Fault Detection and Diagnosis of Cyber-Physical System Using the Computer Vision and Image Processing

In the techno world, Corporate Business applies new technologies for manufacturing and production with numerous cyber-physical system strategies. This makes the process depend upon multiple computers, machines, and applications with varying specifications, efficiency, and latency. These technological strategies are extremely diverse on cyber-physical systems, from an extensive range of processing technologies is available. The currently available technologies are not well adapted to these processes, which require information management regarding fault detection and diagnosis at a complexity level separated from technology. In this article, the Image Processing assisted Computer Vision Technology for Fault Detection System (IM-CVFD) is suggested to resolve such issues in industrial cyber-physical systems. Group Activation Mapping Algorithm is presented for efficient information collection from the processed output, simplifying the managing of fault details with different needs. Besides achieving the optimized information concerning latency, efficiency, the Uncertainty Reduction algorithm is introduced. In a suitable processing environment, a detailed simulation is conducted. The empirical findings indicate the high efficiency of the IM-CVFDwitha with a minimum error rate, energy usage, and minimized delay with high service. In contrast with conventional methods, the IM-CVFD obtains a better result efficiently.

[1]  Wazir Zada Khan,et al.  Senti‐eSystem: A sentiment‐based eSystem‐using hybridized fuzzy and deep neural network for measuring customer satisfaction , 2020, Softw. Pract. Exp..

[2]  Ravindra Luhach,et al.  RESEARCH AND IMPLEMENTATION OF SECURITY FRAMEWORK FOR SMALL AND MEDIUM SIZED E-COMMERCE BASED ON SOA , 2015 .

[3]  Romulo Gonçalves Lins,et al.  In-process machine vision monitoring of tool wear for Cyber-Physical Production Systems , 2020, Robotics Comput. Integr. Manuf..

[4]  S. Kadry,et al.  Using Social Media to Attract Customers in Lebanon , 2019, The Journal of Social Sciences Research.

[5]  Hanbin Luo,et al.  Cyber-physical-system-based safety monitoring for blind hoisting with the internet of things: A case study , 2019, Automation in Construction.

[6]  Carsten Maple,et al.  Design and Development of Industrial Cyber-Physical System Testbed , 2020, KKA.

[7]  Xin Chen,et al.  Digital Twin-Driven Cyber-Physical System for Autonomously Controlling of Micro Punching System , 2019, IEEE Access.

[8]  Javaid Iqbal,et al.  A review on fault detection and diagnosis techniques: basics and beyond , 2020, Artificial Intelligence Review.

[9]  Jaskaran Singh,et al.  Multisensor data fusion for gearbox fault diagnosis using 2-D convolutional neural network and motor current signature analysis , 2020 .

[10]  Jinsong Bao,et al.  Machine Learning Method for Spinning Cyber-Physical Production System Subject to Condition Monitoring , 2019, CDVE.

[11]  Harkiran Kaur,et al.  A Fog-Cloud based cyber physical system for Ulcerative Colitis diagnosis and stage classification and management , 2020, Microprocess. Microsystems.

[12]  Michael Theiler,et al.  A metamodel for cyber-physical systems , 2019, Adv. Eng. Informatics.

[13]  Paulo Alonso Gaona García,et al.  Computational Model for Organizational Learning in Research And Development Centers (R&D) , 2019, Inteligencia Artif..

[14]  S. Baskar,et al.  M-CRAFT-Modified Multiplier Algorithm to Reduce Overhead in Fault Tolerance Algorithm in Wireless Sensor Networks , 2018 .

[15]  Jianping Wu,et al.  A modified neighborhood preserving embedding-based incipient fault detection with applications to small-scale cyber-physical systems. , 2020, ISA transactions.

[16]  Naveen Chilamkurti,et al.  Real-time automated video highlight generation with dual-stream hierarchical growing self-organizing maps , 2020, Journal of Real-Time Image Processing.

[17]  Wei Jiang,et al.  Design optimization of confidentiality-critical cyber physical systems with fault detection , 2020, J. Syst. Archit..

[18]  Dezhi Xu,et al.  Distributed fault detection and estimation in cyber-physical systems subject to actuator faults. , 2019, ISA transactions.

[19]  Ammar Alazab,et al.  Maximising Competitive Advantage on E-Business Websites: A Data Mining Approach , 2018, 2018 IEEE Conference on Big Data and Analytics (ICBDA).

[20]  M. Kabir Hassan,et al.  Special Issue on "Cognitive Big Data Analytics for Intelligent Information Systems" , 2020, Inf. Syst. E Bus. Manag..

[21]  Roi Blanco,et al.  Predicting primary categories of business listings for local search ranking , 2015, Neurocomputing.

[22]  Ming-Chuan Chiu,et al.  An Integrative Machine Learning Method to Improve Fault Detection and Productivity Performance in a Cyber-Physical System , 2020, J. Comput. Inf. Sci. Eng..

[23]  Nader Mohamed,et al.  Reliability Analysis of Cyber-Physical Systems , 2020, Simulation for Cyber-Physical Systems Engineering.

[24]  Insoo Koo,et al.  Fault diagnosis based on extremely randomized trees in wireless sensor networks , 2021, Reliab. Eng. Syst. Saf..