HISAKI Project Team

Takahide Mizuno

  (水野 貴秀)

Profile Information

Affiliation
Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency
Degree
(BLANK)(Yokohama National University)

J-GLOBAL ID
200901026954630207
researchmap Member ID
1000363037

月惑星や小惑星を探査する際に必要とされる
光や電波を使った『距離を測る技術』をテーマとして
ハードウェアの研究開発を中心に
実際のプロジェクトに非常に近いところから将来の要素技術まで
幅広く研究を行っています

Awards

 5

Papers

 66
  • Takahide Mizuno, Hirokazu Ikeda, Kenji Makino, Yusei Tamura, Yoshihito Suzuki, Tatsuya Hashi, Takashi Baba, Shunsuke Adachi, Ryuji Okumura
    Journal of the Society for Information Display, Mar 1, 2023  Peer-reviewedInvitedLead authorCorresponding author
  • Hirotomo Noda, Hiroki Senshu, Toshimichi Otsubo, Hiroshi Takeuchi, Clément Courde, Hiroo Kunimori, Christopher Moore, Ulrich Schreiber, Naoko Ogawa, Takanao Saiki, Yuto Takei, Mourad Aimar, Julien Chabé, Johann Eckl, Shun'ichi Kamata, Arika Higuchi, Takayuki Hirai, Grégoire Martinot-Lagarde, Hervé Mariey, Koji Matsumoto, Nicolas Maurice, Jun'ichi Nakazono, Duy-Hà Phung, Julien Scariot, Ryo Suetsugu, Jean-Marie Torre, Alex Pollard, Hervé Viot, Noriyuki Namiki, Takahide Mizuno
    Advances in Space Research, Jan, 2023  Peer-reviewed
  • Ryuhei Yamada, Keiko Yamamoto, Shoko Oshigami, Hiroshi Araki, Hiroki Senshu, Hirotomo Noda, Noriyuki Namiki, Koji Matsumoto, Fumi Yoshida, Shinsuke Abe, Naru Hirata, Sho Sasaki, Takahide Mizuno
    Earth, Planets and Space, 74(1), Nov 8, 2022  Peer-reviewed
    Abstract Japanese asteroid explorer Hayabusa2 arrived at C-type asteroid 162,173 Ryugu in June 2018. The laser altimeter (LIDAR) onboard Hayabusa2 measured its own transmitted laser and returned pulse intensities from a Ryugu surface until November 2019. Because the Ryugu surface is extremely rough, topography dominates over the material properties in the conventional derivation of normal albedo. Thus, we developed a method to retrieve the normal albedo from the rough surface of a C-type asteroid at a LIDAR laser wavelength of 1.064 μm. The albedo map covering an equatorial band between – 40° and + 20° in latitude was created with 3˚-by-3˚ resolution using the intensity data obtained before the conjunction of the spacecraft with the Sun. The average of the normal albedo is 0.0405 $$\pm$$ 0.0027, whereas approximately half of the 3°-by-3° grids are between 0.04 and 0.045. The low and uniform normal albedo feature is common to other remote-sensing observations of Ryugu by visible and near-infrared cameras onboard Hayabusa2. Graphical Abstract
  • Keigo Enya, Masanori Kobayashi, Jun Kimura, Hiroshi Araki, Noriyuki Namiki, Hirotomo Noda, Shingo Kashima, Shoko Oshigami, Ko Ishibashi, T. Yamawaki, Kazuyuki Tohara, Yoshifumi Saito, Masanobu Ozaki, Takahide Mizuno, Shunichi Kamata, Koji Matsumoto, Sho Sasaki, Kiyoshi Kuramoto, Yuki Sato, Takeshi Yokozawa, Tsutomu Numata, Satoko Mizumoto, Hiroyuki Mizuno, Kenta Nagamine, Akihiko Sawamura, Kazuo Tanimoto, Hisato Imai, Hiroyuki Nakagawa, Okiharu Kirino, David Green, Masayuki Fujii, Satoru Iwamura, Naofumi Fujishiro, Yoshiaki Matsumoto, Kay Lingenauber, Reinald Kallenbach, Christian Althaus, Thomas Behnke, Jan Binger, Anna Daurskikh, Henri Eisenmenger, Ulrich Heer, Christian Hüttig, Luisa M. Lara, Alexander Lichopoj, Horst Georg Lötzke, Fabian Lüdicke, Harald Michaelis, Juan Pablo Rodriguez Garcia, Kerstin Rösner, Alexander Stark, Gregor Steinbrügge, Pascal Thabaut, Nicolas Thomas, Simone del Togno, Daniel Wahl, Belinda Wendler, Kai Wickhusen, Konrad Willner, Hauke Hussmann
    Advances in Space Research, 69(5) 2283-2304, Mar 1, 2022  Peer-reviewed
    The Jupiter Icy Moons Explorer (JUICE) is a science mission led by the European Space Agency, being developed for launch in 2023. The Ganymede Laser Altimeter (GALA) is an instrument onboard JUICE, whose main scientific goals are to understand ice tectonics based on topographic data, the subsurface structure by measuring tidal response, and small-scale roughness and albedo of the surface. In addition, from the perspective of astrobiology, it is imperative to study the subsurface ocean scientifically. The development of GALA has proceeded through an international collaboration between Germany (the lead), Japan, Switzerland, and Spain. Within this framework, the Japanese team (GALA-J) is responsible for developing three receiver modules: the Backend Optics (BEO), the Focal Plane Assembly (FPA), and the Analog Electronics Module (AEM). Like the German team, GALA-J also developed software to simulate the performance of the entire GALA system (performance model). In July 2020, the Proto-Flight Models of BEO, FPA, and AEM were delivered from Japan to Germany. This paper presents an overview of JUICE/GALA and its scientific objectives and describes the instrumentation, mainly focusing on Japan's contribution.
  • Takahide Mizuno, Hirokazu Ikeda, Shinya Iwashina, Tatsuya Hashi, Terumasa Nagano, Takashi Baba
    IEICE Electronics Express, 19(3) 20210518-20210518, Feb 10, 2022  Peer-reviewedLead author

