Noise minimization to communicate with a beacon

The invention claimed is: 1. A method of using an underground beacon that transmits a beacon signal, comprising: actuating an above-ground tracker that is adapted to receive the beacon signal; if the beacon signal is active, discontinuing transmission of the beacon signal; thereafter, determining a direction from which peak ambient noise arrives at the above-ground tracker; thereafter, starting or resuming transmission of the beacon signal; thereafter, receiving electromagnetic radiation at the above-ground tracker and generating a set of signals representative of that radiation; excluding from the signal set those signals that are representative of radiation that arrived at the above-ground tracker from the determined direction, thereby producing a modified signal set; and using the modified signal set in detection of the beacon signal. 2. The method of claim 1 , in which the beacon signal is a magnetic dipole field. 3. The method of claim 1 , in which the above-ground tracker contains a plurality of antennas, each antenna oriented in a different direction, and in which the exclusion step is carried out by blocking the output of an antenna oriented in a direction that matches the determined direction. 4. The method of claim 1 , in which the above-ground tracker contains a plurality of antennas, each antenna oriented in a different direction, and in which the exclusion step is carried out by removing signals from the signal set that are received by one or more antennas of the plurality of antennas in a direction that matches the determined direction. 5. The method of claim 1 in which the direction is characterized as the first direction and further comprising: before starting or resuming transmission of the beacon signal, determining one or more second directions from which minimal to zero ambient noise arrives at the above-ground tracker; in which the modified signal set is representative of radiation that arrived at the above-ground tracker in the one or more second directions. 6. A system comprising: a beacon positioned beneath a ground surface and configured to emit a beacon signal; an above-ground tracker comprising: a plurality of antennas, each antenna oriented in a different direction and configured to receive electromagnetic radiation and generate a set of signals indicative of the received electromagnetic radiation; and a processor configured to determine which one or more of the plurality of antennas receives peak ambient noise, exclude from the generated set of signals those signals that are representative of peak ambient noise received at the one or more antennas, thereby creating a modified signal set, and analyze the beacon signal using the modified signal set. 7. The system of claim 6 , in which the beacon signal is a magnetic dipole field. 8. The system of claim 6 , in which the peak ambient noise comprises signals radiating from a local noise source. 9. The system of claim 6 , in which each antenna is orthogonal to each other antenna. 10. The system of claim 6 , in which the plurality of antennas have a common center point and each antenna is positioned on a different plane. 11. The system of claim 6 , in which the processor is configured to exclude signals that are representative of the peak ambient noise by blocking the output of the one or more antennas receiving the peak ambient noise. 12. The system of claim 6 , in which the processor is configured to exclude signals that are representative of the peak ambient noise by removing signals from the set of signals that were generated by the one or more antennas receiving the peak ambient noise. 13. The system of claim 6 , in which the processor is configured to identify which one or more antennas are receiving peak ambient noise by calculating an angle at which peak ambient noise impinges one or more of the plurality of antennas. 14. The system of claim 6 , in which the one or more antennas is characterized as the first one or more antennas, and the processor is further configured to determine which second one or more antennas of the plurality of antennas receives minimal to zero ambient noise, and in which the modified signal set is representative of radiation received at the second one or more antennas. 15. The system of claim 6 , further comprising: a horizontal boring machine supported on a ground surface; a drill string having a first end and an opposed second end and comprising a plurality of pipe section disposed in end-to-end engagement, in which the first end of the drill string is attached to the boring machine; and a downhole tool attached to the second end of the drill string, in which the beacon is disposed within the downhole tool. 16. A method of using an underground beacon that transmits a beacon signal, comprising: actuating an above-ground tracker having a plurality of antennas adapted to receive the beacon signal, each antenna oriented in a different direction; if the beacon signal is active, discontinuing transmission of the beacon signal; thereafter, determining which one of the plurality of antennas receives peak ambient noise; thereafter, starting or resuming transmission of the beacon signal; and thereafter, using electromagnetic radiation received at the plurality of antennas, other than the determined antenna, to detect the beacon signal. 17. The method of claim 16 , in which the beacon signal is a magnetic dipole field. 18. The method of claim 16 , further comprising: blocking a signal output of the determined antenna. 19. The method of claim 16 , further comprising: determining which antenna of the tri-axial antenna assembly receives minimal to zero ambient noise; in which the electromagnetic radiation received at the plurality of antennas used to detect the beacon signal is received by those antennas that received minimal to zero ambient noise. 20. The method of claim 16 , further comprising: transmitting information about one or more downhole conditions and beacon diagnostics on the beacon signal.