Utility locator apparatus, systems, and methods

We claim: 1. A buried utility locator device, comprising: a magnetic field antenna array for simultaneously detecting magnetic field signals emitted from a first buried utility and a second, separate, buried utility and providing corresponding output signals; an electronic circuit operatively coupled to the magnetic field antenna array for receiving and processing the magnetic field antenna array output signals and simultaneously generating output signals associated with each of the first buried utility and the second buried utility; a processor for receiving the output signals and determining information associated with the first and second buried utilities based at least in part on the processed magnetic field antenna output signals; and a non-transitory memory for storing the determined information. 2. The locator device of claim 1 , further including a display for providing a visual output of the determined information associated with the buried objects simultaneously. 3. The locator device of claim 2 , wherein the display comprises an LCD or LED panel display. 4. The locator device of claim 1 , further including an enclosure for housing an electrical circuit, wherein the enclosure has separate gradient coils disposed on opposite sides of the enclosure for detecting a magnetic field gradient between the coils, wherein detecting the magnetic field gradient between the coils comprises determining the difference between the magnetic field gradient detected at each of the separate gradient coils. 5. The locator device of claim 4 , wherein the gradient coils of the locator are used in conjunction with the antenna array signals to provide a basis for computing a proximity and depth of a detected buried utility. 6. The locator device of claim 1 , wherein processing the magnetic field antenna array output signals further includes determining signal quality, wherein signal quality includes signal strength and reliability. 7. The locator device of claim 6 , further including an adjustable variable-time bandpass filter coupled to the output signals to provide adjustment of a filter time-constant responsive to the determined signal quality. 8. A method for locating a buried utility, comprising: detecting magnetic field signals emitted from a first buried utility and simultaneously detecting magnetic field signals from a second separate buried utility using a magnetic field antenna array; providing corresponding output signals from the detected first and second buried utility signals; receiving and processing the magnetic field antenna array output signals and simultaneously generating output signals associated with each of the first buried utility and the second buried utility using an electronic circuit operatively coupled to the magnetic field antenna array; receiving the output signals and determining information associated with the first and second buried utilities based at least in part on the processed magnetic field antenna output signals using an electronic circuit including a processor; and storing the determined information using a non-transitory memory. 9. The method of claim 8 , further including providing to a display a visual output of the determined information associated with the buried objects simultaneously. 10. The method of claim 8 , wherein the display comprises an LCD or LED panel display. 11. The method of claim 8 , further including detecting a magnetic field gradient between the coils using separate gradient coils, wherein detecting the magnetic field gradient between the coils comprises determining the difference between the magnetic field gradient detected at each of the separate gradient coils. 12. The method of claim 8 , computing a proximity and depth of a detected buried utility. 13. The method of claim 8 , filtering the output signals to provide adjustment of a filter time-constant responsive to the determined signal quality, wherein signal quality includes signal strength and reliability. 14. A buried utility locator device, comprising: a magnetic field antenna array for simultaneously detecting magnetic field signals emitted from a first buried utility and a second, separate, buried utility and providing corresponding output signals; an electronic circuit operatively coupled to the magnetic field antenna array for receiving and processing the magnetic field antenna array output signals and simultaneously generating output signals associated with each of the first buried utility and the second buried utility; a processor for receiving the output signals and determining information associated with the first and second buried utilities based at least in part on the processed magnetic field antenna output signals; a non-transitory memory for storing the determined information; a display for providing a visual output of the determined information associated with the buried objects simultaneously, wherein the display comprises an LCD or LED panel display; and an enclosure for housing an electrical circuit, wherein the enclosure has separate gradient coils disposed on opposite sides of the enclosure for detecting a magnetic field gradient between the coils, wherein detecting the magnetic field gradient between the coils comprises determining the difference between the magnetic field gradient detected at each of the separate gradient coils, wherein the gradient coils of the locator are used in conjunction with the antenna array signals to provide a basis for computing a proximity and depth of a detected buried utility. 15. The locator device of claim 14 , wherein processing the magnetic field antenna array output signals further includes determining signal quality, wherein signal quality includes signal strength and reliability; and further including an adjustable variable-time bandpass filter coupled to the output signals to provide adjustment of a filter time-constant responsive to the determined signal quality. 16. A method for locating a buried utility, comprising: detecting magnetic field signals emitted from a first buried utility and simultaneously detecting magnetic field signals from a second separate buried utility using a magnetic field antenna array; providing corresponding output signals from the detected first and second buried utility signals; receiving and processing the magnetic field antenna array output signals and simultaneously generating output signals associated with each of the first buried utility and the second buried utility using an electronic circuit operatively coupled to the magnetic field antenna array; receiving the output signals and determining information associated with the first and second buried utilities based at least in part on the processed magnetic field antenna output signals using an electronic circuit including a processor; storing the determined information using a non-transitory memory; providing to a display a visual output of the determined information associated with the buried objects simultaneously, wherein the display comprises an LCD or LED panel display; detecting a magnetic field gradient between the coils using separate gradient coils, wherein detecting the magnetic field gradient between the coils comprises determining the difference between the magnetic field gradient detected at each of the separate gradient coils; computing a proximity and depth of a detected buried utility; and filtering the output signals to provide adjustment of a filter time-constant responsive to the determined signal quality, wherein signal quality includes signal strength and reliability.