IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0247283
(2008-10-08)
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등록번호 |
US-8345695
(2013-01-01)
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발명자
/ 주소 |
- Prasad, Bharat
- Billman, Bradly Jay
- Oakes, Charles Lee
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출원인 / 주소 |
- United Services Automobile Association (USAA)
|
대리인 / 주소 |
Brooks, Cameron & Huebsch, PLLC
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인용정보 |
피인용 횟수 :
0 인용 특허 :
5 |
초록
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A system has a plurality of communications devices within a geographic area. Each device is capable of communicating from within the geographic area with any other device proximate the device, and is also capable of communicating from within the geographic area with a communications service having a
A system has a plurality of communications devices within a geographic area. Each device is capable of communicating from within the geographic area with any other device proximate the device, and is also capable of communicating from within the geographic area with a communications service having access to an area external to the geographic area if such communications service is operational and available to the device. At least one of the devices is a gateway device that communicates from within the geographic area with the communications service, and at least some of the devices are non-gateway devices that communicate from within the geographic area with the gateway device. Each non-gateway device communicates from within the geographic area with the area external thereto by way of the gateway device and the communications service communicated with by the gateway device.
대표청구항
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1. A non-transitory computer-readable storage medium comprising instructions executable by a processor to: allow each of a plurality of devices of a network to communicate within a first geographic area with other devices proximate the device, each device also being capable of communicating from wit
1. A non-transitory computer-readable storage medium comprising instructions executable by a processor to: allow each of a plurality of devices of a network to communicate within a first geographic area with other devices proximate the device, each device also being capable of communicating from within the first geographic area to a second geographic area, external to the first geographic area, using an available communications service having access to the external second geographic area, wherein an entry of a device into the network includes the entering device: measuring a signal strength of a number of other devices of the network; andtransmitting an available message via a transceiver associated with the entering device subsequent to the entry of the entering device;allow access to the second geographic area via a primary gateway device when communications are not disrupted;allow at least one of the devices to become a secondary gateway device when a signal from the primary gateway communication has been lost, wherein the secondary gateway device communicates from within the first geographic area to the second geographic area;allow each of at least some of the devices to become a non-gateway device that communicates from within the first geographic area with the secondary gateway device; andallow each non-gateway device to send data from the first geographic area to the second geographic area via the secondary gateway device using the communications service; and wherein each device includes network policing functionality for performing handshaking and registration between devices, such network policing functionality allowing the device to communicate with another device only if such another device can be authenticated to the device. 2. The medium of claim 1, wherein each of at least some of the devices within the first geographic area is allowed to communicate from within the first geographic area with the secondary gateway device, such communication being one of directly with the gateway device and indirectly with the secondary gateway device by way of at least one other device. 3. The medium of claim 1, wherein the instructions executable to allow each non-gateway device to send data from the first geographic area to the second geographic area via the second gateway device using the communications service include instructions to: deliver the data from each device to a central server; anddeliver the data from the central server to the second geographic area, wherein the central server acts as a repository for all data awaiting delivery. 4. The medium of claim 1, wherein the instructions executable to allow each non-gateway device to send data from the first geographic area to the second geographic area via the second gateway device using the communications service include instructions to: deliver the data from each device to a central server; anddeliver the data from the central server to the second geographic area, wherein the central server is associated with one of a gateway device and a non-gateway device. 5. The medium of claim 1, wherein the instructions executable to allow each non-gateway device to send data from the first geographic area to the second geographic area via the second gateway device using the communications service include instructions to: deliver the data from each device to a central server; anddeliver the data from the central server to the second geographic area, wherein the central server stores rules regarding formation of the network. 