Systems and methods for locating and/or mapping buried utilities using vehicle-mounted locating devices

I claim: 1. A system for determining buried utility information, the system comprising: a plurality of magnetic field sensing locating devices for sensing AC magnetic fields emitted as a result of current flowing in the buried utility, including at least a first locating device and a second locating device mounted on a vehicle, to determine data associated with a location of the buried utility; a support assembly made of at least partially non-metallic and non-electrically conductive material, the support assembly including an elongated frame attached to and extending transversely from a hitch receiver of the vehicle and spaced-apart locator mounting assemblies fixed to the elongated frame to receive and support the corresponding first and second locating devices; and a positioning device supported on an elongated mast projecting outwardly from the support assembly, the positioning device coupled to the first locating device and to the second locating device to generate absolute positional data of the buried utility based at least in part on the data determined by the first locating device and the second locating device; wherein the vehicle consists of one of an automobile, a sport utility vehicle, and a truck, and wherein the vehicle is moving faster than about 10 meters per second during the magnetic field sensing. 2. The system of claim 1 , wherein the first and second locating devices each generate and associate timestamps with the determined data in response to receiving a precise pulse synchronization signal obtained from the positioning device. 3. The system of claim 1 , wherein the data determined by the first locating device is correlated with data determined by the second locating device based at least in part on the associated timestamps to generate the absolute positional data of the buried utility. 4. The system of claim 1 , wherein the positioning device is one of a high precision global position system (GPS) system and a Global Navigation Satellite System (GNSS) system. 5. A system for determining buried utility information, the system comprising a positioning device supplying a precise pulse synchronization signal; a magnetic field sensing locating device mounted on a vehicle and coupled to the positioning device, the magnetic field sensing locating device includes: at least one antenna node to sense magnetic fields emitted from a buried utility while moving along or across a path of the buried utility; and a processing unit coupled to the antenna node to receive the sensed magnetic fields and determine information pertaining to a location of the buried utility upon based on the sensed magnetic fields, wherein the processing unit includes a timing circuit programmed to timestamp at least a portion of the determined information relative to the precise pulse synchronization signal obtained from the positioning device; wherein the vehicle consists of one of an automobile, a sport utility vehicle, and a truck and wherein the vehicle is moving faster than about 10 meters per second during the magnetic field sensing. 6. The system of claim 5 , wherein the positioning device is a Global Positioning System (GPS), and the precise pulse synchronization signal is a one pulse per second (1PPS) signal obtained from the GPS. 7. A system for locating and/or mapping buried utilities, the system comprising: a positioning device including a master clock; and a plurality of magnetic field sensing locating devices for sensing AC magnetic fields emitted from current flowing in a buried utility in three orthogonal axes, the magnetic field sensing locating devices mounted on a vehicle and coupled to the positioning device, the plurality of magnetic field sensing locating devices including at least: a first locating device mounted on a vehicle to determine data associated with location of a buried utility at a first set of data points within a geographical region, the first locating device including a first slave clock programmed to synchronize to the master clock to timestamp the determined data at each of the first set of data points; and a second locating device mounted on the vehicle to determine data associated with location of the buried utility at a second set of data points within the geographical region, the second locating device including a second slave clock programmed to synchronize to the master clock to timestamp the determined data at each of the second set of data points; and a processing unit coupled to the first and second locating devices and to the positioning device to receive and process the timestamped data at the first set of data points and the time stamped data at the second set of data points in a time domain to determine absolute positional data of the buried utility within the geographical region; wherein the vehicle consists of one of an automobile, a sport utility vehicle, and a truck and wherein the vehicle is moving faster than about 10 meters per second during the magnetic field sensing. 8. The system of claim 7 further comprising a non-transitory memory to store the timestamped data. 9. The system of claim 7 further comprising a remote server coupled to the first locating device, the second locating device, and to a plurality of other locating devices mounted on other vehicles to obtain and process the timestamped data to determine an optimized location information associated with the buried utility. 10. The system of claim 7 , wherein the geographical region is a busy street, a highway, or a freeway. 11. The system of claim 7 , wherein the positioning device is one of a high precision global position system (GPS) system and a Global Navigation Satellite System (GNSS) system. 12. A system for determining buried utility information, the system comprising: a plurality of magnetic field sensing locating devices mounted on a plurality of vehicles, each vehicle having at least one magnetic field sensing locating device for sensing magnetic fields in three orthogonal axes mounted thereto, the magnetic field sensing locating devices sense one or more buried utilities and determine data associated with the buried utilities, wherein the data is determined based at least in part of a velocity information associated with corresponding vehicles moving along or across a path of the buried utilities; and a remote server communicatively coupled to the magnetic field sensing locating devices to receive and store the data obtained collaboratively from the magnetic field sensing locating devices into a non-transitory memory, wherein the stored collaborated data is retrievable and further processed to determine location information associated with the buried utilities; wherein the vehicles each consist of one of an automobile, a sport utility vehicle, and a truck and wherein the vehicle is moving faster than about 10 meters per second during the magnetic field sensing. 13. The system of claim 12 , wherein the data pertaining to each individual buried utility is aggregated and stored separately into the non-transitory memory. 14. The system of claim 12 , wherein a mapping unit is coupled to or integrated within the remote server to generate a map depicting location of each of the buried utilities based in part on the determined location information. 15. The system of claim 12 , wherein the location information includes at least a position, a depth, and an orientation of buried utilities. 16. A method for determining and mapping buried utility information, the method comprising: obtaining at one or more magnetic field sensing locating devices mounted on a vehicle, data associated