Method and apparatus for managing wireless communications based on communication paths and network device positions

What is claimed is: 1. A system, comprising: a first group of network devices mounted on first utility poles, wherein the first utility poles are arranged along a first path, wherein the first utility poles support first segments of a first transmission medium, and wherein the first group of network devices comprises a first network device associated with the first transmission medium and a third network device associated with the first transmission medium; and a second group of network devices mounted on second utility poles, wherein the second utility poles are arranged along a second path, wherein the second utility poles support second segments of a second transmission medium, and wherein the second group of network devices comprises a second network device associated with the second transmission medium, wherein each network device of the first and second groups of network devices includes a respective dielectric antenna for transmitting and receiving wireless communications, wherein each dielectric antenna has at least substantially no conductive external surfaces, and wherein each dielectric antenna has a respective composition that is at least substantially devoid of conductive materials, and wherein wireless signals are sent, responsive to a determination of an undesired condition adversely affecting propagation of electromagnetic waves along the first transmission medium, over a communication path that alternates between network devices in the first group of network devices and a network device in the second group of network devices such that the communication path goes from the first network device associated with the first transmission medium to the second network device associated with the second transmission medium and then to the third network device associated with the first transmission medium. 2. The system of claim 1 , wherein each network device of the first group of network devices includes a respective cable coupled to a respective feed point of the respective dielectric antenna, wherein the wireless signals, sent by the first network device of the first group of network devices, are based on the electromagnetic waves that propagate without requiring an electrical return path, and wherein the electromagnetic waves are guided by a respective dielectric core of the respective cable coupled to the respective feed point of the respective dielectric antenna. 3. The system of claim 1 , wherein the first and second paths are substantially parallel and located along opposing sides of a road, and wherein the first transmission medium and the second transmission medium are power lines. 4. The system of claim 1 , wherein the communication path for the wireless signals utilizes only a first subset of the first and second groups of network devices. 5. The system of claim 4 , wherein another communication path for other wireless signals alternates between the first and second groups of network devices, wherein the another communication path for the other wireless signals utilizes only a second subset of the first and second groups of network devices, and wherein the first and second subsets of the first and second groups of network devices are different. 6. The system of claim 1 , wherein each network device of the first group of network devices is physically connected with the first transmission medium, wherein another communication path utilizing the first group of network devices is by other electromagnetic waves, at a physical interface of the first transmission medium, that propagate without requiring an electrical return path, and wherein the other electromagnetic waves are guided by the first transmission medium. 7. The system of claim 1 , wherein the first network device of the first group of network devices receives signals by the electromagnetic waves, at a physical interface of the first transmission medium, that propagate without requiring an electrical return path, wherein the electromagnetic waves are guided by the first transmission medium, and wherein the wireless signals of the communication path alternating between the first and second groups of network devices are generated based on the signals received by the first network device of the first group of network devices. 8. A method comprising: receiving, by a first network device from a second network device, wireless signals, wherein the first network device is one of a first group of network devices that are associated with a first transmission medium and that are mounted on first utility poles, wherein the first utility poles are arranged along a first path, wherein the second network device is one of a second group of network devices that are associated with a second transmission medium and that are mounted on second utility poles, wherein the second utility poles are arranged along a second path, wherein each network device of the first and second groups of network devices includes a respective dielectric antenna for transmitting and receiving wireless communications, wherein each dielectric antenna has at least substantially no conductive external surfaces, wherein each dielectric antenna has a respective composition that is at least substantially devoid of conductive materials, and wherein the receiving is responsive to a first determination of an undesired condition adversely affecting propagation of electromagnetic waves along the second transmission medium; and transmitting responsive to the first determination of the undesired condition adversely affecting the propagation of the electromagnetic waves along the second transmission medium, by the first network device to a third network device, the wireless signals, wherein the third network device is one of the second group of network devices that are associated with the second transmission medium; wherein the receiving and the transmitting form a communication path that alternates between network devices in the second group of network devices and a network device in the first group of network devices such that the communication path goes from the second network device associated with the second transmission medium to the first network device associated with the first transmission medium and then to the third network device associated with the second transmission medium. 9. The method of claim 8 , wherein the electromagnetic waves propagate without requiring an electrical return path. 10. The method of claim 8 , wherein the first and second paths are substantially parallel and located along opposing sides of a road. 11. The method of claim 10 , wherein the communication path for the wireless signals utilizes only a subset of the first and second groups of network devices. 12. The method of claim 8 , wherein the second utility poles connect segments of the second transmission medium, wherein the second network device of the second group of network devices receives signals by the electromagnetic waves at a physical interface of the second transmission medium, that propagate without requiring an electrical return path, wherein the electromagnetic waves are guided by the second transmission medium, and wherein the wireless signals received by the first network device are representative of the signals received by the second network device. 13. The method of claim 12 , wherein the first transmission medium and the second transmission medium are power lines. 14. The method of claim 8 , further comprising: ceasing the transmitting of the wireless signals, by the first network device to the third network device, responsive to a second determination that the undesired condition is no longer detected. 15. T