Kobayashi Hideo | Mie Univ. Tsu‐shi Jpn
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概要
関連著者
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Kobayashi Hideo
Mie Univ. Tsu‐shi Jpn
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Mori Kazuo
Mie Univ. Tsu‐shi Jpn
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Kobayashi H
Vera Project Office National Astronomical Observatory Of Japan
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Naito Katsuhiro
Department Of Electrical And Electronic Engineering Graduate School Of Engineering Mie University
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Mori K
Graduate School Of Engineering Mie University
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Kobayashi Hideo
Graduate School Of Engineering Mie University
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Mori K
Department Of Electrical And Electronics Engineering Graduate School Of Engineering Mie University
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Kobayashi H
Mie Univ. Tsu‐shi Jpn
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MORI Kazuo
the Guraduate school of Engineering, Mie University
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NAITO Katsuhiro
the Guraduate school of Engineering, Mie University
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Naito Katsuhiro
Division of Electrical and Electronic Engineering, Graduate School of Engineering, Mie University
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Kobayashi Hideo
Division of Electrical and Electronic Engineering, Graduate School of Engineering, Mie University
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Kobayashi Hideo
the Guraduate school of Engineering, Mie University
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Mori Kazuo
Graduate School Of Engineering Mie University
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MORI Kazuo
Graduate School of Engineering, Mie University
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KOBAYASHI Hideo
Graduate School of Engineering, Mie University
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Naito Katsuhiro
Graduate School Of Engineering Mie University
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Mori Kazuo
Department Of Clinical Pharmacy Oita Medical University
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Kobayashi Hideo
Department Of Applied Physics Waseda University
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森 香津夫
三重大学工学部 電気電子工学科
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Naito Katsuhiro
Graduate School Of Engineering Nagoya University
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Kobayashi Hideo
Department Of Cell Biology Institute Of Nephrology Graduate School Of Medical And Dental Sciences Ni
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Mori Kazuo
Department Of Electrical And Electronic Engineering Graduate School Of Engineering Mie University
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Kobayashi Hideo
Department Of Bacteriology Ii National Institute Of Infectious Diseases
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Boonsrimuang Pisit
Department Of Telecommunication Engineering Faculty Of Engineering King Moungkut's Institute Of
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Boonsrimuang P
Mie Univ. Mie Jpn
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Teng Yuanrun
Graduate School Of Engineering Mie University
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MKRTCHYAN Gagik
Communications Laboratory, Graduate School of Engineering, Mie University
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Gagik Mkrtchyan
Communications Laboratory Graduate School Of Engineering Mie University
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Mori Kazuo
Department Of Neurosurgery Nagasaki University School Of Medicine:yamaguchi Prefectual Hospital
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KOBAYASHI Hideo
Department of Medicine, Kidney Center, Tokyo Women's Medical University
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Paungma T
Department Of Telecommunication Engineering Faculty Of Engineering King Moungkut's Institute Of
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Nagaosa T
Mie Univ. Tsu‐shi Jpn
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PAUNGMA Tawil
Department of Telecommunication Engineering, Faculty of Engineering, King Moungkut's Institute of Te
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Naito Katsuhiro
Faculty of Engineering, Mie University
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Mori Kazuo
Faculty of Engineering, Mie University
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Kobayashi Hideo
Faculty of Engineering, Mie University
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Paungma Tawil
Department Of Telecommunication Engineering Faculty Of Engineering King Moungkut's Institute Of
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Kobayashi Hideo
Faculty Of Engineering Tokyo Institute Of Technology
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MORI Kazuo
Division of Electrical and Electronic Engineering, Graduate School of Engineering
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NAITO Katsuhiro
Department of Electrical and Electronics Engineering, Graduate School of Engineering, Mie University
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TENG Yuanrun
Department of Electrical and Electronic Engineering, Mie University
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Nagaosa Tomotaka
Department of Electrical and Electronic Engineering, Faculty of Engineering, Mie University
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Kobayashi Hideo
Division Of Electrical And Electronic Engineering Graduate School Of Engineering Mie University
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Mori Kazuo
Division Of Electrical And Electronic Engineering Graduate School Of Engineering Mie University
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NAGAOSA Tomotaka
Department of Electrical and Electronic Engineering, Faculty of Engineering
