WO2005062926A2 - Prioritized delivery of navigation information - Google Patents
Prioritized delivery of navigation information Download PDFInfo
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- WO2005062926A2 WO2005062926A2 PCT/US2004/043299 US2004043299W WO2005062926A2 WO 2005062926 A2 WO2005062926 A2 WO 2005062926A2 US 2004043299 W US2004043299 W US 2004043299W WO 2005062926 A2 WO2005062926 A2 WO 2005062926A2
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- WIPO (PCT)
- Prior art keywords
- information
- route
- information related
- parcel
- starting point
- Prior art date
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Classifications
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- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/09—Arrangements for giving variable traffic instructions
- G08G1/0962—Arrangements for giving variable traffic instructions having an indicator mounted inside the vehicle, e.g. giving voice messages
- G08G1/0968—Systems involving transmission of navigation instructions to the vehicle
- G08G1/096805—Systems involving transmission of navigation instructions to the vehicle where the transmitted instructions are used to compute a route
- G08G1/096811—Systems involving transmission of navigation instructions to the vehicle where the transmitted instructions are used to compute a route where the route is computed offboard
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C21/00—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
- G01C21/26—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 specially adapted for navigation in a road network
- G01C21/34—Route searching; Route guidance
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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
- G06Q30/02—Marketing; Price estimation or determination; Fundraising
-
- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/09—Arrangements for giving variable traffic instructions
- G08G1/0962—Arrangements for giving variable traffic instructions having an indicator mounted inside the vehicle, e.g. giving voice messages
- G08G1/0968—Systems involving transmission of navigation instructions to the vehicle
- G08G1/096805—Systems involving transmission of navigation instructions to the vehicle where the transmitted instructions are used to compute a route
- G08G1/096811—Systems involving transmission of navigation instructions to the vehicle where the transmitted instructions are used to compute a route where the route is computed offboard
- G08G1/096816—Systems involving transmission of navigation instructions to the vehicle where the transmitted instructions are used to compute a route where the route is computed offboard where the complete route is transmitted to the vehicle at once
Definitions
- This invention relates to the field of navigation, and more particularly, to a system and method for managing navigation information.
- Background Art Currently, some motor vehicles include provisions for providing navigation information and driving directions to the driver. These navigation systems generally comprise a system that is built into a motor vehicle. These systems are usually designed so that, after leaving the factory, the systems are self-contained units. And all of the navigation information that is available to direct a driver to a particular destination is contained within the system. All of this information usually requires considerable computer resources to store, search and manage all of the data. Large storage capacity, fast processors, large amounts of memory and other costly computer equipment are all required to manage and process all of the navigation equipment. While this arrangement does provide navigation assistance, there are a number of drawbacks. First, current systems are expensive.
- a method of delivering navigation information is disclosed.
- the invention can be used in connection with a motor vehicle.
- the term "motor vehicle” as used throughout the specification and claims refers to any moving vehicle that is capable of carrying one or more human occupants and is powered by any form of energy.
- the term motor vehicle includes, but is not limited to cars, trucks, vans, minivans, SUV's, motorcycles, scooters, boats, personal watercraft, and aircraft.
- the invention provides a method for sending navigation information comprising the following steps: retrieving selection information related to a desired delivery schedule, gathering route information related to a route between a starting point and a destination point, starting point information related to the starting point, destination information related to the destination point, and route detail information related to details along the route, ordering the route information, the starting point information, the destination information and the route detail information according to the selection information to establish ordered information, sending the ordered information to an information network.
- the information network is a wireless network.
- the ordered information is configured to be sent through the information network to an on-board unit associated with a motor vehicle.
- the selection information is received from a user.
- the selection information is predetermined.
- the invention provides a method for receiving navigation information where a first parcel of navigation information is received by an on-board unit (OBU), the first parcel of navigation information is used to display navigation information on a display, and can be used by a user; and where a second parcel of navigation information is received by the OBU while the first parcel of navigation information is being used.
- the first parcel includes information related to a route map.
- the first parcel includes information related to details along a route.
- the first parcel includes information related to details about a starting point.
- the first parcel includes information related to details about a destination point.
- additional parcels of navigation information are received after the second parcel of navigation information is received and wherein additional parcels in combination with the first parcel of navigation information and the second parcel of navigation information form a complete package of navigation information.
- the invention provides a method of sending navigation information comprising the following steps: establishing a complete package of navigation information in response to a request for the navigation information, defining a first parcel of information and a second parcel of information; wherein the complete package of navigation information is comprised of the first and second parcels, selecting the first parcel of information based on selection information, and sending the first parcel of information to an information network before sending the second parcel of information.
- the first parcel of information includes less information than the complete package of information.
- the selection information is received from a user.
- the selection information is predetermined.
- the first parcel of information includes information related to a route between a starting point and a destination point.
- the first parcel of information includes information related to a starting point.
- the first parcel of information includes information related to a destination point.
- the first parcel of information includes detailed information related to a route between a starting point and a destination point.
- the second parcel of information includes information related to a route between a starting point and a destination point.
- the second parcel of information includes information related to a starting point.
- the second parcel of information includes information related to a destination point.
