Department Events
Soft Computing Techniques
Course Objectives:
This course enables the students to
- Understand the basic principles, techniques, and applications of soft computing.
- Understand basic concepts of Soft Computing including Artificial Neural Networks, Fuzzy Logic and Genetic Algorithms.
- Gain the mathematical background for carrying out the optimization associated with neural network learning.
- Develop acquaintance with current research problems and research methods in Soft Computing
- Apply the concept of hybrid system
- Extend the basic skills necessary to pursue research in Soft Computing
Course Outcomes(COs):
Learning outcomes (at course level) | Learning and teaching strategies | Assessment Strategies |
CO159. Understand different types of soft computing techniques and its applications
CO160. Thorough exploration of concept related to Fuzzy Logic and its different popular models
CO161. Gain deeper knowledge of Artificial Neural Networks
CO162. Study genetic algorithms and its applicability in research oriented problems
CO163. Pertain the concept and applicability of hybrid systems
CO164. Understand current research problems and research methods in soft computing
CO 165. Create skills necessary to follow research in soft computing
| Approach in teaching: Interactive Lectures, Modeling, Discussions, implementing enquiry based learning, student centered approach, Through audio-visual aids
Learning activities for the students: Experiential Learning, Presentations, Discussions, Quizzes and Assignments
| Assignments Written test in classroom Classroom Activity Continuous Assessment SemesterEnd Examination |
Introduction to Soft Computing
Introduction of Hard and Soft Computing, Unique features of Soft computing, Components of Soft computing, Fuzzy Computing, Evolutionary Computation, Genetic Algorithm, Swarm Intelligence, Ant Colony Optimizations, Neural Network, Machine Learning , Associative Memory, Adaptive Resonance Theory, Introduction to Deep Learning
Fuzzy Logic
Basic concepts of fuzzy logic, Fuzzy sets and Crisp sets, Fuzzy set theory and operations, Properties of fuzzy sets, Fuzzy and Crisp relations, Fuzzy to Crisp conversion, Membership functions, interference in fuzzy logic, fuzzy if-then rules, Fuzzy implications and Fuzzy algorithms, Fuzzyfications & Defuzzificataions, Fuzzy Inference Systems, Mamdani Fuzzy Model, Sugeno Fuzzy Model, Fuzzy Controller, applications.
Neural Networks
Introduction and Architecture: Neuron, Nerve structure and synapse, Artificial Neuron and its model, Neural network architecture: single layer and multilayer feed forward networks, recurrent networks. Back propagation networks architecture: perceptron model, solution, single layer artificial neural network, multilayer perception model; back propagation learning methods, back propagation algorithm, applications.
Genetic Algorithms
Basic concepts of GA, working principle, procedures of GA, flow chart of GA, Genetic representations, (encoding) Initialization and selection, Genetic operators, Mutation, Generational Cycle, applications.
Hybrid Systems
Integration of neural networks, fuzzy logic and genetic algorithms. GA Based Back Propagation Networks, Fuzzy Back Propagation Networks, Fuzzy Associative Memories, Simplified Fuzzy ARTMAP
- S. Rajasekaran and G.A. Vijaylakshmi Pai, “Neural Networks Fuzzy Logic, and Genetic Algorithms”, Prentice Hall of India 2004.
- K.H.Lee. First Course on Fuzzy Theory and Applications, Springer-Verlag, 2005
