対外発表
2021
学術論文
  1. Kondo, K., et al., Nonlinear Model Predictive Detumbling of Small Satellites with a Single-axis Magnetorquer, Journal of Guidance, Control, and Dynamics, Vol. ??, No. ??, January 2021, pp. ????–????. (in press)


学会発表
  1. 松下悠里,板谷優輝,吉村康広,福島忠徳,花田俊也,低軌道ADRミッションにおけるターゲット物体の姿勢運動解析,第9回デブリワークショップ,東京都調布市,2021年24月–26日
  2. Matsushita Y., et al., “Attitude Estimation of Space Objects Using Glint”, PEDAS.1, 43rd COSPAR Scientific Assembly, Sydney, Australia, January 28–February 4, 2021, Paper PEDAS.1-0002-1.
  3. Kondo, K., et al. “Pulse Width Modulation Method Applied to Nonlinear Model Predictive Control on an Underactuated Small Satellite.” AIAA Scitech 2021 Forum. 2021.


2020
学術論文
  1. Furumoto, M., Yoshimura, Y., and Hanada, T., Improvement in an Estimation Method of the Debris Environment Utilizing In-situ Measurements, September 2020Transactions of the Japan Society for Aeronautical and Space Sciences 18(5):276-280, DOI: 10.2322/tastj.18.276.
  2. Yoshimura, Y., Matsushita, Y., Arakawa, R., and Hanada, T., Light Curve Approximation Using an Attitude Model of Solar Sail Spacecraft, Journal of Guidance, Control, and Dynamics, Vol. 43, No. 10, October 2020, pp. 1960–1966, doi: 10.2514/1.G004966.


学会発表
  1. Baraskar, A., et al. “SPACE SOLAR POWER SATELLITE FOR INTERPLANETARY MISSION”, Paper ID: 57008, IAC CyberSpace Edition 2020.
  2. 長崎秀司,丸山貴大,吉村康広,花田俊也, 低軌道大型デブリの能動的除去に向けた宇宙機のランデブー軌道の設計に関する研究,日本航空宇宙学会西部支部講演会(2020)講演集,JSASS-2020-S027,オンライン,2020-11-6.
  3. 藤田浩輝,有吉雄哉,吉村康広, 小川泰信,花田俊也,EISCAT検出データからの複数の異なる破砕由来デブリ同定手法,第64回宇宙科学技術連合講演会講演集,JSASS-2020-4321,オンライン,2020.
  4. Kondo, K., Yoshimura, Y., Bando, M., Nagasaki, S., & Hanada, T. Model Predictive Approach for Detumbling an Underactuated Satellite. In AIAA Scitech 2020 Forum (p. 1433).


2019
学術論文
  1. Estimation of orbital parameters of broken-up objects from in-situ debris measurements, Yutaka Kodama, Masahiro Furumoto, Yasuhiro Yoshimura, Koki Fujita, Toshiya Hanada, Advances in Space Research, Vol.63, No.1, 2019, pp. 394-403.
  2. Digital Currency Design for Sustainable Active Debris Removal in SpaceKenji Saito, Shinji Hatta, Toshiya HanadaIEEE Transactions on Computational Social Systems, Vol.6, No.1, 2019, pp.127-134


講演論文
  1. Improvement in an Estimation Method of the Debris Environment Utilizing In-situ Measurements, Masahiro FURUMOTO, Yasuhiro YOSHIMURA, and Toshiya HANADAThe 32nd International Symposium on Space Technology and Science, Fukui, June 15-21, 2019, Paper 2019-r-07
  2. Attitude Estimation of Space Objects Using Imaging Observations and Deep Learning, Rhohei Arakawa, Yuri Matsushita, Yasuhiro Yoshimura, Toshiya HanadaThe 20th Annual Advanced Maui Optical and Space Surveillance Technologies (AMOS) Conference, Maui, HI, US, September 17-20, 2019
  3. Evaluation of Active Debris Removal Strategy Using a Debris Evolutionary Model, Satomi Kawamotoa, Nobuaki Nagaoka, Toshiya Hanada and Shuji AbeThe 70th Intl Astronautical Congress, Washington D.C., United States, October 21-25, 2019, Paper IAC-19,A6,2,10,x53577
  4. The Optimal Collision Avoidance Maneuver with Multiple Objects in GEO, Kota Sato, Makoto Hanada, Yasuhiro Yoshimura, Toshiya Hanada, Taku Izumiyama, Ryu ShinoharaThe 70th Intl Astronautical Congress, Washington D.C., United States, October 21-25, 2019, Paper IAC-19,A6,2, 11,x50282
  5. 軌道上観測によるデブリ環境変動検知の統計的検証古本政博,佐原宏典,花田俊也,第63回宇宙科学技術連合講演会,徳島県徳島市,令和元年11月7日
  6. 宇宙デブリ衝突による人工衛星ミッション終了リスクの定量化板谷優輝,平田大輔,山田淳,福島忠徳,出水澤大悟,松下悠里,吉村康広,花田俊也第63回宇宙科学技術連合講演会,徳島県徳島市,令和元年11月7日
  7. 一軸磁気トルカによる小型人工衛星の三軸デタンブリング制御近藤 耕太,吉村 康広,坂東 麻衣,長崎 秀司,花田 俊也第63回宇宙科学技術連合講演会,徳島県徳島市,令和元年11月7日
  8. 光観測による宇宙デブリの識別と運動軌跡検出向麟,花田俊也日本航空宇宙学会西部支部講演会(2019)講演集,JSASS-2019-S037,大分県大分市,令和元年11月30日
  9. 軌道環境推定に基づく能動的デブリ除去におけるプライオリティーリストの選択丸山貴大,長崎秀司,花田俊也日本航空宇宙学会西部支部講演会(2019)講演集,JSASS-2019-S040,大分県大分市,令和元年11月30日
  10. テザー衛星の挙動解析に対する距離関数の適用とその有効性高橋雄文,吉村康広,長崎秀司,花田俊也日本航空宇宙学会西部支部講演会(2019)講演集,JSASS-2019-S041,大分県大分市,令和元年11月30日
  11. 宇宙エレベーターの宇宙デブリに対する残存率評価,田中紘生,長崎秀司,花田俊也,日本航空宇宙学会西部支部講演会(2019)講演集,JSASS-2019-S041,大分県大分市,令和元年11月30日
  12. Light Curve Analysis and Attitude Estimation of Space Objects Focusing on Glint, Yuri Matsushita, Ryohei Arakawa, Yasuhiro Yoshimura, Toshiya Hanada, The 1st Intl Orbital Debris Conference, Sugarland, TX, United States, December 9-12, 2019, Paper #6091
  13. Space Debris Mitigation by Passive Debris Removal in Large Constellation, Masaya Nitta, Yasuhiro Yoshimura, Toshiya Hanada, The 1st Intl Orbital Debris Conference, Sugarland, TX, United States, December 9-12, 2019, Paper #6084
  14. Combining Photometric Data Formulation with Attitude Model of a Spinning Solar Sail Spacecraft, Yasuhiro Yoshimura, Yuri Matsushita, Ryohei Arawaka, Toshiya HanadaThe 1st Intl Orbital Debris Conference, Sugarland, TX, United States, December 9-12, 2019, Paper #6082,
  15. Impact on Collision Probability by Post Mission Disposal and Active Debris Removal, Satomi Kawamoto, Nobuaki Nagaoka, Tsuyoshi Sato, Toshiya Hanada, The 1st Intl Orbital Debris Conference, Sugarland, TX, United States, December 9-12, 2019, Paper #6100
  16. Generalized Collision Flux Approximation for In-Situ Measurements, Daigo Izumizawa, Masahiro Furumoto, Yasuhiro Yoshimura, Toshiya HanadaThe 1st Intl Orbital Debris Conference, Sugarland, TX, United States, December 9-12, 2019, Paper #6092


2018
学術論文
  1. An Environmental Estimation Model for In-situ Measurements of Small Space DebrisMasahiro Furumoto, Toshiya HanadaAdvances in Space Research, Vol.62, No.3, 2018, pp.533-541.
  2. Precise Time Estimation of On-orbit Satellite FragmentationsYuki Itaya, Koki Fujita, Toshiya HanadaActa Astronautica, Vol.152, 2018, pp.415-425.
  3. Evaluation of Space Debris Mitigation Measures Using a Debris Evolutionary ModelSatomi Kawamoto, Takayuki Hirai, Shiki Kitajima, Shuji Abe, and Toshiya HanadaTransactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, Vol.16, No.7, 2018, pp.599-603.