- the second parcel of information includes detailed information related to a route between a starting point and a destination point.
- the invention provides a method for sending navigation information comprising the following steps: gathering information related to a route between a starting point and a destination point, gathering detailed information related to the starting point, gathering detailed information related to the destination point, gathering detailed information related to the route, and where the information related to the route between the starting point and the destination point is sent before any other information.
- the first portion is established proximate the route.
- the invention provides a method for sending navigation information comprising the following steps: gathering information related to a route between a starting point and a destination point, gathering detailed information related to the starting point, gathering detailed information related to the destination point, gathering detailed information related to the route, and where the information related to the entire map is sent before any other information.
- the invention provides a method for sending navigation information comprising the following steps: gathering information related to a route between a starting point and a destination point, gathering detailed information related to the starting point, gathering detailed information related to the destination point, gathering detailed information related to the route, and where the information related to the starting point is sent before any other information.
- the invention provides a method for sending navigation information comprising the following steps: gathering information related to a route between a starting point and a destination point, gathering detailed information related to the starting point, gathering detailed information related to the destination point, gathering detailed information related to the route; and wherein the information related to the destination point is sent before any other information.
- Figure 1 is a schematic diagram of a preferred embodiment of a vehicle in association with a wireless communication system and a service provider.
- Figure 2 is a schematic diagram of a preferred embodiment of a service provider in association with an update resource and a billing system.
- Figure 3 is a schematic diagram of a preferred embodiment of a central unit and associated components.
- Figure 4 is a schematic diagram of the interior of the vehicle shown in Figure 1.
- Figure 5 is a flow diagram of a preferred embodiment of a method for requesting and receiving navigation information.
- Figure 6 is a flow diagram of a preferred embodiment of a method for assembling a map.
- Figure 7 is a schematic diagram of a preferred embodiment of a map with regions.
- Figure 8 is a schematic diagram of a preferred embodiment of a map with map features.
- Figure 9 is a schematic diagram of a preferred embodiment of a map with map features.
- Figure 10 is a schematic diagram of a preferred embodiment of an example map.
- Figure 11 is a schematic diagram of a preferred embodiment of an example map with an example route.
- Figure 12 is a schematic diagram of a preferred embodiment of map information.
- Figure 13 is a schematic diagram of a preferred embodiment of route information.
- Figure 14 is a schematic diagram of a preferred embodiment of map and route information.
- Figure 15 is a flow diagram of a preferred embodiment of step 510 shown in Figure 5.
- Figure 16 is a schematic diagram of a preferred embodiment of a map.
- Figure 17 is a schematic diagram of a preferred embodiment of an end point first region.
- Figure 18 is a schematic diagram of a generalized embodiment of an end point first region.
- Figure 19 is a flow diagram of a preferred embodiment of a prioritized order of transmission of navigation information.
- Figure 20 is a flow diagram of an alternative embodiment of a prioritized order of transmission of navigation information.
- Figure 21 is a flow diagram of an alternative embodiment of a prioritized order of transmission of navigation information.
- Figure 22 is a flow diagram of an alternative embodiment of a prioritized order of transmission of navigation information.
- Figure 1 is a schematic view of an illustrative embodiment of a motor vehicle 100 along with various communications and computer resources, including a wireless communications network 106.
- Wireless network 106 can be any kind of wireless network, including but limited to any cellular telephone network using, for example, any one of the following standards: CDMA, TDMA, GSM, AMPS, PCS, analog, and/or W-CDMA.
- a service provider 108 communicates with motor vehicle 100.
- a wireless network 106 can be used facilitate communications between service provider 108 and motor vehicle 100.
- Service provider 108 can communicate with wireless network 106 in a number of different ways.
- service provider 108 communicates with wireless network 106 wirelessly.
- service provider 108 is directly connected to one or more elements of wireless network 106, and in still other embodiments, service provider 108 communicates with wireless network 106 by using the Internet 110.
- service provider 108 can use more than one method of communicating with wireless network 106 or use other methods as back-ups.
- Motor vehicle 100 also includes at least one wheel 120 adapted to contact a road surface, an engine 122, a body or chassis 124 and a passenger cabin 126, which is adapted to accommodate at least one human passenger.
- Figure 2 is a schematic diagram of a preferred embodiment of a service provider 108.
- service provider 108 can include a computer system 202 and a database 204 in communication with computer system 202.
- computer system 202 refers to the computing resources of a single computer, a portion of the computing resources of a single computer, and/or two or more computers in communication with one another, also any of these resources can be operated by one or more human users.
- computer system 202 includes a server.
- Computer system 202 preferably communicates with database 204.
- Database 204 can include any kind of storage device, including but not limited magnetic, optical, magneto-optical, and/or memory, including volatile memory and non-volatile memory.
- database 204 is integral with computer system 202 and in other embodiments, database 204 is separate from computer system 202 and communicates with computer system 202.
- database 204 is used to store navigation information.
- navigation information refers to any information that can be used to assist in determining a location or providing directions to a location.
- Some examples of navigation information include street addresses, street names, street or address numbers, apartment or suite numbers, intersection information, points of interest, parks, any political or geographical subdivision including town, township, province, prefecture, city, state, district, ZIP or postal code, and country.
