Research keywords (2):
Wireless Control
, Visible Light Communication
Research theme for competitive and other funds (24):
2023 - 2027 Invisible Display-Camera Visible Light Communication Using Adversarial Examples [Translated from Japanese]
2024 - 2025 Realization of Robust Link Between Transmitter and Receiver for Visible Light Communication Using Propeller LED Transmitter
2024 - 2025 A study on the improvement of indoor positioning and position control of drones
2021 - 2024 High-Speed Visible Light Communication Using Spatial Coherence Synthesis of Multiple Subcarrier-Modulated LED Light [Translated from Japanese]
2021 - 2024 A Study on Technology Fusion of Distributed Cooperative Control and Wireless Distributed Networks
2023 - 2024 Development of Asynchronous Demodulation Method for High-Speed Visible Light Communication Using Rotary LED Transmitter and Camera
2023 - 2024 A Study on Low Energy Wireless Distributed Cooperative Robot Networks
2022 - 2023 Development of Asynchronous Demodulation Method for High-Speed Visible Light Communication Using Rotary LED Transmitter and Camera
2022 - 2023 A Study on Low Energy Wireless Distributed Cooperative Robot Networks
2018 - 2022 Cross-Layer Optimization of Wireless Communication Schemes Based on Communication and Control Co-design
2021 - 2022 A Study on Low Energy Wireless Distributed Cooperative Robot Networks
2020 - 2022 Development of Visible Light Communication System Using Rotary LED Display and Camera
2020 - 2021 Cross-Layer Technologies for Communication and Control to Improve Performance and Reliability of Wireless Control Systems [Translated from Japanese]
2020 - 2021 A Study on Modulation and Demodulation Schemes for LED Display and Image Sensor-Based Visible Light Communication [Translated from Japanese]
2015 - 2018 A Study on Cross-Layer Design and Optimization of Control and Communication for Reliable Remote Control [Translated from Japanese]
2014 - 2016 A Study on Construction of Local Self-Reliant Disaster Mitigation Lifelines with Uninterrupted Energy, Water, and Information [Translated from Japanese]
2013 - 2015 A Study on Joint Optimization of Control Layer and Communication Layer for Wireless Machine Control [Translated from Japanese]
2013 - 2014 Research and Development of Sensor and Actuator Network Suite [Translated from Japanese]
2013 - 2013 A Study on Channel Error Correction Based on Control Layer Quality for Wireless Machine Control [Translated from Japanese]
2011 - 2012 Research and Development of Information Lighthouse System for Visually Impaired People Using Visible Light Communication [Translated from Japanese]
2010 - 2011 Research and Development of Information Lighthouse System for Visually Impaired People Using Visible Light Communication [Translated from Japanese]
2010 - 2010 A Study on Joint Channel Decoding Using Spatial Correlation of Sensor Observations According to ADC Bit levels
2009 - 2010 Joint Channel Deconding Using Spatial and Temporal Correlation of Sources [Translated from Japanese]
2008 - 2008 Joint Channel Decoding of Spatially and Temporally Correlated Data in Wireless Sensor Networks
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Papers (115):
A. Kawade, W. Chujo, K.Kobayashi. Threshold-free symbol decision based on spatial 4PPM correlation for uplink screen camera communication using low-luminance SDM screen. IEEE Photonics Journal. 2024
Y. Nishimura, W. Chujo, K. Kobayashi. High-precision automatic optical axis alignment of LED backhaul in lighting surroundings based on object detection. IEICE Communications Express. 2024. 13. 5. 151-155
K. Kobayashi, R. Kimura, W. Chujo. Effectiveness of information transfer on control quality of CSMA/CA-based autonomous decentralized control. IEICE Communications Express. 2023. 13. 2. 18-21
H. Okada, T. Hayashi, K. Kobayashi, T. Wada, C. Ben Naila, M. Katayama. Visible Light Communication Systems Using a High-speed Display and Rolling-shutter Camera. 2023 28th Asia Pacific Conference on Communications (APCC). 2023. 244-249
Y. Miki, K. Kobayashi, W. Chujo. Data signal detection and demodulation based on object detection DNN for image sensor-based visible light communication. IEICE Communications Express. 2023. 12. 12. 628-632
Accuracy comparison of indoor positioning of a drone base station using 2.4GHz/5GHz Wi-Fi RTT
(IEICE Technical Report, vol. 124, no. 25, RCC2024-14, pp. 66-71 2024)
A study on indoor drone positioning using Wi-Fi RTT and machine leaning
(IEICE Technical Report, vol. 124, no. 25, RCC2024-13, pp. 60-65 2024)
Improving bit rate using dual camera for standard image overlay 16PSK visible light communication
(IEICE Technical Report, vol. 124, no. 24, WBS2024-10, pp. 48-53 2024)
Experimental performance evaluation of image sensor-based visible light communication method using object detection DNN for monochromatic images
(IEICE Technical Report, vol. 124, no. 24, WBS2024-9, pp. 42-47 2024)
Improving bit rate using dual camera for standard image overlay 8PSK visible light communication
(IEICE General Conference, A-9-18, p. 154 2024)
2007 - 2010 Nagoya University Graduate School of Engineering Department of Electrical Engineering and Computer Science (Ph.D.)
2005 - 2007 Nagoya University Graduate School of Engineering Department of Electrical Engineering and Computer Science (M.S.)
2001 - 2005 Nagoya University School of Engineering Department of Electrical and Electronic Engineering and Information Engineering (B.S.)
Professional career (1):
Ph.D. (Nagoya University)
Work history (5):
2020/04 - 現在 Meijo University Faculty of Science and Technology, Department of Electrical and Electronic Engineering Associate Professor
2014/10 - 2020/03 Nagoya University Division of Systems Research, Institute of Materials and Systems for Sustainability Associate Professor
2014/04 - 2014/09 Nagoya University Division of Green Systems, EcoTopia Science Institute Assistant Professor
2010/05 - 2014/03 Nagoya University Division of Information and Communication Sciences, EcoTopia Science Institute Assistant Professor
2009/04 - 2010/04 Nagoya University Graduate School of Engineering Research Fellow of the Japan Society for the Promotion of Science
Awards (10):
2021/09 - IEICE Communications Society Distinguished Contributions Award
2018/12 - IEEE Nagoya Section Young Researcher Award
2018/09 - IEICE Communications Society Distinguished Contributions Award
2015/09 - IEICE Communications Society Distinguished Contributions Award
2013/03 - IEICE Young Researcher's Award
2012/10 - The 2014 Japan-Korea Joint Workshop on Complex Communication Sciences (JKCCS2014) Best Student Paper Award
2012/09 - IEICE Communications Society Distinguished Contributions Award
2012/02 - IEICE Best Student Paper Award
2010/05 - IEICE Technical Committee on Mobile Multimedia Communications (MoMuC) Young Researcher Award
2007/07 - Nagoya University Outstanding Graduate Student Award
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Association Membership(s) (3):
Institute of Electrical and Electronics Engineers (IEEE)
, Information Processing Society of Japan (IPSJ)
, The Institute of Electronics, Information and Communication Engineers (IEICE)