洪境晨助理教授|國立陽明交通大學

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洪境晨

助理教授

辦公室號碼：EE756
電話： 03-5712121 ext54312
電子信箱：charles4543@nycu.edu.tw
網站：https://sites.google.com/nycu.edu.tw/mirai-lab/home
授課領域：Mechatronics Lab, Control Engineering, Robotics, Engineering Mathematics
實驗室：MIRAI Lab (混合實境與智慧輔助創新研究室) @EE609

研究專長

1. Rehabilitation and sports assistance engineering
2. Mechatronics system development and control
3. Intelligent biomedical and healthcare system
4. Extended reality development and application
期刊論文

[1] J. -C. Hong*, K. Yasuda, H. Ohashi, and H. Iwata, "Optimal Assistance Timing to Induce Voluntary Dorsiflexion Movements: A Preliminary Study in Healthy Participants," Applied Sciences, vol. 12, no. 4, 2248, Feb. 2022, doi: 10.3390/app12042248.
[2] J. -C. Hong*, H. Ohashi, and H. Iwata, "High-Dorsiflexion Assistive System for Passive Swing Phase Dorsiflexion Training and Preventing Compensatory Movements," Journal of Robotics Mechatronics, vol.34, no.1, pp. 121-130, 2022, doi: 10.20965/jrm.2022.p012.
[3] J. -C. Hong*, H. Cheng, K. Yasuda, H. Ohashi and H. Iwata, "Effects of Assisted Dorsiflexion Timing on Voluntary Efforts and Compensatory Movements: A Feasibility Study in Healthy Participants," IEEE Transactions on Neural Systems and Rehabilitation Engineering, vol. 29, pp. 2222-2231, 2021, doi: 10.1109/TNSRE.2021.3119873.
[4] 辻歩，相原伸平，洪境晨，劉超涵，岩田浩康, “VR音響システムの開発とブラインドサッカー選手の複数静止音源に対する定位能力の可視化と評価,”日本機械学会論文集, in press, 2025.
研討會論文

[1] H. Iwata, J. -C. Hong, C. Tsuruta, and C. Pan, "Design of a Device with Non-Interacting Cam Mechanism That Independently Assists Dorsiflexion and Plantarflexion Based on Hip Motion," 2025 IEEE/SICE International Symposium on System Integration (SII), 2025, pp. 228-233, doi: 10.1109/SII59315.2025.10870918.
[2] J. -C. Hong*, K. Yasuda, H. Iwata, " An Implicit Method to Adjust Dorsiflexion Assistance Timing to Facilitate Voluntariness in Stroke Survivors: Verification on Healthy Participants Simulating Circumduction Gait," 2024 International Automatic Control Conference (CACS 2024), 2024.
[3] K. Higashikawa, J. -C. Hong*, C. Tsuruta, R. Nagashima, R. Takeuchi, T. Gunbe, H. Iwata, "Development of a Foot Center of Pressure Biofeedback System for Prevention of Bowleg Re-deformation: A Feasibility Study in Patients after Tibial Osteotomy," 2024 10th IEEE RAS/EMBS International Conference for Biomedical Robotics and Biomechatronics (BioRob), 2024, pp. 722-727, doi: 10.1109/BioRob60516.2024.10719771.
[4] J. Liu, X. Yang, J. -C. Hong, H. Iwata, "Analysis of Lifting Posture by Two Inertial Measurement Units and a Classification Model Based on a Convolutional Neural Network," 2024 10th IEEE RAS/EMBS International Conference for Biomedical Robotics and Biomechatronics (BioRob), 2024, pp. 383-388, doi: 10.1109/BioRob60516.2024.10719814.
[5] C. Tsuruta, J. -C. Hong, K. Yasuda, Q. Xu, and H. Iwata, "Reducing Visual Dependence of Postural Control in Older Adults with a Vibration Belt Indicating Shifts in Center of Gravity," 2024 46th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC), 2024.
[6] T. Ayumu, S. Aihara, J. -C. Hong, S. Tanaka, and H. Iwata, "Development of a Platform for the Identification and Analysis of Simultaneous Localization of Static, Dynamic, and Instructional Sound Sources in Blind Soccer," 2024 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM), 2024, pp. 1500-1505, doi: 10.1109/AIM55361.2024.10637159.
[7] J. -C. Hong*, K. Yasuda, Q. Xu and H. Iwata, "Development of a System Integrating Immersive VR and Vibrotactile Feedback to Reduce Visual Dependence in Postural Control: A Feasibility Study in Young Healthy Participants," 2023 IEEE International Conference on Robotics and Biomimetics (ROBIO), 2023, pp. 1-5, doi: 10.1109/ROBIO58561.2023.10354982.
[8] J. -C. Hong*, J. Gao, K. Yasuda, H. Ohashi, and H. Iwata, "A Pneumatic Artificial Muscle and Spring Combination System that Assists Ankle Rocker and Transforms Energy into Push-Off Support: A Feasibility Study in Heathy Participants," 2022 International Conference on Rehabilitation Robotics (ICORR), 2022, pp. 1-6, doi: 10.1109/ICORR55369.2022.9896599.
[9] X. Yang, J. -C. Hong, K. Yasuda, Y. Ono and H. Iwata, "EEG based analysis of lower limb exercise for neurorehabilitation according to the linkage between motor execution and visual feedback in immersive VR: A feasibility study with healthy adults," 2022 IEEE/SICE International Symposium on System Integration (SII), 2022, pp. 921-925, doi: 10.1109/SII52469.2022.9708744.
[10] J. -H. Gao, J. -Y. Ling, J. -C. Hong, K. Yasuda, D. Muroi and H. Iwata, "Investigation of optimal gait speed for motor learning of walking using the vibro-tactile biofeedback system," 2021 43rd Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC), 2021, pp. 4662-4665, doi: 10.1109/EMBC46164.2021.9629551.
[11] J. -C. Hong*, H. Cheng, Y. Hayashi, K. Yasuda, H. Ohashi and H. Iwata, "Evaluation of the Effect of High-Dorsiflexion Assistive Robotic Technology on Voluntary Ankle Movement," 2020 8th IEEE RAS/EMBS International Conference for Biomedical Robotics and Biomechatronics (BioRob), 2020, pp. 25-29, doi: 10.1109/BioRob49111.2020.9224429.
[12] J. -C. Hong*, G. Tanaka, K. Yasuda, H. Ohashi and H. Iwata, "Identifying Spring Coefficient for Assisting Hemiplegic Patient’s Heel Rocker Function: A Feasibility Study," 2020 IEEE International Conference on Systems, Man, and Cybernetics (SMC), 2020, pp. 738-743, doi: 10.1109/SMC42975.2020.9283251.
[13] J. Ling, J. -C. Hong*, Y. Hayashi, K. Yasuda, Y. Kitaji, H. Harashima, and H. Iwata, "A Haptic-Based Perception-Empathy Biofeedback System with Vibration Transition: Verifying the Attention Amount," 2020 42nd Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC), 2020, pp. 3779-3782, doi: 10.1109/EMBC44109.2020.9176213.

