Ahn Chang-Jun | Faculty of Engineering, Chiba University
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概要
関連著者
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Ahn Chang-Jun
Faculty of Engineering, Chiba University
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Hashimoto Ken-ya
Facult. Eng., Univ. Chiba
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Omori Tatsuya
Facult. Eng., Univ. Chiba
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KITAKATA Masayuki
Faculty of Engineering, Chiba University
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YOSHIMURA Tomoki
Faculty of Engineering, Chiba University
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IDA Yuta
Faculty of Information science, Hiroshima City University
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OKA Hikaru
Faculty of Engineering, Chiba University
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Ahn Chang-jun
Atr Wave Engineering Laboratories
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Ahn Chang-jun
Faculty Of Information Sciences Hiroshima City University
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Ahn Chang‐jun
Hiroshima City Univ. Hiroshima‐shi Jpn
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Ahn Chang-jun
Faculty Of Information Science Hiroshima City University
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Ahn C‐j
National Institute Of Information And Communication Technology (nict) Incorporated Administrative Ag
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Hashimoto Ken-ya
Faculty of Engineering, Chiba University
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OMORI Tatsuya
Faculty of Engineering, Chiba University
著作論文
- Throughput Improvement with Discrete Pilot Signal Assignment and Iterative Channel Identification for MQRD-PCM/OFDM
- Accurate Channel Identification with Time-Frequency Interferometry for OFDM
- Throughput Performance Enhancement applying Adaptive Modulation for Single Symbol Decodable QO-STBC with Pull Diversity
- Performance improvement with channel ranking and cutting the symbol candidate branchs for the complexity reducing sequential decision with QRM-MLD
- IQ Imbalance Estimation and Compensation Schemes using TFI-OFDM System
- IQ Imbalance Estimation and Compensation Schemes using TFI-OFDM System
- Throughput Performance Enhancement applying Adaptive Modulation for Single Symbol Decodable QO-STBC with Pull Diversity
- Performance improvement with channel ranking and cutting the symbol candidate branchs for the complexity reducing sequential decision with QRM-MLD
- Performance improvement with channel ranking and cutting the symbol candidate branchs for the complexity reducing sequential decision with QRM-MLD
- IQ Imbalance Estimation and Compensation Schemes using TFI-OFDM System
- Throughput Performance Enhancement applying Adaptive Modulation for Single Symbol Decodable QO-STBC with Pull Diversity