modeling  and  control  schemes  for  nonlinear  systems.  Self-organizing  fuzzy  logic  control-  Fuzzy  logic  control  for
               nonlinear time delay system.
               UNIT-IV    GENETIC ALGORITHM                                                                9
               Basic  concept  of  Genetic  algorithm  and  detail algorithmic  steps-adjustment  of  free  Parameters-Solution  of  typical
               control problems using genetic algorithm- Concept on some other search techniques like tabu search and ant colony
               search techniques for solving optimization problems.
               UNIT-V     APPLICATIONS                                                                     9
               GA application to power system optimization problem- Case studies: Identification and control of linear and nonlinear
               dynamic  systems  using  Matlab-  Neural  Network  toolbox.  Stability  analysis  of  Neural  Network  interconnection
               systems- Implementation of fuzzy logic controller using Matlab fuzzy logic toolbox-Stability analysis of fuzzy control
               systems.
                                                                                   Total Contact Hours   :   45

               Course Outcomes:
               At the end of the course the student will be able to:
                   analyse the basic ANN architectures, algorithms and their limitations.
                   verify the different operations on the fuzzy sets.
                   develop the ANN based models and control schemes for non-linear system.
                   expertise in the use of different ANN structures and online training algorithm.
                   model fuzzy logic control of non-linear systems

               Reference Books(s):
                   Laurene V. Fausett, Fundamentals of Neural Networks: Architectures, Algorithms And Applications, Pearson
                1
                   Education, 1993
                                                                        rd
                2   Timothy J. Ross, “Fuzzy Logic with Engineering Applications” 3  Edition, Wiley India, 2011
                3   Zimmermann H.J. "Fuzzy set theory and its Applications" Springer international edition, 2011
                   David E.Goldberg, “Genetic Algorithms in Search, Optimization, and Machine Learning”, Pearson Education,
                4
                   2009
                5   W.T.Miller, R.S.Sutton and P.J.Webrose, “Neural Networks for Control”, MIT Press, 1996



               Subject Code                 Subject Name (Theory course)                Category   L  T  P  C
                 ET19P33     RISC PROCESSOR ARCHITECTURE AND PROGRAMMING                   PE      3  0  0  3

               Objectives:
                  To teach the architecture of 8 bit RISC processor
                  To teach the architecture and programming of 16 bit RISC processor
                  To teach the implementation of DSP in ARM processor
                  To discuss on memory management in RISC processor
                  To teach the application development with ARM processor

               UNIT-I     AVR MICROCONTROLLER ARCHITECTURE                                                 9
               Architecture – memory organization – addressing modes – I/O Memory – EEPROM – I/O Ports –SRAM –Timer –
               UART – Interrupt Structure- Serial Communication with PC – ADC/DAC Interfacing.
               UNIT-II    ARM ARCHITECTURE AND PROGRAMMING                                                 9
               Arcon RISC Machine – Architectural Inheritance – Core & Architectures -- The ARM Programmer’s model -Registers
               –  Pipeline  -  Interrupts  –  ARM  organization  -  ARM  processor  family  –  Co-processors.  Instruction  set  –  Thumb
               instruction set – Instruction cycle timings