[1] 岩田浩康，洪境晨，鶴田千紘，潘暢，"脳卒中患者のリハビリ支援のための動力歩行補助デバイスの設計と開発 ―股関節運動に基づき背屈・底屈を独立に補助可能な非干渉カム機構のデザイン―," 第45回バイオメカニズム学術講演会 (SOBIM2024), 2A1-3, 2024.12.
[2] 洪境晨*，鶴田千紘，安田和弘，岩田浩康, "脳卒中患者の随意性を促進ための非明示的背屈支援タイミングの調整手法―健常者の模擬歩容に与える影響の検証―," 第39回ライフサポート学会大会 (LIFE2024), paper no. OS-9-8, 2024.9.
[3] 鶴田千紘，東川昂生，洪境晨，長嶋遼，群部翼，竹内良平，岩田浩康, "変形性膝関節症の骨切り手術後の歩行荷重提示装具－靴底装着型荷重測定・BFシステムの開発－," 第12回日本運動器理学療法学会学術大会, P19-1, 2024.9.
[4] 辻歩、相原伸平、洪境晨、劉超涵、岩田浩康, "VR音響システムの構築とブラインドサッカー競技者特有の静止音源定位能力の同定," スポーツ情報学シンポジウム（第1回SI研究発表会）, Paper 44, 2024.6.
[5] 劉峻成，洪境晨，岩田浩康, "Assessing Deadlift Posture: A Study Using Dual IMU Sensors and CNN,"
日本機械学会ロボティクス・メカトロニクス講演会（ROBOMECH2024）, 1P2-H03, 2024.5.
[6] 郡部翼, 長嶋遼, 東川昂生, 洪境晨，鶴田千紘, 岩田浩康, 齋藤水晶, 後藤和幸, 大澤克成, 山田直樹, 竹内良平, "内側開大式脛骨外反骨切り術後の再内反進行例における足圧中心の特徴," 第29回(奈良・横浜・京都)バイオメカニクスカンファレンス, 第1部1-5, 2024.1.
[7] 鶴田千紘, 東川昂生, 洪境晨，長嶋遼,竹内良平，岩田浩康, "骨切り術後のＯ脚再変形予防に関する研究 −再変形患者の歩行分析に基づくCOP遷移方向提示デバイスの開発と臨床評価−," 第29回(奈良・横浜・京都)バイオメカニクスカンファレンス, 第2部2-1, 2024.1.
[8] 洪境晨*，安田和弘，大橋洋輝，岩田浩康, "脳卒中患者個人に応じた蹴り出しトルクの推定と適切なばね定数の同定手法," 第37回ライフサポート学会大会 (LIFE2022), paper no. 3A1-F5, 2022.8.
[9] ラウシュンケットデイビッド, 洪境晨，安田和弘，大橋洋輝，岩田浩康, "脳卒中患者個人に応じた蹴り出しトルクの推定と適切なばね定数の同定手法," 第37回ライフサポート学会大会 (LIFE2022), paper no. 1P1-A2, 2022.8.
[10] 洪境晨*，高佳輝，安田和弘，大橋洋輝，岩田浩康, "人工筋肉と引張ばねの組み合わせによるアンクルロッカーと蹴り出しの同時支援―プロトタイプ開発と健常者を対象とした概念実証試験―," ロボティクス・メカトロニクス講演会2022(ROBOMECH2022), paper no. 2A1.A07, 2022.6.
[11] ラウシュンケットデイビッド, 洪境晨，安田和弘，岩田浩康, "片麻痺患者における不可知なケイデンス向上が可能な非明示的リズム誘引デバイスの開発と臨床評価," 第49回日本バイオフィードバック学会学術総会 (BF2022), 拡大セッション日会員一般演題A3, 2022.6.
[12] XU QIUTONG, 洪境晨，安田和弘，岩田浩康, "没入型3D-VRを用いた視覚誘導に基づくPusher Syndromeの姿勢操作手法の構築," 第49回日本バイオフィードバック学会学術総会 (BF2022), 拡大セッション日会員一般演題A4, 2022.6.
[13] 洪境晨*，程浩，安田和弘，大橋洋輝，岩田浩康, "最適背屈支援タイミングで随意性の促進と代償動作の抑制を両立する同定手法―健常者の模擬歩容に与える影響の検証―," 第22回計測自動制御学会システムインテグレーション部門講演会 (SI2021), paper no. 2C3-04, 2021.12.
[14] 洪境晨*，安田和弘，大橋洋輝，岩田浩康, "高背屈支援RTの支援タイミングが歩行動作に与える影響の検証―健常者における筋電図および代償動作の解析―," 第36回ライフサポート学会大会 (LIFE2020-2021), paper no. OS7-2, 2021.9.
[15] 楊馨逸，洪境晨，安田和弘，小野弓絵，岩田浩康 , "両脚協調デバイスにおける没入型VRによる視覚 FB付与に関する研究 ―VR 映像と下肢運動の連動性に着目した脳波解析による検討―", 第41回バイオメカニズム学術講演会 (SOBIM2020), paper no. 1B4-3, 2020.12.
[16] 程浩，洪境晨，大橋洋輝，岩田浩康, "背屈支援RTにおける支援タイミングの遅延による歩容への影響検証," 第21回計測自動制御学会システムインテグレーション部門講演会 (SI2020), paper no. 2C2-07, 2020.12.
研究計畫

