Wireless Vehicle Communication Method Utilizing Wired Backbone

US 20090323578A1
Filed: 06/25/2008
Published: 12/31/2009
Est. Priority Date: 06/25/2008
Status: Abandoned Application

First Claim

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1. A method for providing electronic communications between nodes of a vehicle, the method comprising the steps of:

electronically connecting a plurality of gateway nodes to one another via a wired backbone, including electronically connecting a first of the gateway nodes to the wired backbone and electronically connecting a second of the gateway nodes to the wired backbone;

wirelessly communicatively coupling a plurality of sub-network nodes to each of the plurality of gateway nodes, including wirelessly communicatively coupling a plurality of first sub-network nodes to the first gateway node, and wirelessly communicatively coupling a plurality of second sub-network nodes to the second gateway node; and

transmitting a message from a selected said first sub-network node to a selected said second sub-network node by using a data routing technique,wherein the data routing technique includes the steps of the selected first sub-network node wirelessly transmitting the message to the first gateway node;

the first gateway node receiving the message and, in response thereto, the first gateway node broadcasting the message on the wired backbone;

the second gateway node receiving the message on the wired backbone and, in response thereto, the second gateway node wirelessly transmitting the message to the selected second sub-network node.

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Abstract

A method for providing electronic communications between nodes of a vehicle includes electronically connecting a plurality of gateway nodes to one another via a wired backbone. A first and second of the gateway nodes are electronically connected to the wired backbone. A plurality of sub-network nodes are wirelessly communicatively coupled to each of the plurality of gateway nodes. A plurality of first sub-network nodes are wirelessly communicatively coupled to the first gateway node. A plurality of second sub-network nodes are wirelessly communicatively coupled to the second gateway node. A message is transmitted from a selected first sub-network node to a selected second sub-network node by using a data routing technique. The data routing technique includes the selected first sub-network node wirelessly transmitting the message to the first gateway node. The first gateway node receives the message and, in response thereto, the first gateway node broadcasts the message on the wired backbone. The second gateway node receives the message on the wired backbone and, in response thereto, the second gateway node wirelessly transmits the message to the selected second sub-network node.

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20 Claims

1. A method for providing electronic communications between nodes of a vehicle, the method comprising the steps of:
- electronically connecting a plurality of gateway nodes to one another via a wired backbone, including electronically connecting a first of the gateway nodes to the wired backbone and electronically connecting a second of the gateway nodes to the wired backbone;
  
  wirelessly communicatively coupling a plurality of sub-network nodes to each of the plurality of gateway nodes, including wirelessly communicatively coupling a plurality of first sub-network nodes to the first gateway node, and wirelessly communicatively coupling a plurality of second sub-network nodes to the second gateway node; and
  
  transmitting a message from a selected said first sub-network node to a selected said second sub-network node by using a data routing technique,wherein the data routing technique includes the steps of the selected first sub-network node wirelessly transmitting the message to the first gateway node;
  
  the first gateway node receiving the message and, in response thereto, the first gateway node broadcasting the message on the wired backbone;
  
  the second gateway node receiving the message on the wired backbone and, in response thereto, the second gateway node wirelessly transmitting the message to the selected second sub-network node.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The method of claim 1 wherein the message includes a distinct identifier, a subset of the second sub-network nodes comprising subscribing nodes, the subscribing nodes subscribing to the distinct identifier.
  - 3. The method of claim 2 wherein the data routing technique is a flooding technique in which the message broadcasted on the wired backbone by the first gateway node is received by each other one of the plurality of gateway nodes and, in response thereto, each other one of the plurality of gateway nodes broadcasts the message to each of the plurality of sub-network nodes electronically coupled thereto;
    - only the subscribing nodes accepting the message, said selected second sub-network node being a subscribing node.
  - 4. The method of claim 2 wherein the data routing technique is a selective multicast technique in which the message broadcasted on the wired backbone by the first gateway node is received by each other one of the plurality of gateway nodes and, in response thereto, only those of the plurality of gateway nodes that are coupled to at least one of the subscribing nodes broadcast the message to the sub-network nodes coupled thereto, said selected second sub-network node being a subscribing node and, therefore, said second gateway node broadcasts the message to the selected second sub-network node coupled thereto.
  - 5. The method of claim 1 wherein the wired backbone includes a network protocol, the protocol being one of a CAN protocol, a FlexRay protocol and an Ethernet protocol.
  - 6. The method of claim 1 wherein the step of transmitting a message from a selected said first sub-network node to a selected said second sub-network node by using a data routing technique includes the steps of the selected first sub-network node wirelessly broadcasting the message to the first gateway node using a first frequency;
    - and the second gateway node wirelessly broadcasting the message to the selected second sub-network node using a second frequency, the second frequency being different from the first frequency.
  - 7. The method of claim 1 further comprising the step of electronically connecting a body computer to the wired backbone, the body computer selecting at least one frequency on which wireless communication is conducted between the gateway nodes and the sub-network nodes.
  - 8. The method of claim 7 wherein the body computer periodically selects different frequencies on which wireless communication is conducted between the gateway nodes and the sub-network nodes.

