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March 18, 2018 | Author: Sandeep Kumar Panda | Category: Mosfet, Cmos, Medical Imaging, Discrete Fourier Transform, Waste
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ORISSA INFORMATION TECHNOLOGY 7th Semester 8th Semester (IT) Contact Hours Theory Code Subject L-T-P Credit Contact Hours Theory Code Subject L-T-P Credit 3-0-0 3 HSSM3401 Entrepreneurship Development 3-0-0 3 HSSM3402 Environmental Engineering PCIT4401 Principles of Soft Computing 3-0-0 3 PCIT4402 Software Project Management3-0-0 3 Professional Elective-III (Any one) 3 3-0-0 PECS5401Artificial Intelligence PECS5403Real Time Systems PEIT5401 Software Testing Professional Elective-IV (Any one) PECS5402Cryptography & Network Security PCCS4401Computer Graphics PECS5404Advanced Computer Architecture PEIT5402 PECS5410 PEIT5403 PECS5407 PECS5406 PECS5408 Professional Elective-V(Any one) 3-0-0 3 Wireless Sensor Networks Digital Image Processing Embedded System Development Professional Elective-VI(Any one) 3-0-0 3 Ubiquitous Computing Algorithm for Bio-Informatics Multimedia Systems Free Elective-IV (Any One) Satellite Comm. Systems MEMS Medical Imaging Techniques 3-0-0 3 FECS6401 PCEC4401 PEEC5404 PEEC5403 Free Elective-III (Any one) PEEC5406 Introduction to Digital Signal Processing PEEI5405 VLSI Design PCBM4402 Digital Switching & Telecommunication 3-0-0 3 Networks Biomedical Instrumentation PEEI5404 PEME5407 PEEI5403 Theory Credits 18 Practical / Sessional 3 PCIT7403 2 PCIT7404 Free Elective-V (Any One) 3-0-0 3 Analog VLSI Design Mechatronics Industrial Instrumentation Theory Credits 15 Practical / Sessional Major Project Comprehensive Viva voce 6 2 PCIT7401 Minor Project PCIT7402 Seminar 8 23 204 Practical/Sessional Credits TOTAL SEMESTER CREDITS 23 TOTAL CUMULATIVE CREDITS 5 18 1 Practical/Sessional Credits TOTAL SEMESTER CREDITS TOTAL CUMULATIVE CREDITS ENTREPRENEURSHIP DEVELOPMENT .BIJU PATNAIK UNIVERSITY OF TECHNOLOGY. D.D.F. Entrepreneurship. Module II: Module III: Reference Books: 1. Hisrich. Khanka. Marketing Management. Entrepreneurship Development. Institutional Support for SME. Barringer BR. Entrepreneurship. Pearson. Peters. Cengage 6. Oxford 8. Entrepreneurial Process Step by step approach to entrepreneurial start up Decision for Entrepreneurial start up. Entrepreneurship. David H Holt. problems & strategies Problems of HRM – Relevant Labour – laws.Module I: Understanding Entrepreneurship 10Hrs Concept of Entrepreneurship. S. Enterprise and Society Why and how to start Business – Entrepreneurial traits and skills. and Attodgets RM. Small Business Enterprises. Kurilko. Govt. policies on revival of sickness and remedial measures. Entrepreneurship. 10Hrs Identifying the Business opportunity . Pearson 4. Financial Management in small business. Vasant Desai. formalities for setting up small enterprises in manufacturing and services. determining Bankability of the project. Setting up of a small Business Enterprise. TMH . Chavantimath. Ireland R. Writing a Business plan. 2. HPH. Roy.S. The Dynamics of Entrepreneurial Development & Management. 7. Environmental dynamics and change. S Chand 3. Entrepreneurship. Environmental pollution and allied regulatory and nonregulatory clearances for new venture promotion in SME sector. Entrepreneurial success and failures.. 10Hrs Central / State level Institution promoting SME. Sickness in Small Enterprises.Business opportunities in various sectors. Shepherd. components of a B-Plan. Motivation for Economic Development and Entrepreneurial Achievement. Entrepreneurial Development. Mind Vrs Money in Commencing New Ventures. PHI 5. Causes and symptoms of sickness – cures of sickness. fuzzy Rule based system. Sun. fuzzy logic. Fitness functions. Text Book : Principles of Soft Computing.PRINCIPLES OF SOFT COMPUTING (3-00) Module .) Introduction to Soft Computing. Convergence of Genetic algorithm. Learning Effect of Tunning parameters of the Back propagation. Learning methods. crisp relations. PHI 2. Genetic Modeling : Cross cover. Module – III (6 Hrs. Neural Network Architecture.Rajasekaran. Applications. Wiley India. JANG. Fuzzy rule based reasoning GENETIC ALGORITHMS Fundamentals of genetic algorithms: Encoding. Adaline.N. Artificial Neural Network(ANN) : Fundamentals of ANN. fuzzy relations.C.S. Defuzzification Methods.T. S. and Genetic Algorithm (synthesis and Application) S. fuzzy logic and Genetic algorithms hybrids. Genetic Algorithm based Back propagation Networks: GA based weight determination applications: Fuzzy logic controlled genetic Algorithms soft computing tools. RBF Network. Fuzzy Systems: Crisp logic predicate logic. Terminologies of ANN. Fuzzy Logic. Hebb network. G. Vijayalakshmi Pai. Mutation operator. Supervised Learning Networks: Perceptron. Adaptive Resonance Theory ART1. Applications .N. 2 Edition. E. PHI nd . Mitzutani.A. Neural Networks. R.2011 Reference Book : 1. fuzzy sets. Reproduction. Bitwise operators used in GA. Neuro Fuzzy and Soft Computing. Bit-wise operators.I (12 Hrs. J. MLP. Associative memory: Auto. network. ART2. Applications Module –II (12 Hrs) FUZZY LOGIC Fuzzy set theory: crisp sets.Deepa. hetero and linear associative memory.) Hybrid Soft Computing Techniques Hybrid system. Inversion and deletion. Madaline.Sivanandan and S. neural Networks. Basic Models of an artificial Neuron. Real life Problems. Architecture of a Back propagation Network : back propagation. Wiley. 