- Navigation information can also include commercial information including business and restaurant names, commercial districts, shopping centers, and parking facilities.
- Navigation information can also include geographical information, including information obtained from any Global Navigational Satellite infrastructure (GNSS), including Global Positioning System or Satellite (GPS), Glonass (Russian) and/or Galileo (European).
- GNSS Global Navigational Satellite infrastructure
- GPS Global Positioning System or Satellite
- Glonass Glonass
- Galileo European
- Navigation information can include one item of information, as well as a combination of several items of information.
- an update resource 206 is in communication with service provider 108.
- Update resource 206 can provide updates, revisions, edits and other modifications to service provider 108.
- update resource 206 provides updated navigation information.
- update resource 206 provides automated updates.
- update resource provides periodic updates.
- Some embodiments include a billing system 208 in communication with service provider 108.
- Billing system 208 can include account information for users and can interact with service provider 108 to prepare and generate bills.
- Billing system 208 can provide electronic billing or traditional billing by mail.
- billing system 208 is a part of service provider 108 and billing system 208 uses resources associated with service provider 108.
- billing system 208 is separate from service provider 108 and communicates with service provider 108.
- Billing system 208 can interact with service provider 108 in a number of different ways.
- billing system 208 operates on a transactional basis. In this mode, billing system 208 keeps track of a subscriber's use of service provider 108.
- billing system 208 tracks or stores particular transactions or events associated with those transactions. For example, in one embodiment, billing system 208 tracks or stores requests for navigation information. These requests for navigation information can be related to a particular transaction, and billing system 208 can use these requests to track or store information related to the transaction.
- Billing system 208 can associate those requests with a subscriber and create a bill entry.
- billing system 208 tracks or stores the length of time a subscriber uses or interacts with service provider 108. In this embodiment, billing system 108 tracks or stores how long a subscriber uses are interacts with service provider 108. In some cases, a discreet measure of time, for example, a minute or any fraction or multiple, can be used to record or track a subscriber's use or interaction with service provider 108. This measure of time can be used to compute a fee and prepare a bill entry. In some embodiments, subscribers are permitted to use or interact with service provider 108 any number of times for a set duration.
- subscribers it is possible for subscribers to have weekly, monthly, quarterly or annual agreements with service provider 108 so that, during those agreed to periods, subscribers can use or interact with service provider 108 as often as they choose. Other durations of time can also be established. In some of these cases, subscribers have unlimited access to service provider 108 for that pre-selected duration of time. In other cases, subscribers have certain unlimited basic usage rights for that duration of time, but must pay additional fees for premium services.
- One or more of the different types of billing arrangements can be used for a particular subscriber. It is also possible to provide one type of billing arrangement to one subscriber while providing a different billing arrangement to another subscriber.
- Billing system 208 and service provider 108 can communicate with one another to manage subscriber access and to assist in preparing bills to subscribers.
- billing system 208 can retrieve information from service provider 108 to create bill entries or entire bills. However, it is also possible for service provider to send information to billing system 208 related to a subscriber's activities so that billing system 208 can create bill entries or entire bills. In some cases, service provider 108 will request information or permission from billing system 208 before preparing navigation information. In these cases, service provider 108 sends a request for permission to billing system 208 after a request for navigation information has been received from a subscriber. After receiving the request for permission from service provider 108, billing system 208 can determine if the subscriber has a valid account. In some cases, a valid account is an account that is not overdue, an account that has been pre-paid, or an account with an associated credit card.
- billing system 208 provides permission to service provider or can inform service provider 08 that the subscriber's account is valid. After receiving permission, service provider 108 continues to process the subscriber's request and eventually respond to the subscriber. Either or both service provider 108 or billing system 208 can use a number of different techniques to insure that the proper party is billed for various transactions.
- information related to an On-Board Unit (disclosed below) is used to associate a particular transaction, interaction or subscription with a particular account.
- information related to a wireless network is used to associate a particular transaction, interaction or subscription with a particular account.
- FIG. 3 is a schematic diagram of several devices that are associated with motor vehicle 100.
- Central unit 302 can include a number of ports that facilitate the input and output of information and power.
- the term "port" means any interface or shared boundary between two conductors. In some cases, ports can facilitate the insertion and removal of conductors. Examples of these types of ports include mechanical connectors. In other cases, ports are interfaces that generally do not provide easy insertion or removal. Examples of these types of ports include soldering or electron traces on circuit boards. All of the following ports and provisions associated with central unit 302 are optional.
- Central unit 302 includes a wireless network antenna port 304 that is designed to receive information from a wireless network antenna 306, a GPS antenna port 308 designed to receive information from a GPS antenna 310, a radio antenna port 312 designed to receive information from a radio antenna 314.
- Central unit 302 can also include a number of items that facilitate human interaction.
- central unit 302 can include a microphone port 316 that is capable of communicating with a microphone 318.
- Central unit 302 can also include an audio port 320 that is designed to send audio information to one or more speakers 322 or audio devices.
- microphone port 312 and audio port 316 are conductors associated with a single physical connector.
