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อาจารย์ ดร.โพธิวัฒน์  งามขจรวิวัฒน์
อาจารย์ประจำ สาขาวิศวกรรมหุ่นยนต์และระบบอัตโนมัติ (RAE)

 

 

วุฒิการศึกษา

  • ปริญญาเอก Robotics and Automation, King Mongkut’s University of Technology Thonburi
  • ปริญญาโท Electronics and Telecommunications Engineering, Master’s Degree in Engineering, King Mongkut’s University of Technology Thonburi
  • ปริญญาตรี Electronics and Telecommunications Engineering, Bachelor’s Degree in Engineering, King Mongkut’s University of Technology

เบอร์โทร/อีเมล

potiwatnga@pim.ac.th

ประสบการณ์ทำงาน

  • Postdoctoral fellow at Nanjing University of Aeronautics and Astronautics
  • Co-founder at Automa, SpaceZAB Company
  • Co-founder at The Futuristic Research Cluster of Thailand (FREAK lab)
  • Failure analysis engineer at Seagate technology
  • R&D engineer at Digital Research and consulting

ประสบการณ์ด้านการสอน/ฝึกอบรม

  • Nanjing University of Aeronautics and Astronautics (NUAA)
    • Adaptive Locomotion Control Course (Bio-inspired Science and Technology -Autumn semester, October-December 2020)
  • Institute of Field Robotics (2014-2018)
    • Electronic Circuits for Robotics and Automation Engineering: FRA121
    • Robotics and Automation Engineering Lab I: FRA162
    • Digital Electronics: FRA221
    • Robotics and Automation Engineering Lab II: FRA261
  • Electrical Communication and Electronic Engineering (2010-2012)
    • Electrical Engineering Mathematics: ENE208
    • Electronics Engineering Practice: ENE205
    • Computer Applications for Electronics and Telecommunication Engineering: ENE206
    • Electronic Engineering Laboratory: ENE321
  • Computer Engineering (2008-2010)
    • Computer Engineering Exploration: CPE111
    • Digital System Design: CPE223
    • Digital System Laboratory: CPE224
    • Computer Architectures and Systems: CPE325

