IAG-IASPEI 2017

講演情報

Oral

Joint Symposia » J04. Geohazard early warning systems

[J04-5] Geohazard early warning systems V

2017年8月4日(金) 08:30 〜 10:00 Intl Conf Room (301) (Kobe International Conference Center 3F, Room 301)

Chairs: Naotaka Yamamoto (NIED) , Y. Tony Song (NASA Jet Propulsion Labortory)

09:45 〜 10:00

[J04-5-06] Airborne observations with a nadir-pointing radar altimeter for a great tsunami detection

Tomoyuki Hirobe1, Niwa Yoshihiro1, Takahiro Endoh1, Daisuke Inazu2, Takero Yoshida1, Hidee Tatehata1, Akitsugu Nadai3, Takuji Waseda1, Toshiyuki Hibiya1 (1.The University of Tokyo, Tokyo, Japan, 2.Tokyo University of Marine Science and Technology, Tokyo, Japan, 3.National Institute of Information and Communications Technology, Tokyo, Japan)

Most tsunami forecasting systems rely on the predicted magnitude and epicenter of an earthquake. This system sometimes underestimates the tsunami, especially when the magnitude of associated earthquake is large and the tremor continues for a long time. Recent study reveals that satellite radar altimeters are capable of detecting tsunami (e.g., J. Gower, 2007), however real-time detection is still difficult due to the low frequency of sampling possessed by satellite systems. In this study, we suggest to detect tsunami directly by airborne radar altimeters.
We performed nadir pointing observations using Frequency Modulated Continuous Wave (FMCW) radar, which is attached to the bottom of an airplane body. The radar observation procedure is basically similar to the present satellite radar altimeter. However, in airborne observation, airplane altitude is changing by a few meters at any time during the flight. Thus, a precise prediction of airplane positions by Global Navigation Satellite System (GNSS) is also important. We estimated the position and altitude by a baseline kinematic analysis. We then estimated the averaged sea surface height (SSH) by the radar altimeter observation and the GNSS analysis result.
We conducted airborne observations once in June 2016, and twice in December 2016. To check the precision of SSH measurements, the flight days and paths were decided according to the satellite SSH altimeter Jason-2 and Jason-3 schedules so as to compare with their SSH data. After correcting the geoid and tidal changes, we confirmed that our observation error is less than 10 cm in average, which is sufficient to capture large tsunamis offshore. In the future, we expect to form a dense observation network by using multiple commercial airplanes equipped with the same radar altimeter, which enables real-time tsunami detections.