1999. Overview of project management tools. Effect of schedule compression. Capers Jones estimating rules of thumb. Stages In Contract Placement. Stepwise planning. Risk Planning and Control. Testing. Leadership. Managing Risks. Types Of Contracts. ManagementUnderstanding Behavior. Project Sequencing and Scheduling Activities. Software processes and process models. Effective Software Project Management. and Software reliability. Fifth Edition. Organization and team structures. Working in Groups. 2011. contract management. The Oldman – Hackman Job Characteristics Model . review techniques. Earned Value analysis. Overview Of Project Planning. Text Book 1. project termination review. Selecting The Right Person For The Job. Health And Safety. Robert K. Royce. Risk Evaluation. ISO and CMMI models. Organizational Structures. Scheduling resources. “Software Project Management”. Cash Flow Forecasting. Nature and Types of Risks. Organizational Behaviour. PERT and Monte Carlo Simulation techniques. Putnam’s equation. Typical Terms of A Contract. Visualizing Progress. Risk Management. “Software Project Management”. Tata McGraw Hill. Wysocki. Contract Management and Acceptance. Cost Monitoring. Module 2: Monitoring And Control (8Hrs) Collecting Data. Software Configuration Management (SCM). Pearson Education. Critical path analysis. Hazard Identification. Stress. Bob Hughes.SOFTWARE PROJECT MANAGEMENT Module I: Project Evaluation and Planning (12Hrs) Activities in Software Project Management. Module 3: Quality Management and People (10Hrs) Introduction. Decision Making. Network Planning. Motivation. Staffing pattern. test automation. Cost-Benefit Evaluation Techniques. 2. Change Control. Hazard Analysis. Project costing. COCOMO 2. Mike Cotterell. Cost Benefit Analysis. References: 1. 2009. . Managing Contracts. Means-ends Analysis.Heuristic Search Techniques: Generate-and-Test. Logic Programming.2011 . Production Systems. McGraw Hill. Adding Alpha-beta Cutoffs. Breadth-first Search.Using Rules: Procedural Versus Declarative Knowledge. Augmenting a Problem-solver. Components of a Planning System. Expert Systems: Representing and Using Domain Knowledge. Analogy. 3rd ed. Discourse and Pragmatic Processing. Dan W Patterson. Explanation-based Learning. & Shivashankar B Nair. Problem Reduction. Spell Checking. Learning from Examples: Induction.. Learning by Taking Advice. Semantic Analysis. Production System Characteristics.Planning: The Blocks World. Artificial Intelligence. Computable Functions and Predicates.2009 References: 1) Introduction to Artificial Intelligence & Expert Systems. Knowledge Acquisition. Logics for Nonmonotonic Reasoning. Understanding as Constraint Satisfaction.Understanding: What is Understanding. Kevin Knight. What Makes Understanding Hard?. Formal Learning Theory.Natural Language Processing: Introduction. Implementation Issues. and Search: Defining the Problem as a State Space Search.Knowledge Representation: Representations and Mappings. Forward Versus Backward Reasoning. Learning in Problem-solving. Artificial Intelligence. Iterative Deepening. Goal Stack Planning. Issues in the Design of Search Programs. Control Knowledge. Representing Instance and ISA Relationships. Level of the Model. Hill Climbing. Module 2 10Hrs Game Playing: The Minimax Search Procedure. Best-first Search. Using Predicate Logic: Representing Simple Facts in Logic. Natural Deduction. Frames. Text Book: 1. 1st ed.Module 1 12Hrs What is Artificial Intelligence? AI Technique. Approaches to Knowledge Representation. Problem Characteristics. Hierarchical PlanningOther Planning Techniques. Syntactic Processing. Discovery. Matching. Constraint Satisfaction. Conceptual DependencyScripts. PHI. Resolution. Statistical Natural Language Processing. Neural Net Learning and Genetic Learning.. Nonlinear Planning Using Constraint Posting. Depth-first Search. Module 3 8Hrs ARTIFICIAL INTELLIGENCE Learning: Rote Learning.Weak and Strong Slot-and-Filler Structures: Semantic Nets. Expert System Shells. Explanation.Symbolic Reasoning Under Uncertainty: Introduction to Nonmonotonic Reasoning. CYC. Elaine Rich.Problem Spaces.2010 2) S Kaushik. Cengage Learning. Features of a Real-time operating system. Event-Driven scheduling. Real-time Databases: Example applications of Real-time databases. Pearson Publication. Dynamic allocation of tasks.Important features of PCP. Text Book: 1. Windows as a Real-time operating system. Modelling timing constraints Real-Time Task Scheduling: Some important concepts. Review of basic database concepts. Handling task dependencies. Rate monotonic algorithm (RMA). Real-time communication in a LAN and Real-time communication over packet switched networks. Earliest Deadline First (EDF) scheduling. Some issues Associated with RMA. Safety and Reliability.M.G. Priority inversion. Clock in distributed Real-time systems. Commercial real-time databases. Liu. Pearson Education. Centralized clock synchronization MODULE-3 10Hrs Commercial Real-time operating systems: Time services. 