6. A non-transitory computer-readable storage medium comprising instructions executable by a processor to: allow each of a plurality of devices of a network to communicate within a first geographic area with other devices proximate the device, each device also being capable of communicating from within the first geographic area to a second geographic area, external to the first geographic area, using an available communications service having access to the external second geographic area, wherein an entry of a device into the network includes the entering device: measuring a signal strength of a number of other devices of the network; andtransmitting an available message via a transceiver associated with the entering device subsequent to the entry of the entering device;allow access to the second geographic area via a primary gateway device when communications are not disrupted;allow at least one of the devices to become a secondary gateway device when a signal from the primary gateway communication has been lost, wherein the secondary gateway device communicates from within the first geographic area to the second geographic area;allow each of at least some of the devices to become a non-gateway device that communicates from within the first geographic area with the secondary gateway device; andallow each non-gateway device to send data from the first geographic area to the second geographic area via the secondary gateway device using the communications service; and wherein each provided device includes network policing functionality for performing handshaking and registration between devices, such network policing functionality allowing the device to communicate with another device only if such another device can be authenticated as being within the network. 7. The medium of claim 6, wherein each of at least some of the devices within the first geographic area is allowed to communicate from within the first geographic area with the secondary gateway device, such communication being one of directly with the gateway device and indirectly with the secondary gateway device by way of at least one other device. 8. The medium of claim 6, wherein each device includes a direct communications transceiver by which the device can directly communicate with other devices, a gateway communications transceiver by which the device can communicatively couple to a communications service, and a bridge communicatively linking the first and second transceivers when the device is a gateway device. 9. The medium of claim 6, wherein the instructions executable to allow each non-gateway device to send data from the first geographic area to the second geographic area via the second gateway device using the communications service include instructions to: deliver the data from each device to a central server; anddeliver the data from the central server to the second geographic area, wherein the central server acts as a repository for all data awaiting delivery. 10. The medium of claim 6, wherein the instructions executable to allow each non-gateway device to send data from the first geographic area to the second geographic area via the second gateway device using the communications service include instructions to: deliver the data from each device to a central server; anddeliver the data from the central server to the second geographic area, wherein the central server is associated with one of a gateway device and a non-gateway device. 11. The medium of claim 6, wherein the instructions executable to allow each non-gateway device to send data from the first geographic area to the second geographic area via the second gateway device using the communications service include instructions to: deliver the data from each device to a central server; anddeliver the data from the central server to the second geographic area, wherein the central server stores rules regarding formation of the network. 12. A non-transitory computer-readable storage medium comprising instructions executable by a processor to: allow each of a plurality of devices of a network to communicate within a first geographic area, with other devices proximate the device, each device also being capable of communicating from within the first geographic area to a second geographic area, external to the first geographic area, using an available communications service having access to the external second geographic area, wherein an entry of a device into the network includes the entering device: measuring a signal strength of a number of other devices of the network; andtransmitting an available message via a transceiver associated with the entering device subsequent to the entry of the entering device;associate a central server with one of the devices;allow access to the second geographic area via a primary gateway device when communications are not disrupted;allow at least one of the devices to become a secondary gateway device when a signal from the primary gateway communication has been lost, wherein the secondary gateway device communicates from within the first geographic area to the second geographic area; andallow each non-gateway device to send from the first geographic area to the second geographic area via the secondary gateway device using the communications service, the sent data from each device being delivered to the central server and stored thereat, and then being delivered from the central server to the second geographic area by way of the secondary gateway device and the communications service; and wherein each device includes network policing functionality for performing handshaking and registration between devices, such network policing functionality allowing the device to communicate with another device only if such another device can be authenticated to the device. 13. The medium of claim 12, wherein each of at least some of the devices within the first geographic area is allowed to communicate from within the first geographic area with the secondary gateway device, such communication being one of directly with the gateway device and indirectly with the secondary gateway device by way of at least one other device. 14. The medium of claim 12, wherein each device includes a first, direct communications transceiver by which the device can directly communicate with other devices, a second, gateway communications transceiver by which the device can communicatively couple to a communications service, and a bridge communicatively linking the first and second transceivers when the device is a gateway device. 15. The medium of claim 12, further comprising instructions executable to allow the central server to act as a repository for all data awaiting delivery. 16. The medium of claim 12, further comprising instructions to associate the central server with one of a gateway device and a non-gateway device.
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