- microphone port 312 and audio port 316 can be female conductors of a multi-channel coaxial plug, like a standard 2.5 mm headset plug.
- central unit 302 can include a display port 324 that is capable of interacting with a display device 326.
- central unit 302 can include an input port 328.
- Input port 328 can communicate with input device 330.
- display device 326 can also receive input from a user.
- display device 326 includes a touch screen that can receive input and in other embodiments, display device 326 includes a number of buttons that can receive input. In some embodiments, display device 326 includes both a touch screen and buttons.
- user input received by display device 326 can also communicate with input port 328.
- a power port 332 can connect central unit 302 to a power supply 334.
- power supply 334 is a battery.
- Central unit 302 can also include provisions to communicate with a wireless telephone. Any system can be used to facilitate this communication with a wireless telephone; however, a low power radio frequency system is preferred. In an exemplary embodiment, a wireless local or personal area network using the Bluetooth® protocol is used to facilitate communication with a wireless telephone.
- central unit 302 includes a local wireless network antenna port 336 that is designed to communicate with a local wireless network antenna 338, which in turn, is designed to communicate wirelessly with wireless telephone 340.
- central unit 302 includes provisions that permit central unit 302 to act as a wireless telephone.
- central unit 302 communicates directly with wireless network 106 and can use wireless network antenna port 304 and wireless network antenna 306 to assist with this communication.
- central unit 302 communicates with wireless telephone 340, which in turn, communicates with wireless network 106.
- central unit 302 can use local wireless antenna port 336 and associated local wireless network antenna 338 to assist in facilitating communications with wireless telephone 340. One or both of these methods can be used by central unit 302 to communicate with wireless network 106.
- Central unit 302 can also include memory, data storage provisions including one or more databases and/or one or more processors.
- all or most of the items shown in Figure 3 are housed in a single case or unit.
- the various items shown in Figure 3 are not housed in a single physical case, but instead, are distributed throughout motor vehicle 100 (see Figure 1 ) and communicate with one another via known wired or wireless methods. For example, in a system where one or more items communicate wirelessly, the Bluetooth® protocol can be used.
- Figure 4 is a preferred embodiment of an interior 400 of passenger cabin 126 of motor vehicle 100 (see Figure 1 ).
- Interior 400 includes steering wheel 402, driver's seat 404, shifter or gear selector 406, dashboard 408 and center console 410.
- Center console 410 includes an upper portion 412 and a lower portion 414.
- lower portion 414 includes radio and/or audio controls.
- upper portion 412 includes display 416.
- upper portion 412 includes a multi-function unit that can communicate or control an audio system, a climate control system and/or a navigation system.
- display 416 is used as display device 326, shown schematically in Figure 3.
- central unit 302 or portions of central unit 302 is disposed behind display 416.
- display 416 can include a touch screen and in some embodiments, buttons can be disposed next to display 416.
- central unit 302 includes provisions that allow central unit 302 to act as a hands free telephone system.
- microphone 314 can be placed in a discreet and somewhat hidden location in passenger cabin 126 (see Figure 1 ) of motor vehicle 100 (see Figure 1).
- Other components are preferably placed out of plain sight.
- Figure 5 is a flow diagram of a preferred embodiment of a system and method for managing navigation information. In the embodiment shown in Figure 5, certain steps are associated with On-Board Unit (referred to as "OBU") 500 and certain steps are associated with service provider 108.
- OBU On-Board Unit
- OBU 500 is a device or provision associated with motor vehicle 100.
- OBU 500 includes provisions that permit OBU 500 to receive information.
- OBU 500 can store information in a memory or computer readable media.
- OBU 500 includes provisions that permit OBU 500 to process information.
- OBU 500 includes provisions that permit OBU 500 to display information.
- OBU 500 includes provisions that permit OBU 500 to receive information from a user. In some embodiments, OBU 500 includes provisions that permit OBU 500 to receive information from a wireless network. In some embodiments, OBU 500 includes provisions that permit OBU 500 to interact with a user. In some embodiments, OBU 500 includes a combination of two or more of the above provisions. Different embodiments can include different elements or features. For simplicity, the term, "On-Board Unit” (OBU) is used to refer to those elements or components that are associated with motor vehicle 100 (see Figure 1 ) for a particular embodiment. In an exemplary embodiment, OBU 500 comprises one or more facilities of central unit 302 (see Figure 3).
- OBU On-Board Unit
- OBU can also include one or more of the items shown in Figure 3, for example, central unit 302, display 326, and/or input device 330.
- the process begins when an input is received in step 502. Any form of input can be received in step 502. In some cases, the input is in the form of one or more buttons being pressed, and/or interaction with a touch screen associated with display device 326 (see Figure 3). In some cases, a combination of input from buttons and/or touch screen interaction is received. . It is also possible for voice information to be received in step 502. Any known speech recognition process or program can be utilized to convert spoken words, phrases and/or numbers into a machine readable format. Preferably, the IBM® embedded Via Voice speech recognition engine is used.
- OBU 500 analyzes and processes the information received in step 502 and prepares a request for navigation information.
- OBU 500 sends a request for navigation information.
- service provider 108 receives a request for navigation information.
