Print edition: ISSN 0913-5685 Online edition: ISSN 2432-6380
[TOP] | [2013] | [2014] | [2015] | [2016] | [2017] | [2018] | [2019] | [Japanese] / [English]
SANE2016-39
[Special Talk]
Development of Phased Array Weather Radar
Tomoo Ushio (Osaka Univ.)
pp. 1 - 2
SANE2016-40
[Special Talk]
Intelligent Electronic Nose with Metal-Oxide Gas Sensors and its Applicability to Smell Communication
Sigeru Omatu (OIT)
pp. 3 - 11
SANE2016-41
Bias Estimation for Distributed Sensor Data Fusion
-- Bias Estimation Method Based on Multi-Agent Model --
Hidetoshi Furukawa (Toshiba)
pp. 13 - 16
SANE2016-42
A general-purpose high-performance microsatellite OBC module
Hiroaki Doi, Shinichi Kimura (TUS)
pp. 17 - 21
SANE2016-43
Verification of the real-time image-processing camera for debris removal
Nozomi Shiraishi, Shinichi Kimura (TUS), Kouichi Shibasaki, Wataru Obayashi (KHI)
pp. 23 - 27
SANE2016-44
Web Archive for Polarimetric Scattering Decomposition Images
Yoshio Yamaguchi (Niigata Univ.)
pp. 29 - 34
SANE2016-45
Gradient-based inverse scattering approach by using cost functional consisting the stored energy with no information on incident field - one dimensional case -
Toshifumi Moriyama, Toshiyuki Tanaka (Nagasaki Univ.), Takashi Takenaka (South China Normal Univ.)
pp. 35 - 38
SANE2016-46
[Special Talk]
Japanese radiowave techniques from the view point of Radar
Hisashi Morishita (NDA)
p. 39
SANE2016-47
Drone detection using Multimode sensor module NJR4233D.
Satoshi Sasaki, Toshihiko Sasahara, Hiroshi Hosaka, Ryouta Kan, Kazuaki Yoshida, Masaaki Goto, Suguru Watanabe, Yasuhiro Tsukada, Kazuo Oikawa (NJRC)
pp. 41 - 45
SANE2016-48
Grating Suppression of Microwave Radar
Shigeki Oma, Kan Araki (ATLA)
pp. 47 - 50
SANE2016-49
Experimental Verification for Detectable Range Performance of Stepped Multiple Frequency CPC and Pulse Compression
Manabu Akita, Yuya Ota, Masato Watanabe, Takayuki Inaba (UEC)
pp. 51 - 56
SANE2016-50
Radiation Field from Arbitrary Curved Surface Array
Takeru Oka, Hirokazu Kobayashi (OIT)
pp. 57 - 62
Note: Each article is a technical report without peer review, and its polished version will be published elsewhere.