講演論文
  1. 微小デブリの軌道上観測データを用いた環境推定モデル,古本政博, 花田俊也,天体力学N体力学研究会, 東京都三鷹市, 平成30年3月9日
  2. Environmental Estimation on Sub-millimeter-size Debris Utilizing In-situ Measurement Data, Masahiro Furumoto, Toshiya HanadaThe 42th COSPAR Scientific Assembly, Pasadena, California, USA, July 14-22, 2018, Paper PEDAS.1-0011-18.
  3. Determination of Harmful Space Debris Using two Collision Calculation Algorithms, Keita Owatashi, Melissa Zemoura, Toshiya HanadaThe 42th COSPAR Scientific Assembly, Pasadena, California, USA, July 14-22, 2018, Paper PEDAS.1-0013-18.
  4. Estimation of Orbital Environment Incorporating Environmental Change Due to Major Breakups Utilizing In-situ Measurement, Masahiro Furumoto, Toshiya HanadaThe 69th Int’l Astronautical Congress, Bremen, Germany, October 1-5, 2018, Paper IAC-18-A6.2.2.x45660.
  5. Constrained Admissible Regionに基づくEISCAT検出デブリの軌道推定, 藤田浩輝, 花田俊也, 吉川顕正, 山岡均, 柳沢俊史, 松本晴久, 神谷浩紀, 北澤幸人, Jussi Markkanen, 小川泰信第62回宇宙科学技術連合講演会,福岡県久留米市,平成30年10月24日.
  6. 軌道上観測による微小デブリ環境推定手法の構築,古本政博,吉村康広,花田俊也,第62回宇宙科学技術連合講演会,福岡県久留米市,平成30年10月24
  7. テザー衛星の多質点モデルに関する運動解析,韓京達,花田俊也,吉村康広第62回宇宙科学技術連合講演会,福岡県久留米市,平成30年10月25日
  8. 光学観測を用いた接近判定精度の向上,花田充,泉山卓,吉村康広,花田俊也第62回宇宙科学技術連合講演会,福岡県久留米市,平成30年10月25日
  9. ライトカーブインバージョン実証衛星“Q-Li”の開発,大渡慶太,古本政博,吉村康広,花田俊也第62回宇宙科学技術連合講演会,福岡県久留米市,平成30年10月26日
  10. 非対称物体の姿勢・質量特性推定,吉村康広,原田直輝,小島広久,花田俊也第62回宇宙科学技術連合講演会,福岡県久留米市,平成30年10月26日
  11. 楕円軌道の衛星を用いた軌道上観測における衝突フラックスの計算方法,出水澤大悟,古本政博,吉村康広,花田俊也日本航空宇宙学会西部支部講演会(2018)講演集,JSASS-2018-S001,福岡県福岡市,平成30年11月22日
  12. 低軌道デブリの軌道上光学観測,熊芳強,吉村康広,花田俊也,日本航空宇宙学会西部支部講演会(2018)講演集,JSASS-2018-S009,福岡県福岡市,平成30年11月22日
  13. 環境改善効果とミッション開始時期を考慮した現実的な複数個能動的デブリ除去の軌道設計,川野舞人,花田俊也日本航空宇宙学会西部支部講演会(2018)講演集,JSASS-2018-S031,福岡県福岡市,平成30年11月22日
  14. 能動的デブリ除去のための,デジタル通貨を利用した経済プラットフォームの提案,斉藤賢爾,八田真児,花田俊也第8回「スペースデブリワークショップ」講演資料集(宇宙航空研究開発機構特別資料:JAXA-SP-18-011)275-280頁,東京都調布市,平成30年12月3-5日
  15. 軌道上デブリ除去対象指標とその低減効果の比較,長岡信明,河本聡美,花田俊也,阿部修司第8回「スペースデブリワークショップ」講演資料集(宇宙航空研究開発機構特別資料:JAXA-SP-18-011)281-290頁,東京都調布市,平成30年12月3-5日
  16. 軌道上観測データを用いた微小スペースデブリの環境推定,古本政博,出水澤大悟,吉村康広,花田俊也第8回「スペースデブリワークショップ」講演資料集(宇宙航空研究開発機構特別資料:JAXA-SP-18-011)327-338頁,東京都調布市,平成30年12月3-5日.
  17. 宇宙ごみのモデリングとその応用花田俊也第8回「スペースデブリワークショップ」講演資料集(宇宙航空研究開発機構特別資料:JAXA-SP-18-011)339-354頁,東京都調布市,平成30年12月3-5日.
  18. 光学観測による宇宙物体の動態推定に関する研究,荒川稜平,松下悠里,吉村康広,花田俊也第8回「スペースデブリワークショップ」講演資料集(宇宙航空研究開発機構特別資料:JAXA-SP-18-011)591-605頁,東京都調布市,平成30年12月3-5日
  19. ライトカーブインバージョン技術実証衛星Q-Li松下悠里,荒川稜平,吉村康広,花田俊也第8回「スペースデブリワークショップ」講演資料集(宇宙航空研究開発機構特別資料:JAXA-SP-18-011)609-610頁,東京都調布市,平成30年12月3-5日



2017
学術論文
  1. Simultaneous Detection of Multiple Debris via a Cascade of Numerical Evaluations and a Voting Scheme for Lines in an Image SequenceKoki Fujita, Naoyuki Ichimura, Toshiya Hanada, Acta Astronautica, Vol.133, 2017, pp.416-422.
  2. Orbital plane constraint applicable for in-situ measurement of sub-millimeter-size debrisMasahiro Furumoto, Koki Fujita, Toshiya Hanada, Haruhisa Matsumoto, Yukihito KitazawaAdvances in Space Research, Vol.59, No.6, 2017, pp.1599-1606.
  3. Removal targets’ classification: how time considerations modify the definition of the indexMélissa Zemoura, Toshiya Hanada, Satomi Kawamoto, Advances in Space Research, Vol.60, No.6, 2017, pp.1163-1187
  4. Maneuver of Satellites Constellation for Optimal Continuous CoverageOsama Mostafa, Toshiya Hanada, Imperial Journal of Interdisciplinary Research (IJIR), Vol.3, No.9, 2017, pp.967-974.
  5. Digital Currency Design for Sustainable Active Debris Removal in SpaceKenji Saito, Shinji Hatta, Toshiya Hanada2017, arXiv:1710.05141 [cs.CY].


講演論文
  1. Environmental Estimation on Sub-millimeter-size Debris Using In-situ Measurement Data, Masahiro Furumoto, Koki Fujita, Toshiya HanadaThe 27th AAS/AIAA Space Flight Mechanics Meeting, San Antonio, TX, February 5-9, 2017, Paper AAS 17-298.
  2. Perturbation in Orbital Elements of a High Elliptical Orbit of Satellites Constellation, Osama Mostafa Abdelaziz ALI, Toshiya Hanada, Koki FujitaThe 27th AAS/AIAA Space Flight Mechanics Meeting, San Antonio, TX, February 5-9, 2017, Paper AAS 17-360.
  3. Environmental Estimation on Sub-millimeter-size Debris Using In-situ Measurement DataEffective Search Strategy Applicable for Narrow Field-of-view Telescope, Masahiro Furumoto, Shin’ya Nakano, Koki Fujita, Toshiya Hanada, The 7th European Conference on Space Debris, Darmstadt, Germany, April 18-21, 2017.
  4. Effective Search Strategy Applicable for Narrow Field-of-view Telescope,  .Yuki Itaya, Koki Fujita, Toshiya HanadaThe 31st International Symposium on Space Technology and Science, Matsuyama-Ehime, June 3-9, 2017, Paper 2017-r-21.
  5. Estimation of Orbital Parameters of Broken-up Objects from In-situ Debris Measurements, Yuki Itaya, Koki Fujita, Toshiya Hanada, The 31st International Symposium on Space Technology and Science, Matsuyama-Ehime, June 3-9, 2017, Paper 2017-r-29.
  6. Environmental Estimation on Sub-millimeter-size Debris Using In-situ Measurement Data, Masahiro Furumoto, Shin’ya Nakano, Koki Fujita, Toshiya HanadaThe 31st International Symposium on Space Technology and Science, Matsuyama-Ehime, June 3-9, 2017, Paper 2017-r-30
  7. Evaluation of Space Debris Mitigation Measures Using a Debris Evolutionary Model, Satomi Kawamoto, Takayuki Hirai, Shiki Kitajima, Shuji Abe, Toshiya Hanada, The 31st International Symposium on Space Technology and Science, Matsuyama-Ehime, June 3-9, 2017, Paper 2017-r-31.
  8. Development of an Orbital Model for Small-Sized Space Debris Considering Electromagnetic Fields around the Earth, Keisuke Akari, Hiroshi Yamakawa, Toshiya Hanada, Koki FujitaThe 31st International Symposium on Space Technology and Science, Matsuyama-Ehime, June 3-9, 2017, Paper 2017-r-33.
  9. An Optimal Rendezvous with Multiple Space Debris Utilizing Nodal Regressions for Low Earth Orbits, Koki Fujita, Ryusuke Harada, Toshiya HanadaThe 31st International Symposium on Space Technology and Science, Matsuyama-Ehime, June 3-9, 2017, Paper 2017-r-41.
  10. Magnetic Field Effects on Sub-millimeter-size Debris, Makoto Hanada, Koki Fujita, Toshiya Hanada, Hiroshi Yamakawa, The 31st International Symposium on Space Technology and Science, Matsuyama-Ehime, June 3-9, 2017, Paper 2017-r-53.
  11. Dynamics Observation of Space Objects Using Adaptive Optics Simulation and Light Curve Analysis, Kazufumi Watanabe, Toshiya Hanada, Koki Fujita, The 18th Annual Advanced Maui Optical and Space Surveillance Technologies (AMOS) Conference, Maui, HI, US, September 19-22, 2017.
  12. Estimation of Orbital Parameters of Broken-up Objects from In-situ Debris Measurement, Yutaka Kodama,  Masahiro Furumoto, Koki Fujita, Toshiya HanadaThe 68th Int’l Astronautical Congress, Adelaide, Australia, September 25-29, 2017, Paper IAC-17,A6,6,x40783.
  13. A Search Strategy Applicable for Breakup Fragments in Highly Elliptical Orbit, Yuki Itaya, Koki Fujita, Toshiya HanadaThe 68th Int’l Astronautical Congress, Adelaide, Australia, September 25-29, 2017, Paper IAC-17,A6,9,IP,28,x40784.
  14. EISCATレーダー観測によるスペースデブリ同定, 藤田浩輝, 板谷優輝, 花田俊也, 吉川顕正, 山岡均, 柳沢俊史, 松本晴久, 神谷浩紀, Markkanen Jussi Sodankyla, 小川泰信,第61回宇宙科学技術連合講演会,新潟県新潟市,平成29年10月26日.
  15. 光学観測による宇宙物体の動態推定,渡邉一史,花田俊也,藤田浩輝,日本航空宇宙学会 西部支部講演会(2017),JSASS-2017-S030,平成29年11月25日
  16. IDEA the Project for In-situ Debris Environmental Awareness, Charlie Bachtiar Gunawan, Kota Sato, Masahiro Furumoto, Yutaka Kodama, Toshiya HanadaThe Ninth Kyushu-Univ.-KAIST Symposium on Aerospace Engineering, December 7-9, 2017, Kyushu Univ., Fukuoka, Japan
  17. Applying Distance Function for Daynamics of Multi-point Masses Tether System, Jinda Han, Toshiya Hanada, The Ninth Kyushu-Univ.-KAIST Symposium on Aerospace Engineering, December 7-9, 2017, Kyushu Univ., Fukuoka, Japan


2016
学術論文
  1. An Orbit Determination from Debris Impacts on Measurement SatellitesKoki Fujita, Masahiro Furumoto, Mistuhiko Tasaki, Toshiya HanadaAdvances in Space Research, Vol.57, No.2, 2016, pp.620-626.
  2. Orbital Objects Detection Algorithm Using Faint StreaksMakoto Tagawa, Toshifumi Yanagisawa, Hirohisa Kurosaki, Hiroshi Oda, Toshiya HanadaAdvances in Space Research, Vol.57, No.4, 2016, pp.929-937.
  3. Research and Development of Orbital Debris Removal using Low Density MaterialMitsuhiko Tasaki, Hiroaki Hamada, Akira Doi, Toshiya Hanada, Yukihito KitazawaIHI Engineering Review, Vol.49, No.1, 2016, pp.35-45.
  4. Earth Escape from a Sun-Earth Halo Orbit Using the Unstable Manifold and Lunar Gravity AssistsHongru Chen, Yasuhiro Kawakatsu, Toshiya Hanada, Transactions of the Japan Society for Aeronautical and Space Sciences, Vol.59, No.5, 2016, pp.269-277.
  5. Phasing Delta-V for the Transfer from a Sun-Earth Halo Orbit to the MoonHongru Chen, Yasuhiro Kawakatsu, Toshiya HanadaActa Astronautica, Vol.127. 2016, pp.464-473.
  6. Towards A Better Understanding of Space Debris EnvironmentToshiya Hanada, International Journal of Aerospace System Engineering, Vol.3, No.1, 2016, pp.5-9.