- service provider 108 analyzes and processes the request for navigation information and prepares a response to the request.
- service provider 108 sends the requested navigation information to OBU 500.
- Step 514 is an optional step.
- service provider memorializes the transaction.
- the request is memorialized, in other embodiments, the response is memorialized and in still other embodiments, both the request and the response are memorialized. It is also possible to include time, date and location stamps.
- This memorialized information can be used to interact with billing system 208 (see Figure 2).
- service provider 108 can prepare navigation information for delivery. Preferably, this preparation step occurs in step 510 after a request for navigation services has been received.
- One or more different processes or techniques can be used to prepare navigation information for delivery.
- the process to prepare navigation information 510 can include one or more steps or processes.
- One of these processes is a process where different elements of a map are encoded or expressed using absolute or relative coordinates.
- Figure 6 is a flow diagram of a preferred embodiment of a method for preparing navigation information. This method can be used alone or in conjunction with other methods.
- this process begins with a step 602 of determining an overall map or route. After the overall map or route has been selected, the map or route is preferably divided into two or more smaller portions. Any desired approach can be used to divide the map or route, and one suitable example is shown in Figure 7. A particular map portion is selected in step 604.
- the process determines which coordinate system, either absolute or relative, will encode or express the various map features associated with the map portion most efficiently.
- the selection of absolute or relative coordinates is discussed in greater detail below. If a relative coordinate system more efficiently encodes or expresses the information, then a relative coordinate system is used, and the various map features associated with the selected map portion are encoded in relative coordinates 608. On the other hand, if absolute coordinates are more efficient, than the various map features associated with the selected map portion are encoded using absolute coordinates 610.
- the process determines if the map is complete or if there are other map portions left to encode.
- step 604 the process returns to step 604 where another map portion that has yet to be encoded is selected. If the process determines that the map is complete and that all of the map portions have been encoded, the process ends. In some embodiments, the map portions are assembled "on the fly," that is, during the encoding process. In other embodiments, the map portions are encoded and at the very end, all of the various map portions are assembled in step 614. After the overall map has been determined in step 602, the process shown in Figure 6, attempts to reduce the overall amount of information that needs to be transmitted. One way to accomplish this reduction in data is to use relative or absolute coordinates to define various objects on a map. In an absolute coordinate system, each coordinate is expressed independently from other coordinates.
- an absolute coordinate includes two bytes of data. One byte is used for the value of one axis, and the other byte is used for the value of the other axis.
- a single absolute coordinate can be expressed as (X1 , Y1 ) where X1 is the x-axis value and Y1 is the y-axis value of the coordinate.
- one byte is used to define X1 and a second byte is used to define Y1.
- two bytes are used to define each coordinate. If a map were to include two coordinates, then four bytes would be used to the two coordinates.
- the first coordinate would be (X1, Y1) and the second coordinate would be (X2, Y2).
- two bytes would be used to define X1 and Y1.
- Two bytes would also be used to define the second coordinate; one byte for X2 and a second byte for Y2.
- a total of four bytes would be used to define two coordinates using the absolute coordinate system.
- relative coordinates preferably use an initial absolute coordinate, and one or more subsequent coordinates that are defined in relation to the initial coordinate. For example, consider a situation where two coordinates are defined using a relative coordinate system. The first coordinate (X3, Y3) would be defined using an absolute coordinate system and the second coordinate, (X4, Y4) would be defined relative to the first coordinate.
- the values associated with the second coordinate are expressed as differences or displacements from the first coordinate.
- the X-axis value would be X4-X3 or dX and the Y-axis value would be Y4-Y3 or dY.
- the first coordinate would be (X3, Y3) and the second coordinate would be expressed as (dX, dY).
- the expression (dX, dY) is encoded as a single byte. In a preferred embodiment, a portion of the byte is used to express dX and another portion of the byte is used to express dY.
- the byte is divided into two halves, and the first half is used to express dX while the second half is used to express dY.
- Any suitable byte length can be used.
- a byte comprises eight (8) bits.
- the first four bits would be used to express dX and the next four bits would be used to express dY.
- a byte is comprised of 16 bits.
- the first eight bits would be used to express dX and the next eight bits would be used to express dY.
- bytes can include 32, 64, 128, 256, 512, 1024 or any other number of bits.
- the principles of encoding a two axis displacement into a single byte can be applied.
- two bytes are required when using an absolute coordinate system while only three bytes are required when using a relative coordinate system.
- the relative coordinate system more efficiently encodes the data.
- an absolute coordinate system is advantageous.
- One example is a long, straight road. The road can be defined by its two end points. In absolute coordinates, the two end points would require four bytes. However, in relative coordinates, many intermediate points may be required. This is because of the limited bit length available for each displacement step. Because of this, a relative coordinate system may require many intermediate points to define the entire road. In sum, both systems have their advantages and disadvantages.
- FIG. 7 is schematic diagram of an example of a map 702 that has been divided into regions. As shown in Figure 7, map 702 includes some regions where absolute coordinates have been used. These regions are symbolized on map 702 with the letter "A.” Map 702 also includes regions where relative coordinates have been used.
- map 702 with the letter "R."
