Bilateral transition of control communication for control of mobile craft

We claim: 1. A method for managing control communication between a controller and a mobile craft, to facilitate control of the mobile craft by the controller, wherein the controller includes a respective cellular radio and a respective short-range radio, and wherein the mobile craft also includes a respective cellular radio and a respective short-range radio, the method comprising: the controller and mobile craft engaging in direct short-range wireless communication with each other via a short-range wireless link between their respective short-range radios, wherein, through the direct short-range wireless communication, the controller controls the mobile craft; the controller and mobile craft each independently detecting threshold degradation of the short-range wireless link and each responding to the detecting of threshold degradation by (i) using its respective cellular radio to acquire a respective cellular wireless connection and (ii) engaging in respective communication, via its acquired respective cellular wireless connection, with a control server; and the control server bridging the respective communication of the controller with the respective communication of the mobile craft, to enable the controller to continue controlling the mobile craft, wherein controlling the mobile craft comprises controlling movement of the mobile craft. 2. The method of claim 1 , wherein controlling the mobile craft comprises transmitting to the mobile craft one or more directives that control operation of the mobile craft. 3. The method of claim 2 , wherein transmitting each of the one or more directives is in response to user input into the controller. 4. The method of claim 2 , wherein the controller engaging in respective communication with the control server comprises the controller transmitting at least one of the directives to the control server, wherein the mobile craft engaging in respective communication with the control server comprises the mobile craft receiving from the control server the at least one directive transmitted from the controller to the control server, and wherein bridging the respective communication of the controller with the respective communication of the mobile craft comprises receiving the at least one directive from the controller and transmitting the received at least one directive to the mobile craft. 5. The method of claim 1 , wherein the control server bridging the respective communication of the controller with the respective communication of the mobile craft occurs automatically in response to the control server receiving from both the controller and the mobile craft a particular control-communication identifier. 6. The method of claim 1 , further comprising the control server determining that the controller is authorized to control the mobile craft, wherein the control server bridging the respective communication of the controller with the respective communication of the mobile craft is in response to the control server determining that the controller is authorized to control the mobile craft. 7. The method of claim 1 , wherein detecting threshold degradation of the short-range wireless link comprises detecting at least one of (i) threshold low receive signal strength, (ii) threshold low signal to noise ratio, (iii) threshold high communication error rate, and (iv) absence of communication. 8. The method of claim 1 , wherein the control server resides on a packet-switched network, wherein the respective cellular wireless connection acquired by the controller is a connection with a first radio access network (RAN) that provides connectivity with the packet-switched network, and wherein the respective cellular wireless connection acquired by the mobile craft is a connection with a second RAN that provides connectivity with the packet-switched network. 9. The method of claim 8 , wherein the second RAN is the first RAN. 10. The method of claim 8 , wherein the controller using its respective cellular radio to acquire a respective cellular wireless connection comprises the controller engaging in access signaling with the first RAN and requesting a radio-link-layer connection with the first RAN, and wherein the mobile craft using its respective cellular radio to acquire a respective cellular wireless connection comprises the mobile craft engaging in access signaling with the second RAN and requesting a radio-link-layer connection with the second RAN. 11. The method of claim 1 , further comprising the controller and mobile craft each responding to the threshold degradation of the short-range wireless link by powering on its respective cellular radio so as to then acquire its respective cellular wireless connection. 12. A method for managing control communication between a controller and a mobile craft, to facilitate control of the mobile craft by the controller, wherein the controller includes a respective cellular radio and a respective short-range radio, and wherein the mobile craft also includes a respective cellular radio and a respective short-range radio, the method comprising: the controller and mobile craft engaging in direct short-range wireless communication with each other via a short-range wireless link between their respective short-range radios, wherein, through the direct short-range wireless communication, the controller controls the mobile craft; the controller and mobile craft each independently detecting threshold degradation of the short-range wireless link and each responding to the detecting of threshold degradation by (i) powering on its respective cellular wireless radio, (ii) using its respective powered-on cellular radio to acquire a respective cellular wireless connection and (iii) engaging in respective communication, via its acquired respective cellular wireless connection, with a control server on a packet-switched network; and the control server determining that the controller is authorized to control the mobile craft, and, in response to the determining, the control server forwarding to the mobile craft one or more control-directives that the control server receives from the controller, the one or more control-directives controlling operation of the mobile craft, wherein operation of the mobile craft comprises movement of the mobile craft. 13. The method of claim 12 , wherein transmitting each of the one or more directives is in response to user input into the controller. 14. The method of claim 12 , wherein the control server has access to control-permission data, and wherein determining that the controller is authorized to control the mobile craft comprises referring to the control-permission data to determine that the control server is authorized to control the mobile craft. 15. The method of claim 12 , wherein detecting threshold degradation of the short-range wireless link comprises detecting at least one of (i) threshold low receive signal strength, (ii) threshold low signal to noise ratio, (iii) threshold high communication error rate, and (iv) absence of communication. 16. The method of claim 12 , wherein the respective cellular wireless connection acquired by the controller is a connection with a first radio access network (RAN) that provides connectivity with the packet-switched network, and wherein the respective cellular wireless connection acquired by the mobile craft is a connection with a second RAN that provides connectivity with the packet-switched network. 17. The method of claim 16 , wherein the controller using its cellular radio to acquire a respective cellular wireless connection comprises the