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Vol.51,
No.4,
PP.127-172
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| 1 |  | Deep Neural Networks for Object-Based Image Classification of Hyperspectral Images | | | 2 | | Applying Portable Magnetometers to Detect Buried Instruments After a Debris Flow Event 51(4):140-146Hsien-Te Chou[1*] Chih-Hsuan Huang[1] Horng -Yuan Yen[2] Tao-Ssu Tsai[3]* Corresponding Author. E-mail :  htchou@cc.ncu.edu.tw Show preview |  PDF( 7.05MB ) | | Applying Portable Magnetometers to Detect Buried Instruments After a Debris Flow Event | 
Close | | Hsien-Te Chou[1*] Chih-Hsuan Huang[1] Horng -Yuan Yen[2] Tao-Ssu Tsai[3] |
AbstractA debris flow triggered by 575 mm of rainfall over a 24-h period during Typhoon Soulik on July 13,2013 buried debris-flow monitoring equipment in the gully 1 catchment at Houyenshan, Miaoli, Taiwan. The buried depth and covered area exceeded 2.5 m and 100 m2, respectively. Portable magnetometers were later deployed to detect a buried iron instrument case, and manual excavation was conducted from February 11 to April 6, 2015. The geomagnetic
characteristics of the hot spots for the buried equipment exhibited both a high geomagnetic gradient and a null
value on the magnetic anomaly contour map. The particle size distribution in the excavated pit indicated that the gravelly debris flows were both matrix-supported and muddy during the deposition process.
Key Words: portable magnetometer, magnetic anomaly, subsurface prospecting, debris flow | 〔1〕Department of Civil Engineering, National Central University, Jhongli, Taiwan R.O.C.
〔2〕Department of Earth Sciences, National Central University, Jhongli, Taiwan, R.O.C.
〔3〕SanHo Technology & Engineering Co., Ltd., Taipei, Taiwan, R.O.C. * Corresponding Author. E-mail : htchou@cc.ncu.edu.tw | Received: 2020/10/14
Revised: 2020/10/23
Accepted: 2020/11/02
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| | | 3 | | Long-Term Geomorphologic and Landslide Evolution in the Heshe River Watershed After Frequent Sediment Disasters | | | 4 | | Planning the Extent of Fluvial Corridors in Taiwan | |
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