Transmission line measuring device and method for connectivity and monitoring

What is claimed is: 1. A data acquisition device for acquiring data from a transmission line comprising: at least one sensor for determining at least one of a parameter and image associated with the transmission line; a radio interface for communicating to at least one of a monitoring device and a neighboring data acquisition device via a radio communication link within a selected range; and a processing device connected to the at least one sensor and the radio interface, the processing device being programmed to receive and process inputs from the at least one sensor, and to generate messages for transmission via the radio interface; wherein the processing device is configured to participate in multi-hop communications via the radio communication link by receiving messages generated by other data acquisition devices, and determining from information provided in each of the messages which operation to perform from among process the message, repeat the message, and ignore the message; wherein a network comprises a plurality of the data acquisition device, each of the data acquisition devices being assigned a unique address, the processing device being configured with a self-assembling process that automatically configures the data acquisition device to communicate within the network of other data acquisition devices and the monitoring device by receiving a configuration message transmitted from the monitoring device via the radio communication link, repeating the configuration message via the radio communication link, sending a reply message comprising its corresponding address via the radio communication link in response to the configuration message, receiving reply messages sent from other ones of the data acquisition devices, each of the reply messages comprising the corresponding address of the data acquisition device that generated it, and determining from the reply messages the corresponding address of each of the data acquisition devices within its selected range; wherein each of the data acquisition devices in the network is configured to perform the self-assembling process to create a table comprising the unique addresses of the data acquisition devices in its selected range; wherein the unique address of each of the data acquisition devices is a Media Access Control (MAC) address, the radio interface in each of the data acquisition devices is a ZigBee radio interface customized to employ the self-assembling process that assembles each of the data acquisition devices into a communication network that obviates manual configuration of the radio interface in each of the data acquisition devices, each of the data acquisition devices being configured to automatically generate the table with the MAC addresses of selected ones of the other data acquisition devices in its selected range. 2. A data acquisition device as recited in claim 1 , wherein the information provided in each of the messages comprises a number of hops corresponding to the number of times the message has been repeated by one of the data acquisition devices following its origination, the processing device being configured to increment the number of hops in each of the messages before it is repeated. 3. A data acquisition device as recited in claim 2 , wherein the processing device is configured to determine whether to repeat the message based on the number of hops and the address included in the message. 4. A data acquisition device as recited in claim 1 , wherein the configuration message is repeated, and the processing device dynamically updates information relating to the data acquisition devices based on the reply messages to the configuration message and stores the information in a memory device. 5. A data acquisition device as recited in claim 4 , wherein the processing device can configure the information in the memory device upon power up and obviate pre-configuration. 6. A data acquisition device as recited in claim 1 , wherein the data acquisition device further comprises a radio-to-ground communications interface for communicating with the monitoring device, the processing device being configured to aggregate data about the other data acquisition devices from messages received from the other data acquisition devices via the radio communication link and provide the data to the monitoring device via the radio-to-ground communications interface. 7. A data acquisition device as recited in claim 1 , wherein the radio interface is assigned an encryption key dynamically. 8. A data acquisition device as recited in claim 1 , wherein the data acquisition device further comprises a web server, the processing device being configured to send the message via email. 9. A data acquisition device as recited in claim 1 , wherein the monitoring device is assigned an Internet Protocol address and configured to provide a user with a Hypertext Markup Language (HTML) page corresponding to the data acquisition device that comprises the at least one of a parameter and image obtained from the sensor. 10. A data acquisition device as recited in claim 1 , wherein each of the data acquisition devices comprises a corresponding Hypertext Markup Language (HTML) page. 11. A data acquisition device as claimed in claim 1 , wherein the transmission line is a power transmission line and further comprising a power supply for the data acquisition device comprising a current transformer connected to the transmission line and configured to extract power from a magnetic field generated by current in the transmission line and provide direct current (DC) power to components in the data acquisition device. 12. A data acquisition device as recited in claim 1 , wherein the data acquisition device further comprises an audio corona detector having a microphone and a processor comprising at least one of the processing device and a processor associated with the audio corona detector, the processor being configured to obtain audio inputs due to respective corona events from the microphone, to process the audio inputs to generate corresponding audio signatures representing the corona events, and to compare at least parts of the audio signatures with selected threshold characteristics. 13. A data acquisition device as claimed in claim 12 , wherein the processor is configured to sample an output of the microphone at least one of continually, periodically, and at selected times to obtain the audio inputs. 14. A data acquisition device as claimed in claim 12 , wherein the processor is configured to generate an alert if one of the audio signatures differs from at least one of the selected threshold characteristics by a selected amount. 15. A data acquisition device as claimed in claim 1 , wherein the sensor comprises an ambient temperature sensor and an anemometer for determining wind speed using a measured ambient temperature from the ambient temperature sensor and a reference temperature. 16. A data acquisition device as claimed in claim 1 , wherein the data acquisition device comprises a housing having a longitudinal axis that is parallel to a longitudinal axis of the transmission line, the housing comprising a first end that is heated to a reference temperature by a heating element, and a second end enclosing an ambient temperature sensor, the processing device being programmed to determine wind speed using the difference between a measured ambient temperature and the reference temperature. 17. A data acquisition device as claimed in claim 1 , wherein the data acquisition device is configured to store a table comprising the unique addresses correspondin