2008. A basic model of Real-time system. C. Highest Locker Protocol (HLP). timing constraints. 2000. Issues in using RMA practical situations. Characteristics of temporal data. Task scheduling. Hybrid schedulers. Types of Real-time tasks and their characteristics. Real-Time Systems. Applications of Real-Time systems. Jane W. . Real-time Systems Theory and Practice by Rajib Mall. Different types of priority inversions under PCP.REAL-TIME SYSTEMS MODULE-1 10Hrs Introduction: What is real time. Scheduling Real-time tasks in multiprocessor and distributed systems: Multiprocessor task allocation. Some issues in using a resource sharing protocol. Priority Ceiling Protocol (PCP). TMH. Krishna and K. Unix as a Real-time operating system.POSIX-RT. Examples of applications. MODULE-2 10Hrs Handling Resource Sharing and dependencies among Real-time Tasks: Resource sharing among real-time tasks. A survey of contemporary Real-time operating systems. Real-time databases. Unix-based Real-time operating systems. References: 1. Fault tolerant scheduling of tasks. 2. Types of Real-time tasks. Realtime Communication: Basic concepts. Shin. Priority Inheritance Protocol (PIP). Clock-Driven scheduling. Real-Time Systems. Concurrency control in real-time databases. Benchmarking real-time systems. S. Characteistics of Real-time system. 3. Structural and Functional Testing. Test Adequacy Test Adequacy: Basics. Wiley. The Subsumes Relation. Test Generation and Regression Testing Introduction. Pearson Education. Selecting Regression Tests. Testing and Verification. Control-flow Graph. Adequacy Criteria Based on Data-Flow. 2nd edition.Flow. Model-Based Testing. Test Minimization. Basics of Regression Testing (RTS). Test Metrics. Pearson.. Reference Books: 1. Cause-Effect Graphing. Analysis. Text Books: 1. Module 2. Scalability of Coverage Measurement. Test Selection Using Execution Trace. Category-Partition Method. Basics of Software Testing The Testing process. Control Flow versus Data. A Combinatorial Test-Design Process. Software and Hardware Testing. 2nd Edition. Gopalaswamy Ramesh: Software testing Principles and Practices. Mauro Pezze and Michal Young. Test Selection Using program slicing. Pearson. 2008. Data-Flow Concepts. Srinivasan Desikan. . Test Prioritization. Test Generation from Predicates. Software Testing and Analysis. Tools for Regression Testing. 2. Execution History. 2004. Module 3. Test case generation Strategies. Fault Model. Adequacy Criteria Based on Control Flow. Equivalence Partitioning. state-model. Testing and Debugging. and data-flow-based testing. Ron Patton: Software Testing. Aditya P Mathur: Foundations of Software Testing. 2007. Boundary Value. The Test-Selection Problem.SOFTWARE TESTING Module 1. Combinatorial Designs. 2008. Static and dynamic analysis. Defect Management. Menezes . Quadratic Congruence. Authentication: Message Integrity. Worms. B.Network Security and Cryptography. Rotor Cipher. PGP and S/MIME. Security at the Transport Layer: Secure Socket Layer (SSL) and Transport Layer Security (TLS). GF(2n). Euclidean and Extended Euclidean Algorithms. Fermat’s and Euler’s Theorems. Attacks. Malware. Symmetric Key Ciphers: Data Encryption Standard. Block and Stream Ciphers. Malicious Programs. and Fields.. Cryptographic Hash Functions: MD Hash Family. Factorization. Secure Hash Algorithm. McGraw Hill. Security Services and Mechanisms. ElGamal Cryptosystem.. Linear Congruence. Elliptic Curve Cryptosystem. GF(p). B. Security at the Network Layer: IP Security. Mathematical Background: Integer and Modular Arithmetic. A. Random Number Generation. PHI. Chinese Remainder Theorem. Firewalls. Primality Testing Methods. Stallings . 1st ed. System Security: Malicious Software.Cryptography and Network Security.Cryptography and Network Security. Entity Authentication.2010 . Steganography. Digital Signature and Authentication: Digital Signature Schemes.CRYPTOGRAPHY AND NETWORK SECURITY Module 1 10Hrs Introduction to Information Security: Security Goals. Discrete Logarithms. MAC Algorithms.. Transposition Ciphers. Intrusion Detection System. Prime Numbers. Rings. Advanced Encryption Standard.Message Integrity. Cengage Learning.2010 2. Polynomial Arithmetic.Key Management: Diffie-Hellman Key Exchange. Variations and Applications. Groups. Matrices. Random Oracle Model. Module 3 10Hrs Network and System Security:Security at the Application Layer: e-mail security. 4th ed. Substitution Ciphers. Whirlpool. Asymmetric Key Ciphers: RSA Cryptosystem.2010 References: 1. Module 2 10Hrs Traditional Encryption Methods: Symmetric Cipher Model. Message Authentication. Forouzan & D Mukhopadhyay . Viruses. Text Books: 1. 