International Conference on Advanced Computation and Telecommunication (ICACAT-2018) covers all the topics of Computer Science and Engineering, Information Technology Engineering, Electronics and Communication Engineering, Electrical and Electronics Engineering, Electronics and Telecommunication Engineering.

The aim and objective of the conference is to bring together academicians, researchers, professionals, executives and practicing engineers, from various industries, research institutes and educational bodies to share and exchange ideas and information on the theme of the conference. Developing economies, aspiration for improved quality of life and rise in the rate of growth have led to the development of various infrastructure facilities in the society. This conference offers a real opportunity to discuss new issues, tackle complex problems and find advanced enabling solutions which are able to shape new trends in Computer Science and Telecommunication Technology for the development of human mankind being as a whole.

The main topics are given below track wise but not limited to.

Track-1: Computer Science & Engineering
  • Algorithms and Bioinformatics
  • Compiler Design
  • Computer Architecture and Real time Systems
  • Computer Education
  • Database and Data Mining
  • Dependable, Reliable and Autonomic Computing
  • Distributed and Parallel Systems & Algorithms
  • Image Processing/Pattern Recognition
  • Embedded System and Software
  • Information Technology Management
  • Intelligent Information & Database Systems
  • Natural Language Processing
  • Networks and Wireless Communications
  • Mobile computing and Software Reliability
  • Coding
  • Cryptography and Information Theory
  • Computer vision
  • Soft Computing (AI, Neural Networks, Fuzzy Systems, etc.)
  • Theoretical computer science
  • Web and Internet Computing
  • Programming Languages
  • Performance Evaluation
  • Security and Information Assurance
  • IT policy and Business Management
Track 2: Advanced Computing
  • Artificial Intelligence and Machine Learning
  • Computer Architecture and VLSI
  • Computer Graphics, Simulation, and Modeling
  • Data Management, Exploration, and Mining
  • Digital System and Logic Design
  • Natural Language Processing and Machine Translation
  • Parallel and Distributed Algorithms
  • Pattern Recognition and Analysis
  • Robotics and Machine Vision
  • Systems and Software Engineering
  • Computational Intelligence
  • Nature Inspired Computing
  • Signal and Image Processing
  • Reconfigurable Computing
  • Cloud, Cluster, Grid and P2P Computing
  • Biomedical Computing, Bioinformatics
  • Green Computing
  • Mobile Computing
  • Ubiquitous Computing
  • Context Awareness and Personalization
  • Autonomic and Trusted Computing
  • Cryptography and Applied Mathematics
  • Security, Trust and Privacy
  • Digital Rights Management
  • Networked-Driven Multicore Chips
  • Internet Computing
Track 3: Communications
  • Software Defined Networks and Network Programming
  • Control Systems and Applications
  • Communications Software
  • Human Computer Interaction and Interface
  • Information Theory and Coding
  • MEMS Technologies for Communications
  • QoS and Resource Management
  • RFID Networks and Protocols
  • Satellite and Space Communications
  • Optical Networks and Systems
  • MIMO Communications in Computer Networks
  • Internet measurement, modeling, and visualization
  • Cloud Communications and Networking
  • Compressed Sensing and Big Data
  • Cooperative Networking
  • Crowd sourcing and Machine Learning
  • Cyber-Physical Systems
  • Delay Tolerant Networks
  • Sensor Networks and Embedded Systems
  • Smart Spaces and Personal Area Networks
  • Social Network Behaviors, Modeling, and Analysis
  • Space Surveillance Techniques
  • Vehicular, Underground and Underwater Networks
  • Wireless Communication
  • Future Internet and Next-Generation Networking Architectures
  • High-Performance Networks and Protocols
  • Virtual and Overlay Networks
  • Network Simulation and Emulation
  • Cognitive Radio and Cognitive Networks
  • Fault Tolerance, Reliability, and Survivability
  • Flow and Congestion Control
  • Internet Security and Privacy
  • Multimedia Networking
  • Network Functions Virtualization
  • Network Management
  • Traffic Engineering
Track 4: Electrical and Electronics Engineering
  • Hybrid Renewable Energy and Energy Saving
  • Controllers, Drives and Machine Design
  • Fuzzy and Hybrid Optimization
  • Artificial Immune System
  • Conditional Monitoring and Instrumentation
  • Circuits and Devices
  • Semiconductors
  • Systems and Control Engineering
  • Power Engineering
  • Communication and Information Processing
  • Electrical Engineering Communications
  • Electromagnetic and Microwave
  • Measurement and Testing
  • Nano science and Nanotechnology
  • Optics and Optoelectronics
  • Devices and Systems
  • Power Transmission
  • Transmission Lines
Track 5: Hybrid Intelligent Models and Applications
  • Ant Colony for Neural Network Optimization
  • Chaos Theory in Genetic Algorithms
  • Genetic Algorithm for Fuzzy System Optimization
  • Genetic Algorithms for Hybrid Intelligent Systems Design
  • Genetic Algorithms for Neural Network Optimization
  • Genetic Fuzzy Systems
  • Genetic Neural Systems
  • Hybrid Evolutionary Algorithms
  • Hybrid Modular Neural Networks
  • Hybrid optimization techniques
  • Neuro-Fuzzy-Genetic Approaches
  • Nature-inspired Smart Hybrid Systems
  • Neuro-Fuzzy Models and Applications
  • Hybrid Intelligent Systems for Pattern Recognition
  • Hybrid Intelligent Systems for Data Analysis and Data Mining