GALILEO-E6 BANDWIDTH FREQUENCY FILTER DESIGN FOR GALILEO RECEIVER

Authors

  • Surachet Chinnapark School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang Author
  • Narumol Onanong School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang Author
  • Julongkorn Pattameak School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang Author
  • Teerachet Mekpradab School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang Author
  • Prasert Kenpankho School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang Author

Keywords:

ARNS, Filter Galileo-E6, Galileo receiver

Abstract

This research discusses about the combination of the LPF and HPF to perform band reject filter. Therefore, there are two combination also in designing band reject filter. The aim of this combination to get know is there have an influence on the performance of band reject filter was designed by using the frequency of the GalileoE6 with bandwidth 40 MHz. This filter is used a Butterworth filter which is presented in this study. These filter circuit is composed 4rd order. In addition to, the combination between LPF and HPF forming to a band reject filter is designed. As a result, the filter design on the frequency of Galileo-E6 is successfully used in band reject filter.

Downloads

Download data is not yet available.

Author Biographies

  • Surachet Chinnapark, School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang

    Department of Engineering Education

  • Narumol Onanong, School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang

    Department of Engineering Education

  • Julongkorn Pattameak, School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang

    Department of Engineering Education

  • Teerachet Mekpradab, School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang

    Department of Engineering Education

  • Prasert Kenpankho, School of Industrial Education and Technology King Mongkut’s Institute of Technology Ladkrabang

    Department of Engineering Education

References

Aragon-Angel, A., Rovira-Garcia, A., Arcediano-Garrido, E., and Ibáñez-Segura, D. (2021). Galileo Ionospheric correction algorithm integration into the open-source GNSS Laboratory Tool Suite (gLAB). Remote Sensing, 13(2), 191.

Falcone, M., Amarillo-Fernandez, F., Hahn, J., and Favin-Leveque, H. (2002). The galileo system test bed for early prototyping and experimentation of Galileo algorithms. Proceedings of the 15th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GPS 2002), 2148-2159.

Hadas, T., Kazmierski, K., and Sośnica, K. (2019). Performance of Galileo-only dual-frequency absolute positioning using the fully serviceable Galileo constellation. GPS Solutions, 23(4), 1-12.

Hegarty, C. J., and Chatre, E. (2008). Evolution of the global navigation satellitesystem (gnss). Proceedings of the Institute of Electrical and Electronics Engineers, 96(12), 1902-1917.

Ortega, L., Poulliat, C., Boucheret, M. L., Aubault-Roudier, M., and Al-Bitar, H. (2020). Optimizing the co-design of message structure and channel coding to reduce the TTD for a Galileo 2nd generation signal. Navigation, Journal of the Institute of Navigation, 67(3), 471-492.

Sagath, D., Vasko, C., Van Burg, E., and Giannopapa, C. (2019). Development of national space governance and policy trends in member states of the European Space Agency. Acta Astronautica, 165, 43-53.

Stansell Jr, T. A. (2020). GNSS interoperability. Position, Navigation, and Timing Technologies in the 21st Century: Integrated Satellite Navigation, Sensor Systems, and Civil Applications, 1, 205-214.

Susi, M., and Borio, D. (2020). Kalman filtering with noncoherent integrations for Galileo E6-B tracking. NAVIGATION, Journal of the Institute of Navigation, 67(3), 601-618.

Das, P., Ortega, L., Vilà-Valls, J., Vincent, F., Chaumette, E., and Davain, L. (2020). Performance limits of GNSS code-based precise positioning: GPS, galileo and meta-signals. Sensors, 20(8), 2196.

Downloads

Published

2024-02-06

Issue

Vol. 1 No. 2 (2021): AJSE: September 2021

Section

Articles

License

Copyright (c) 2021 Universitas Pendidikan Indonesia

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

How to Cite

GALILEO-E6 BANDWIDTH FREQUENCY FILTER DESIGN FOR GALILEO RECEIVER. (2024). ASEAN Journal of Science and Engineering, 1(2), 57-62. https://ejournal.kjpupi.id/index.php/ajse/article/view/257