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KOBAYASHI Hideo
Division of Electrical and Electronic Engineering, Graduate School of Engineering
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Arzamendia Mario
Department Of Electrical And Electronics Engineering Graduate School Of Engineering Mie University
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NAITO Katsuhiro
Communications Laboratory, Graduate School of Engineering, Mie University
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MORI Kazuo
Communications Laboratory, Graduate School of Engineering, Mie University
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KOBAYASHI Hideo
Communications Laboratory, Graduate School of Engineering, Mie University
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Boonsrimuang Pisit
Faculty of Engineering, Mie University
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Mori K
Mie Univ. Tsu‐shi Jpn
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Naito Katsuhiro
Division Of Electrical And Electronic Engineering Graduate School Of Engineering Mie University
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Boonsrimuang Pisit
Department Of Telecommunication Engineering Faculty Of Engineering King Mongkut's Institute Of Technology
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Boonsrimuang Pisit
Faculty of Engineering, King Mongkut's Institute of Technology Ladkrabang
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NAITO Katsuhiro
Division of Electrical and Electronic Engineering, Graduate School of Engineering
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森 香津夫
三重大学大学院工学研究科
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森 香津夫
(株)ワイ・アール・ピー移動通信基盤技術研究所
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Aghvami Hamid
Centre for Telecommunications Research King's College London
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BOONSRIMUANG Pisit
Department of Telecommunication Engineering, Faculty of Engineering, King Moungkuts Institute of Tec
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Paungma Tawil
Faculty Of Engineering And Research Center For Communication And Information Technology King Mongkut
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Boonsrimuang Pisit
Graduate School of Engineering, Mie University
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Mkrtchyan Gagik
Faculty of Engineering, Mie University
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Aghvami Hamid
Centre For Telecommunication Research King's College London
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NAGAOSA Tomotaka
Mie University
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森 香津夫
三重大学大学院工学研究科電気電子工学専攻
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BOONSRIMUANG Pisit
Division of Electrical and Electronic Engineering, Graduate School of Engineering
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ARZAMENDIA Mario
Division of Electrical and Electronics Engineering, Graduate School of Engineering, Mie University
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KATO Akio
Department of Agricultural Chemistry, Yamaguchi University
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Kamiya Yukihiro
Atr Adaptive Communications Research Laboratories
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Kamiya Yukihiro
The Radio Communications Laboratory Kdd R&d Laboratories
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Wang Fang
Graduate School of Engineering, Mie University
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KHUMSI Abubaker
Graduate School of Engineering, Mie University
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Mkrtchyan Gagik
Graduate School of Engineering, Mie University
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Gagik Mkrtchyan
Faculty of Engineering, Mie University
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Khumsi Abubaker
Graduate School Of Engineering Mie University
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Nomoto S
Kddi R & D Laboratories Inc.
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TENG Yuanrun
Division of Systems Engineering, Graduate School of Engineering, Mie University
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NOMOTO Shinichi
the RadioCommunications Laboratory, KDD R&D Laboratories
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ARZAMENDIA Mario
Graduate School of Engineering, Mie University
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Arzamendia Mario
Graduate School Of Engineering Mie University
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Gagik Mkrtchyan
Department of Electrical and Electronic Engineering, Mie University
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MKRTCHYAN Gagik
the Department of Electrical and Electronic Engineering, Faculty of Engineering, Mie University
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MORI Kazuo
the Department of Electrical and Electronic Engineering, Faculty of Engineering, Mie University
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KOBAYASHI Hideo
the Department of Electrical and Electronic Engineering, Faculty of Engineering, Mie University
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Kato Akio
Department Of Agricultural Chemistry Faculty Of Agriclture Yamaguchi University
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Wang Fang
Graduate School Of Engineering Mie University
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Kato Akio
Department Of Electrical And Electronic Engineering Faculty Of Engineering
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Mori Kazuo
Mie University
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KUBO Keiji
Graduate school of Engineering, Mie University
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Singhapan A-Doong
Division of Electrical and Electronic Engineering, Graduate School of Engineering, Mie University
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Singhapan A-doong
Division Of Electrical And Electronic Engineering Graduate School Of Engineering Mie University
