• Journal of the Institute of Electronics and Information Engineers
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• v.49 no.11
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• pp.3-8
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• 2012

Two-dimensional product code has been studied for correcting burst errors on the storage systems. An RS-LDPC product code consists of an RS code in horizontal direction and an LDPC code in vertical direction. First, we detect the position of burst errors by using RS code, then LDPC code corrects the errors by using the burst error positions. In storage system, long burst errors are occurred by various reason. So, we need a strong code for correcting the long burst errors. RS-LDPC product code is good for long burst errors. However, as the storage density grows the length of the burst errors will be longer. Thus, we propose an LDPC-LDPC product code, it is strong for correcting the very long burst errors. Also, the proposed LDPC-LDPC product code performs better than RS-LDPC product code when the random errors are occurred, because a row direction LDPC code performs better than row direction RS code.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.35 no.6B
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• pp.948-953
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• 2010

In this paper, we propose multi-bit soft error detection method which can use an instruction cache of superscalar CPU architecture. Proposed method is applied to high-speed static RAM for instruction cache. Using 1D parity and interleaving, it has less memory overhead and detects more multi-bit errors comparing with other methods. It only detects occurrence of soft errors in static RAM. Error correction is treated like a cache miss situation. When soft errors are occurred, it is detected by 1D parity. Instruction cache just fetch the words from lower-level memory to correct errors. This method can detect multi-bit errors in maximum 4$\times$4 window.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.11 no.2
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• pp.392-401
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• 2007

Wireless network has high BER characteristic because of path loss, fading, noise and interference. Many packet losses occur without any congestion in wireless network. Therefore, many wireless TCP algorithms have been proposed. SNOOP, one of wireless TCP algorithms, hides packet losses for Fixed Host and retransmits lost packets in wireless network. However, SNOOP has a weakness for bust errors in wireless network. This paper proposes the SACK-SNOOP to improve TCP performance based on SNOOP and Freeze-TCP that use ZWA messages in wireless network. This message makes FH stop sending packets to MH. BS could retransmit error packets to MH for this time. SACK-SNOOP use improved Selective ACK, thereby reducing the number of packet sequences according to error environment. This method reduces the processing time for generation, transmission, analysis of ACK. This time gain is enough to retransmit local burst errors in wireless link. Furthermore, SACK-SNOOP can manage the retransmitted error by extending delay time to FH. The simulation shows that our proposed protocol is more effective for packet losses in wireless networks.

• Proceedings of the Korean Institute of Communication Sciences Conference
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• 1990.10a
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• pp.204-209
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• 1990

• Journal of the Institute of Electronics and Information Engineers
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• v.54 no.6
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• pp.17-21
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• 2017

Since holographic data storage has the advantage of high recording density and data transfer rate, it is a candidate for the next generation storage systems. However, Holographic data storage system is affected by interpage interference and two dimensional intersymbol interference. Also, burst error occurs by physical impact. In this paper, we propose an LDPC product code using modified log-likelihood ratio and extrinsic information to correct burst error and improve performance of holographic data storage. The performance of proposed LDPC product code is 0.5dB better than that of the conventional LDPC code.

• Proceedings of the KAIS Fall Conference
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• 2010.05a
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• pp.507-510
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• 2010

OFDM(Orthogonal Frequency Division Multiplexing)은 하나의 데이터 열(data stream)을 낮은 데이터 전송률을 갖는 작은 데이터로 나누고, 이들을 부반송파(subcarrier)를 통해 동시에 전송한다. OFDM이 차세대 전송방식으로 채택된 이유는 주파수 선택적 페이딩(frequency selective fading)이나 협대역(narrow band)간 간섭에 받는 영향이 적어 고속 통신이 가능하기 때문이다. 본 논문에서는 RS 부호(Reed-Solomon Code)를 사용하여 OFDM에서 대용량 데이터를 전송할 때 발생하기 쉬운 연집 오류(burst error)를 정정하도록 하였다. 또한 채널 사이에 파일롯 심볼(pilot symbol)을 삽입하여 채널 추정을 통한 신호의 타이밍 오류도 고려하였다.

• Proceedings of the KAIS Fall Conference
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• 2007.11a
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• pp.248-251
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• 2007

OFDM(Orthogonal Frequency Division Multiplexing)은 하나의 데이터 열(data stream)을 낮은 데이터 전송률을 갖는 작은 데이터로 나누고, 이들을 부반송파(subcarrier)를 통해 동시에 전송한다. OFDM이 차세대 전송방식으로 채택된 이유는 주파수 선택적 페이딩(frequency selective fading)이나 협대역(narrow band)간 간섭에 받는 영향이 적어 고속 통신이 가능하기 때문이다. 본 논문에서는 RS 부호(Reed-Solomon Code)를 사용하여 OFDM에서 대용량 데이터를 전송할 때 발생하기 쉬운 연집 오류(burst error)를 정정하도록 하였다. 또한 채널 사이에 파일롯 심볼(pilot symbol)을 삽입하여 채널 추정을 통한 신호의 타이밍 오류도 고려하였다.

• Journal of the Institute of Electronics and Information Engineers
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• v.54 no.5
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• pp.3-7
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• 2017

Holographic data storage system (HDSS) features short access times, high storage capacities, and fast transfer rates, since the data is recorded and read not by lines but by pages within a volume of holographic material. Burst error caused by physical impact on the high density storage system becomes very longer than that of conventional storage systems. This paper proposes an LDPC product code using two LDPC code to resolve burst error. When a total code rate is similar, the performance of two LDPC code having high code rate is better than that of one LDPC code having low code rate. Also, with error factors of two-dimensional intersysbol interference and misalignment, the proposed scheme can improve the performance in holographic data storage system.

• Proceedings of the Korean Institute of Communication Sciences Conference
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• 1993.10a
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• pp.161-165
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• 1993

• Proceedings of the KIEE Conference
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• 2003.07d
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• pp.2702-2704
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• 2003

본 논문은 전력선통신시스템 (Power Line Communications)을 위한 초고속 오류정정 부호화기 회로에 관한 설계방법론과 회로의 동작속도, 회로복잡성과 레이턴시에 직접적으로 기여하는 핵심 GF (Galois Field) 연산기들의 역할 및 이들의 설계결과에 관해 설명한다. 특히, 이러한 설계방법에 충실한 오류정정 부호화기회로는 입출력 병렬구조의 세미-시스톨릭 (Semi-systolic) 아키텍처를 갖는 고속의 내부 핵심 GF 연산기회로들을 채택함으로써 고속 연산을 가능토록 한다. 최적화된 GF곱셈연산기를 기반으로 설계되어진 리드-솔로몬 (Reed-Solomon) 오류정정 부호화기는 전력선 채널상에서 데이터를 전송 시 발생되는 연집오류들을 효과적으로 복원하도록 하는 대표적인 부호화기로 이미 존재하는 다른 회로들에 비해 동작속도, 회로의 복잡성, 및 레이턴시 측면에서 그 성능이 월등히 뛰어나므로, 실제 초고속 전력선 통신시스템의 설계 및 구현 시 효과적으로 이용될 수 있다.