| Abstract: | The radio astronomy technique of Very Long Baseline Interferometry (VLBI) offers significant promise for high accuracy, long distance, three-dimensional surveying of continental plate tectonics and its resultant earth crustal deformations that are intimately related to earthquakes. The methods of VLBI lend themselves to crustal deformation monitoring with possible applications to earthquake prediction on local and global scales. It is proposed to establish a network of independently operated radio receiving stations at arbitrary separations using extragalactic radio sources as a frame of time invariant reference. Systems analysis and initial feasibility demonstrations indicate that calibrations can be developed to make possible a transportable radio interferometry system. Using a 9 m diameter dish antenna operated in combination with a 64 m antenna receiving at X-band wavelengths (4 cm) it will be possible to measure the three-dimensional separation between antennas with a few cm accuracy for baselines up to 1000 km. With simultaneous
band reception for charged-particle effect calibration, the transportable antenna can be operated at intercontinental distances with 10 cm accuracy. Earth platform parameters of universal time and polar motion can be calibrated to 0.25 msec and 10 cm, respectively, and radio source positions established to 0.005 arc sec accuracy by
reception using large antennas at intercontinental distances. |
