Integer Asymmetric Error Control Codes for Short-Range Optical Networks
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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, photons may fade or fail to be detected, but new photons cannot be generated. Hence, if the receiver operates correctly, only asymmetric (1 → 0) errors can occur. Motivated by this fact, the authors of this chapter have constructed four classes of integer codes capable of correcting various types of asymmetric errors. The most attractive feature of all these codes is their ability to be implemented "for free" (in software). This is achieved by using integer and lookup table operations, which are supported by all processors. The aim of this chapter is to overview four classes of integer asymmetric codes and to illustrate their potential for use in modern SRONs. Topics covered include: fundamentals in the design of integer codes, necessary and sufficient conditions for... constructing integer asymmetric codes and the processor-based strategy for implementation of these codes.
Кључне речи:
integer codes / asymmetric errors / random asymmetric errors / short-range optical networks / multicore processors / theoretical decoding throughputИзвор:
Advances in Engineering Research. Volume 29, 2019Издавач:
- New York: Nova Science
Институција/група
Институт техничких наука САНУ / Institute of Technical Sciences of SASATY - CHAP AU - Radonjić, Aleksandar AU - Vujičić, Vladimir PY - 2019 UR - https://dais.sanu.ac.rs/123456789/15364 AB - 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, photons may fade or fail to be detected, but new photons cannot be generated. Hence, if the receiver operates correctly, only asymmetric (1 → 0) errors can occur. Motivated by this fact, the authors of this chapter have constructed four classes of integer codes capable of correcting various types of asymmetric errors. The most attractive feature of all these codes is their ability to be implemented "for free" (in software). This is achieved by using integer and lookup table operations, which are supported by all processors. The aim of this chapter is to overview four classes of integer asymmetric codes and to illustrate their potential for use in modern SRONs. Topics covered include: fundamentals in the design of integer codes, necessary and sufficient conditions for constructing integer asymmetric codes and the processor-based strategy for implementation of these codes. PB - New York: Nova Science T2 - Advances in Engineering Research. Volume 29 T1 - Integer Asymmetric Error Control Codes for Short-Range Optical Networks UR - https://hdl.handle.net/21.15107/rcub_dais_15364 ER -
@inbook{ author = "Radonjić, Aleksandar and Vujičić, Vladimir", year = "2019", abstract = "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, photons may fade or fail to be detected, but new photons cannot be generated. Hence, if the receiver operates correctly, only asymmetric (1 → 0) errors can occur. Motivated by this fact, the authors of this chapter have constructed four classes of integer codes capable of correcting various types of asymmetric errors. The most attractive feature of all these codes is their ability to be implemented "for free" (in software). This is achieved by using integer and lookup table operations, which are supported by all processors. The aim of this chapter is to overview four classes of integer asymmetric codes and to illustrate their potential for use in modern SRONs. Topics covered include: fundamentals in the design of integer codes, necessary and sufficient conditions for constructing integer asymmetric codes and the processor-based strategy for implementation of these codes.", publisher = "New York: Nova Science", journal = "Advances in Engineering Research. Volume 29", booktitle = "Integer Asymmetric Error Control Codes for Short-Range Optical Networks", url = "https://hdl.handle.net/21.15107/rcub_dais_15364" }
Radonjić, A.,& Vujičić, V.. (2019). Integer Asymmetric Error Control Codes for Short-Range Optical Networks. in Advances in Engineering Research. Volume 29 New York: Nova Science.. https://hdl.handle.net/21.15107/rcub_dais_15364
Radonjić A, Vujičić V. Integer Asymmetric Error Control Codes for Short-Range Optical Networks. in Advances in Engineering Research. Volume 29. 2019;. https://hdl.handle.net/21.15107/rcub_dais_15364 .
Radonjić, Aleksandar, Vujičić, Vladimir, "Integer Asymmetric Error Control Codes for Short-Range Optical Networks" in Advances in Engineering Research. Volume 29 (2019), https://hdl.handle.net/21.15107/rcub_dais_15364 .