講演論文
  1. スペースデブリ問題の現状と世界動向(基調講演),花田俊也,スペースデブリ脱軌道のためのLaser Nudging技術に関するシンポジウム(テクノ・シンポジウム名大),平成28年2月
  2. Towards A Better Understanding of Space Debris Environment (Keynote Lecture),Toshiya Hanada, Proceedings of the Asian Joint Symposium on Aerospace Engineering 2016, May 18-21, 2016, Jeju, Korea
  3. スペースデブリ環境の理解に向けて,花田俊也,吉川顕正,阿部修司,藤田浩輝,第60回宇宙科学技術講演会,1F03(JSASS-2016-4083),平成28年9月6日
  4. 宇宙天気活動に伴うスペースデブリ環境の変動と予測,阿部修司花田俊也,吉川顕正,第60回宇宙科学技術講演会,1F04(JSASS-2016-4084),平成28年9月6日
  5. 観測衛星を用いた微小デブリ軌道面推定法の評価と改善,藤田浩輝,古本政博,花田俊也,第60回宇宙科学技術講演会,3F03(JSASS-2016-4425),平成28年9月8日
  6. 地球周辺電磁場の影響を考慮した微小デブリの軌道モデルの構築,明里慶祐,山川宏,花田俊也,藤田浩輝第60回宇宙科学技術講演会,P39(JSASS-2016-4708),平成28年9月8日
  7. Sub-millimeter Size Debris Monitoring System with IDEA OSG 1, Masahiko Uetsuhara, Mitsunobu Okada, Yasunori Yamazaki,  Toshiya HanadaThe 17th Annual Advanced Maui Optical and Space Surveillance Technologies Conference, Maui, HI, September 20-23, 2016.
  8. Influences of Mega Constellations on the Orbital Environment, Shiki Kitajima, Shoji Abe, Toshiya Hanada, Satomi KawamotoThe 67th Int’l Astronautical Congress, Guadalajara, Mexico, September 26-30, 2016, Paper IAC-16,A6,2,5,x35062.
  9. Designing Multiple Space Debris Removal Missions Considering Fuel Efficiency and Environmental Remediation,  Ryusuke Harada, Koki Fujita, Toshiya Hanada, The 67th Int’l Astronautical Congress, Guadalajara, Mexico, September 26-30, 2016, Paper IAC-16,A6,6,11,x34447.
  10. Monitoring the Health of Geosynchronous Spacecraft Using Photometric Observations, Toshiya Enomoto, Toshiya Hanada, Koki Fujita, Yukihito Kitazawa, The 67th Int’l Astronautical Congress, Guadalajara, Mexico, September 26-30, 2016, Paper IAC-16,A6,IP,23,x34674.
  11. 長期の宇宙天気活動に伴うスペースデブリ環境の推移予測,阿部修司,花田俊也,吉川顕正,平井隆之,河本聡美第3回「太陽地球環境データ解析に基づく超高層大気の空間・時間変動の解明」/第320回生存圏シンポジウム/平成28年度名大ISEE研究集会/平成28年度極地研研究集会,平成28年10月19日.
  12. メガコンステレーションが軌道環境へ与える影響評価,北島志樹,阿部修司,花田俊也,河本聡美第7回スペースデブリワークショップ,H1,平成28年10月20日.
  13. 光学観測による宇宙物体の動態観測,榎本稔也,渡邉一史,藤田浩輝,花田俊也,北澤幸人第7回スペースデブリワークショップ,H3,平成28年10月20日.
  14. 長期の宇宙天気活動に伴うスペースデブリ環境の推移予測,阿部修司,花田俊也,吉川顕正,平井隆之,河本聡美第7回スペースデブリワークショップ,P4,平成28年10月20日.
  15. 微小デブリの軌道上観測による環境推定, 古本政博,藤田浩輝,花田俊也,中野慎也,  第13回宇宙環境シンポジウム,平成28年11月1-2日.
  16. 衝突フラックスによるスペースデブリの危険性評価, 大渡慶太,花田俊也日本航空宇宙学会西武支部講演会(2016),平成28年11月18日.
  17. スペースデブリ環境の理解に向けて(特別講演), 花田俊也第140回 地球電磁気・地球惑星圏学会 総会および講演会,平成28年11月20-23日.


2015
学術論文
  1. Development of In-Situ Micro-Debris Measurement SystemMaki Nakamura, Yukihito Kitazawa, Haruhisa Matsumoto, Osamu Okudaira, Toshiya Hanada, Akira Sakurai, Kunihiro Funakoshi, Tetsuo Yasaka, Sunao Hasegawa, Masanori KobayashiAdvances in Space Research, Vol.56, No.3, 2015, pp.436-448.
  2. Attitude Motion Under Full Orbit PerturbationsToshiya Hanada, Hideaki Hinagawa, Hongru Chen, Hiroaki Hamada, Shingo IkemuraTransactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, Vol.13, 2015, pp.45-50.


講演論文
  1. Dynamic Modeling on Micron-size Orbital Debris Environment, Masahiro Furumoto, Koki Fujita, Toshiya HanadaPaper 1.1.3 presented at the 8th Asian-Pacific Conference on Aerospace Technology and Science, Jeju Island, Korea, May 20-23, 2015.
  2. Effect of small satellites’ post-mission disposal on sustainable space utilizationYuya Ariyoshi, Melissa Zemoura, Toshiya Hanada, Satomi KawamotoProceedings of the 7th International Conference on Recent Advances in Space Technologies, Intanbul, Turkey, June 16-19, 2015, pp.783-787
  3. Optimization of Orbital Transfer of Electrodynamic Tether Satellite by Nonlinear Programming, Ryusuke Harada, Koki Fujita, Toshiya HanadaPaper IEPC-2015-299/ISTS-2015-b-299 presented at the 30th International Symposium on Space Technology and Science (ISTS), July 4-10, 2015, Kobe-Hyogo, Japan.
  4. Phasing Problem for Sun-Earth Halo Orbit to Lunar Swingby Transfers, Hongru Chen, Yasuhiro Kawakatsu, Toshiya Hanada, Paper ISTS-2015-d-34 presented at the 30th International Symposium on Space Technology and Science (ISTS), July 4-10, 2015, Kobe-Hyogo, Japan.
  5. Mission Feasibility of Sensing Attitude Motion of Rocket Body, Toshiya Enomoto, Kenta Shiomi, Ryusuke Harada, Hideaki Hinagawa, Koki Fujita, Toshiya HanadaPaper ISTS-2015-r-05 presented at the 30th International Symposium on Space Technology and Science (ISTS), July 4-10, 2015, Kobe-Hyogo, Japan.
  6. Development on In-Situ Measurement Sensors for Micro-Meteoroid and Small Space Debris at JAXA, Y. Kitazawa, H. Matsumoto, O. Okudaira, Y. Kimoto, T. Hanada, P. Faure, Y. Akahoshi, M. Nakamura, K. Hashimoto, A. Sakurai, K. Funakoshi, T. Yasaka, Paper ISTS-2015-r-10 presented at the 30th International Symposium on Space Technology and Science (ISTS), July 4-10, 2015, Kobe-Hyogo, Japan.
  7. Dynamic Modeling on Micron-Size Orbital Debris, Masahiro Furumoto,Koki Fujita, Toshiya HanadaPaper ISTS-2015-r-12 presented at the 30th International Symposium on Space Technology and Science (ISTS), July 4-10, 2015, Kobe-Hyogo, Japan.
  8. Detecting GEO Debris via Cascading Numerical Evaluation for Lines in Image Sequence, Koki Fujita, Naoyuki Ichimura, Toshiya HanadaPaper presented at the 16th Advanced Maui Optical and Space Surveillance Technologies Conference (AMOS), September 15-18, 2015, Maui, Hawaii.
  9. 超小型衛星による微小デブリモニタリング計画”IDEA” 現状と今後の発展, 古本政博,藤田浩輝,花田俊也第59回宇宙科学技術連合講演会,1I04 (JSASS-2015-4131),平成27年10月7日.
  10. 汎地球観測ネットワークを基軸とした宇宙天気研究・教育の革新的国際展開,花田俊也,吉川顕正,山岡均,野口高明,北澤幸人,柳沢俊史,松本晴久第59回宇宙科学技術連合講演会,2L05 (JSASS-2015-4404),平成27年10月8日.
  11. 2基以上の観測衛星によるスペースデブリ軌道面推定手法の研究,藤田浩輝,田崎洸彦,古本政博,花田俊也第59回宇宙科学技術連合講演会,3L12 (JSASS-2015-4595),平成27年10月9日.
  12. Iso-grid Structural Mass Optimization Using Computer Experiments, Oluwagbenga Ajisafe, Koki Fujita, Toshiya HanadaProceedings of the Seventh Kyushu Univ. – KAIST Symposium on Aerospace Engineering, Fukuoka, Japan, December 10-12, 2015, pp.112-116.
  13. Orbital Design for Space Debris Removal Missions, Ryusuke Harada, Koki Fujita, Toshiya Hanada, Yuki SetoProceedings of the Seventh Kyushu Univ. – KAIST Symposium on Aerospace Engineering, Fukuoka, Japan, December 10-12, 2015, pp.117-120.
  14. 宇宙環境保全における微小デブリ研究の現状,北澤幸人、松本晴久、奥平修、花田俊也、東出真澄、 赤星保浩、仁田工美第12回宇宙環境シンポジウム,北九州市,平成27年12月16-18日.
  15. IDEA the Project for In-situ Debris Environmental Awareness,花田俊也、藤田浩輝、古本政博第12回宇宙環境シンポジウム,北九州市,平成27年12月16-18日.
  16. 汎地球観測ネットワークを基軸とした 宇宙天気研究・教育の革新的 国際展開(取消),吉川顕正、花田俊也、羽田亨第12回宇宙環境シンポジウム,北九州市,平成27年12月16-18日.