2nd ed. Projections: Parallel Projection and Perspective Projection. Three Dimensional Geometric and Modeling Transformations: Translation Rotation. Computer Graphics. Scan conversion of Character. Thresholding and Dithering. rotation. 2. Virtual Reality: Types of Virtual reality systems.David Rogers (TMH) 3.K. Textbook 1. J. Module –II (12 hours) Line Clipping (Cohen-Sutherland Algorithm) and Polygon Clipping (SutherlandHodgeman Algorithm). Surface Rendering Methods: Polygon Rendering Methods: Gouraud Shading and Phong Computer Shading. Key frame Vs.COMPUTER GRAPHICS Module – I (10 hours) Overview of Graphics System: Video Display Units. Animation: Types of Animation. Composite Transformations. Two Dimensional Geometric Transformation: Basic Transformation (Translation. Raster-Scan and Random Scan Systems. Procedural Elements of Computer Graphics. Transformation between coordinate systems. Baker (C Version). Feiner. Aliasing and Antialiasing. Bezier Curves and BSpline Curves. A. methods of controlling Animation. Composite Transformation. Scan line Algorithm. Two Dimensional Viewing: Window-to. Scaling. Input and Output Virtual Reality devices. Depth Buffer. Two Dimensional Object Representation: Spline Representation. Morphing. Circle drawing Algorithms: Midpoint Circle Algorithm and Bresenham’s Circle drawing Algorithm. Rajesh K. Output Primitives: Line drawing Algorithms: DDA and Bresenham’s Line Algorithm. Scanline Algorithm and Painters Algorithm. Polygon Filling: Seed Fill Algorithm. Reflection. D. Procedural Animation.Dam.Maurya. Addison. Displaying Light Intensities. S. Module –III (8 hours) Visible Surface Detection Methods: Back-face Detection. Shear.P Mukherjee & Debasish Jana (PHI) 4. Hearn and M. Computer Graphics: Algorithms and Implementations – D. Reflections. Foley. Scaling) Matrix Representation. Graphics Input and Output Devices. Illumination Models: Basic Models. Half toning. Computer Graphics with Virtual Reality System. Computer Graphics Principle and Practice . Wesley 2. shear. WileyDreamtech. Introduction to Computer Graphics & Multimedia – Anirban Mukhopadhyay & Arup Chattopadhyay (Vikas) .P.D. A.View port Coordinate Transformation.Buffer. Pearson Education Reference Books 1. Fractal Geometry: Fractal Classification and Fractal Dimension. Cache optimizations. Multi-level caches. Pipelining fundamentals. Module 3: Multiprocessor Architecture 10Hrs Basic multiprocessor architecture. Hwang & Jotwani. Data and Instruction caches. John Paul Shen and Mikko Lipasti. Intel Series of processors. Computer Architecture. Pipeline hazards. John L. Patterson and John L. Elsevier. Advanced Computer Architecture: A Design Space Approach.ADVANCED COMPUTER ARCHITECTURE Module 1: Processor Architecture 10Hrs Evolution of Microprocessors. Principles of processor performance. Minimizing pipeline stalls. References: 1. Cache coherence. Hennessy. A Quantitative Approach 4th Edition. VLIW processor architectures. SPARC and ARM processors. Terence Fountain. Fourth Edition 2. superscalar and superpipelined architectures. by Addison Wesley 2. Hennessy & David A. Branch Prediction. USB. Patterson. 3. Pentium’s Internally RISC and externally CISC. TMH . Computer Organization and Design. Morgan Kaufmann. Memory Management hardware. Tata McGraw Hill. I/O systems: Peripheral and Processor-Memory buses. Hyper threading. Case studies :MIPS architecture. David A. Module 2: Memory and I/O Architecture 10Hrs Hierarchical memory technology. Instruction-level Parallelism. Arithmetic and instruction pipelining. RISC and CISC architectures. Split transaction buses . Array and vector processors. Dezso Sima. Instruction set processor design. Text Book 1. multithreaded processors. Advance Computer Architecture. and Peter Kacsuk. Modern Processor Design. Selected book –I portions from chapter 7 and 8 of Text book – 2. Design and Digital Casually Filters: and its implication. the DFT as a linear Transform Relationship of transformation DFT with Z-transform . G. 2. DFT with Z.1.1. Manolakis. linear and non-linear.3.1.1. linearity.4. casual and casual.1. Circular convolution.5.transform .6.8. 5.1. Module(10 III Fourier Transform hours) Fast O : peration counts by direct copulation of DFT. 6.2.3.3.2. Book : .6.1.2. portions from Chapter 2 (2. properties of Z-transform . 4th Edition. 8.2.5. Module – (10 II Z hours) The The Z-transform and one-sided Z-transform.1.time linear LTI system.5) of Textbook Selected portion of chapter 4 of Textbook –I T 2 he Discrete Fourier The DFT and IDFT.3.5. 8..3.2) of Selected portion of chapter 6 of textbook textbook ±.2.2.2. relationship . Even and Odd Signals) . portions from chapter 8 (8. Overlap add and save filtering by method DFT S . Efficient Computation of DFT of a 2 N-pt real real Selected portions from chapter 6 (6. time variant and time – invariant. Efficient computation DFT of Two sequences .2) of Text sequences. D. 6.Decimation –in(DIT) time and Decimation – in frequency (DIF) algorithm. 2.3. Discrete Time Block diagram representation of discrete time systems. 5.2. circular correction bymethod linear convolution by overlap save methods and by overlap add convolution.5. 