GNSS and Ionospheric Data Products for Disaster Prevention and Aviation in Magnetic Low- Latitude Regions (Phase II)
Project Introduction
This project is a continuation of ASEAN IVO project 2019-4. The aim is to expand ionospheric observational infrastructure further in Cambodia and perform data analysis from multi-sensor sources including GNSS receivers, ionosonde, magnetometer and VHF radar station located at the magnetic equator and low-latitude regions. A new GNSS station is to be installed at National Institute of Posts, Telecoms & ICT (NIPTICT) at Phnom Penh, Cambodia to expand the network of GNSS stations under South East Asia Low-latitude IOnospheric Network (SEALION) project.
Importantly, this project aims to establish a GNSS and Space Weather Excellence Center at KMITL, Thailand to provide the data from our observation networks and the knowledge and research information on GNSS, ionosphere and space weather effects through various media and channels such as seminars, trainings, online materials etc. to academic institutes and industries in Thailand and the neighboring ASEAN countries.
Importantly, this project aims to establish a GNSS and Space Weather Excellence Center at KMITL, Thailand to provide the data from our observation networks and the knowledge and research information on GNSS, ionosphere and space weather effects through various media and channels such as seminars, trainings, online materials etc. to academic institutes and industries in Thailand and the neighboring ASEAN countries.
Project Members
* Project Leader
Project Members | |
---|---|
Full Name | Department, Institution, Country |
Dr. Lin Min Min Myint * | King Mongkut’s Institute of Technology Ladkrabang, Thailand |
Pornchai Supnithi | King Mongkut’s Institute of Technology Ladkrabang, Thailand |
Watid Phakphisut | King Mongkut’s Institute of Technology Ladkrabang, Thailand |
Punyawi Jamjureekulkarn | King Mongkut’s Institute of Technology Ladkrabang, Thailand |
Prasert Kenpankho | King Mongkut's Institute of Technology Ladkrabang, Thailand |
Somkit Sophan | King Mongkut's Institute of Technology Ladkrabang, Thailand |
Tharadol Komolmis | Chiang Mai University, Thailand |
Sittiporn Channumsin | Geo-Informatic and Space Technology Development Agency (GISTDA), Thailand |
Donekeo Lakanchan | National University of Laos, Laos |
Khema Van | Cambodia Academy of Digital Technology, Cambodia |
Phutphalla Kong | Cambodia Academy of Digital Technology, Cambodia |
Takuya Tsugawa | NICT, Japan |
Kornyanat Hozumi | NICT, Japan |
Michi Nishioka | NICT, Japan |
Prayoonsak Praychan | Chiang Mai University, Thailand |
Phutsavanh Thogphanh | National University of Laos, Laos |
Phouthong Southisombath | National University of Laos, Laos |
Associate Project Members | |
---|---|
Full Name | Department, Institution, Country |
Amornchai Chaichana | King Mongkut’s Institute of Technology Ladkrabang, Thailand |
Koson Trachu | King Mongkut’s Institute of Technology Ladkrabang, Thailand |
Phimmasone Thammavongsy | National University of Laos, Laos |
Sarun Duangsuwan | King Mongkut’s Institute of Technology Ladkrabang, Thailand |
Nion Pathoummalath | National University of Laos, Laos |
Udomsit Tangtrakunphaisan | King Mongkut’s Institute of Technology Ladkrabang, Thailand |
- Project Introduction[PDF 622KB]
- 2021 progress report[PDF 892KB]
- 2022 project review[PDF 1.45MB]
- Project activities 2021–2022[PDF 2.19MB]
- 2021 final report[PDF 1.78MB]
- Analysis of local geomagnetic index under the influence of equatorial electrojet (EEJ) at the equatorial Phuket geomagneticstation in Thailand[PDF 2.32MB]
- Research Paper Report[PDF 173KB]
- Field Test Travel Report[PDF 1.35MB]
- URSI GASS 2023 poster session programme[PDF 71.5KB]
- URSI GASS 2023 Poster (pptx)
- URSI GASS 2023 programme at a glance[PDF 471KB]
- URSI GASS 2023 conference report (docx)
- ION GNSS 2023 conference report (docx)
- ION GNSS 2023 programme[PDF 2.03MB]
- ION GNSS 2023 presentation[PDF 3.56MB]
- Effects of Equatorial Plasma Bubbles over Real-Time Kinematic Positioning in Low-Latitude Region[PDF 710KB]
- Simultaneous equatorial plasma bubble observation using amplitude scintillations from GNSS and LEO satellites in low‑latitude region[PDF 2.29MB]