9. A method for providing electronic communications between nodes of a vehicle, the method comprising the steps of:
- electronically connecting a plurality of gateway nodes to one another via a wired backbone, including electronically connecting a first of the gateway nodes to the wired backbone and electronically connecting a second of the gateway nodes to the wired backbone;
  
  wirelessly communicatively coupling a plurality of sub-network nodes to respective ones of the plurality of gateway nodes, including wirelessly communicatively coupling a plurality of first sub-network nodes to the first gateway node, and wirelessly communicatively coupling a plurality of second sub-network nodes to the second gateway node; and
  
  transmitting a message including a distinct identifier, the message being transmitted from a selected said first sub-network node to a selected said second sub-network node by using a selective multicast data routing technique, at least one of the plurality of sub-network nodes being a subscribing node, the at least one subscribing node subscribing to the distinct identifier;
  
  wherein the selective multicast data routing technique includes the steps of the selected first sub-network node wirelessly transmitting the message to the first gateway node;
  
  the first gateway node receiving the message and, in response thereto, the first gateway node broadcasting the message on the wired backbone;
  
  each other one of the plurality of gateway nodes receiving the message broadcasted on the wired backbone by the first gateway node and, in response thereto, only those of the plurality of gateway nodes that are coupled to at least one of the subscribing nodes broadcast the message to the plurality of sub-network nodes coupled thereto, said selected second sub-network node being a subscribing node.
- View Dependent Claims (10, 11, 12, 13)
- - 10. The method of claim 9 wherein the wired backbone includes a network protocol, the protocol being one of a CAN protocol, a FlexRay protocol and an Ethernet protocol.
  - 11. The method of claim 9 wherein the step of transmitting a message from a selected said first sub-network node to a selected said second sub-network node by using a selective multicast data routing technique includes the steps of the selected first sub-network node wirelessly broadcasting the message to the first gateway node using a first frequency;
    - and the second gateway node wirelessly broadcasting the message to the selected second sub-network node using a second frequency, the second frequency being different from the first frequency.
  - 12. The method of claim 9 further comprising the step of electronically connecting a body computer to the wired backbone, the body computer selecting one or more frequencies on which wireless communication is conducted between the gateway nodes and the sub-network nodes.
  - 13. The method of claim 12 wherein the body computer periodically selects different frequencies on which wireless communication is conducted between the gateway nodes and the sub-network nodes.

14. A method for providing electronic communications between nodes of a vehicle, the method comprising the steps of:
- electronically connecting a plurality of gateway nodes to one another via a wired backbone, including electronically connecting a first of the gateway nodes to the wired backbone and electronically connecting a second of the gateway nodes to the wired backbone;
  
  wirelessly communicatively coupling a plurality of sub-network nodes to each of the plurality of gateway nodes, including wirelessly communicatively coupling a plurality of first sub-network nodes to the first gateway node, and wirelessly communicatively coupling a plurality of second sub-network nodes to the second gateway node; and
  
  transmitting a message from a selected said first sub-network node to a selected said second sub-network node by using a data routing technique,wherein the data routing technique includes the steps of the selected first sub-network node wirelessly transmitting the message to the first gateway node using a first frequency;
  
  the first gateway node receiving the message and, in response thereto, the first gateway node broadcasting the message on the wired backbone;
  
  the second gateway node receiving the message and, in response thereto, the second gateway node wirelessly transmitting the message to the selected second sub-network node using a second frequency, the second frequency being different from the first frequency.
- View Dependent Claims (15, 16, 17, 18, 19, 20)
- - 15. The method of claim 14 wherein the message includes a distinct identifier, a subset of the second sub-network nodes comprising subscribing nodes, the subscribing nodes subscribing to the distinct identifier.
  - 16. The method of claim 15 wherein the data routing technique employs the steps of:
    - the first gateway node communicating the message on the wired backbone via a wired connection;
      
      each other one of the plurality of gateway nodes receiving the message on the wired backbone and, in response thereto, each other one of the plurality of gateway nodes broadcasting the message to each of the plurality of sub-network nodes electronically coupled thereto; and
      
      only the subscribing nodes accepting the message, the selected second sub-network node being a subscribing node.
  - 17. The method of claim 15 wherein the data routing technique employs the steps of:
    - the first gateway node communicating the message on the wired backbone via a wired connection;
      
      each other one of the plurality of gateway nodes receiving the message and, in response thereto, only those of the plurality of gateway nodes that are coupled to subscribing nodes broadcasting the message to the sub-network nodes connected thereto, said selected second sub-network node being a subscribing node and, therefore, said second gateway node broadcasts the message to the selected second sub-network node coupled thereto.
  - 18. The method of claim 14 wherein the wired backbone includes a network protocol, the protocol being one of a CAN protocol, a FlexRay protocol and an Ethernet protocol.
  - 19. The method of claim 14 further comprising the step of electronically connecting a body computer to the wired backbone, the body computer selecting one or more frequencies at which wireless communication is conducted between the gateway nodes and the sub-network nodes.
  - 20. The method of claim 14 wherein the body computer periodically selects different frequencies on which wireless communication is conducted between the gateway nodes and the sub-network nodes.

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Current Assignee
Robert Bosch GmbH
Original Assignee
Robert Bosch GmbH
Inventors
Jain, Vivek, Hogenmueller, Thomas Alfons

Application Number

US12/145,989
Publication Number

US 20090323578A1
Time in Patent Office

Days
Field of Search
US Class Current

370/315
CPC Class Codes

H04L 12/40   Bus networks

H04L 12/46   Interconnection of networks

H04L 12/4616   LAN interconnection over a ...

H04L 12/66   Arrangements for connecting...

H04L 2012/40215   Controller Area Network CAN

H04L 2012/40241   Flexray

H04L 2012/40273   the transportation system b...

H04L 45/16   Multipoint routing

H04L 45/32   Flooding denial of service ...

H04W 40/02   Communication route or path...

H04W 84/22   with access to wired networks

H04W 88/16   Gateway arrangements

Wireless Vehicle Communication Method Utilizing Wired Backbone

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Wireless Vehicle Communication Method Utilizing Wired Backbone

First Claim

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Abstract

Citations

20 Claims

Specification

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Use Cases

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