Lee Seung-yerl | Information Technology And Telecommunications Inha University
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概要
関連著者
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Chung Duck-jin
School Of Information And Communication Eng. Inha Univ.
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Kim Byung-soo
Information Technology And Telecommunications Inha University
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Kim Dong-sun
Department Of Dxb Communication Convergence Research Center Korea Electronics Technology Institute
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Kim Dong-sun
Department Of Civil And Ocean Engineering Ehime University
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Lee Seung-yerl
Information Technology And Telecommunications Inha University
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Chung Duck-jin
Information Technology And Telecommunications Inha University
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KIM Dong-Sun
Department of DxB Communication Convergence Research Center, Korea Electronics Technology Institute
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LEE Seung-Yerl
Information Technology and Telecommunications, INHA University
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HWANG Tae-Ho
Department of Ubiquitous Computing Center, Korea Electronics Technology Institute
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Hwang Tae-ho
Department Of Ubiquitous Computing Center Korea Electronics Technology Institute
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Seo Hae-moon
Department Of Ubiquitous Computing Center Korea Electronics Technology Institute
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Moon Yeon-kug
Department Of Ubiquitous Computing Center Korea Electronics Technology Institute
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HWANG Taeo
Department of Ubiquitous Computing Center, Korea Electronics Technology Institute
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WON Kwang-Ho
Department of Ubiquitous Computing Center, Korea Electronics Technology Institute
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KIM Seong-Dong
Information Technology and Telecommunications, INHA University
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Won Kwang-ho
Department Of Ubiquitous Computing Center Korea Electronics Technology Institute
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Kim Seong-dong
Information Technology And Telecommunications Inha University
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Kim Byung-soo
School Of Chemical And Biological Engineering Seoul National University
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Wang Kyu-yeul
School Of Information And Communication Inha University
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LEE Sang-Seol
School of Information and Communication, INHA University
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Wang Kyu-Yeul
School of Information and Communication Engineering, INHA University
著作論文
- Dual Priority Scheduling Based on Power Adjustment Context Switching for Ubiquitous Sensor Network(Ubiquitous Sensor Networks)
- A Fully Integrated SoC with Digital MAC Processor and Transceiver for Ubiquitous Sensor Network at 868/915MHz(Ubiquitous Sensor Networks)
- A Novel Low-Cost High-Throughput CAVLC Decoder for H.264/AVC