2014
学術論文
  1. Storm-Time Atmospheric Density Modeling Using Neural Network and Its Application in Orbit PropagationHongru Chen, Huixin Liu, Toshiya Hanada, Advances in Space Research, Vol.53, No.3, 2014, pp.558-567.Awarded the  COSPAR Outstanding Paper Award For Young Scientists during the 40th COSPAR Scientific Assembly in Moscow, Russia.
  2. Orbit Determination by Genetic Algorithm and Application to GEO ObservationHideaki Hinagawa, Hitoshi Yamaoka, Toshiya Hanada, Advances in Space Research, Vol.53, No.3, 2014, pp.532-542.
  3. 低密度物質を用いたスペースデブリの除去方法の研究田﨑洸彦,濱田洋彰,阿江和暁,土井彰,花田俊也,北澤幸人,IHI技報 第54巻第3号64-75
  4. Influence of Small Satellites’ Post-mission Disposal with Enlarging Effective Cross-sectional AreaYuya Ariyoshi, Toshiya Hanada, Satomi KawamotoTransactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, Vol.12, No.ists29, 2014, pp.Pr_21-Pr_25.
  5. A Collaborative Observation Method Based on a Pair of Space-based Sensors and Ground Observatories for Small Debris in Low Earth OrbitMakoto Tagawa, Toshifumi Yanagisawa, Haruhisa Matsumoto, Yukihito Kitazawa, Toshiya HanadaTransactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, Vol.12, No.ists29, 2014, pp.Pr_27-Pr_34.


講演論文
  1. 宇宙デブリの現状と課題,花田俊也,北澤幸人,柳沢俊史,松本晴久,赤星保浩,レーザー学会創立40周年記念学術講演会・第34回年次大会,平成26年1月
  2. Near-Earth orbit debris identification to secure future Earth-Moon trajectory mission, Melissa Zemoura, Toshiya Hanada, Mitsunobu OkadaPaper AAS 14-320 presented at the Twenty-fourth AAS/AIAA Space Flight Mechanics Meeting, January 26-30, 2014, Santa Fe, NM.
  3. Orbital anomaly analysis to detect breakups in GEO, Masahiko Uetsuhara, Toshiya HanadaPaper AAS 14-326 presented at the Twenty-fourth AAS/AIAA Space Flight Mechanics Meeting, January 26-30, 2014, Santa Fe, NM.
  4. The observation of micron-size debris environment by using multi-satellite network for the IDEA project, Mitsuhiko Tasaki, Toshiya Hanada, Kazuaki Ae, Koki FujitaPaper AAS 14-413 presented at the Twenty-fourth AAS/AIAA Space Flight Mechanics Meeting, January 26-30, 2014, Santa Fe, NM.
  5. Low-energy Escape from the Sun-Earth L2 Utilizing Unstable Manifolds and Lunar Gravity Assist, Hongru Chen, Yasuhiro Kawakatsu, Toshiya Hanada, Paper AAS 14-468 presented at the Twenty-fourth AAS/AIAA Space Flight Mechanics Meeting, January 26-30, 2014, Santa Fe, NM.
  6. 世界トップのスペースデブリ環境評価技術の確立を目指して,花田俊也,第1回データ同化応用研究会,九州大学,2014年2月7日
  7. 破砕由来未知スペースデブリの観測と起源同定の効率化に関する研究,瀬戸裕基,第1回データ同化応用研究会,九州大学,2014年2月7日
  8. 小型衛星による微小デブリ観測ネットワークの構築について,田﨑洸彦,第1回データ同化応用研究会,九州大学,2014年2月7日
  9. IDEA 開発の状況,田﨑洸彦,九州小型衛星の会(QSSF)平成25年度研究会,九州大学,2014年3月15日
  10. 宇宙ごみ環境のモデリングとその応用(チュートリアル講演),花田俊也,平成25年度・第2回STE(太陽地球環境)現象報告会,九州大学西新プラザ,2014年3月17日
  11. Is Orbital Debris Removal Necessary in the Geostationary Region?, Satoshi Furuta, Toshiya Hanada, Koki Fujita, Kazuki TakezonoThe First Stardust Gloval Virtual Workshop (SGVW-1) on Asteroids and Space Debris, University of Strathclyde, Glasgow, UK, May 6-9, 2014.
  12. Characterizing Environmental Change to Identify Its Origin by In-situ Measurements, Mitsuhiko Tasaki, Toshiya Hanada, Koki Fujita.The First Stardust Gloval Virtual Workshop (SGVW-1) on Asteroids and Space Debris, University of Strathclyde, Glasgow, UK, May 6-9, 2014.
  13. Characterizing Breakup Fragments for Planning and Observations Using Time Delay Integration, Yuki Seto, Toshiya Hanada, Yukihito KitazawaThe First Stardust Gloval Virtual Workshop (SGVW-1) on Asteroids and Space Debris, University of Strathclyde, Glasgow, UK, May 6-9, 2014.
  14. An Efficient Tether Deployment Using Orbital Perturbation Forces, Koki Fujita, Masahiro Furumoto, Toshiya HanadaThe 24th JAXA Workshop on Astrodynamics and Flight Mechanics, July 28-29, 2014, Paper A-9.
  15. Analysis of Earth Escape Utilizing Unstable Manifolds and Lunar Gravity Assists, Hongru Chen, Yasuhiro Kawakatsu, Toshiya HanadaThe 24th JAXA Workshop on Astrodynamics and Flight Mechanics, July 28-29, 2014, Paper B-12.
  16. Detection Algorithm of Small and Fast Orbital Objects Using Faint Streaks; Application to Geosynchronous Orbital Objects, Makoto Tagawa, Toshifumi Yanagisawa, Hirohisa Kurosaki, Hiroshi Oda, Toshiya HanadaThe 40th COSPAR Scientific Assembly, Moscow, Russia, August 2-10, 2014, Paper/Poster PEDAS.1-0007-14.
  17. Optical and In-situ Debris Measurements under Collaboration with Space Weather Science and Education, Toshiya Hanada, Akimasa Yoshikawa, Yukihito Kitazawa, Toshifumi Yanagisawa, Haruhisa MatsumotoThe 40th COSPAR Scientific Assembly, Moscow, Russia, August 2-10, 2014, Paper/Poster PEDAS.1-0033-14.
  18. Follow-up Observatory for Low Earth Orbit Objects with a Detection Algorithm Using Streaks, Makoto Tagawa, Toshifumi Yanagisawa, Hirohisa Kurosaki, Hiroshi Oda, Toshiya HanadaThe 15th Annual Advanced Maui Optical and Space Surveillance Technologies Conference, Maui, HI, September 9-12, 2014.
  19. Trajectory Detection of GEO Debris Utilizing Features of Image Motion, Koki Fujita, Naoyuki Ichimura, Toshiya HanadaThe 65th Intl Astronautical Congress, Toronto, Canada, September 29-October 3, 2014, Paper IAC14,A6,1,10,x22276.
  20. Discussion on the Necessity of Orbital Debris Removal in the Geostationary Region, Satoshi Furuta,  Toshiya Hanada, Koki Fujita, Kazuki TakezonoThe 65th Intl Astronautical Congress, Toronto, Canada, September 29-October 3, 2014, Paper IAC14,A6,2,2,x22442.
  21. Identifying Origin of Breakup Event by In-situ Measurement, Mitsuhiko Tasaki, Koki Fujita, Toshiya HanadaThe 65th Intl Astronautical Congress, Toronto, Canada, September 29-October 3, 2014, Paper IAC14,A6,P,35,x21949.
  22. Securing Future Earth-Moon Commercial Space Travels: Simulation of Capture and De-orbit Phases for Active Debris Removal in Near-Earth Orbits, Melissa Zemoura, Toshiya Hanada, Mitsunobu OkadaThe 65th Intl Astronautical Congress, Toronto, Canada, September 29-October 3, 2014, Paper IAC14,A6,P,40,x22464.
  23. Survey and Origin Identification of Breakup Debris Using Time Delay Integration Method, Yuki Seto, Toshiya Hanada, Yukihito KitazawaThe 65th Intl Astronautical Congress, Toronto, Canada, September 29-October 3, 2014, Paper IAC14,A6,P,74,x25138.
  24. DEBDAS地上観測網の構築,山岡均,花田俊也,吉川顕正第7回スペースガード研究会「始原天体・スペースガード研究会」-アジア地域観測ネットワークの構築-,平成26年11月6日.
  25. 暗いストリークを用いた軌道上物体の検出手法,田川真,柳沢俊史,黒崎裕久,小田寛,花田俊也第7回スペースガード研究会「始原天体・スペースガード研究会」-アジア地域観測ネットワークの構築-,平成26年11月7日.
  26. 宇宙エレベータ建造に対する対流圏ケーブル問題の解析,元谷臣吾,花田俊也,中島俊第58回宇宙科学連合講演会,1M16 (JSASS-2014-4273),平成26年11月12日.
  27. 動的宇宙ゴミ環境モデルの研究Dynamic Modeling on Micron-size Orbital Debris Environment,古本政博,田﨑洸彦,藤田浩輝,花田俊也第58回宇宙科学連合講演会,2N06 (JSASS-2014-4273), 平成26年11月13日.
  28. 暗い軌跡を用いた移動物体検出手法の提案A Moving Object Detection Algorithm Using Faint Streaks,田川真,花田俊也,柳沢俊史,黒崎裕久,小田寛第58回宇宙科学連合講演会,3F08 (JSASS-2014-4649), 平成26年11月14日.
  29. 低軌道人工天体の追尾観測と運動解析Observation and Motion Analysis of Artificial Objects in Low Earth Orbit by a Tracking Method,三船陵子,西見和真,山口直宏,清岡美里,藤田浩輝,花田俊也日本航空宇宙学会西部支部講演会(2014),JSASS-2014-S016,平成26年11月28日.
  30. 総合的宇宙教育の実践 ―九州大学ペガススプロジェクトの取り組み―Practical Study on General Space Education: Activities of Pegasus Project in Kyushu University,藤原智子,鈴木右文,花田俊也,山岡均日本航空宇宙学会西部支部講演会(2014),JSASS-2014-S017,平成26年11月28日.
  31. 射出しない小型衛星によるロケット上段の 姿勢運動を把握するミッションの実現可能性Feasibility about Mission Aiming at Sensing Attitude Motion of Rocket Body by Small Satellite without Separation,榎本稔也,塩見健太,原田隆佑,日南川英明,花田俊也日本航空宇宙学会西部支部講演会(2014),JSASS-2014-S027,平成26年11月28日.
  32. 宇宙天気科学・教育との連携によるスペースデブリの光学と軌道上計測Optical and In-situ Debris Measurements in Collaboration with Space Weather Science and Education,花田俊也,吉川顕正,山岡均,北澤幸人,柳沢俊史,松本晴久第11回宇宙環境シンポジウム,大阪市,平成26年12月10-11日
  33. 宇宙ごみのモデリングとその応用についてOrbital Debris Modeling and Applications,花田俊也,第6回スペースデブリワークショップ,東京都調布市,平成26年12月17-19日.
  34. 地球周回近領域の影響評価及びその起源イベントの識別Evaluation of the impacts of near-Earth-orbit Debris Removal and Track of Impactful Events’ Origin,メリッサ・ゼムラ, 花田俊也,河本聡美第6回スペースデブリワークショップ,東京都調布市,平成26年12月17-19日.
  35. 軌跡を用いた軌道上物体検出手法の提案と適用結果Orbital Object Detection Algorithm Using Streaks,田川真,柳沢俊史,黒崎裕久,小田寛,花田俊也第6回スペースデブリワークショップ,東京都調布市,平成26年12月17-19日.
  36. 地球天候モデルを用いた軌道物体観測計画立案Orbital Object Observation Strategy Based on a Global Weather Model,田川真,柳沢俊史,黒崎裕久,小田寛,花田俊也第6回スペースデブリワークショップ,東京都調布市,平成26年12月17-19日.
  37. 小型光学系による低軌道物体の観測に関する研究Investigation on the Observation of LEO objects by Small Optical System,星野智裕,花田俊也,日南川英明第6回スペースデブリワークショップ,東京都調布市,平成26年12月17-19日
2013
学術論文
  1. Trajectory Estimation of the Hayabusa Spacecraft During Atmospheric DisintegrationMichael Shoemaker, Jozef van der Ha, Shinsuke Abe, Kazuhisa FujitaJournal of Spacecraft and Rockets, Vol.50, No.2, 2013, pp.326-336.
  2. Are Small Satellites Hazardous in Comparison to Large Spacecraft?Yuya Ariyoshi, Toshiya Hanada, Satomi KawamotoTransactions of the JSASS, Aerospace Technology Japan, Vol.11, 2013, pp.1-5.
  3. Observation Campaign Dedicated to 1968-081E Fragments IdentificationMasahiko Uetsuhara, Toshifumi Yanagisawa, Daisuke Kinoshita, Toshiya Hanada, Yukihito KitazawaAdvances in Space Research, Vol. 51, No. 12, 2013, pp. 2207-2215.
  4. Effective Search Strategy Applicable for Breakup Fragments in the Geostationary RegionToshiya Hanada, Masahiko Uetsuhara, Toshifumi Yanagisawa, Yukihito KitazawaJournal of Spacecraft and Rockets, Vol.50, No.4, 2013, pp.802-806.
  5. Practical Method to Identify Orbital Anomaly as Spacecraft Breakup in the Geostationary RegionMasahiko Uetsuhara, Toshiya HanadaAdvances in Space Research, Vol.52, No.6, 2013, pp.1072-1077.
  6. Capability Assessment of the Space-based Optical Measurement for LEO Debris, Makoto Tagawa, Toshifumi Yanagisawa, Haruhisa Matsumoto, Hirohisa Kurosaki, Hiroshi Oda, Toshiya Hanada, Yukihito KitazawaTransactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, Vol.11, 2013, pp.109-115.
  7. Orbital Debris Modeling and Applications at Kyushu UniversityT. HanadaProcedia Engineering Vol.67 (7th Asia-Pacific Conference on Aerospace Technology and Science, 7th APCATS 2013), 2013, pp.404-411


