VEHICLE COMMUNICATIONS VIA WIRELESS ACCESS VEHICULAR ENVIRONMENT
First Claim
1. An On-board unit (OBU) comprising:
- at least one processor running at least one computer program adapted to enable the OBU to;
(i) comply with IEEE 802.11p Wireless Access Vehicular Environment (WAVE) functionality, including the IEEE 1609 suite of specifications;
(ii) process a IEEE 1609.1 WAVE Services Announcements (WSA) from an RSU to acquire a User Datagram Protocol (UDP) port and Internet Protocol version 6 (IPv6) address of a UDP/IPv6-based geo-location service from which the geo-location of said RSU may be acquired;
(iii) acquire from said WSA at least one Received Signal Strength Indicator (RSSI) value associated with Radio Frequency (RF) reception by said RSU of IEEE 802.11p frames transmitted from at least one neighboring RSU;
(iv) acquire from said WSA the Medium Access Control (MAC) address of said at least one neighboring RSU;
(v) use said at least one RSSI value and said MAC address of said at least one neighboring RSU, acquired from said WSA, to calibrate the distance, estimated according to the RSSI associated with said WSA received by said OBU, thereby improving the accuracy of the inputs to a multi-lateration algorithm used to geo-locate said OBU.
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Accused Products
Abstract
Vehicle Communications using IEEE 802.11p WAVE functionality includes structure and method whereby a smart phone (SP) linked to an On Board Unit (OBU) having WAVE functionality, and incorporating Automotive Telemetry Protocol (ATP), has at least one processor to configure the SP as a GUI for the OBU, and to enable WAVE authentication of the SP through a networked Road Side Unit. Preferably, the OBU opens, after a command from an ATP Client, a virtual connection for streaming data between the vehicle data bus and a remote server providing an automotive scan tool. Also preferably, the SP may use either cellular or IEEE 802.11 control signals to trialaterate its geographic position with greater accuracy than GPS, and to hand off the geo-position fixes to the OBU. Accumulated geo-location information may be reported to a remote server, providing a centralized geographic trend analysis of plural SPs operating with OBUs.
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Citations
7 Claims
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1. An On-board unit (OBU) comprising:
at least one processor running at least one computer program adapted to enable the OBU to; (i) comply with IEEE 802.11p Wireless Access Vehicular Environment (WAVE) functionality, including the IEEE 1609 suite of specifications; (ii) process a IEEE 1609.1 WAVE Services Announcements (WSA) from an RSU to acquire a User Datagram Protocol (UDP) port and Internet Protocol version 6 (IPv6) address of a UDP/IPv6-based geo-location service from which the geo-location of said RSU may be acquired; (iii) acquire from said WSA at least one Received Signal Strength Indicator (RSSI) value associated with Radio Frequency (RF) reception by said RSU of IEEE 802.11p frames transmitted from at least one neighboring RSU; (iv) acquire from said WSA the Medium Access Control (MAC) address of said at least one neighboring RSU; (v) use said at least one RSSI value and said MAC address of said at least one neighboring RSU, acquired from said WSA, to calibrate the distance, estimated according to the RSSI associated with said WSA received by said OBU, thereby improving the accuracy of the inputs to a multi-lateration algorithm used to geo-locate said OBU. - View Dependent Claims (2, 3)
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4. An On-board unit (OBU) comprising:
at least one processor running at least one computer program adapted to enable the OBU to; (i) comply with IEEE 802.11p Wireless Access Vehicular Environment (WAVE) functionality, including the IEEE 1609 suite of specifications; and (ii) process a IEEE 1609.1 WAVE Services Announcement (WSA) from an RSU to acquire a User Datagram Protocol (UDP) port and Internet Protocol version 6 (IPv6) address of a remote Roadway Authorization Server (RAS); (iii) issue a UDP/IPv6 authorization request to said RAS; (iv) process an authentication challenge from said RAS; and (v) respond to said authentication challenge from said RAS according to the security provisions of IEEE 1609.2. - View Dependent Claims (5)
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6. A vehicle on-board-unit (OBU) comprising:
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at least one processor running at least one computer program configured to enable the OBU to (i) comply with IEEE 802.11p Wireless Access Vehicular Environment (WAVE) functionality, including the IEEE 1609 suite of specifications and (ii) trilaterlate position fixes based on the geo-location of roadside units (RSUs) from which it can receive periodic WAVE service advertisements and the variable signal strength indicated in said advertisements. wherein the at least one processor running the at least one computer program is configured to open, on reception of a mobile-terminated command from an ATP Client, a virtual streaming connection between the OBD-II port and a remote computer program performing the functions of an automotive scan tool, and to close said virtual connection when (i) a closure is initiated by a remote scan tool user, (ii) loss of communications with a vehicle data bus is detected, (iii) a closure notification is issued from an intermediary maintaining the streaming connection, or (iv) automotive events have occurred requiring immediate ATP communications which necessitate the closure of the streaming connection.
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7. A vehicle on-board-unit (OBU) comprising:
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at least one processor running at least one computer program adapted to enable the OBU to comply with (i) IEEE 802.11p Wireless Access Vehicular Environment (WAVE) functionality, and (ii) the Automotive Telemetry Protocol, wherein the at least one processor running the at least one computer program is adapted to open, on reception of a mobile-terminated command from an authorized ATP Client, a virtual streaming connection between the OBD-II port and a remote computer program performing the functions of an automotive scan tool, and to close said virtual connection when (i) a closure is initiated by remote scan tool user, (ii) loss of communications with the vehicle data bus is detected, (iii) a closure notification is issued from an intermediary responsible for maintaining the streaming connection, or (iv) automotive events have occurred requiring immediate ATP communications which necessitate the closure of the streaming connection.
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Specification