3. Correlation of dispute time NonSelected Signal.2.1. Digital Signal Processing – Principles. classification of discrete time System : static and systems – dynamic.1.INTRODUCTION TO DIGITAL SIGNAL PROCESSING (3-0-0) Module – (10 I Discrete Time Signals and hours) Discrete System Time Signals (Elementary examples. classification : periodic and a periodic energy Signals and Power signals.1. Recursive Non-recursive discrete time system.5.2. inverse of transform transform . Reference Pearson.2. Selected portions from Chapters 3 (3. convolution and correlation by DFT method.2. 8. impulse response of LTI system .and response (convolution sum ) of discrete . elected portion from Chapter – 5 (5.3. circular correlation. Solution of difference the Zequations. stable and antiAnalysis unstable. summery time and reversal of a sequence.1. Constant coefficient differences equations and and solutions.3. Design of linear phase FIR filters using different windows.2.2.2.3.1. Proakis andG. structures of LTI systems Recursive and their recursive realization of FIR system.) of Text book – I Text Books 1.1) of Chapter 1 of Textbook – I Textbook2. 2. of IIR filters – Impulse Invariance Method and Bilinear transformation Design Selected method. Radix – 2 FFT algorithm.4. Circular method.2.5.2. properties of DFT: periodicity. Algorithms and Applications by J. SR III Hours Circuits. CMOS with MOS Inverters – Switching Characteristics and Interconnect Effects: Introduction. Modularity and Locality. CMOS D-Latch and Edge-Triggered FlipDynamic Logic Circuits: Introduction. Ken Martin. Interconnect Parasitics. Loads. 2nd Edn. 2. Inverters II Hours n-Type MOSFET Load. Wayne Wolf. nMOS CMOS Logic Circuits. MOSFETs: Introduction. Concept of Regularity. PHI 4. Current Design IDDQ Test. Inverter. Weste. Built-In Self-Test (BIST) Techniques.. VLSI Design Styles.. Debaprasad Das. MOSFET Scaling and Small-Geometry Effects. Non-volatile Memory... OS Transistor: The Metal Oxide Semiconductor (MOS) Structure. Circuits. and 3 Eshraghian and N.H. 3rd Edn. CMOS Logic Circuit Design. MOSFET (Chapter 1 to Capacitance. 3. Behaviour of Bistable Elements. ComputerDesign Design Aided Fabrication of Technology. Scan-Based Techniques. Sung-Mo Kang and Yusuf Leblebici. 2010. CMOS n-Well Process. K. Flop. I Hours Hierarchy. CMOS Transmission Gates Gates). Ad Hoc Testable Techniques. CMOS Digital Integrated Circuits: Analysis Design.VLSI DESIGN Module – 08 Introduction: Historical Perspective. –A 2. Tata McGraw-Hill Publishing Company Limited. Addison Wesley. Semiconductor Memories: Introduction. (Pass (Chapter 5 to 7 of Text Book 1) Module – 18 Sequential MOS Logic Circuits: Introduction. Inverter Design with Delay DelayEstimation of Constraints. Dynamic Random Access Memory (DRAM). Reference 1. Random Access Memory (SRAM). MOS Logic Circuits with Depletion Inverters. Jan Books: M. Dynamic CMOS Circuit Voltage High Performance Dynamic CMOS Techniques. Structure and Operation of MOS Transistor (MOSFET). Oxford University Press. Testability: Introduction. New Delhi. Systems 1993. Fault Types and Models. rd Edn. Full-Customs Mask The Design Layout M . Switching Dissipation of CMOS Power Combinational MOS Logic Circuits: Introduction. 2000. 2nd Edn. Stick Diagrams. Principles of CMOS VLSI Design – a 2003. . Rabaey. . VLSI Design Methodologies. VLSI Design Flow. Time Definitions. Oxford University Press. Complex Logic Circuits. Springer (Kluwer Academic 2001 Publishers). Latch Clocked Latch and Flip-Flop Circuits. Digital Integrated Circuits Design Perspective. Anantha Chandrakasan. Borivoje Nikolic. Synchronous Dynamic Circuit Techniques. VLSI Design. Modern VLSI Design System – on – Chip Design. Calculation of Delay-Times. Perspective. Bootstrapping. Layout Design Rules. Monitoring Text Books: 1. Resistive-Load Inverters. Flash Static Design for Memory. Fabrication Processes Flow – Basic Concepts. PHI. Uyemura. Basic Principles of Pass Transistor Circuits. John P. Digital Integrated Circuit Design. Calculation of Interconnect Delay. MOSFET Voltage Current-Characteristics.E. The MOS System External under Bias. 3 of Text Book 1 and for Stick Diagram Text Book 2) Module – 14 MOS Inverters – Static Characteristics: Introduction. 5. end-to-end layers. TMH. Data communication architecture. transmission channels. Communication Networks.. Data and Computer Communications by W Stallings. switching hierarchy and routing. Grade of services & blocking probability. transmission plan. an overview of data network standards. service characterization. Ltd. modeling of switching systems. ISDN standards. 