Algorithms for increasing the efficiency of information processing in continuous channels
Abstract
Abstract The article analyses discrete information transmission channels based on a structural model. Key properties of discrete information channels are considered, including coding, modulation, decoding, and demodulation. A discrete transmission channel covers a variety of methods and devices designed to transmit discrete data from a sender to a recipient. The article also presents graphs of functional dependencies between the input and output data of a discrete system interface, both in the absence of interference and in its presence. The presented calculations and analysis of the channel capacity, as well as the optimization of information transmission settings, confirmed by graphs and analytical expressions, are the most important elements in the design of reliable communication systems. These calculations allow us to identify the optimal channel operating parameters, ensuring high data transmission efficiency.