Прогресс в разработке бесплатформенного лазерного аэрогравиметра в Китае

Based on laser gyros and quartz flexure accelerometers, Beijing Institute of Aerospace Con-trol Devices has developed the prototype of Laser Strapdown Airborne Gravimeter (LSAG). The hardware improvements and the design of post-processing software are presented, and field test results of the system on the aircraft and oceanic vessel during 2013 and 2014 are given. Field test results showed that the internal accord accuracy after level adjustment was about 1mGal, demonstrating that LSAG has the abilities to implement airborne gravity sur-veys, and has the potential for marine gravity surveys.

1. Krasnov A. A., Nesenyuk L. P., Peshekhonov V. G., Sokolov A. V., Elinson L. S. Integrated marine gravimetric system. Development and operation results, Gyroscopy and Navigation, 2011, vol. 2, No. 2, pp. 75-81.

2. Brochure-TAGS Air Ⅲ Gravity Meter, http://www.microglacoste.com

3. Instruction manual of model “S” Air-Sea Dynamic Gravity Meter System Ⅱ, http://www.microglacoste.com

4. Abbasi M., Barriot J. P., Verdun J. Airborne LaCoste & Romberg gravimetry: a space domain approach, J. Geod., 2007, no. 81, pp. 269-283.

5. Olesen A. B., Forsberg R., Gidskehaug A. Airborne gravimetry using the LaCoste and Romberg Gravimeter – an error analysis, Proc. of International Symposium on Kinematic Systems in Geodesy, Geomatics and Navigation, June 3-6, 1997, Banff, Canada, pp. 613-618.

6. Olson D. GT-1A and GT-2A airborne gravimeters: Improvements in design, operation, and processing from 2003 to 2010, Airborne Gravity 2010, pp. 152-171.

7. Berzhitzky V. N., Bolotin Y. V., Golovan A. A., Ilyin V. N., Parusnikov N. A., Smoller Y. L., Yurist S. S. GT-1A inertial gravimeter system – Results of flight tests, MSU Faculty of Mechanics and Mathematics, 2001.

8. Sander S., Argyle M., Elieff S. et al. The AirGrav airborne gravity system, Airborne gravity 2004, pp. 49-54.

9. Argyle M., Ferguson S., Sander L., Sander S. AIRGrav results: a comparison of airborne gravity data with GSC test site data, The Leading Edge, 2000, no. 19, pp. 1134-1138.

10. Studinger M., Bell R., Frearson, N. Comparison of AIRGrav and GT-1A airborne gravimeters for re-search applications, Geophysics, 2008, vol. 73, no. 6, pp. 151-161.

11. Glennie C. L., Schwartz K. P., Bruton A. M., Forsberg R., Olesen A. V., Keller K. A comparison of stable platform and strapdown airborne gravity, Journal of Geodesy, 2000, no. 74, pp. 383-389.

12. Senobari M. S. New results in airborne vector gravimetry using strapdown INS/DGPS, J. Geod., 2010, no. 84, pp. 277-291.

13. Glennie C., Schwarz K. P. A comparison and analysis of airborne gravimetry results from two strapdown inertial/DGPS systems, J. Geod., 1999, no. 73, pp. 311-321.

14. Wei M., Schwarz K. P. Flight test results from a strapdown airborne gravity system, Journal of Geodesy, 1998, pp. 72, pp. 323-332.

15. Bruton A. M., Hammada Y., Ferguson S., Schwarz K. P., Wei M., Halpenny J. A comparison of inertial platform, damped 2-axis platform and strapdown airborne gravimetry, International Symposium on Kinematic Systems in Geodesy, Geomatics and Navigation, 2001, Banff, Alberta.

16. Gleason D. M. Gravity vector estimation from integrated GPS/strapdown IMU data, J. Inst. Navig., 1992, vol. 39, no. 2, pp. 237-253.

17. Xu G. GPS Theory, Algorithms and Applications, Springer-Verlag, 2007, 2nd edition.

18. Valliant H. The Lacoste & Romberg air/sea gravimeter: an overview, in CRC Handbook of Geophysical Exploration at Sea, Boca Raton Press, 1992.

19. Meyer U., Boedecker G., Pflug H. ANGEL, Airborne Navigation and Gravimetry Ensemble & Laboratory Introduction and First Airborne Tests, Scientific Technical Report GFZ Potsdam, 2003.

20. Olesen A. Improved airborne scalar gravimetry for regional gravity field mapping and geoid determination, Technical Report No. 24, National Survey and Cadastre Denmark (KMS), 2003.

21. Guo Zh., Xiong Sh., Zhou J., Zhou X. The research on quality evaluation method of test repeat lines in airborne gravity survey, Chinese Journal of Geophysics (in Chinese), 2008, vol. 5, pp. 1538-1543.