Simulation and Analysis of High-Precision Iterative Code With Increased Efficiency

“…A HID of self-orthogonal, convolutional, and block codes [1,2,4] is the development of the simplest multi-threshold decoder (threshold decoder) Massey and allows you to decode very long codes with a linear execution complexity. The basis of HID operation is iterative decoding, which allows you to come close to solving the optimal decoder in a fairly wide range of code rates and noise levels in the channel.…”

“…As the modulation, phase shift keying with the number of positions M=2 (2-PSK) was used. Sequences are combined into packets of 1024 bits, after encoding, respectively, the packet length will be approximately equal to 2048 bits [1,2].…”

Application of High-Precision Iterative Techniques to Improve the Efficiency of Encoding and Decoding.

“…A HID of self-orthogonal, convolutional, and block codes [1,2,4] is the development of the simplest multi-threshold decoder (threshold decoder) Massey and allows you to decode very long codes with a linear execution complexity. The basis of HID operation is iterative decoding, which allows you to come close to solving the optimal decoder in a fairly wide range of code rates and noise levels in the channel.…”

“…As the modulation, phase shift keying with the number of positions M=2 (2-PSK) was used. Sequences are combined into packets of 1024 bits, after encoding, respectively, the packet length will be approximately equal to 2048 bits [1,2].…”

Application of High-Precision Iterative Techniques to Improve the Efficiency of Encoding and Decoding.

Simulation of Mapping Schemes as Per STD IEEE1901.2 for Power Line Carrier Communication

Development and research of a codec based on a high-precision iterative algorithm