- the coordinate system that requires the smallest amount of information to accurately represent the relevant data for that particular region is selected.
- a relative coordinate system requires less information to define the desired map elements or a particular region
- an absolute coordinate system is used.
- individual map features are represented in one coordinate system, while other similar map features are represented using the other coordinate system.
- a map feature is any item or entity that can appear on a map. Some examples of map features include streets or roads, landmarks, points of interest, parks, commercial areas, parking lots, and geographic features like mountain ranges and bodies of water.
- Figure 8 is an example of distinct coordinate systems representing similar map features.
- map portion 802 which includes a first road 804 and a second road 806.
- First road 804 generally extends west to east, while second road 806 generally extends north to south.
- First and second roads 804 and 806 meet at intersection 808.
- 804 can be represented with less information using a relative coordinate system than if an absolute coordinate system were used.
- a relative coordinate system is used to represent first road 804.
- second road 806 can be represented in absolute coordinates more efficiently, that is, with less data, than with relative coordinates.
- absolute coordinates would be selected for second road 806. In this way, similar map features within a particular map region are represented using different coordinate systems.
- FIG. 9 is a schematic diagram of an example map region 902. Although any map feature can be represented with two different coordinate systems, Figure 9 provides an example of a road 904 that is represented by two different coordinate systems. Road 904 includes a first portion 906 and a second portion 908. In the example shown in Figure 9, first portion 906 is more efficiently represented using relative coordinates. That means that first portion 906 can be represented by less information if relative coordinates are used, than if absolute coordinates are used. In contrast, second portion 908 is more efficiently represented in absolute coordinates. Preferably, in order to most efficiently encode road 904, a relative coordinate system is used to represent first portion 906 and an absolute coordinate system is used to represent second portion 908.
- different axes of a single map feature are represented using different coordinate systems.
- One example of this is a situation where the X-axis of a particular map feature is more efficiently represented using absolute coordinates and the Y-axis of the same map feature is more efficiently represented using relative coordinates.
- the X-axis of the map feature can be represented in absolute coordinates while the Y-axis can be represented in relative coordinates.
- Some embodiments include provisions to reduce the size of information transmitted from service provider 108 to OBU 500. Although the following procedure can be performed in any step shown in Figure 5, it is preferred that the following procedure be performed in step 510. The following procedure reduces the size of information by removing duplicate information.
- FIG 10 is an example of map with five roads labeled E, F, G, L M and N.
- Each of the roads are comprised of one or more segments.
- road E is comprised of segments E1, E2, E3, E4, E5 and E6.
- Road F is comprised of segments F1, F2, F3, F4, F5, F6, F7, F8 and F9.
- the other roads are also comprised of various segments as shown in Figure 10.
- Figure 11 is a schematic diagram of Figure 10 with route 1102.
- Route 1102 includes the following segments: N1, N2, N3, E3, L4, L5, L6 and 17.
- Figure BC is a schematic diagram of information related to map 1002.
- Each of the boxes in Figure BC contains a segment label, and those segment labels represent information used to define the segment.
- each segment is defined by an initial XY coordinate and a final XY coordinate.
- each segment is defined by an initial XY coordinate and a displacement.
- example route 1102 includes segments N1 , N2, N3, E3, L4, L5, L6 and L7, for a total of eight (8) segments.
- Information related to the segments associated with route 1102 is then prepared and/or sent. In this example, information related to a total of forty two (42) segments required to define map 1002 and route 1102 on map 1002.
- FIG. 14 is a schematic diagram of a preferred embodiment of a method for preparing and/or sending map and route information.
- route information is prepared and is established as the first set of information. Map information other than the route information is placed after the route information.
- information associated with route 1102 is expressed as segments: N1, N2, N3, E3, L4, L5, L6 and L7, as shown in Figure 13.
- this route information is placed or transmitted first.
- Figure 14 which is a schematic diagram of a preferred embodiment of information related to map 1002 and route 1102
- information related to route 1102 is placed before other information.
- Other non-route information is placed after route 1102 information.
- a separation character is placed between route 1102 information and other non-route information.
- a header is provided before any information is sent. This header can include information regarding the end of route 1102 information and the beginning of other' non-route information.
- the header can include the number of segments of route 1102 information. In other cases, the header can include a name, label or other indicia of the last segment of route information. This results in a total of thirty four (34) segments. Using this technique, the redundancy of expressing and transmitting route information is eliminated, and only 34 segments are required to express map 1002 and route 1102 as opposed to forty two (42) segments. In some embodiments, different portions of a map or route are defined using different levels of detail. In some cases, certain regions are defined in greater detail than other regions. Referring to Figure 16, which is a preferred embodiment of an example map 1602, a route 1604 has been determined.
- a first region 1606 proximate route 1604 is encoded or established with a first level of detail.
- this first level of detail accurately portrays many map features, for example, small side streets and roads, detailed information regarding intersections, points of interest, information regarding businesses and other detailed information.
- this first level of detail includes full detail or all available information.
- First region 1606 can extend a predetermined distance from route 1604. In some cases, first region 1606 extends further away from route 1604 in some places than in other places.
