Simulation of remote sensing satellite motion base on two line element sets for search and rescue at sea.

  • Affiliations:

    1 Military Technical Academy, Hanoi, Vietnam
    2 108 Military Central Hospital, Hanoi, Vietnam

  • *Corresponding:
    This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Received: 23rd-Aug-2021
  • Revised: 27th-Dec-2021
  • Accepted: 2nd-Feb-2022
  • Online: 28th-Feb-2022
Pages: 53 - 62
Views: 3188
Downloads: 2377
Rating: 5.0, Total rating: 239
Yours rating

Abstract:

Nowadays, satellite remote sensing technology has been applied in many fields of socio-economic development, including search and rescue at sea. Systems with the integration of remote sensing satellite technology have made the search and rescue operations faster, more accurate and more efficient. With the search and rescue systems at sea, remote sensing satellite motion simulation is an important task. This helps the authorities to identify and select the appropriate remote sensing satellite image data source to assist in processing and zoning search and rescue at sea. However, in Vietnam, it is difficult to determine the satellite image data source for the search and rescue situations. Therefore, the research team built a remote sensing satellite motion simulation program based on two-line element data. This is the data source that has been used in astronomy research. This program will simulate satellite orbits in real time and at any time. The accuracy evaluation result of satellite orbit simulation have been compared with online remote sensing satellite tracking systems in the world. The research result show that the satellite orbit simulation has ensured accuracy.

How to Cite
Nguyen, T.Sach, Le, H.Hong Vu, Doan, C.Van and Le, T.Huy 2022. Simulation of remote sensing satellite motion base on two line element sets for search and rescue at sea. (in Vietnamese). Journal of Mining and Earth Sciences. 63, 1 (Feb, 2022), 53-62. DOI:https://doi.org/10.46326/JMES.2022.63(1).05.
References

Aleksander, A. L., David, J. G., Roberto, A., Camilla, C., Hugh, G. L., Quirin, F., Tim F. (2016). Processing two line element sets to facilitate re - entry prediction of spent rocket bodies from the geostatonary transfer orbit, The 6th International Conference on Astrodynamics Tools and Techniques (ICATT).

Bui, D. C., Chu, X. H., Nguyen, M. N., Bui, Q. H., Hoang, H., Pham, D.T. (2018). Operation orbit analysis to evaluate the imaging coordination capability of small satellites, an experiment with VNREDSat-1 and BKA. Vietnam Journal of Science and Technology, 60(6), 9-13. (in Vietnamese)

Carolin, F., Thomas, S., (2012). Accuracy of Two - Line - Element Data for Geostationary and High - Eccentricity Orbits, Journal of Guidance Control and Dynamics, 35(5), 1483-1491.

Chang, H. C., Byoung, S. L., Jeong, S. L., and Kim, J. W. (2002). NORAD TLE type orbit determination of leo satellites using gps navigation solutions, Journal of Astronomy and Space Sciences, 19(3), 197-206.

David, A. V., and Paul, J. C., (2012). Two Line Element sets - practice and use, The 63rd International Astronautical Congress.

Francesco, T., Mauro, M., Riccardo, L., Marco, G., Andrea, M., Martina, A., Stefano, T., and Francesco, B. (2015). Space shepherd: search and rescue of illegal immigrants in the mediterranean sea through satellite imagery, The International Geoscience and Remote Sensing Symposium 2015, 4852 - 4855.

Flemming, H. (2001). DTU Satellite Systems and Design Course Orbital Mechanics.

Jean, L. L. (2017). Space Strategy, First Edition, ISTE Ltd and John Wiley and Sons, Inc, United Kingdom, 285-288.

Jesse, Re. (2013). SARSAT Overview. SAR Controllers Training 2013.

Kathleen, R. (2015). Orbit Determination from Two Line Element Sets of ISS - Deployed CubeSats, The 29th Annual AIAA/USU Conference on Small Satellites.

Lihua, M., Xiaojun, X., Feng, P. (2016). Accuracy assessment of geostationary - earth - orbit with simplified perturbations models, Artificial Satellites, 51(2), 55-59.

Ngo, D. Q. (2019). Sea Search and Rescue Conference 2019. Office of the National Committee for Search and Rescue. (in Vietnamese) 

Norad Two - Line Orbital Element Set File, https://ai-solutions.com/.

Shkelzen, C., Mickey, F., Jesse, R., and Eric, F. (2010). Satellite Image Analysis for Disaster and Crisis Management Support, The 52nd International Symposium ELMAR – 2010, 173-176.

Stefan, V., Thomas, K., Torsten, R., Ralph, K., Klaas, S., and Harald, M., (2007). Satellite Image Analysis for Disaster and Crisis Management Support, IEEE Transactions on Geoscience and Remote Sensing, 45(6), 1520-1528.

Szabo, P., Gombikova, K., Ferencova, M., and Kosuda, M. (2019). Keplerian Orbit and Satellite skCUBE, New Trends in Aviation Development. 174-179.

Tim, F., Holger, K., and Heiner, K. (2008). Assessment and Categorization of TLE Orbit Errors for the US SSN Catalogue, Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference.

Tom, K., Doyle, H., Kris, H., Maj, D. S. (2007). Satellite Maneuver Detection Using Two - line Element (TLE) Data, The Advanced Maui Optical and Space Surveillance Technologies Conference.