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Integer Codes Correcting High-Density Byte Asymmetric Errors
(Institute of Electrical and Electronics Engineers (IEEE), 2017)
In optical networks without optical amplifiers, the number of received photons never exceeds the number of sent ones. Hence, upon transmission, only asymmetric (1 → 0) errors can occur. Motivated by this fact, in this ...
Integer Codes Correcting Single Errors and Detecting Burst Errors Within a Byte
(Institute of Electrical and Electronics Engineers (IEEE), 2020)
Correcting single and detecting adjacent errors has become important in memory systems using high density DRAM chips. The reason is that, in these systems, the strike of a single energetic particle can upset one or more ...
Integer Codes Correcting Double Errors and Triple-Adjacent Errors Within a Byte
(Institute of Electrical and Electronics Engineers (IEEE), 2020)
This article presents a class of integer codes that are suitable for use in optical computer networks in which the data are transmitted serially. The presented codes are constructed with the help of a computer and have ...
(Perfect) Integer Codes Correcting Single Errors
(IEEE, 2018)
This letter presents a class of integer codes capable of correcting single errors. Unlike Hamming codes, the presented codes are constructed with the help of a computer. Among all codes of length up to 4096 bits, a computer ...
Integer codes correcting burst and random asymmetric errors within a byte
(Elsevier, 2018)
In most communication networks, error probabilities 1 → 0 and 0 → 1 are equally likely to occur. However, in some optical networks, such as local and access networks, this is not the case. In these networks, the number of ...
Integer codes correcting burst asymmetric within a byte and double asymmetric errors
(Springer, 2020)
This paper presents a class of integer codes capable of correcting l-bit burst asymmetric errors within a b-bit byte (1 ≤ l < b) and double asymmetric errors within a codeword. The presented codes are constructed with the ...
Integer codes correcting sparse byte errors
(Springer, 2019)
In public optical networks, the data are scrambled with a xu + 1 self-synchronous scramblers (SSSs). The reason for this is to avoid long strings of ones or zeros, which might affect the receiver synchronization. Unfortunately, ...
Integer Asymmetric Error Control Codes for Short-Range Optical Networks
(New York: Nova Science, 2019)
In most communication networks, error probabilities 1 → 0 and 0 → 1 are equally likely to occur. However, in short-range optical networks (SRONs), such as local and access networks, this is not the case. In these networks, ...