Detail výsledku
Spaceborne LiDAR Systems: Evolution, Capabilities, and Challenges
Gibril Mohamed Barakat A., Eng.
Veverka Jiří, Ing., UREL (FEKT)
Sloboda Šimon, Ing., UREL (FEKT)
Maršálek Roman, prof. Ing., Ph.D., UREL (FEKT)
Götthans Tomáš, doc. Ing., Ph.D., RG-3-02 (CEITEC VUT), UREL (FEKT)
In the realm of earth observation and space exploration, LiDAR technology offers humanity insights into the dynamics of our planet and beyond. This paper reviews spaceborne LiDAR instruments with attention to their evolution, capabilities, and achievements. We focus on the high-level LiDAR instrument design, their components, and their operational parameters in contribution to the study of Earth. Through examining selected space missions, this work illustrates the role of LiDAR technology in our understanding of environmental and atmospheric phenomena. Furthermore, the paper looks ahead, discussing the ongoing development of advanced LiDAR technologies.
LiDAR; spaceborne LiDAR; remote sensing; earth observation; planetary exploration; atmospheric studies; LiDAR technology; topographic mapping; climate change monitoring; laser altimetry; space missions
@article{BUT198500,
author="Jan {Bolcek} and Mohamed Barakat A. {Gibril} and Jiří {Veverka} and Šimon {Sloboda} and Roman {Maršálek} and Tomáš {Götthans}",
title="Spaceborne LiDAR Systems: Evolution, Capabilities, and Challenges",
journal="SENSORS",
year="2025",
volume="25",
number="12",
pages="35",
doi="10.3390/s25123696",
url="https://www.mdpi.com/1424-8220/25/12/3696"
}