Litcius/Paper detail

Joint Demodulation and Error Correcting Codes Recognition Using Convolutional Neural Network

Jiao Wang, Hao Huang, Jiaxu Liu, Jianqing Li

2022IEEE Access11 citationsDOIOpen Access PDF

Abstract

Demodulation of the communication signals and blind identification of error-correcting codes (ECC) are two essential purposes in adaptive modulation and coding (AMC) techniques and non-cooperative communication fields. The existing approaches treat them as two separate problems, namely the demodulation of signals with known a <i>priori</i> knowledge (such as channel state information (CSI) or channel noise) and the ECC type identification that depends on the demodulation results. In this paper, a novel one-stage ECC identification approach based on a multi-task deep convolutional neural network (MT-DCNN) is presented. With this architecture, the proposed method automatically recognizes the ECC types of the baseband in-phase and quadrature-phase (IQ) data without relying on any conventional demodulators. Precisely, the proposed MT-DCNN consists of three modules: the feature extraction module, the demodulation module, and the ECC types recognition module. Experiment results show that the proposed architecture can accurately identify the ECC types of the baseband IQ signals and is superior to those of the existing two-stage recognition approaches.

Topics & Concepts

DemodulationBasebandComputer scienceConvolutional neural networkConvolutional codeArtificial intelligenceSpeech recognitionPattern recognition (psychology)Channel (broadcasting)Decoding methodsAlgorithmTelecommunicationsBandwidth (computing)Wireless Signal Modulation ClassificationBlind Source Separation TechniquesRadar Systems and Signal Processing
Joint Demodulation and Error Correcting Codes Recognition Using Convolutional Neural Network | Litcius