講演論文
  1. スペースデブリの脅威に立ち向かう,平山寛, 日本機械学会 宇宙工学部門 宇宙サロン「地球を取り巻く危険~宇宙の脅威から地球を守れるか~」, 日本機械学会(東京), 2013年1月9日.
  2. デブリ推移モデルによる将来予測,有吉雄哉,花田俊也,河本聡美第5回スペースデブリワークショップ, JAXA 調布航空宇宙センター, 2013年1月22-23日.
  3. 軌道上微小デブリ計測技術の研究開発 -JAXA 宇宙環境グループでの開発センサを中心に-,北澤幸人,松本晴久,奥平修,木本雄吾,Pauline Faure,服部真希,花田俊也,唐木敦,桜井晃,船越国弘,八坂哲雄第5回スペースデブリワークショップ, JAXA 調布航空宇宙センター, 2013年1月22-23日.
  4. 静止軌道周辺の破砕事象の観測とモデル化,上津原正彦,花田俊也,柳沢俊史,北澤幸人第5回スペースデブリワークショップ, JAXA 調布航空宇宙センター, 2013年1月22-23日.
  5. 軌道上光学センサによる LEO デブリ観測,田川真,花田俊也,柳沢俊史,松本晴久,北澤幸人第5回スペースデブリワークショップ, JAXA 調布航空宇宙センター, 2013年1月22-23日.
  6. 九州大学における宇宙ゴミのモデリングとその応用についてOrbital Debris Modeling and Applications at Kyushu University,花田俊也,在福岡アメリカ領事館 日米宇宙協力シンポジウム 「21世紀の日米宇宙開発におけるスペースデブリの影響と課題」, 福岡アメリカン・センター, 2013年1月25日.
  7. Spacecraft explosion event characterization using correlated observations, Masahiko Uetsuhara, Toshiya Hanada, Toshifumi Yanagisawa, Yukihito KitazawaPaper AAS 13-315 presented at the 23rd AAS/AIAA Space Flight mechanics Meeting, Kauai, Hawaii, February 10-14, 2013.
  8. Preliminary Simulation for Light Curves of Rocket Body in LEO, Hideaki Hinagawa, Toshiya HanadaPaper AAS 13-323 presented at the 23rd AAS/AIAA Space Flight mechanics Meeting, Kauai, Hawaii, February 10-14, 2013.
  9. 大学教育における汎学科の天体・宇宙観測科目の実践, 山岡均, 平山寛, 藤原智子, 花田俊也, 鈴木右文日本天文学会2013年春季年会, Y02a, 埼玉大学, 2013年3月20日.
  10. IDEA開発状況,花田俊也,池村晋吾,當房睦仁,九州小型衛星の会(QSSF) 平成24年度研究会, 2013年3月23日.動的宇宙ごみ環境モデルの研究,花田俊也,松本晴久,北澤幸人,柳沢俊史日本航空宇宙学会 第44期年会講演会,OS3「未来を築く学術大型研究計画」,P14,東京大学,平成25年4月18・19日.
  11. Stability of the Future LEO Environment – An IADC Comparison Study, Liou, J.-C., Anilkumar, A. K., Bastida Virgili, B., Hanada, T., Krag, H., Lewis, H., Raj, M. X. J., Rao, M. M., Rossi, A., Sharma, R. K.The Sixth European Conference on Space Debris, Darmstadt, Germany, April 22-25, 2013
  12. Research and Development on In-situ Measurement MMOD sensors at JAXA, Kitazawa, Y., Matsumoto, H., Okudaira, O., Faure, P., Akahoshi, Y., Hattori, M., Hanada, T., Karaki, A., Sakurai, A., Funakoshi, K., Yasaka, T.The Sixth European Conference on Space Debris, Darmstadt, Germany, April 22-25, 2013. 
  13. A Search for Possible Breakup Fragments in the Geostationary Region, Uetsuhara, M., Hanada, T., Kitazawa, Y., Yanagisawa, T.The Sixth European Conference on Space Debris, Darmstadt, Germany, April 22-25, 2013.
  14. IDEA the Project for In-situ Debris Environmental Awareness, Ae, K., Uetsuhara, M., Hanada, T.The Sixth European Conference on Space Debris, Darmstadt, Germany, April 22-25, 2013.
  15. Space-based Short Range Observations for LEO Debris, Tagawa, M., Yanagisawa, T., Hanada, T.The Sixth European Conference on Space Debris, Darmstadt, Germany, April 22-25, 2013.
  16. Atmospheric Density Modeling Using Neural Networks, Hongru Chen, Huixin Liu, Toshiya Hanada, Japan Geoscience Union Meeting, Chiba, May 19-24, 2013, Paper P-EM06-P04.
  17. Orbital Debris Modeling and Applications at Kyushu University T. HanadaThe Seventh Asia-Pacific Conference on Aerospace Technology and Science, Taiwan, May 23-26, 2013Also in  Procedia Engineering Vol.67, 2013, pp.404-411
  18. Attitude Motion Under Full Orbit Perturbations, Toshiya Hanada, Hideaki Hinagawa, Hongru Chen, Hiroaki Hamada, Shingo IkemuraThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-d-16
  19. Systematic Analysis of Venus Earth Gravity Assist (VEGA) Sequence and Its Application to Mission Design, Saori Ikeda, Yoshihide Sugimoto, Yasuhiro Kawakatsu, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-d-22
  20. Development of Attitude and Orbital Motion Simulator for Small Satellite, Hideaki Hinagawa, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-f-34
  21. Using a Small Satellite to Verify the Wireless Power Transmission in Space, Hiroaki Hamada, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-f-43
  22. IDEA Structure Optimized for Launch and In-situ Debris Measurements, Changzhi Dong, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-f-50p
  23. Influence of Small Satellites’ Post-mission Disposal with Enlarging Effective Cross-sectional Area, Yuya Ariyoshi, Toshiya Hanada, Satomi KawamotoThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-05
  24. Orbital Debris Modeling and Applications at Kyushu University, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-06
  25. An Iterative Search Strategy for Characterizing Spacecraft Breakup Events, Masahiko Uetsuhara, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-20
  26. Model for Light Curves of Massive Body, Shingo Ikemura, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-22
  27. Various Comparisons on Light Curve’s Amplitude and Visible Area of H2-A Rocket Body, Hideaki Hinagawa, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-23
  28. Space Debris Sensor for In-situ Observation of Micrometeoroid and Orbital Debris in JAXA, Haruhisa Matsumoto, Yukihito Kitazawa, Osamu Okudaira, Toshiya Hanada, Akira Sakurai, Kunihiro Funakoshi, Tetsuo Yasaka, Yasuhiro Akahoshi, Sunao Hasegawa, The 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-34
  29. Towards Micron-size Debris Modeling Based on In-situ Measurements Data From IDEA, Kazuaki Ae, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-35
  30. Correlation Capability of Space-based Optical Observation for Low Earth Orbit Objects, Makoto Tagawa, Toshifumi Yanagisawa, Toshiya Hanada, Haruhisa Matsumoto, Yukihito KitazawaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-36
  31. Storm-time Atmospheric Density Model Using Neural Networks and the Application in Orbital Decay Prediction, Hongru Chen, Huixin Liu, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-r-54
  32. Space Education for Senior Students Using the Pegasus Telescope of Kyushu University, Hiroshi Hirayama, Hitoshi Yamaoka, Tomoko Fujiwara, Yubun Suzuki, Toshiya HanadaThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-u-11
  33. A Wheel Slip Detection Using Terrain Image Sequence For Planetary Exploration Rover, Koki Fujita, Naoyuki IchimuraThe 29th International Symposium on Space Technology and Science, Nagoya-Aichi, June 2-9, 2013, Paper 2013-d-46
  34. Image Stacking Method Application for Low Earth Orbit Faint Objects, Makoto Tagawa, Toshifumi Yanagisawa, Haruhisa Matsumoto, Hirohisa Kurosaki, Hiroshi Oda, Yukihito Kitazawa, Toshiya HanadaThe 14th Annual Advanced Maui Optical and Space Surveillance Technologies Conference, Maui, HI, September 10-13, 2013
  35. 小型衛星の宇宙環境保全への影響Influence of Small Satellites on Sustainable Space Utilization,有吉雄哉,花田俊也,河本聡美第57回宇宙科学技術連合講演会, 1O10(JSASS-2013-4234), 2013年10月9日.
  36. 宇宙活動の長期的持続性のためのアジア・太平洋地域の連携Asia-Pacific Regional Collaboration for Long-term Sustainability of Outer Space Activities,花田俊也,吉川顕正,柳沢俊史,松本晴久,北澤幸人,第57回宇宙科学技術連合講演会, 1O16(JSASS-2013-4240), 2013年10月9日.
  37. 軌道上光学システムを用いた地球低軌道小径デブリ追跡Small Orbital Debris Tracking Using Space-based Optical System in Low Earth Orbit,田川真,花田俊也,柳沢俊史,松本晴久,北澤幸人第57回宇宙科学技術連合講演会, 2E03(JSASS-2013-4329), 2013年10月10日.
  38. ELMOS衛星によるメテオロイドとデブリのその場観測In-situ Observation of Micrometeoroid and Orbital Debris by ELMOS,松本晴久,花田俊也,北澤幸人,奥平修第57回宇宙科学技術連合講演会, 2Z02(JSASS-2013-4502), 2013年10月10日.
  39. 超小型衛星を用いた宇宙ごみの速度ベクトル測定法の検討,古本政博ジョンミンソク,日南川英明,花田俊也日本航空宇宙学会西部支部講演会2013講演集,JSASS-2013-S018,平成25年11月.
  40. 未知スペースデブリの起源同定に関する研究,瀬戸裕基,上津原正彦,花田俊也,北澤幸人日本航空宇宙学会西部支部講演会2013講演集,JSASS-2013-S032,平成25年11月14日.
  41. 静止衛星とその近傍にある非制御物体の衝突リスク評価,古田諭史,花田俊也,平山寛日本航空宇宙学会西部支部講演会2013講演集,JSASS-2013-S033,平成25年11月15日.
  42. 微小デブリ環境変動観測による破砕事象同定に関する研究,田﨑洸彦,藤田浩輝,阿江和暁,花田俊也日本航空宇宙学会西部支部講演会2013講演集,JSASS-2013-S031,平成25年11月15日.
  43. Orbital Debris Modeling and Applications at Kyushu University, Toshiya HanadaKeynote Speech at the Sixth KAIST/KU Symposium on Aerospace Engineering, Daejeon, Korea, Nov. 28-30, 2013
  44. Orbital Debris Modeling and Applications, Mitsuhiko Tasaki, Toshiya HanadaThe Sixth KAIST/KU Symposium on Aerospace Engineering, Daejeon, Korea, Nov. 28-30, 2013
  45. Research Topics for Asia-Pacific Regional Collaboration in the Area of Orbital Debris Issues, Toshiya Hanada, Akimasa Yoshikawa, Yukihito Kitazawa, Toshifumi Yanagisawa, Haruhisa MatsumotoThe Twentieth Session of the Asia-Pacific Regional Space Agency Forum (APRSAF-20), Hanoi, Vietnam, December 3-6 , 2013


