論文

• Sukhumarn ARCHASANTISUK, Takahiro AOYAGI. Transmission Power Control Using Human Motion Classification for Reliable and Energy-Efficient Communication in WBAN, IEICE TRANSACTIONS on Communications, Vol. E102-B, No. 6, pp. 1104-1112, June 2019.
• Sukhumarn Archasantisuk, Takahiro Aoyagi, Minseok Kim, Jun-ichi Takada. Temporal correlation model-based transmission power control in wireless body area network, IET Wireless Sensor Systems, Vol. 8, No. 5, pp. 191-199, Apr. 2018.
• Sukhumarn ARCHASANTISUK, Takahiro AOYAGI, Tero UUSITUPA, Minseok KIM, Jun-ichi TAKADA. Human Motion Classification Using Radio Signal Strength in WBAN, IEICE TRANSACTIONS on Communications, Vol. E99-B, No. 3, pp. 592-601, Mar. 2016.

著書

• Sukhumarn Archasantisuk, Takahiro Aoyagi, Tero Uusitupa, Minseok Kim, Jun-ichi Takada. Effect of Unexpected Reflections from Wave Absorber in Body Area Propagation Measurements, Chapter 6, Human-movement identification using the radio signal strength in WBAN, Wearable Technologies and Wireless Body Sensor Networks for Healthcare, Chapter 6, Human-movement identification using the radio signal strength in WBAN, The Institution of Engineering and Technology (IET), Aug. 2019.

国際会議発表 (査読有り)

• Sukhumarn Archasantisuk, Takahiro Aoyagi, Minseok Kim, Jun-ichi Takada. Transmission Power Control in WBAN Using the Context-Specific Temporal Correlation Model, 27th Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (IEEE PIMRC 2016), Proc. 27th Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (IEEE PIMRC 2016), pp. 1-6 (MoD8-4), Sept. 2016.
• Sukhumarn Archasantisuk, Takahiro Aoyagi, Tero Uusitupa, Minseok Kim, Jun-ichi Takada. Human Motion Classification Utilizing Radio Signal Strength in Wireless Body Area Network, 2015 URSI-Japan Radio Science Meeting (URSI-JRSM 2015), Proc. 2015 URSI-Japan Radio Science Meeting, p. 1, Sept. 2015.

国際会議発表 (査読なし・不明)

• Sukhumarn Archasantisuk, Takahiro Aoyagi. The Human Movement Identification Using the Radio Signal Strength in WBAN, International Symposium on Medical Information and Communication Technology (ISMICT 2015), Proc. Intl. Symp. on International Symposium on Medical Information and Communication Technology (ISMICT 2015), pp. 70-74, Mar. 2015.

国内会議発表 (査読なし・不明)

• Sukhumarn Archasantisuk, Takahiro Aoyagi. Application of Human Motion Classification for Low-Energy Wireless Body Area Network, IEICE 2017 Communications Society Conference, Proc. IEICE 2017 Communications Society Conference, pp. 1-2, Mar. 2018.
• Sukhumarn Archasantisuk, Takahiro Aoyagi. Transmission Power Control Using Human Motion Classification in Daily Human Motion Scenarios for WBAN, IEICE Technical Meeting on Communication Quality, IEICE technical report, vol. 117, no. 185, pp. 75-80 (CQ2017-64), Aug. 2017.
• Sukhumarn Archasantisuk, Takahiro Aoyagi, Minseok Kim, Jun-ichi Takada. Evaluation of Transmission Power Control Method Using Temporal Correlation Model for WBAN, IEICE Technical Meeting (MICT), IEICE Tech. Rep., vol. 116, no. 141, pp. 19-22 (MICT2016-15), July 2016.
• Sukhumarn Archasantisuk, Takahiro Aoyagi, Tero Uusitupa. Human Movement Classification using Signal Level Fluctuation in WBAN at 403.5 MHz and 2.45 GHz, IEICE Healthcare and Medical Information Communication Technologies meeting, IEICE Tech. Rep., vol. 114, no. 61, pp. 73-78 (MICT2014-15), May 2014.
• Sukhumarn Archasantisuk, Takahiro Aoyagi. Human Movement Classification for Body Area Networks using Signal Level Fluctuation via Neural Network, IEICE Society Conference, Proc. IEICE Society Conference, pp. S-167-168 (BS-9-16), Sept. 2013.

学位論文

• Research on Reliable and Energy-Efficient Communications in Wireless Body Area Network Using Human Motion Classification-based Transmission Power Control,  Outline,  Doctor (Engineering),  Tokyo Institute of Technology,  2017/09/20,   
• Research on Reliable and Energy-Efficient Communications in Wireless Body Area Network Using Human Motion Classification-based Transmission Power Control,  Thesis,  Doctor (Engineering),  Tokyo Institute of Technology,  2017/09/20, 
• Research on Reliable and Energy-Efficient Communications in Wireless Body Area Network Using Human Motion Classification-based Transmission Power Control,  Summary,  Doctor (Engineering),  Tokyo Institute of Technology,  2017/09/20,   
• Research on Reliable and Energy-Efficient Communications in Wireless Body Area Network Using Human Motion Classification-based Transmission Power Control,  Exam Summary,  Doctor (Engineering),  Tokyo Institute of Technology,  2017/09/20,   

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