Misc.

 111
  • 諸田 智克, 長 勇一郎, 長岡 央, 仲内 悠祐, 田畑 陽久, 相田 真里, 与賀田 佳澄, 水野 貴秀, 杉田 精司, 山田 亨, 井口 聖, 大西 利和, 高橋 慶太郎, 土屋 史紀, 山内 大介, 磯部 直樹, 岩田 隆浩, 宇佐美 尚人, 関本 勇太郎, 宮崎 康行, 新谷 昌人, 辻 健, 小野寺 圭祐, 川村 太一, 田中 智, 吉光 徹雄, 森 治, 佐伯 孝尚
    年会講演会 = JSASS annual meeting, 54 4p, Apr, 2023  
  • 生瀬裕之, 黛克典, 中島雅浩, 椎名哲男, 広橋一身, 樫根久佳, 千秋博紀, 水野貴秀, 名倉徹, 梅谷和弘, 小西晃央, 松本晃治, 野田寛大, 荒木博志, 末次竜, 佐々木晶
    宇宙科学技術連合講演会講演集(CD-ROM), 67th, 2023  
  • 西野祐一, 今城勝治, 柳澤隆行, 中野貴敬, 下地治彦, 水野貴秀, 福田盛介, 澤井秀次郎, 櫛木賢一, 坂井真一郎
    映像情報メディア学会技術報告, 45(3(IST2021 1-7)), 2021  
  • 水野貴秀, 福田盛介, 長谷川秀樹, 片山翔太, 徳田怜実, 伊藤琢博, 石田貴行, 坂井真一郎
    宇宙科学技術連合講演会講演集(CD-ROM), 64th, 2020  
  • 水野貴秀, 池田博一, 牧野健二, 田村有正, 鈴木祥仁, 枦達也, 足立俊介, 馬場隆, 三田信, 三桝裕也, 星野健
    宇宙科学技術連合講演会講演集(CD-ROM), 64th, 2020  

Presentations

 8

Teaching Experience

 1

Professional Memberships

 2

Research Projects

 23

Social Activities

 4