2012
学術論文
  1. Trajectory Reconstruction of Hayabusa’s Atmospheric ReentryMichael A. Shoemaker, Jozef C. van der Ha, Kazuhisa FujitaActa Astronautica, Vol. 71, pp. 151-162, February-March 2012.
  2. Modeling and Validation of Thermal Radiation Acceleration on Interplanetary SpacecraftMichael A. Shoemaker, Jozef C. van der Ha, T. MorleyJournal of Spacecraft and Rockets, Vol. 49, No. 2, 2012, pp. 212-219.
  3. A Debris Image Tracking Using Optical Flow AlgorithmKoki Fujita, Toshiya Hanada, Yukihito Kitazawa, Aritsune KawabeAdvances in Space Research, Vol. 49, No. 5, 2012, pp. 1007-1018.
  4. Strategy to Search Fragments from Breakups in GEOMasahiko Uetsuhara, Toshiya Hanada, Hitoshi Yamaoka, Toshifumi Yanagisawa, Hirohisa Kurosaki, Yukihito KitazawaAdvances in Space Research, Vol. 49, No. 7, 2012, pp. 1151-1159.
  5. 静止軌道デブリ環境推移モデルGEODEEMの3次元モデルへの拡張Upgraded Space Debris Evolutionary Model for the Geosynchronous Earth Orbit,有吉雄哉, 花田俊也航空宇宙技術, Vol. 11, pp. 61-67, 2012年.
  6. Orbital Debris Modeling and Applications at Kyushu University, Toshiya Hanada, Yuya Ariyoshi, Masahiko Uetsuhara, Makoto Tagawa, Hongru Chen, Yuki Tsutsumi, Akira Doi, Satomi Kawamoto, Toshifumi Yanagisawa, Kozue Hashimoto, Aritsune Kawabe, and Yukihito KitazawaJournal of Space Technology and Science, Vol. 26, No. 2, 2012, pp. 28-47.
  7. 導電性テザーによるデブリ除去のリスク評価Risk Assessment of Orbital Debris Removal Using Electro-dynamic Tether,堤祐樹, 平山寛, 花田俊也航空宇宙技術, Vol. 11, pp. 145-150, JSASS-D-12-00012R1, 2012年12月.