- first region 1606 extends further away from route 1604 at its endpoints than at other portions of route 1604.
- route 1604 includes a starting point 1608 and an destination point 1610.
- Starting point 1608 is preferably used to represent the starting point of route 1604, and includes a starting point first region 1612 disposed about starting point 1608.
- starting point first region 1612 surrounds starting point 1608.
- starting point first region 1612 does not completely surround starting point 1608.
- destination point 1610 is used to represent the destination point of route 1604.
- destination point 1610 includes a destination point first region 1614 disposed about destination point 1610.
- destination point first region 1614 surrounds destination point 1610. In other embodiments, destination point first region 1614 does not completely surround destination point 1610.
- Starting point 1608 and destination point 1610 can be referred to as end points. End points are disposed at outer ends of a given route. Preferably, the size of first region 1606 is different near the end points than for other points along route 1604. End point first regions can also have different shapes than the shape of first region 1606 along route 1604.
- Figures 17 and 18 are schematic diagrams of embodiments of end point first regions. The embodiments of end points shown in Figures 17 and 18 can be applied to ether starting point 1608 or destination point 1610 or both.
- end point 1702 can be seen in Figure 17, along with a preferred embodiment of an destination point first region 1704 associated with end point 1702.
- end point first region 1704 includes a boundary comprising first side 1710, second side 1712, third side 1714 and forth side 1716.
- first and second sides 1710 and 1712, respectively are preferably disposed on either side of end point 1702 and third and fourth sides 1714 and 1716, respectively, are disposed above and below end point 1702.
- first side 1710 and second side 1712 are vertical, in other embodiments, they are angled, curved or irregular.
- third side 1714 and fourth side 1716 are horizontal, in other embodiments, they are angled, curved or irregular.
- First side 1710 is spaced from end point 1702 a distance of about 1706 and second side is also spaced a distance of about 1706 from end point 1702.
- Third side 1714 is spaced from end point 1702 a distance of about 1708 and fourth side 1716 is spaced from end point 1702 a distance of about 1708.
- This provides an end point first region 1704 having dimensions 2*1706 X 2*1708, where 1706 and 1708 are not literal distance dimensions or lengths, but rather represent the respective distances between a side and end point 1702.
- end point 1702 is roughly centered within end point first region 1704, in other embodiments, end point 1702 is disposed at a location that is not centered about end point first region 1704.
- Figure 18 shows another embodiment of an end point first region 804 and its associated end point 1802.
- end point first region 1804 has a generalized shape. Different portions of end point first region 1804 are spaced different distances from end point 1802 than other portions.
- first portion 1810 is spaced from end point 1802 by a distance of about 1806 and second portion 1812 is spaced from end point 1802 by a distance of about 1808.
- end point first region 1804 can be applied to either starting point first region 1612 or destination point first region 1614 or both.
- a comparison can be made between the extent or relative size of the first region 1606 associated with route 1604 and the first region associated with an end point.
- the relative size of a portion of the first region associated with an end point is larger than the size of a first region associated with route 1604.
- first region 1606 generally extends in a distance normal or perpendicular to route 1604.
- first region 1606 follows this meandering path and the outer boundaries of first region 1606 generally remain parallel to route 1604 on either side.
- the boundaries of first region 1606 can be truncated, cut, or otherwise modified around turns. These modifications can be made to facilitate rapid computation of the size and boundary of first region 1606, or these modifications can be made when an approximation, as opposed to an exact distance, is desired.
- portions of first region 1606 extend a distance 1618 away from route 1604. It is possible for some portions of first region 1606 to extend further away from route 1604 than distance 1618, and it is also possible for some other portions of first region 1606 to remain closer to route 1604 than distance 1618.
- first region 1606 extends in roughly equal distances on one side of route 1604 as on the other side. Although these distances can vary, equal distances are generally preferred. Given this arrangement, the width of first region 1606 is approximately twice distance 1618 or 2 * (1618), where 1618 is not a literal number or length measurement, but a representation of the distance from route 1604 to the outer boundary of first region 1606, as shown in Figure 16.
- first region 1606 can be compared with the size of a first region associated with an end point.
- starting point first region 1612 has the characteristics of end point first region 1704 as shown in Figure 17.
- end point first region 1704 includes first and second sides 1710 and 1712. These sides are spaced a distance 1706 from end point 1702.
- the distance 1706 from end point 1702 to first side 1710 is greater than the distance 1618 between route 1604 and an outer boundary of first region 1606.
- End point first region 1704 also includes third and fourth sides 1714 and 1716, respectively. The distance between these sides and end point 1703 is 1708.
- the distance 1708 from end point 1702 to third side 1714 is greater than the distance 1618 between route 1604 and an outer boundary of first region 1606.
- distance 1706 and 1708 are both considered and compared with distance 1618, other embodiments can be observed.
- distance 1706 is roughly equal to distance 1708. This provides a generally square shaped end point first region 1704.
- the distance 1706 is not equal to distance 1708, resulting in a rectangular end point first region 1704.
- both distances 1706 and 1708 are greater than distance 1618.
- one of the distances 1706 or 1708 is greater than distance 1618, while the other distance is less than distance 1618.
