Part 1. Advanced Computing Paradigm: Chapter 1. Interactions with Human CD4 Protein Leads to Helix-to-Coil Transition in HIV-gp120 Aiding CCR5 Attachment and Viral Entry: An In silico Structural Biology Approach for AIDS.- Chapter 2. A Support Vector Machine approach for LTP Using Amino Acid Composition.- Chapter 3. Load Balancing Challenges in Cloud Computing: A Survey.- Chapter 4. Physiological Modeling of Retinal Layers for Detecting the Level of Perception of People with Night Blindness.- Chapter 5. An Improved Encryption and Signature Verification ECC Scheme for Cloud Computing.- Chapter 6. Implementing a Web-based Simulator with Explicit Neuron and Synapse Models to Aid Experimental Neuroscience and Theoretical Biophysics Education.- Chapter 7. On Intuitionistic Fuzzy Soft Sets and Their Application in Decision Making.- Chapter 8. CheckPDF: Check What is Inside Before Signing a PDF Document.- Chapter 9. Kinematic Analysis of a Two Wheeled Self-balancing Mobile Robot.- Chapter 10. Program Code Understandability and Authenticating Code Predicting Systems: A Metric Based Approach.- Chapter 11. Fuzzy Sliding Mode Based STATCOM for Stability and Reactive Power Compensation in DG Based Power System.- Chapter 12. ANFIS Based Controller for DFIG Based Tidal Current Turbine to Improve System Stability.- Chapter 13. Design of Reversible Floating Point Adder for DSP Applications.- Chapter 14. Navigation of Mobile Robot Using Type-2 FLC.- Chapter 15. Analysis of the Complexity of Brain under Mobile Phone Radiation Using Largest Lyapunov Exponent.- Chapter 16. A Review of Bio Inspired Computing Methods and Potential Applications.- Chapter 17. An Effective Task Scheduling Approach for Cloud Computing Environment.- Chapter 18. Construct Based Sentiment Analysis Model.- Part 2. Methodologies for Systems Design: Chapter 19. Effect of Delay Approximation Using Pade Technique on Controller Performance Designed for a SOPDT Model.- Chapter 20. Neuro-Fuzzy Controller Design for MIMO Boiler Turbine Process.- Chapter 21. Predictive Control System Design for Lime Kiln Process.- Chapter 22. Design of Time Delay Compensator for a FOPDT Process Model.- Chapter 23. A Concept for Test Case Prioritization Based Upon the Priority Information of Early Phase.- Chapter 24. MEMS Based Phase Shifters for Phased Array Applications Fully Integrated on PCB Substrates.- Chapter 25. A Novel Multipath Mitigation Technique for SPSGPS Receivers in Indian Urban Canyons.- Chapter 26. Controller design for a TOPDT Process Model Using Integral Error Based Tuning Techniques.- Chapter 27. Effect of Variation in Filter Co-efficient for Different PID Controller Structures on Performance of SOPDT Process.- Chapter 28. Controller Capability Comparison for a Delayed First Order Process Model.- Chapter 29. Optimization Study on Quarter Car Suspension System by RSM and Taguchi.- Chapter 30. On Modeling and Analysis of Launch Vehicle System.- Chapter 31. Performance Evaluation of Tree-Based Classification Techniques on Intrusion Dataset.- Chapter 32. Kinematic Modeling and Simulation of 3-Axis Robotic Arm for Performing Welding Operations with Arbitrary Weld Joint Profiles.- Chapter 33. Modeling and Simulation for Conductivity of Germanium and YBCO.- Chapter 34. Cryptoviral Extortion: Evolution, Scenarios and Analysis.- Chapter 35. Utilization of Fractal Geometry for Phase Shifter Implementation.- Chapter 36. Simulation Studies for Delay Effect on Stability of a Canonical Tank Process.- Chapter 37. Current Signature Analysis of Single Phase ZSI Fed Induction Motor Drive System.- Chapter 38. Kinematic Control of a Mobile Manipulator.
Dr. Daya K. Lobiyal is currently serving as Professor in School of Computer & Systems Sciences in Jawaharlal Nehru University, India. His research works have been published in many journals and conference proceedings. He is a Fellow of Institution of Electronics and Telecommunication Engineers, India.
Prof. Durga Prasad Mohapatra received his Ph.D. from Indian Institute of Technology Kharagpur and is presently serving as Associate Professor in NIT Rourkela, Odisha. His research interests include software engineering, real-time systems, discrete mathematics, and distributed computing. He has published more than 30 research papers in these fields in various international Journals and Conference Proceedings. He has received several project grants from DST and UGC, Govt. of India. He has received the Young Scientist Award for the year 2006 by Orissa Bigyan Academy. He has also received the Prof. K. Arumugam National Award and the Maharashtra State National Award for outstanding research work in Software Engineering for the years 2009 and 2010, respectively, from the Indian Society for Technical Education (ISTE), New Delhi. He is going to receive the Bharat Sikshya Ratan Award for significant contribution in academics awarded by the Global Society for Health and Educational Growth, Delhi.
Prof. Atulya K. Nagar holds the Foundation Chair as Professor of Mathematical Sciences at Liverpool Hope University where he is the Dean of Faculty of Science. He has been the Head of Department of Mathematics and Computer Science since December 2007. A mathematician by training, he is an internationally recognised scholar working at the cutting edge of applied non-linear mathematical analysis, theoretical computer science, operations research and systems engineering and his work is underpinned by strong complexity-theoretic foundations. He has an extensive background and experience of working in Universities in UK and India. He has edited volumes on Intelligent Systems and Applied Mathematics; he is the Editor-in-Chief of the International Journal of Artificial Intelligence and Soft Computing (IJAISC) and serves on editorial boards for a number of prestigious journals such as the Journal of Universal Computer Science (JUCS). Prof Nagar received a prestigious Commonwealth Fellowship for pursuing his Doctorate (DPhil) in Applied Non-Linear Mathematics, which he earned from the University of York in 1996. He holds BSc (Hons.), MSc, and MPhil (with Distinction) from the MDS University of Ajmer, India.
Dr. Manmath Narayan Sahoo received his M.Tech and Ph.D. degree in Computer Science in the year 2009 and 2014, respectively, from National Institute of Technology (NIT) Rourkela, India. He is an Assistant Professor in the Department of Computer Science and Engineering, NIT Rourkela, India. He has served as reviewer, guest editor, track chair, programme chair in many reputed journals and conferences. His research interests include Mobile Ad hoc Networks, Fault Tolerance, and Sensor Networks. He is a professional member of prestigious societies like IEEE, CSI, and IEI.
The book is a collection of high-quality peer-reviewed research papers presented in the first International Conference on Signal, Networks, Computing, and Systems (ICSNCS 2016) held at Jawaharlal Nehru University, New Delhi, India during February 25–27, 2016. The book is organized in to two volumes and primarily focuses on theory and applications in the broad areas of communication technology, computer science and information security. The book aims to bring together the latest scientific research works of academic scientists, professors, research scholars and students in the areas of signal, networks, computing and systems detailing the practical challenges encountered and the solutions adopted.