ผลงานทางวิชาการ/งานวิจัย

  • Ngamkajornwiwat, P., Vongbunyong, S., Tirasuntarakul, N., Chalermsongsak, T. (2021) Effects of Space Debris Collision on 5-Bar Linkage Robot Operation in Satellites: Simulation Approach IAAI – International Conference 2021.
  • Haomachai, W., Ngamkajornwiwat, P., Manoonpong, P. (2021). A Sprawling Posture Robot with a Flexible Spine for Efficient Locomotion in Various Gravity Environments from Earth, to Mars, and Moon. IAAI – International Conference 2021.
  • Witoon, S., Damsongsaeng, P., Ngamkajornwiwat, P. (2021) Contribution of Space Education in Deep Technological Development of Middle-income Countries: A Case Study of MOOC in Thailand. IAAI – International Conference 2021.
  • Sirisombat, T., Khuanpet, J., Ngamkajornwiwat, P. (2021) Developed a noiseless air inflator to increase the efficiency of testing robots in 2-dimensional zero gravity. IAAI – International Conference 2021.
  • Srisuchinnawong, A., Wang, B., Shao, D., Ngamkajornwiwat, P., Dai, Z., Ji, A., & Manoonpong, P. (2021). Modular Neural Control for Gait Adaptation and Obstacle Avoidance of a Tailless Gecko Robot. Journal of Intelligent & Robotic Systems, 101(2), 1-15.
  • Chuthong, T., Leung, B., Tiraborisute, K., Ngamkajornwiwat, P., Manoonpong, P., & Dilokthanakul, N. (2020, November). Dynamical State Forcing on Central Pattern Generators for Efficient Robot Locomotion Control. In International Conference on Neural Information Processing (pp. 799-810). Springer, Cham.
  • Ngamkajornwiwat, P., Homchanthanakul, J., Teerakittikul, P., & Manoonpong, P. (2020). Bio-Inspired Adaptive Locomotion Control System for Online Adaptation of a Walking Robot on Complex Terrains. Ieee Access, 8, 91587-91602.
  • Homchanthanakul, J., Ngamkajornwiwat, P., Teerakittikul, P., & Manoonpong, P. (2020). Neural Control with an Artificial Hormone System for Energy-Efficient Compliant Terrain Locomotion and Adaptation of Walking Robots. In 2019 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) (pp. 5475-5482). IEEE Press.
  • Srisuchinnawong, A., Shao, D., Ngamkajornwiwat, P., Teerakittikul, P., Dai, Z., Ji, A., & Manoonpong, P. (2019, December). Neural Control for Gait Generation and Adaptation of a Gecko Robot. In 2019 19th International Conference on Advanced Robotics (ICAR) (pp. 468-473). IEEE.
  • Ninyawee, N., Thintawornkul, T., Pataranutaporn, P., Ngamarunchot, B., Itthipuripat, S. S., Wilaiprasitporn, T., Ngamkajornwiwat, P., & Surareungchai, W. (2019, October). Making Food with the Mind: Integrating Brain-Computer Interface and 3D Food Fabrication. In Proceedings of the Future Technologies Conference (pp. 239-247). Springer, Cham.
  • Sakulkueakulsuk, B., Witoon, S., Ngarmkajornwiwat, P., Pataranutaporn, P., Surareungchai, W., Pataranutaporn, P., & Subsoontorn, P. (2018, December). Kids making AI: Integrating Machine Learning, Gamification, and Social Context in STEM Education. In 2018 IEEE International Conference on Teaching, Assessment, and Learning for Engineering (TALE) (pp. 1005-1010). IEEE.
  • Subsoontorn, P., Ounjai, P., Ngarmkajornwiwat, P., Sakulkueakulsuk, B., Pensupha, N., Surareungchai, W., & Pataranutaporn, P. (2018, December). Hack Biodesign: an integrative STEAM education platform for biology, engineering, and design. In 2018 IEEE International Conference on Teaching, Assessment, and Learning for Engineering (TALE) (pp. 1016-1021). IEEE.
  • Ngamkajornwiwat, P., Teerakittikul, P., & Manoonpong, P. (2018, August). Online gait adaptation of a hexapod robot using an improved artificial hormone mechanism. In International Conference on Simulation of Adaptive Behavior (pp. 212-222). Springer, Cham.
  • Ngamkajornwiwat, P., Pataranutaporn, P., Surareungchai, W., Ngamarunchot, B., & Suwinyattichaiporn, T. (2017, December). Understanding the role of arts and humanities in social robotics design: An experiment for STEAM enrichment program in Thailand. In 2017 IEEE 6th International Conference on Teaching, Assessment, and Learning for Engineering (TALE) (pp. 457-460). IEEE.
  • Pataranutaporn, P., Ngamkajornwiwat, P., Unprasert, T., Umnajsasithorn, W., Luksanayeam, S., Loha-Unchit, S., … & Pataranutaporn, P. (2017, September). Hormone couture: Biopolitics, aesthetics, and technology. In Proceedings of the 2017 ACM International Symposium on Wearable Computers (pp. 221-226).
  • Ngamkajornwiwat P., and Teerakittikul P., “Toward adaptability for autonomous robots: A new model of artificial hormones.” International Conference on Embedded Systems and Intelligent Technology., 2015.
  • Ngamkajornwiwat P., and Teerakittikul P., “The Development of Artificial Hormone System for Adaptable Robots” The Conference of TRS on Robotics and Industrial Technology (CRIT), 6 2015

ความเชี่ยวชาญ/รายวิชากที่สอน

  • Embodied artificial intelligence
  • Bio-inspired robotics
  • Bio-inspired computing
  • Artificial hormones system
  • Swarm robotics
  • Space robotics

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