5:15 PM - 6:45 PM
*Yu-Shen Hsiao1, Kuan-Hsiang Fang1 (1. National Chung Hsing University)
[E] Poster
H (Human Geosciences ) » H-TT Technology & Techniques
Tue. May 28, 2024 5:15 PM - 6:45 PM Poster Hall (Exhibition Hall 6, Makuhari Messe)
Recent technical developments have enabled us to acquire high-definition topographic and geophysical data for geoscientific research, including land surface processes, subsurface structures, submarine/aerial environments, and geo-ecological interactions. Such high-definition or high-resolution data of the Earth's surface, hereby referred to as HiMESD (High-definition Multilayered Earth Surface Data), are particularly useful for studies on landscape developments over relatively short-term (decadal to millennial time scales), which are often assessed with the concept of connectivity in spatial and temporal contexts. HiMESD from ground and airborne platforms has become ubiquitous in everyday life, from car navigation systems to automated vacuum cleaners at home, playing a central role in quantifying and understanding "connectivity" in transportation networks, as well as in the sediment cascade from steep mountain tops to shallow and slow coastal rivers. HiMESD takes center stage, from the "micro-scale" of robot navigation to identifying the connectivity of active and more quiescent fault lines spanning several tens of kilometers.
In this session, we invite submissions on topics that challenge the issues of connectivity in the Anthropocene, the most recent geological era of the Earth affected by human activities. A range of topics would fit the session framework, including theoretical work, data acquisition, pre- and post-processing, extensive data preservation and archiving, statistical analysis, physical modeling, machine learning, and numerical simulation. The methodological approaches may include, but are not limited to, laser scanning (Lidar), photogrammetry (SfM), GNSS precise positioning, SAR interferometry, multi-beam sonar, ground-penetrating radar, geomagnetic/electromagnetic sensors, and multi/hyperspectral sensors, based on terrestrial (fixed or mobile), aerial (UAS/UAV or manned airborne), or satellite platforms.
5:15 PM - 6:45 PM
*Yu-Shen Hsiao1, Kuan-Hsiang Fang1 (1. National Chung Hsing University)
5:15 PM - 6:45 PM
*YU-SIAN YAN1, Yu-Shen Hsiao1 (1. National Chung Hsing University)
5:15 PM - 6:45 PM
*Takuro Ogura1, Kazuyuki Shimamoto2, Toshiaki Mizuno3, Hiroyuki Yamauchi4, Daisuke Katayama2, Tsuyoshi Hattanji5 (1. Graduate School of Education, Hyogo University of Teacher Education, 2. Lake Biwa Museum, 3. Lake Biwa Environmental Research Institute, 4. Art Research Center, Ritsumeikan University, 5. Faculty of Life and Environmental Sciences, University of Tsukuba)
5:15 PM - 6:45 PM
*Masafumi Inomata1, Yuichi S. Hayakawa2 (1. Graduate School of Environmental Science, Hokkaido University, 2. Faculty of Environmental Earth Science, Hokkaido University)
5:15 PM - 6:45 PM
*Yuichi S. Hayakawa1, Christopher A Gomez3, Teiji Watanabe1, Ting Wang1, Yusuke Kobayashi2, Masafumi Inomata2, Tomoya Sakai2, Satomi Imagawa2 (1. Faculty of Environmental Earth Science, Hokkaido University, 2. Graduate School of Environmental Science, Hokkaido University, 3. Maritime Science, Kobe University )
5:15 PM - 6:45 PM
*Christopher A Gomez1, Takashi Koi2, Norifumi Hotta3 (1. Kobe University Faculty of Maritime Sciences Sediment Hazards and Disaster Risk: SABO Laboratory, 2. Hokkaido University Center for Natural hazard Research, 3. University of Tokyo Graduate School of Agricultural and Life Sciences)
5:15 PM - 6:45 PM
*Christopher A Gomez1, Balazs Bradak2 (1. Kobe University Faculty of Maritime Sciences, Sediment Hazards and Disaster Risk: SABO Laboratory, 2. Kobe University Faculty of Maritime Sciences, Extraterrestrial Oceanography)
5:15 PM - 6:45 PM
*Christopher A Gomez1, Jiaqi Liu2, Jing Wu2 (1. Kobe University Faculty of Maritime Sciences Volcanic Risk at Sea Research Group, 2. Tottori University, Dry Land Research Centre, Japan)