4 and 6) MODULE – II (12 hours) Traffic Engineering: Network traffic load and parameters. centralized and distributed SPC. transmission systems. link-to-link layers. threestage & n stge combination switching. application software architecture. switching techniques. Telecommunication Switching Systems and Networks by. (Chapter 1. Signaling techniques : in channel & common channel signaling (Chapter 9) MODULE – III (12 hours) Data Networks: Data transmission in PSTN. (Chapter 10) Integrated Service Digital Network: Motivation. two and three stage & n stage networks. satellite based data networks. References: 1. broad band ISDN. combination switching.DIGITAL SWITCHING AND NETWORKS TELECOMUNICATION MODULE – I (16 hours) Introduction: Fundamentals of switching system. New Delhi. incoming traffic & service time characterization. telecommunication networks. PHI Learning Pvt. New Delhi 2. Pearson Education . time division time switching. signalling. enhanced services. Delay systems (Chapter 8) Telephone Networks: Subscriber loop systems. time multiplexed space and time switching. new services. Thiagarajan Viswanathan. Time Division Switching: Basic time division space switching. Electronic space division switching: Stored program control. voice data integration (Chapter 11) Text Books : 1. blocking models and loss estimates. A Leon-Garcia and Indra Widiaja. Safety Codes for Biomedical Equipment Text Books: 1. Electromayograph (EMG) Module – III (14 Hours) Patient Monitoring Systems: System Concepts. Inkjet Recorder. Erich A. Basic Medical Instrumentation System. Resting Potential Recording Electrodes – Ag-AgCl Electrodes. Measurement of Respiration Rate Blood Flow meters: Electromagnetic Blood Flow meter. Transducers for Body Temperature Measurement. Potentiometric Recorders. Motion Artifacts Module – II (13 Hours) Physiological Transducers: Introduction to Physiological Transducers. Biosensors. Blood Pressure Measurement. Pearson Education 2007 8th Semester . NMR Blood Flow meter. General Constraints & Regulations of Medical Devices Biomedical Signals & Electrodes: Origin of Bioelectric Signals-Repolarization. Weibell. Classification of Transducers. Biomedical Instrumentation and Measurements-2 nd Edition by Leslie Cromwell. Fred J. Depolarization. Phonocardiograph. PHI learning Pvt Ltd 2nd Edition Reference Books: 1. Laser-Doppler Blood Flow meter Patient Safety: Electric Shock Hazards. Electrodes for ECG. Leakage Currents. Intelligent Medical Instrumentation Systems. General Considerations for Signal Conditioners. Pfeiffer. Brown. Tata McGraw Hill 2003 (Chapters 1-6. Electroencephalograph (EEG). Carr.11. Biomedical Signal Analysis Techniques.18) 2. Smart Sensors Biomedical Recording Systems: Basic Recording Systems.BIOMEDICAL INSTRUMENTATION (3-00) Module – I (10 Hours) Fundamentals of Biomedical Instrumentation: Sources of Biomedical Signals. PC Based Medical Instrumentation Systems. Signal Processing Techniques. Measurement of Heart Rate. Microelectrodes. EEG. Pressure Transducers. Ultrasonic Blood Flow meter. John M. Skin Contact Impedance. Hand Book of Biomedical Instrumentation-2nd Edition by R. EMG. Writing Systems: Direct Writing Recorders. Digital Recorders Biomedical Recorders: Electrocardiograph (ECG). Introduction to Biomedical Equipment Technology-4th Edition by Joseph J.S.Khandpur. EU. Pre-treatment of water. Publication. J.Sincero PHI Books 2. primary and secondary treatment of waste water. Masen. Nitrogen cycle etc. Hazardous waste and their generation. Special Methods: Flue gas desulphurization. Global Perspective. Organic content parameters. Industrial Air Emission Control: Characterization of air stream. Application of anaerobic digestion. air pollution metereology. Conventional process. Chemistry in Environmental Engineering: Atmospheric chemistry. Preparation and review of EIS. Ela WendellPHI Publication. Biotic components. Book 2. Principles Publication of Environmental Engineering and Science. Air Pollution : Air pollution and pollutants. Global climate change –green house gases. and the methods of minimizing their impact through technology and legal systems. Environmental auditing. Man TMH. Estuarine water quality. Material balances and Reactor configurations. and Environment by Dash & 5. Environmental Science. development actions etc. An Introduction to Environmental Engineering and Science by Gilbert M. Ground water Contamination. Fugitive emissions.Cuttac Seas R k eference 1. Water cycle. Water Treatment: Water treatment processes. Module – III Solid Waste Management Source classification and composition of MSW: properties and separation. Noise Pollution: Physical Properties of sound. Text 1. Origin and procedure of EIA. Water quality parameter and standards. Environmental Engineering by Arcadio P. Environmental Engineering Irwin/ McGraw Hill International Edition. Module – I Ecological Concepts and Natural Resources: Ecological perspective and value of environment. handling of treatment plant residue. 