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Kubo Keiji
Graduate School Of Engineering Mie University
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Kobayashi Hideo
The Guraduate School Of Engineering Mie University
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Naito Katsuhiro
The Guraduate School Of Engineering Mie University
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Mori Kazuo
The Guraduate School Of Engineering Mie University
著作論文
- PAPR Reduction of OFDM Signal by Use of DSI Method with Time-Frequency Domain Swapping Algorithm(Wireless Communication Technologies)
- B-20-4 Energy Performance Evaluation of Traffic Adaptive 802.15.4 MAC under Dynamic Non-uniform Traffic Environments
- B-20-40 Energy Consumption Evaluation for Traffic Adaptive MAC Control in IEEE 802.15.4 cluster-based WSNs
- Proposal of Simple PAPR Reduction Method for OFDM Signal by Using Dummy Sub-Carriers
- Evaluation of Reliable Multicast Delivery in Base Station Diversity Systems
- Adaptive Transmit Window Control for Channel State Based CDMA Downlink Packet Communications
- Downlink Multihop Transmission Technique for Asymmetric Traffic Accommodation in DS-CDMA/FDD Cellular Communications
- 適応スロット割り当て方式と適応変調方式を用いたOFDMA通信システム
- Model Based Prediction of Uplink Multi-Path Fading Channel Response for Pre-Equalization in Mobile MC-CDMA Systems
- Asymmetric Traffic Accommodation Using Adaptive Cell Sizing Technique for CDMA/FDD Cellular Packet Communications(Multi-dimensional Mobile Information Networks)
- Downlink Packet Transmission Control Based on Soft Handoff Status in CDMA Cellular Packet Networks(Wireless Communication Technologies)
- Evolutional Algorithm Based Learning of Time Varying Multipath Fading Channels for Software Defined Radio(Software Defined Radio Technology and Its Applications)
- Doppler Spread Estimation Method for OFDM Signal Using Mean Square of Channel Impulse Response's Time Derivative(Antennas and Propagation)
- Complexity Reduced Maximum Likelihood Detection for SDM-OFDM System(Wireless Communication Technologies)
- Evolutional Algorithm Based Learning of Time-Varying Multipath Fading Channels for Software Defined Radio(無線ネットワーク,アドホックネットワーク,センサネットワーク及び一般)
- Simple PAPR Reduction Method for OFDM System by Using Dummy Sub-Carriers(無線ネットワーク,アドホックネットワーク,センサネットワーク及び一般)
- Simple PAPR Reduction Method for OFDM System by Using Dummy Sub-Carriers
- Prediction of Time-Varying Multipath Fading Channel for Pre-equalization of Signal in Uplink Mobile MC-CDMA Communication
- Maximum Doppler Frequency Spread Estimation Method Using Mean Square Derivative of the ML Time Domain Estimated Channel Impulse Response for OFDM Systems(Advanced Technology-III)
- Proposal of QAM-OFDM System with DSI and IDAR Method in Satellite Channel(Advanced Technology-II)
- Performance Evaluations of DCT Interpolation-Based Channel Estimation Method for MIMO-OFDM System(Wireless Communication Technologies)
- BS-9-5 Time and Frequency Code Division Multiplexing (TFCDM) Method for Uplink OFDMA System over Time-Variant Fading Channel(BS-9. Broadband wireless communications techniques)
- Proposal of SDM-SCOFDM System with Adaptive Modulation Method over MIMO Channels(Wireless Communication Technologies)
- B-5-37 Channel Estimation Method for MIMO-OFDM Systems using Discrete Cosine Transform
- B-5-269 Adaptive Resource Allocation Method for OFDMA System
- Proposal of Grouping Adaptive Modulation Method for Burst Mode OFDM Transmission System(Special Issue on Multiple Access and Signal Transmission Techniques for Future Mobile Communications)
- Novel DOA Estimation Method for HA Adaptive Array Applicable to TDMA Mobile Satellite Communication Systems
- Proposal of Estimation Method for Non-linear Amplifier Characteristics in Satellite Channel(Advanced Technology-II)
- B-3-3 Proposal of Estimation Method for Non-linear Amplifier Characteristics in Satellite Channel
- Proposal of Clipping and Inter-Modulation Noise Mitigation Method for OFDM Signal in Non-linear Channel(Multi-carrier Signal Processing Techniques for Next Generation Mobile Communications-Part 2)
- Traffic Adaptive MAC Mechanism for IEEE 802.15.4 Cluster Based Wireless Sensor Networks with Various Traffic Non-uniformities
- Uplink Packet Transmission Control for Asymmetric Traffic in CDMA/Shared-TDD Cellular Packet Communications(Wireless Communication Technology)
- Slot Assignment Method for CDMA/NC-PRMA Systems in Multi-Cell Environments(Special Section on Multi-dimensional Mobile Information Networks)
- Proposal of Symbol Timing and Carrier Frequency Synchronization Methods for Burst Mode OFDM Signal(Special Issue on Multiple Access and Signal Transmission Techniques for Future Mobile Communications)
- Transmission Power Control Based on Predicted SIR for Downlink Common Channel Transmissions in CDMA Cellular Packet Communications(Special Issue on Multiple Access and Signal Transmission Techniques for Future Mobile Communications)
- BS-9-6 Time Domain Maximum Likelihood Channel Estimation and Equalization Method for OFDM System Without Guard Interval(BS-9. Broadband wireless communications techniques)
- Correction of OFDM Signal Form in Time Domain to Reduce ICI Due to the Doppler Spread and Carrier Frequency Offset(Interference Canceller)(Multi-carrier Signal Processing Techniques for Next Generation Mobile Communications-Part 1)
- Traffic Adaptive Backoff Window Control for IEEE 802.15.4 MAC in Cluster-Based WSNs with Various Traffic Fluctuations
- Frequency Band and Time Slot Selection Scheme for Downlink Packet Communications in Cellular Band Division MC-CDM Systems(Mobile Radio)(Mobile Multimedia Communications)
- Enhanced 2-Level Traffic Adaptive Active Period Control for IEEE802.15.4 Cluster-Based Wireless Sensor Networks
- Resource Allocation Based on TCP Performance in Base Station Diversity Systems
- Proposal of ML Based Frequency-Time Domain Channel Estimation Method for OFDM Systems in Time-Varying Rayleigh Fading Channel
- Traffic Adaptive Distributed Backoff Control Mechanism for Cluster-Based IEEE802.15.4 WSNs with Traffic Fluctuations