초록 ▼

Methods and apparatus for efficiently communicating network connectivity information in a communications system are described. Two types of signals with different characteristics, e.g., long range synchronous beacons, e.g., LTE-D beacons, and short range asynchronous beacons, e.g., WiFi beacons, are

Methods and apparatus for efficiently communicating network connectivity information in a communications system are described. Two types of signals with different characteristics, e.g., long range synchronous beacons, e.g., LTE-D beacons, and short range asynchronous beacons, e.g., WiFi beacons, are used in combination to advertise network connectivity information and accelerate the acquisition of a routing path for a communications device to a device serving as a gateway for a infrastructure network. Reception of a first type signal triggers monitoring for a second type signal, and a received second type signal communicates information used to determine a communications path to a gateway device.

대표청구항 ▼

1. A communications method of operating a first communications device, the method comprising: receiving a first first type signal transmitted by an advertising device, said first first type signal advertising infrastructure network connectivity information corresponding to the advertising device;mak

1. A communications method of operating a first communications device, the method comprising: receiving a first first type signal transmitted by an advertising device, said first first type signal advertising infrastructure network connectivity information corresponding to the advertising device;making a decision, based on content of said received first first type signal, whether to switch from i) monitoring for second type signals during monitoring intervals which occur at a first time spacing to ii) monitoring for second type signals, without waiting for the occurrence of one of said monitoring intervals; andinitiating scanning for a second type signal in response to receiving said first first type signal. 2. The method of claim 1, wherein said infrastructure network connectivity information includes quality information about a communication path used by said advertising device to connect to an infrastructure network. 3. The method of claim 2, wherein said quality information includes information about a connection between a gateway device used by the advertising device and the infrastructure network, said information including a numerical quality metric value. 4. The method of claim 3, wherein said infrastructure network connectivity information includes one or more of the following: information indicating a number of peer to peer hops between the advertising device and the gateway device;information on quality of said peer to peer hops between the advertising device and the gateway device; orinformation indicating a mobility level of the advertising device. 5. The method of claim 1, wherein a first type signal has a longer transmission range than a second type signal. 6. The method of claim 5, wherein said first type signal is a wireless broadcast signal that corresponds to a first communications protocol and said second type signal is a second wireless broadcast signal that corresponds to a second communications protocol. 7. The method of claims 6 wherein said first type signal is synchronized to a time reference; and wherein said second type signal is unsynchronized or synchronized to a lesser degree than said first type signal. 8. The method of claim 1, wherein said first type signal is a wireless broadcast signal that corresponds to a first communications protocol and said second type signal is a second wireless broadcast signal that corresponds to a second communications protocol. 9. The method of claim 1, further comprising: updating infrastructure network connectivity information corresponding to the first communications device based on information in said received first first type signal. 10. The method of claim 9, further comprising: receiving a first second type signal; andupdating infrastructure network connectivity information corresponding to the first communications device based on information in said received first second type signal. 11. The method of claim 1, further comprising: receiving a first second type signal from a second communications device; andmaking a decision whether to handoff from another device to said second communications device based on said first second type signal received from the second communications device. 12. The method of claim 11, further comprising: determining a direction of motion relative to said advertising device based on at least one signal received from the advertising device; andwherein said decision whether to handoff is based on said determined direction of motion relative to said advertising device in addition to being based on said first second type broadcast signal. 13. The method of claim 1, further comprising: after receiving the first first type signal transmitted by the advertising device, determining a direction of motion relative to said advertising device based on one or more signals; andchanging a time spacing between a scan interval used for periodically scanning for signals of the first type and a scan interval used for periodically scanning for signals of the second type or changing a time spacing between scan intervals used for periodically scanning for signals of the second type, based on one or more of the following: said determined direction of motion relative to said advertising device, a current route quality metric, a received signal strength of said second type signal, or content of a received second type signal. 14. A first communications device (1300) comprising: a first type signal interface (1306) configured to receive a first first type signal transmitted by an advertising device, said first first type signal advertising infrastructure network connectivity information corresponding to the advertising device;a first type signal information recovery module (1402) configured to recover information communicated in a received first first type signal, said information including infrastructure network connectivity information;a monitoring decision module (1424) configured to make a decision whether to switch, based on the content of said received first first type signal, from i) monitoring for second type signals during monitoring intervals which occur at a first time spacing to ii) monitoring for second type signals, without waiting for the occurrence of one of said monitoring intervals; anda second type signal scan initiation module (1408) configured to initiate scanning for a second type signal in response to receiving said first first type signal. 15. The first communications device (1300) of claim 14, wherein said infrastructure network connectivity information includes quality information about a communication path used by said advertising device to connect to an infrastructure network. 16. The first communications device (1300) of claim 14, wherein said first type signal is a wireless broadcast signal that corresponds to a first communications protocol and said second type signal is a second wireless broadcast signal that corresponds to a second communications protocol. 17. The first communications device (1300) of claim 14, further comprising: an infrastructure network connectivity information updating module (1428) configured to update infrastructure network connectivity information corresponding to the first communications device based on information in said received first first type signal. 18. The first communications device (1300) of claim 14, further comprising: a second type signal interface (1308) configured to receive a first second type signal from a second communications device; anda handoff decision module (1430) configured to make a decision whether to handoff from another device to said second communications device based on said first second type signal received from the second communications device. 19. The first communications device (1300) of claim 14, further comprising: a direction determination module (1432) configured to determine a direction of motion relative to said advertising device based on one or more signals; anda scan timing change module (1434) configured to change a time spacing between a scan interval used for periodically scanning for signals of the first type and a scan interval used for periodically scanning for signals of the second type or changing a time spacing between scan intervals used for periodically scanning for signals of the second type, based on one or more of the following:said determined direction of motion relative to said advertising device, a route quality metric, a received signal strength of a second type signal, or content of a received second type signal. 20. A non-transitory machine readable medium (1348) including processor executable instructions which when executed by a processor (1346) of a first communications device (1300), control the first communications device (1300) to perform the steps of: receiving a first first type signal transmitted by an advertising device, said first first type signal advertising infrastructure network connectivity information corresponding to the advertising device;making a decision, based on the content of said received first first type signal, whether to switch from i) monitoring for second type signals during monitoring intervals which occur at a first time spacing to ii) monitoring for second type signals, without waiting for the occurrence of one of said monitoring intervals; andinitiating scanning for a second type signal in response to receiving said first first type signal.