Wireless communication methods, systems, and computer program products

We claim: 1 . A method of conveying data on a cellular and multi-hop, non-cellular network, the method comprising: determining, in a first relay cellular device, that the first relay cellular device will make itself available as a relay for other cellular devices in a cellular and multi-hop, non-cellular network; in response to determining that the first relay cellular device will make itself available as a relay, transmitting, from a non-cellular interface of the first relay cellular device, a first node-state signal indicating the availability of the first relay cellular device as a relay for other cellular devices in the cellular and multi-hop, non-cellular network; receiving, with a non-cellular interface of an originating cellular device, the first node-state signal transmitted from the first relay cellular device; determining, in the originating cellular device, based on the first node-state signal that the originating cellular device will wirelessly connect to a base station of a cellular network via the first relay cellular device in the cellular and multi-hop, non-cellular network; wherein determining that the originating cellular device will wirelessly connect via the first relay cellular device comprises: extracting from the first node-state signal data indicative of a first cellular network type, the first cellular network type being the cellular network type of the base station serving the first relay cellular device or a sink cellular device through which the relay cellular device wirelessly connects to the base station; obtaining data indicative of a second cellular network type at the originating cellular device, the second cellular network type being the cellular network type of another base station serving the originating cellular device; and in response to a comparison based on the first cellular network type and the second cellular network type, determining that the originating cellular device will wirelessly connect to the base station of the cellular network via the first relay cellular device; and in response to determining that the originating cellular device will wirelessly connect to the base station of the cellular network via the first relay cellular device: transmitting uplink data, for transmission to the base station, from the originating cellular device via the first relay cellular device; or receiving downlink data, from the base station, at the originating cellular device via the first relay cellular device. 2 . The method of claim 1 , comprising: determining, in a second relay cellular device, that the second relay cellular device will make itself available as a relay for other cellular devices in the cellular and multi-hop, non-cellular network; in response to determining that the second relay cellular device will make itself available as a relay, transmitting, from a non-cellular interface of the second relay cellular device, a second node-state signal indicating the availability of the second relay cellular device as a relay for other cellular devices in the cellular and multi-hop, non-cellular network; receiving, with the non-cellular interface of the originating cellular device, the second node-state signal transmitted from the second relay cellular device; and wherein the step of determining that the originating cellular device will wirelessly connect to the base station of the cellular network via the first relay cellular device comprises comparing, in the originating cellular device, information based on the first node-state signal and information based on the second node-state signal to select between the first relay cellular device and the second relay cellular device. 3 . The method of claim 2 , comprising: sensing, in the originating cellular device, a deterioration in a wireless connection between the originating cellular device and the first relay cellular device or a deterioration in a wireless connection between the first relay cellular device and the base station; and determining, in the originating cellular device, based on the sensed deterioration that the originating cellular device will wirelessly connect to the base station of the cellular network via the second relay cellular instead of the first relay cellular device. 4 . The method of claim 1 , wherein the step of determining, in the first relay cellular device, that the first relay cellular device will make itself available as a relay for other cellular devices in the cellular and multi-hop, non-cellular network comprises the first relay cellular device determining to make itself available as a relay based on at least four of the following: a value indicative of a cellular signal strength of cellular signals from the base station at the first relay cellular device; a value indicative of a cellular signal quality of cellular signals from the base station at the first relay cellular device; node-state signals received from other cellular devices in the cellular and multi-hop, non-cellular network at the first relay cellular device; a value indicative of a non-cellular signal strength of non-cellular signals from the originating cellular device at the first relay cellular device; a value indicative of a non-cellular signal quality of non-cellular signals from the originating cellular device at the first relay cellular; a value indicative of a price for cellular service paid by a user associated with the first relay cellular device; a value indicative of an amount of energy stored by the first relay cellular device; a type of power source of the first relay cellular device; a number of antennas coupled to a cellular-interface of the first relay cellular device; a value indicative of movement of the first relay cellular device; a value indicative of the time of day; a value indicative of a number of hops between the base station and the first relay cellular device; and a value indicative of an amount of available bandwidth for wireless communication with the base station from the first relay cellular device. 5 . The method of claim 1 , comprising: determining, in the sink cellular device, that the sink cellular device will make itself available as a sink for other cellular devices in a cellular and multi-hop, non-cellular network; and in response to determining that the sink cellular device will make itself available as a sink, transmitting, from a non-cellular interface of the sink cellular device, a third node-state signal, wherein the third node-state signal comprises data indicative of at least three of the following: the availability of the sink cellular device as a sink; a signal strength of cellular signals from the base station at the sink cellular device; a signal quality of cellular signals from the base station at the sink cellular device; an identity of a cellular network carrier operating the base station; a number of antennas coupled to a cellular-interface of the sink cellular device; movement of the sink cellular device; a type of power source of the sink cellular device; and a non-cellular transmit power of the sink cellular device. 6 . The method of claim 5 , wherein the third node-state signal comprises data indicative of a cellular network type of the base station serving the sink cellular device. 7 . The method of claim 5 , wherein: determining, in the first relay cellular device, that the first relay cellular device will make itself available as a relay for other cellular devices in the cellular and multi-hop, non-cellular network comprises: receiving, with the non-cellular interface of the first relay cellular device, the third node-state signal transmitted from the sink cellular device; determining, in the first relay cellular device, based on the third node-state signal that th