- distance 1618 is greater than either distance 1706 or 1708. In a preferred embodiment, both distances 1706 and 1708 are greater than distance 1618.
- Figure 18 shows another embodiment of an end point 1802 and its associated end point first region 1804, as disclosed above. Recall that end point first region 1802 includes a first portion 1810 that is spaced a distance 1806 from end point 1802 and a second portion 1812 that is spaced a distance 1808 from end point 1802. These distances 1810 and 1812, can be compared with distance 1618. In some embodiments, both distances 1810 and 1812 are greater than distance 1618. In other embodiments, one of the distances 1810 or 1812 is greater than distance 1618, while the other distance is less than distance 1618.
- distance 1618 is greater than either distance 1810 or 1812.
- some embodiments also include a second region 1620.
- second region 1620 includes less detail than first region 1606.
- small side streets, one class or type of navigation information may be omitted in second region 1620 but may be represented in first region 1606.
- Business names could be another example.
- First region 1606 may represent or include certain business names, while second region 1620 omits these items of navigation information.
- second region 1620 includes major arteries, like interstate highways, major geographic features, like major bodies of water, and other major or significant features like bridges, national parks, airports, and major political subdivisions, like state lines and city limits.
- third region 1616 includes all areas or portions of map 1602 that is not defined by any other portion.
- third region 1616 includes portions of map 1602 that is not described or defined by first region 1606 or second region 1620.
- third region 1616 includes less detail than second region 1620. Again, items or classes of navigation information can be omitted in third region 1616 that is described in second region 1620.
- third region 1616 includes no navigation information.
- This process formats and prepares navigation information for efficient transmission. Information far from a desired route is simplified or eliminated and information near the desired route is provided in greater detail. Essential and useful information near the route is retained, while information far from the route is simplified or condensed. In this way, essential and useful information is made available, while information that is not likely to be used is discarded or simplified. Navigation information can also be transmitted in a way to improve the availability of the navigation information and to provide useful information more quickly to a user. In one embodiment, this is accomplished by sending the navigation information in a particular order.
- Figures 19 to 22 are flow diagrams of various different embodiments showing different ways to transmit navigation information to an OBU.
- these four discreet items of data are sent in a predetermined order.
- Entire Route Map is transmitted first, then Detail of Starting Point, then Detail of Destination Point and finally, Detail Along Route.
- the intent is to allow the user to commence the journey as soon as possible.
- the Entire Route Map which would include directions along the route, is transmitted first. In some cases, this allows the user to begin driving without having to wait until all of the information is sent to the OBU.
- Entire Route Map is transmitted first, then Detail of Starting Point, then Detail Along Route, and finally, Detail of Destination Point. This embodiment is similar to the embodiment shown in Figure 19 except the last two steps are reversed.
- This embodiment can be used when the user is familiar with the destination point and it would be more helpful to the user to receive details along the route before details of the destination are received.
- Detail of Starting Point is transmitted first, then Entire Route Map, then Detail of Destination Point and finally, Detail Along Route.
- This embodiment can be used when the user is unfamiliar with the current surroundings and the current starting point. Details of the starting point may be helpful in assisting the user in finding the route. In this case, details of the starting point would be the most helpful information and would help the user to commence the journey as soon as possible.
- Detail of Destination Point is transmitted first, then Entire Route Map, then Detail of Starting Point and finally, Detail Along Route.
- This embodiment can be used when the user is unfamiliar with the destination point and wants to confirm that the navigation information is correct and is likely to provide correct driving directions. In these instances, details of the destination would be the most helpful information for the user to receive first.
- the above embodiments are exemplary. Clearly other embodiments are also possible, and the order of delivery can be adjusted or selected to suit a particular need or situation. Referring to Figures 19 to 22 and Figure 5, preferably, the various embodiments showing different transmission sequences for the four types of data occur in step 512 where navigation information is sent from service provider 108 to OBU 500.
- Each of the various components or features disclosed can be used alone or with other components or features. Each of the components or features can be considered discrete and independent building blocks.
- the present invention can be used to assist in sending navigation information to a motor vehicle.
- the invention can be used to gather various items of navigation information and send those items of navigation information in a certain order to a motor vehicle.
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Abstract
Description
Claims
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP04815383A EP1702198A4 (en) | 2003-12-23 | 2004-12-22 | Prioritized delivery of navigation information |
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US53166403P | 2003-12-23 | 2003-12-23 | |
US60/531,664 | 2003-12-23 | ||
US10/848,576 US7480561B2 (en) | 2003-12-23 | 2004-05-19 | Prioritized delivery of navigation information |
US10/848,576 | 2004-05-19 |
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WO2005062926A2 true WO2005062926A2 (en) | 2005-07-14 |
WO2005062926A3 WO2005062926A3 (en) | 2006-01-05 |
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EP (1) | EP1702198A4 (en) |
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Also Published As
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EP1702198A2 (en) | 2006-09-20 |
EP1702198A4 (en) | 2010-01-20 |
US20050137789A1 (en) | 2005-06-23 |
US7480561B2 (en) | 2009-01-20 |
WO2005062926A3 (en) | 2006-01-05 |
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