2004 4. Noise measurement. Masters & Mishra P. Soil chemistry. US and Indian Environmental Law.Environmental Engineering & Safety by Prof B. Waste minimization of MSW. 1997. Seven Kiely. Reactor configurations and methane production.. Transportation and treatment of hazardous waste: Incinerators. pretreatment. Noise control. McGraw 3. Noise criteria. Food Chain. NOx removal. M. Acid deposition. Scope studies.K. Tolerance levels of environment factor. Aquatic pollution. Water table and Aquifer. L. Mohapatra. Reuse and recycling. Environmental gradients. Ecosystem Process: Energy. Hill International Edition. emission standard form industrial sources. Equipment design. Activated sludge treatment: Anaerobic digestion and its microbiology. storage and transportation. Environment impact Assessment. Inorganic waste treatment. WIRELESS SENSOR NETWORKS ENVIRONMENTAL ENGINEERING (3-00) . Assessment of water quality. Equipment selection. Curringham & Saigo. Marine pollution. Ground water recharge. G.Objective: This course introduces the students to the environmental consequences of Industries. Hazardous Waste Management. Module – II Water Pollution: water quality standards and parameters. Davis and S. MSW Management. Noise Standards. criteria pollutants. Project Screening for EIA. Oxygen cycle. non-criteria pollutants. Sincero & Gergoria A. Atmospheric dispersion. Advanced water treatment process. Waste Water Treatment: DO and BOD of Waste water treatment process. Waste minimization techniques. Taieb Znati . shadowing and fading effects Medium-access and sleep scheduling: Traditional MAC protocols. Wireless Sensor Networks: An Information Processing Approach. Springer. Sleep-scheduled techniques. Problem formulations: Sensing model. Sivalingam. Leonidas Guibas . Wireless Sensor Networks: Technology. Coarse-grained and Fine-grained node localization. Protocols. Tracking multiple objects: State space decomposition. Cambridge University Press 2. Multi-path routing. Connectivity. Unit III 14Hrs Wireless Communications: Link quality. Taieb Znati . Wiley Inter Science. Security: Privacy issues. Key design challenges. Attacks and countermeasures. Networked wireless sensor devices. 3. Data-gathering with compression. Lifetime-maximizing energyaware routing techniques. Krishna M. Text Books: 1. References Books: 1. the database perspective on sensor networks. Routing: Metric-based approaches. Network deployment: Structured versus randomized deployment. Geographic routing. Mobile deployment. Sensor network Databases: Data-centric routing. Data-centric storage and retrieval. Coverage metrics. Energy efficiency in MAC protocols. Advantages of Sensor networks.by Feng Zhao. Network topology. Synchronization: Issues and Traditional approaches.Unit I 8Hrs Sensor Network Concept: Introduction. and Applications: Kazem Sohraby. Applications. Daniel Minoli.S Raghavendra. Querying. Fine-grained clock synchronization. Unit II 8Hrs Localization and Tracking: Issues and approaches. Wireless Sensor Networks: Edited by C. and Contention-free protocols. DIGITAL IMAGE PROCESSING . Asynchronous sleep techniques. Connectivity using power control. Morgan Kaufmann Series in Networking 2004. collaborative localization. Networking Wireless Sensors: Bhaskar Krismachari. and Coarse-grained data synchronization. wavelet transforms in one and two dimension (Chapt: 7 of Text book 1) Image Compression: Fundamentals. Color transformation (Chapt: 6 of Text book 1) Wavelets and Multi-resolution Processing: multiresolution expansions. Tata McGraw Hill Reference Books: 1. restoration in the presence of noise only. Woods and Eddins. Woods. Some basic compression methods (Chapt: 8 of Text book 1) Morphological Image Processing: Erosion and Dilation. R C Gonzalez. some basic intensity transformation functions. 2011 Module I Hardware Concepts EMBEDDED SYSTEM DEVELOPMENT 10Hrs . 2D DFT and its properties. Oxford University Press. R. S. image smoothing and sharpening (Chapt: 4 of Text book 1) Image Restoration and Reconstruction: Image restoration/degradation model. opening and closing (Chapt: 9 of Text book 1) Text Books: 1. noise models. R.E. relationship between pixels.C. 3rd Edition. Intensity transformations and spatial filtering. estimating the degradation function (Chapt: 5 of Text Book 1) Module: 3 (12 hours) Color Image Processing: color models. Histogram processing. basic filtering in the frequency domain. spatial filters for smoothing and sharpening (Chapt: 2 & 3 of Text book 1) Module: 2 (12 hours) Filtering in the Frequency Domain: preliminary concepts.Module: 1 (12 hours) Introduction: Digital Image fundamentals: Image sampling and quantization. 2nd Edition. Pearson Education 2. Digital Image Processing. Gonzalez. Digital Image Processing.Sridhar. Digital Image Processing using Matlab. USB. First Indian Reprint 2000. SRAM and DRAM. A survey of contemporary Real-time operating systems. Unix-based Real-time operating systems. TMH 3. Actuators. (For Module 1) 2. Embedded System Design. Hardware/Software Co-design. Module II Real-Time Operating Systems 12Hrs Real-Time Task Scheduling: Some important concepts. Features of a Real-time operating system. Programming and Design. Rate monotonic algorithm (RMA). VHDL. Computers as Components. 2003 UBIQUITOUS COMPUTING (3-00) . David E. Pearson Education Asia. POSIX-RT. General purpose processors. TEXTBOOKS 1. An Embedded Software Primer. S. Embedded Systems Architecture. John Wiley. Morgan Kaufman Publishers. Module III Embedded Application Development 8Hrs Embedded system development life cycle. Features of MISRA C for embedded programming. Frank Vahid and Tony Givargis. Types of real-time tasks and their characteristics. Microkernel-based systems. CAN bus. Microcontrollers. State charts. Levels of hardware modelling. General language characteristics . Chattopadhyay. Shibu KV. Introduction to Embedded Systems. PHI 2. Flash memory. Interfacing using UART. Hybrid schedulers. 