Method of semi-permeable terrain geophysical data acquisition

What is claimed is: 1. A method of geophysical data acquisition over a semi-permeable terrain comprising: placing an apparatus housing geophysical data measuring instruments over a semi-permeable terrain; adjusting and calibrating low frequency unshielded dipole antennas with a transmitter and a receiver in a pre-determined interval distance depending on central frequency; selecting at least one of a time data trigger type and a unit data trigger type to at least one of scan and trace where a data signal is sent to a ground at selected intervals; causing a linear movement of the apparatus over the semi-permeable terrain; determining an optimal position for geophysical data acquisition over the semi-permeable terrain; and capturing geophysical data with measuring instruments housed on the apparatus. 2. The method of claim 1 , wherein the selected intervals are 0.03 seconds when the time data trigger type is selected. 3. The method of claim 1 , wherein the selected intervals are 0.01 meters when the unit data trigger type is selected. 4. The method of claim 1 , further comprising converting the geophysical data from at least one of a time domain to a horizontal distance and a horizontal distance to a time domain. 5. The method of claim 1 , further comprising automatically adjusting and calibrating the geophysical data related to a characteristic of the semi-permeable terrain using the geophysical data measuring instruments. 6. The method of claim 1 , wherein the captured geophysical data accurately reflects a magnitude of a measurement related to a motion of the apparatus. 7. The method of claim 1 , further comprising: generating a heat energy from sunlight using an electric device comprising an array of packaged and interconnected assembly of photovoltaic cells, wherein the electric device is housed in a hollowed interior cavity of a front extension of the apparatus, wherein the electric device is coupled to a propulsion system and an electric motor, wherein the electric motor is coupled to a set of wheels of the apparatus, and wherein the heat energy drives the linear movement of the apparatus using the set of wheels coupled to the electric motor. 8. The method of claim 1 , further comprising imaging a subsurface of the semi-permeable terrain using the low frequency unshielded dipole antennas. 9. The method of claim 1 : wherein the apparatus comprises a front extension with a set of front stability margins coupled to a rear extension with a set of rear stability margins, wherein the set of front stability margins is part of a base of the front extension and contiguous therewith, each of the set of front stability margins being formed along a length of the base of the front extension with a length of a front stability margin of the set being substantially parallel to a length of another front stability margin of the set, wherein the set of rear stability margins is horizontally parallel to and extends vertically from a base of the rear extension, each of the set of rear stability margins also being contiguous with the base of the rear extension and the rear extension, and wherein the set of front stability margins and the set of rear stability margins both sink at least 5 centimeters into the semi-permeable terrain during motion of the apparatus. 10. A method of geophysical data acquisition over a semi-permeable terrain comprising: placing an apparatus housing geophysical data measuring instruments over a semi-permeable terrain; adjusting and calibrating low frequency unshielded dipole antennas with a transmitter and a receiver in a pre-determined interval distance depending on central frequency; transmitting a data signal into a surface of the semi-permeable terrain at selected intervals using the transmitter, wherein the data signal permeates the semi-permeable terrain and is reflected back to the surface; selecting at least one of a time data trigger type and a unit data trigger type to at least one of scan and trace the reflected data signal; receiving the reflected data signal using the receiver; recording the reflected data signal as a trace at a point on the surface; processing the reflected data signal to obtain a geophysical data; causing a linear movement of the apparatus over the semi-permeable terrain; determining an optimal position for geophysical data acquisition over the semi-permeable terrain; and capturing geophysical data with measuring instruments housed on the apparatus. 11. The method of claim 10 , wherein the selected intervals are 0.03 seconds when the time data trigger type is selected. 12. The method of claim 10 , wherein the selected intervals are 0.01 meters when the unit data trigger type is selected. 13. The method of claim 10 , further comprising converting the geophysical data from at least one of a time domain to a horizontal distance and a horizontal distance to a time domain. 14. The method of claim 10 , further comprising automatically adjusting and calibrating the geophysical data related to a characteristic of the semi-permeable terrain using the geophysical data measuring instruments. 15. The method of claim 10 , wherein the captured geophysical data accurately reflects a magnitude of a measurement related to a motion of the apparatus. 16. A method of geophysical data acquisition over a semi-permeable terrain comprising: placing an apparatus housing geophysical data measuring instruments over a semi-permeable terrain; adjusting and calibrating low frequency unshielded dipole antennas with a transmitter and a receiver in a pre-determined interval distance depending on central frequency; selecting at least one of a time data trigger type and a unit data trigger type to trace where a data signal is sent to a ground at selected intervals; constructing a scan comprising a two dimensional image from at least one trace; causing a linear movement of the apparatus over the semi-permeable terrain; determining an optimal position for geophysical data acquisition over the semi-permeable terrain; and capturing geophysical data with measuring instruments housed on the apparatus. 17. The method of claim 16 , wherein the selected intervals are 0.03 seconds when the time data trigger type is selected. 18. The method of claim 16 , wherein the selected intervals are 0.01 meters when the unit data trigger type is selected. 19. The method of claim 16 , further comprising converting the geophysical data from at least one of a time domain to a horizontal distance and a horizontal distance to a time domain. 20. The method of claim 16 , further comprising automatically adjusting and calibrating the geophysical data related to a characteristic of the semi-permeable terrain using the geophysical data measuring instruments.