it is determined that the client's status is inactive and the content is stored in temporary content database 210C and marked undelivered. The content remains in database 210C for a predetermined time, in case the user returns to the network within that time.
- block 5-8 detects that a client is active and routes content to node 400 an instant before host database 110A is updated to indicate the client's inactive status, and step 5-10 is performed to forward the content to node 400; block 5-14 detects the inactive status and perfonns step 5-18 to route the content back for storage in database 210C.
- node 400 periodically polls all its current active clients, including client 523 (step 6-4); after client 523 has left coverage area 400-1 it will no longer respond. This is detected in block 6-6, and step 6-8 is performed to update client 523's status to inactive in host 100.
- client 523 has come into the coverage area of node 410, and through the aforementioned inquiry procedure forms a low-level BT connection with node 410 (steps 6-10 and 6-12), which invokes reconnection procedure 6-14, which establishes a new connection with node 410 in the same manner as the prior connection with node 400 was established, as was discussed in conjunction with Fig.
- step 7-6 invokes block 7-8 to provide a new IP:Port and to start sending content afresh (steps 7-10, 7-12, 7-14). This predetennined waiting period prevents a client 5nn, newly connected and given by chance the lP:Port that client 523 formerly had, from unexpectedly receiving portions of the content that client 523 had requested.
- step 7-16 is invoked to retrieve the previously stored content from database 21 OC, and block 7-18 determines from the content whether it is still valid for client 523's current location.
- Content is accordingly forwarded to client 523 (steps 7-36, 7-38, 7-40), modified for client 523's present location and then forwarded (block 7-24 and steps 7-26, 7-28, and 7-30), or generated anew for client 523's present location (block 7-34 and steps 7-36, 7-38, and 7-40).
- Fig. 8 illustrates a typical scenario that might occur as several users roam through the environment depicted in Fig. 3.
- a user 801 is already in the coverage area of node 400 at 3:00 o'clock, the start of the exemplary time period.
- user 801 requests content, perhaps from a server 260 on the Internet as discussed above.
- User 801's request initiates transmission 835, which might, for example be a continuous streaming scroll of stock price quotes.
- User 801 might request termination of the transmission at 3:12:34. Transmission 835 thus was 12 minutes and 25 seconds in duration, during which time user 801 remained continuously in the coverage area of node 400, so there was no need to suspend the transmission.
- transmission 839 is complete, perhaps because all requested content were sent or perhaps because user 801 signified that he did not wish to receive any more of that content. Transmission 839 thus lasted for a total of two minutes and 35 seconds, one minute and five seconds of which were involved with actual transmission.
- transmission 836 commences.
- user 802 leaves the coverage area of node 400, but enters the coverage area of node 430.
- transmission 836 continues through node 430.
- user 802 roams out of node 430's coverage area and into that of node 440.
- Transmission 836 continues, now through node 440.
- transmission 836 completes. Transmission 836 thus has a duration of 3 minutes, all of it active although through three different nodes.
- Transmission 840 thus has a duration of two minutes and 15 seconds, entirely active (no content buffered).
- Transmission 837 thus has a duration of 40 seconds, all of it active (no content buffered).
- User 804 enters the coverage area of node 420 at around 3:02. At 3:06:10 he requests a content transmission, which causes the initiation of transmission 838. At 3:07:20, user 804 roams out of range of node 420, but not into the coverage areas of any other nodes. As discussed supra, content from transmission 834 are buffered pending determination of whether user 804 will return. At 3:08:55 user 804 roams back into range of node 420. Buffered content, as well as any subsequent content from the source, are transmitted to user 804 before transmission 838 concludes at 3:09.20. The duration of transmission 838 was this 3 minutes and ten seconds, of which one minute and 35 seconds were occupied with active transmission (70 seconds from 3:06:10 until 3:07:20, and 25 seconds from 3:08:55 until 3:09:20.
Abstract
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Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP02710236A EP1366605B1 (en) | 2001-03-09 | 2002-02-04 | Short range rf network with roaming terminals, and method therefor |
DE60217304T DE60217304T2 (en) | 2001-03-09 | 2002-02-04 | RADIO NETWORK WITH SHORT RANGE AND ROAMING-EXECUTING MOBILE DEVICES, AND METHOD THEREFOR |
AU2002228283A AU2002228283A1 (en) | 2001-03-09 | 2002-02-04 | Short range rf network with roaming terminals, and method therefor |
JP2002571658A JP3864142B2 (en) | 2001-03-09 | 2002-02-04 | Short range RF network with roaming terminal |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US09/803,534 | 2001-03-09 | ||
US09/803,534 US6954443B2 (en) | 2001-03-09 | 2001-03-09 | Short range RF network with roaming terminals |
Publications (2)
Publication Number | Publication Date |
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WO2002073904A2 true WO2002073904A2 (en) | 2002-09-19 |
WO2002073904A3 WO2002073904A3 (en) | 2003-01-23 |
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Family Applications (1)
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PCT/IB2002/000372 WO2002073904A2 (en) | 2001-03-09 | 2002-02-04 | Short range rf network with roaming terminals, and method therefor |
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EP (1) | EP1366605B1 (en) |
JP (1) | JP3864142B2 (en) |
AT (1) | ATE350840T1 (en) |
AU (1) | AU2002228283A1 (en) |
DE (1) | DE60217304T2 (en) |
WO (1) | WO2002073904A2 (en) |
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- 2002-02-04 WO PCT/IB2002/000372 patent/WO2002073904A2/en active IP Right Grant
- 2002-02-04 DE DE60217304T patent/DE60217304T2/en not_active Expired - Fee Related
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Also Published As
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AU2002228283A1 (en) | 2002-09-24 |
US6954443B2 (en) | 2005-10-11 |
JP3864142B2 (en) | 2006-12-27 |
EP1366605B1 (en) | 2007-01-03 |
EP1366605A2 (en) | 2003-12-03 |
DE60217304D1 (en) | 2007-02-15 |
US20020126643A1 (en) | 2002-09-12 |
ATE350840T1 (en) | 2007-01-15 |
WO2002073904A3 (en) | 2003-01-23 |
DE60217304T2 (en) | 2007-06-06 |
JP2004522342A (en) | 2004-07-22 |
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