講演論文
  1. スペースデブリの現状と課題,花田俊也日本スペースガード協会 機関誌 ASTEROID, Vol. 21, No. 1, pp. 3-11, 2012. 
  2. How Can We Identify Colliding Objects to be Removed for Safe and Secure Space?, Yuya Ariyoshi, Toshiya Hanada, Satomi Kawamoto, Yukihito Kitazawa16th ISU Annual International Symposium, Strasbourg, France, February 22, 2012.
  3. Development of In-situ Micro-debris Measurement Sensor, Yukihito Kitazawa, Haruhisa Matsumoto, Toshiya Hanada, Akira Sakurai, Kunihiro Funakoshi, Tetsuo Yasaka, Sunao Hasegawa, Maki Nakamura16th ISU International Symposium, Strasbourg, France, February 21-23, 2012.
  4. 「プラネテス」は作り話ではない?-地球低軌道における宇宙ごみ環境の不安定性について-,花田俊也,日本機械学会 関西支部 関西学生会 学生員卒業研究発表講演会 特別講演, 大阪府吹田市, 2012年3月15日.
  5. IDEA: In-situ Debris Environmental Awareness, 上津原正彦, 花田俊也九州小型衛星の会(QSSF) 平成23年度研究会, 2012年3月31日.
  6. 未知スペースデブリの効率的な探索方法の研究,上津原正彦, 北澤幸人, 花田俊也, 柳沢俊史日本公開天文台協会第7回全国大会, 群馬県吾妻郡, 2012年6月12日.
  7. Collaborative Observations to Search 1968-081E Fragments, Masahiko Uetsuhara, Toshifumi Yanagisawa, Daisuke Kinoshita, Toshiya Hanada, Yukihito KitazawaPresented at the 39th COSPAR Scientific Assembly, Mysore, India, July 14-22, 2012.
  8. Practical Method to Identify Orbital Anomaly as Spacecraft Breakup in the Geostationary Region, Yoshitaka Nakaniwa, Masahiko Uetsuhara, Toshiya HanadaPresented at the 39th COSPAR Scientific Assembly, Mysore, India, July 14-22, 2012.
  9. Detection of Small Sized GEO Debris Using FPGA Based Stacking Method, Toshifumi Yanagisawa, Hirohisa Kurosaki, Masahiko Uetsuhara, Daisuke Kinoshita, Toshiya Hanada, Yukihito KitazawaPresented at the 39th COSPAR Scientific Assembly, Mysore, India, July 14-22, 2012.
  10. Development In-situ Micro-debris Sensor, Yukihito Kitazawa, Haruhisa Matsumoto, Toshiya Hanada, Atsushi Karaki, Akira Sakurai, Kunihiro Funakoshi, Tetsuo Yasaka, Maki Hattori, Sunao HasegawaPresented at the 39th COSPAR Scientific Assembly, Mysore, India, July 14-22, 2012.
  11. 金星・地球スイングバイ(VEGA) 軌道の特性解析Characteristics of the Venus Earth Gravity Assist (VEGA),n池田沙織, 川勝康弘, 花田俊也, 杉本理英22nd JAXA Workshop on Astrodynamics and Flight Mechanics, 2012年7月30日.
  12. ライトカーブを用いたスペースデブリの回転運動の推定Applicatin Possibility of Light Curve Inversion Method Regarding Space Debris,日南川英明, 花田俊也,22nd JAXA Workshop on Astrodynamics and Flight Mechanics, 2012年7月31日.
  13. Comparison Between Four Detection Algorithms for GEO Objects, Toshifumi Yanagisawa, Hirohisa Kurosaki, Hajime Banno, Yukihito Kitazawa, Masahiko Uetsuhara, Toshiya Hanada, Presented at the 13th Annual Advanced Maui Optical and Spcae Surveillance Technologies Conference, Maui, HI, September 11-14, 2012.
  14. How Can We Identify Colliding Objects to Be Removed?, Yuya Ariyoshi, Toshiya Hanada, Satomi KawamotoPresented at the 63rd International Astronautical Congress, Naples, Italy, October 1-5, 2012.
  15. Mission Analysis of the Space-based Optical Observation for Orbital Debris, Makoto Tagawa, Toshiya Hanada, Yukihito Kitazawa, Toshifumi Yanagisawa, Haruhisa MatsumotoPresented at the 63rd International Astronautical Congress, Naples, Italy, October 1-5, 2012.
  16. IDEA (In-situ Debris Environment Awareness), Akira Doi, Hiroaki Hamada, Hideaki Hinagawa, Masahiko Uetsuhara, IDEA Project TeamThe 2nd Mission Idea Contest, 2012年10月10日.Best Poster Award
  17. 静止衛星の観測と分析Observation and Analysis of Geostationary Satellites, 片山千春瀬戸裕基, 専光寺旭洋, 平川絵梨奈, 森本愛子, 平山寛日本航空宇宙学会西部支部講演会(2012), JSASS-2012-S039, 2012年11月1日.
  18. 微小デブリ観測システム/センサの検討,泉山卓, 樋川治, 大塚健功, 松本晴久, 奥平修, 柳沢俊史, 花田俊也, 田川真第9回宇宙環境シンポジウム,東京都,2012年11月4–5日
  19. 九州大学ペガススプロジェクトの活動紹介,藤原智子, 鈴木右文,花田俊也,山岡均,平山寛平成24年度天文教育普及研究会九州支部会,熊本県,平成24年11月8–9日
  20. 除去対象デブリの選定方法とその効果Selecting Debris to Be Removed and Their Effectiveness,有吉雄哉, 花田俊也, 河本聡美第56回宇宙科学技術連合講演会, 1C07(JSASS-2012-4067), 2012年11月20日.
  21. ペガスス望遠鏡を利用した大学高年次の宇宙教育Space Education for Senior Students using Pegasus Telescope,平山寛, 山岡均, 藤原智子, 鈴木右文, 花田俊也第56回宇宙科学技術連合講演会, 1I15(JSASS-2012-4183), 2012年11月20日.
  22. スペースデブリ軌道上光学観測のミッション解析についてThe Mission Analysis of the Space-based Optical Observation for Orbital Debris,田川真, 花田俊也, 北澤幸人, 柳沢俊史第56回宇宙科学技術連合講演会, 2C05(JSASS-2012-4335), 2012年11月21日.
  23. 金星・地球スイングバイ(VEGA)軌道の特性解析Characteristics of the Venus Earth Gravity Assist (VEGA),池田沙織, 川勝康弘, 花田俊也, Campagnola Stefano, 杉本理英第56回宇宙科学技術連合講演会, 3B17(JSASS-2012-4552), 2012年11月22日.
  24. 九州発地球観測超小型人工衛星QSAT-EOSの開発についてOverview on Kyushu Earth Observation Satellite QSAT-EOS,麻生茂, 八坂哲雄, 大田治彦, 花田俊也, 谷泰寛, 室園昌彦, 平山寛, 鶴田佳宏, 大西俊輔, 大村勝俊, 新井康平, 西尾正則, 趙孟佑第56回宇宙科学技術連合講演会, 3M04(JSASS-2012-4725), 2012年11月22日.
  25. IDEA: In-situ Debris Environmental Awareness,土井彰, 花田俊也第56回宇宙科学技術連合講演会, 3M07(JSASS-2012-4728), 2012年11月22日.
  26. IDEAプロジェクト実現に向けて ―IDEA-1の設計概要― UNISECワークショップ, 2012年12月8-9日.ポスター賞
  27. Research and Development on Space Debris Observations and Measurements, Toshiya Hanada, Yukihito Kitazawa, Toshifumi Yanagisawa, Haruhisa MatsumotoPresented at the 19th Session of the Asia-Pacific Regional Space Agency Forum (APRSAF-19), Kuala Lumpur, Malaysia, December 11-14, 2012.
  28. Research Topics for Asia-Pacific Regional Collaboration in the Area of Orbital Debris Issues, Toshiya Hanada, Yukihito Kitazawa, Toshifumi Yanagisawa, Haruhisa MatsumotoPresented at Workshop on the Protection of Space Environment, sponsored by Ministry of Foreign Affairs of Japan, in Kuala Lumpur, Malaysia, Kuala Lumpur, Malaysia, December 12, 2012.