[1] Grant-in-Aid for Early-Career Scientist, Japan Society for the Promotion of Science (Equivalent to NSTC 國科會 in Taiwan) (acceptance rate about 40%)
- Grant number: 24K21161
- Duration: Apr. 2024 – Mar. 2026 (Discontinued in Jan. 2025 due to career change to NYCU)
- Grant amount: 3,770,000 Japanese Yen (Direct cost: 2,900,000 yens)
學　　歷

2017.4 – 2022.9: PhD, Department of Modern Mechanical Engineering, Waseda University (Japan)
2012.9 – 2015.8: Master, Institute of Electrical and Control Engineering, NCTU
2014.9 – 2015.6: Master Exchange, KU Leuven (Belgium)
2008.9 – 2012.6: Bachelor, Department of Electrical Control Engineering, NCTU
經　　歷

2025. 2 – Present: Assistant Professor, Institute of Electrical and Control Engineering, NYCU
2025. 4 – Present: Adjunct Researcher, Global Robot Academia Laboratory, Waseda University (Japan)
2023. 4 – 2025.1: Assistant Professor, Department of Modern Mechanical Engineering, Waseda University (Japan)
2022.10 – 2023.3: Adjunct Researcher, Research Institute for Science and Engineering, Waseda University (Japan)
2020. 4 – 2022.9: Research Assistant, Green Computing Systems Research Organization, Waseda University (Japan)
2016. 1 – 2017.2: System Engineer, Realtek Semiconductor Corp.
榮　　譽

[1] CACS2024 Best Presentation Paper Award: First Place
"An Implicit Method to Adjust Dorsiflexion Assistance Timing to Facilitate Voluntariness in Stroke Survivors: Verification on Healthy Participants Simulating Circumduction Gait," 2024 International Automatic Control Conference (CACS 2024), 2024.11. (Presented in English)
[2] SI2021 優秀講演賞 (Outstanding Presentation Award)
"最適背屈支援タイミングで随意性の促進と代償動作の抑制を両立する同定手法―健常者の模擬歩容に与える影響の検証―," 第22回計測自動制御学会システムインテグレーション部門講演会 (SI2021), paper no. 2C3-04, 2021.12. (Presented in Japanese)
行政範疇

2024.9 – Present: International Advisor, Kuma Lab (Student Research Club in Waseda University)
Kuma Lab: https://www.kuma2024.tech/
2021.6 – 2022.6: Vice Chair of Conference Venue, BF2022
2018.9 – 2019.9: Vice Student Chair, RSJ2019

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