till 2011
学術論文
  1. Microsatellite Impact Tests to Investigate the Outcome of Satellite FragmentationJunko Murakami, Toshiya Hanada, Jer-Chyi LiouJournal of Spacecraft and Rockets, Vol. 48, No. 1, Jan./Feb. 2011, pp. 208-212.
  2. Benefits of Active Debris Removal on the LEO Debris PopulationKazuaki Maniwa, Toshiya Hanada, Satomi KawamotoTransactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, Vol. 8, No. ists27 (ISTS Special Issue: Selected papers from the 27th International Symposium on Space Technology and Science), 2010, pp. Pr_2_7-Pr_2_12.
  3. Theoretical and Empirical Analysis of the Average Cross-sectional Areas of Breakup FragmentsToshiya Hanada, Jer-Chyi LiouAdvances in Space Research, Vol. 47, No. 9, 2011, pp. 1480-1489.
  4. デブリフラックスモデル信頼度評価方法Confidence Evaluation Method for Orbital Debris Flux Model, 上津原正彦, 眞庭知成, 花田俊也, 北澤幸人航空宇宙技術, Vol. 10, 2011, pp. 67-73.
  5. Survivability of Tether throughout DeorbitingHiroshi Hirayama, Ieyoung Kim, Toshiya HanadaTransactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, Vol. 8, No. ists27 (ISTS Special Issue: Selected papers from the 27th International Symposium on Space Technology and Science), 2010, pp. Pr_2_25-Pr_2_30.
  6. 地球低軌道における軌道環境の安定性についてInstability of the Current Space Debris Population in Low Earth Orbit,眞庭知成, 花田俊也, 河本聡美日本航空宇宙学会論文集 第58巻 第674号, 83-89頁, 2010年3月.
  7. Practical Guidelines for Electro-Dynamic Tethers to Survive from Orbital Debris ImpactsIeyoung Kim, Hiroshi Hirayama, Toshiya HanadaAdvances in Space Research, Vol. 45, No. 10, 2010, pp. 1292-1300.
  8. 低速および高速衝突実験に基づく新しい衛星破砕モデルの構築New Satellite Fragmentation Model Based upon Low-Velocity and Hypervelocity Impacts, 森永幸, 鶴田佳宏, 平山寛, 花田俊也日本航空宇宙学会論文集, 第57巻, 第661号, 56-64頁, 2009年2月.
  9. Performance of Spin-Axis Attitude Estimation Algorithms With Real Data, Jozef C. van der Ha Advances in the Astronautical Sciences, Vol. 134, AAS 09-127, 2009, pp. 411-430.
  10. Attitude Control by Magnetic Torquer, Kikuko Miyata and Jozef C. van der Ha Advances in the Astronautical Sciences, Vol. 134, AAS 09-169, 2009, pp. 1041-1060.
  11. Benefits and Risks of Using Electrodynamic Tethers to De-Orbit SpacecraftCarmen Pardini, Toshiya Hanada, Paula H. KriskoActa Astronautica, Vol. 64, Nos. 5-6, 2009, pp. 571-588.
  12. QSAT: the Satellite for Polar Plasma ObservationYoshihiro Tsuruda, Akiko Fujimoto, Naomi Kurahara, Toshiya Hanada, Kiyohumi Yumoto, Mengu ChoInternational Journal of Earth, Moon and Planets, Vol. 104, Nos. 1-4, 2009, pp. 349-360.
  13. QSAT: A Low-Cost Design for 50 kg Class Piggyback SatelliteYoshihiro Tsuruda, Toshiya Hanada, Jozef C. van der HaTransactions of Japan Society for Aeronautical and Space Sciences, Space Technology Japan, Vol. 7, No. ists26 (ISTS Special Issue: Selected papers from the 26th International Symposium on Space Technology and Science), 2009, pp. Tf_7-Tf_12.
  14. Outcome of Recent Satellite Impact ExperimentsToshiya Hanada, Jer-Chyi Liou, Takashi Nakajima, Eugene StansberyAdvances in Space Research, Vol. 44, No. 5, 2009, pp. 558-567.
  15. For Better Calculation of the Average Cross-Sectional Area of Breakup FragmentsToshiya Hanada, Jer-Chyi Liou, Paula Krisko, and Takashi NakajimaTransactions of Japan Society for Aeronautical and Space Sciences, Space Technology Japan, Vol. 7, No.ists26 (ISTS Special Issue: Selected papers from the 26th International Symposium on Space Technology and Science), 2009, pp. Pr_2_25-Pr_2_30.
  16. Spin-Axis Attitude Determination from Earth Chord-Angle Variations for Geostationary SatellitesJozef C. van der Ha and Frank L. JanssensJournal of Guidance, Control, and Dynamics, Vol. 32, No. 5, Sepember-October 2009, pp. 1598-1608.
  17. Orbital Debris Modeling at Kyushu University, Toshiya Hanada, Yuya Ariyoshi, Kazuki Miyazaki, Kazuaki Maniwa, Junko Murakami, Satomi Kawamoto, Journal of Space Technology and Science, Vol. 24, No. 2, 2009, pp. 23-35.
  18. A Test Flight Experiment of Electrodynamic Tether Using a Small Satellite: As the First Step for Debris Removal, Satomi Kawamoto, Yuki Kobayashi, Yasushi Ohkawa, Shoji Kitamura, Shin-Ichiro Nishida, Chiharu Kikkawa, Atsushi Yanagida, Susumu Toda, Yoshiki Yamagiwa, Mengu Cho, Toshiya HanadaJournal of Space Technology and Science, Vol. 24, No. 2, 2009, pp. 36-44.
  19. Stochastic analysis of survivability of double tetherHiroshi Hirayama, Atushi Oishi, Toshiya Hanada and Tetsuo YasakaActa Astronautica, Volume 62, Issue 1, pp. 54-58, January 2008.
  20. Methods for the orbit determination of tethered satellites in the project QPSYuji Sakamoto, Kazuhiko Yotsumoto, Kazunori Sameshima, Masanori Nishio and Tetsuo YasakaActa Astronautica, Volume 62, Issue 2-3, pp. 151-158, January-February 2008.
  21. Measurement of QSAT Residual MagnetismTamiki Ueno, Akiko Fujimoto, Kiyuhumi Yumoto, Keisuke Ushijima, Hideki Mizunaga, Toshiya HanadaMemoirs of the Faculty of Sciences, Kyushu University (Series D Earth and Planetary Sciences), Vol. XXXII, No. 1, pp. 7-23, 2008.
  22. Comparison of Fragments Created by Low- and Hyper-velocity ImpactsToshiya Hanada, Jer-Chyi LiouJournal of Advances in Space Research, Vol. 41, No. 7, pp. 1132-1137, 2008.
  23. 地球低軌道スペースデブリ環境における推移モデルSpace Debris Environmental Evolutionary Model in Low Earth Orbit, 鳴海智博, 花田俊也, 河本聡美日本航空宇宙学会「宇宙技術」, Vol. 7, pp. 11-17, 2008年.
  24. Spin-Axis Attitude Determination from Earth Chord-Angle Variations for Geostationary Satellites, van der Ha, J. C., and F. L. JanssensAAS/AIAA Space Flight Mechanics Meeting, Galveston, TX, January 27-31, 2008; Advances in the Astronautical Sciences, Vol. 130, Part 1, pp. 575-594, 2008.
  25. Searching for Lost Fragments in GEOHitoshi Ikeda, Toshiya Hanada, Tetsuo YasakaActa Astronautica Vol. 63, Nos. 11-12, pp. 1312-1317, 2008.
  26. The Two-Sun Cones Attitude Determination MethodJozef C. van der HaJournal of Guidance, Control, and Dynamics, Vol. 31, No. 5, September-October 2008.
  27. Investigation and Comparison between New Satellite Impact Test Results and NASA Standard Breakup ModelKosuke Sakuraba, Yoshihiro Tsuruda, Toshiya Hanada, Jer-Chyi Liou, Yasuhiro AkahoshiInternational Journal of Impact Engineering, Vol. 35, No. 12, 2008, pp. 1567-1572.
  28. The Two-Sun Cones Attitude Determination Method, Jozef C. van der Ha Advances in the Astronautical Sciences, Vol. 127, AAS/AIAA Spaceflight Mechanics 2007, AAS-07-106, pp. 117-130, 2007.
  29. Are de-Orbiting Missions Possible using Electrodynamic Tethers? Task Review from the Space Debris PerspectiveCarmen Pardini, Toshiya Hanada, Paula H. Krisko, Luciano Anselmo, Hiroshi HirayamaActa Astronautica, Vol. 60, Issues 10-11, pp. 916-929, May-June 2007.
  30. Long-Term Attitude Drift of Spinning Spacecraft under Solar Radiation TorquesJ. C. van der Ha and V. J. LappasJournal of Guidance, Control, and Dynamics, Vol. 30, No. 5, pp. 1470-1479, September-October, 2007.
  31. New Orbit Propagator to Be Used in Orbital Debris Evolutionary ModelsTomohiro Narumi, Toshiya HanadaMemoirs of the Faculty of Engineering, Kyushu University, Vol. 67, No. 4, pp. 235-254, 2007.
  32. 宇宙用テザーの残存率評価についてSurvival Probability Assessment of Space Tethers,花田俊也, 平山寛, 大石篤, 田中陽介, 八坂哲雄日本航空宇宙学会論文集, 第54巻 第630号, pp. 295-304, 2006年7月.
  33. Spin Axis Attitude Determination Accuracy Model in the Presence of Biases, Jozef C. van der HaJournal of Guidance, Control, and Dynamics, Vol. 29, No. 4, pp. 799-809, July-August 2006.
  34. Outpost in Jovian system ― a stepwise long-term undertakingTetsuo YasakaActa Astronautica, Vol. 59, Issues 8-11, pp. 638-643, October-December 2006.
  35. reliminary studies on the planetary entry to Jupiter by aerocapture techniqueShigeru Aso, Tetsuo Yasaka, Hiroshi Hirayama, Ridanto Eko Poetro and Shinji HattaActa Astronautica, Vol. 59, Issues 8-11, pp. 651-660, October-December 2006.
  36. Models for Rhumb-Line Attitude Maneuvers and Error Propagation EffectsJ. C. van der HaJournal of Guidance, Control, and Dynamics, Vol. 29, No. 6, pp. 1384-1394, November-December 2006.
  37. 太陽電池アレイ画像を用いた微小デブリ分布推定法の提案A New Approach to Estimating Micro-Debris’ Size Distribution from Solar Array Images,藤田浩輝, 平山寛, 花田俊也日本航空宇宙学会論文集, 第54巻 第635号, pp. 527-534, 2006年12月.
  38. NASA標準破砕モデルの低速衝突への適用性の検討 第2報:静止軌道上物体間における最大衝突速度の考慮Examining of the Collision Breakup Model between Geostationary Orbit ObjectsThe Second Report: Consideration of the Maximum Collision Velocity between Geostationary Earth Satellite, 波多英寛, 花田俊也, 赤星保浩, 八坂哲雄, 原田昭治日本航空宇宙学会論文集, 第53巻615号, pp. 160-165, 2005.
  39. Using NASA Standard Breakup Model to Describe Low-velocity Impact on Spacecraft, Toshiya Hanada, Tetsuo Yasaka, Hidehiro Hata, Yasuhiro AkahoshiJournal of Spacecraft and Rockets, Vol. 42, No. 5, pp. 859-864, 2005.
  40. Orbital Evolution of Cloud Particles from Explosions of Geosynchronous Objects, Toshiya Hanada, Tetsuo YasakaJournal of Spacecraft and Rockets, Vol. 42, No. 6, pp. 1070-1076, 2005.
  41. Assessing the Vulnerability to Debris Impacts of Electrodynamic Tethers during Typical De-orbting MissionsCarmen Pardini, Luciano Anselmo, Toshiya Hanada, Hiroshi HirayamaProceedings of the 4th European Conference on Space Debris, Darmstadt, Germany, Paper SPACE2005-A-00009, pp. 353-360, April 18-20, 2005.
  42. Low-velocity Catastrophic Impact on Micro SatelliteK. Nakashima, T. Hanada, Y. Akahoshi, T. Harano, Y. Machida, S. FukushigeProceeding of the 4th European Conference on Space Debris, Darmstadt, Germany, Paper SPACE2005-A-00080, pp. 701-704, April 18-20, 2005.
  43. Developing A New Low-Velocity Collision Model To Be Used In Debris Generation And Propagation Codes, Toshiya Hanada,  Advances in the Astronautical Sciences, Vol. 117, pp. 875-888, 2004.
  44. In-situ debris measurements in MEO/HEO using onboard spacecraft surface inspection systemH. Hirayama, T. Hanada, T. YasakaAdvances in Space Research Vol. 34, Issue 5, pp. 951-956, 2004.
  45. Developing A Low-Velocity Collision Based on the NASA Standard Breakup Model 1998 RevisionToshiya HanadaInternational Journal of Space Debris, Vol.2, No.4, 2000, pp.233-248 (published in 2004)
  46. NASA標準破砕モデルの低速衝突適用性の検討Examining Applicability of the NASA Standard Breakup Model to Low-Velocity Collisions, 波多英寛, 倉員靖雄, 花田俊也, 赤星保浩, 八坂哲雄, 原田昭治日本航空宇宙学会論文集, 第52巻607号, pp. 342-347, 2004年8月.
  47. GEODEEM 3.0: Updated Kyushu University GEO ModelToshiya Hanada, Tetsuo YasakaProceedings of 24th International Symposium on Space Technology and Science, 2004-r-11, pp. 946-951, 2004.