2002. A/D-D/A converters. Earliest Deadline First (EDF) scheduling. (For Modules 2 and 3) REFERENCES 1. Clock-Driven scheduling. Embedded Systems Design – A unified Hardware /Software Introduction. Wayne Wolf. Sensors. ARM-based Systems on a Chip (SoC). Hardware/software partitioning. Overview of Processors and hardware units in an embedded system. Event-Driven scheduling.Application and characteristics of embedded systems. Rajkamal. Application-Specific Circuits (ASICs). Task scheduling. TATA McGraw-Hill. Commercial Real-time operating systems: Time services. Principles of Embedded Computing System Design – Harcourt India. Testing embedded systems. 2001 4. Design for testability and Self-test.Simon. Frequency Reuse. Network Protocols Module . Cell Splitting. Channels. Network signaling. S. Working. IEEE 802. Goals. Architecture. Evolution of Wireless Technology Cellular System: Cell. VPN Protocols. WLL Technologies. Channel Assignment Strategies. IMT-2000 Family. Mobile Computing. Protocol Architecture). Components of Cellular System. Mobile Computing. W-CDMA and CDMA 2000 Module . GPRS Interfaces. Case Studies: IRIDIUM. wireless mark up Languages (WML). LEO).Dash (SCITECH Publication) 3. Remote Access VPN. Protocol Stack. Requirements Mobile IP & Cellular IP: Goals & Working Mobile OS: Windows CE. Wireless Local Loop (WLL): WLL Configuration. MEO. mobility management. Windows Mobile OS.11(Ad-hoc Mode. Principle of Mobile Computing – Hansman (Springer) Reference Books 1) Mobile Communication. Bluetooth Profile) Wireless Application Protocol (WAP): WAP Gateway and Protocols. Requirement. IMT 2000: Vision.K. Mobility Management.P. Operation of Cellular System Personal Communications Services (PCS): PCS Architecture. General Packet Radio Services (GPRS): Architecture.I (12 hours) Introduction: Three Tier Architecture Mobile Computing Architecture.Patra. Global System for Mobile Communication (GSM): Overview.A.III (12 hours) Satellite System: Introduction.Schiller (Pearson) 2) Mobile Computing – Raj Kamal (Oxford) 3) Wireless Communication – Rappaport (PHI) ALGORITHMS FOR BIOINFORMATICS . Scatternet.Module . Satellite System Architecture. Types of Satellite System (HEO.K. Cluster. GLOBALSTAR and ICO Virtual Private Network (VPN): Features.II (12 hours) Wireless LAN (WLAN): Application.Talukdar(TMH) 2. Infrastructure Mode. Site to Site VPN. Symbian OS Text Books 1. Architecture. Bluetooth (Piconet. 2) Bioinformatics Algorithms. Module 3: 10Hrs Graph Algorithms: Graphs and Genetics. Notations. Exact Pattern Matching. Spectrum Graphs. Heuristic Similarity Search Algorithms. Structure of DNA. SBH as an Eulerian Path Problem. Divide-and-Conquer Algorithms: Divide-and-Conquer Approach to Sorting. Techniques & Applications – Wiley Inter Science 3) Wing-Kin Sung. Constructing Alignments in Subquadratic Time. A Practical Restriction Mapping Algorithm. Protein IdentiÞcation via Database Search. Finding a Median String. Spectral Alignment. "Algorithms in Bioinformatics: A Practical Introduction". Sorting by Reversals. Proteins. Finding Motifs. Module 2 8Hrs Greedy Algorithms: Genome Rearrangements. Hash Tables. Molecular Biology Primer: Genes. Impractical Restriction Mapping Algorithms. Exhaustive Search: Restriction Mapping. Algorithms and Complexity: Biological Algorithms versus Computer Algorithms. 2009 . Spliced Alignment. Molecules. 2008. CRC Press (Taylor & Francis Group). Search Trees. The Peptide Sequencing Problem.Module 1 8Hrs Introduction. Statistical Approaches to Gene Prediction. An Introduction to Bioinformatics Algorithms. Scoring Alignments. Similarity-Based Approaches to Gene Prediction. SufÞx Trees. Tractable versus Intractable Problems. Longest Common Subsequences. Gene Prediction. Shortest Superstring Problem. SBH as a Hamiltonian Path Problem. Jones and Pavel A. 4) Ion Mandoiu. The Change Problem Revisited. Fragment Assembly in DNA Sequencing. ProÞles. Sequencing by Hybridization. Bioinformatics Algorithms: Techniques and Applications Wiley. Regulatory Motifs in DNA Sequences. Global Sequence Alignment. References: 1) Neil C. Block Alignment and the Four-Russians Speedup. Alignment with Gap Penalties. MULTIMEDIA SYSTEMS . Pevzner. Dynamic Programming Algorithms: The Power of DNA Sequence Comparison. Edit Distance and Alignments. Alexander Zelikovsky. DNA Sequencing. MIT Press. DNA Arrays as an Alternative Sequencing Technique. Algorithm Design Techniques. Protein Sequencing and IdentiÞcation. Local Sequence Alignment. The Motif Finding Problem. Text Book: No Indian Print is available. A Greedy Approach to Motif Finding. Multiple Alignment. Approximate Pattern Matching. Approximation Algorithms. Breakpoints: A Different Face of Greed. Analysis. BLAST: Comparing a Sequence against a Database. Spectral Convolution. 2004. Keyword Trees. Combinatorial Pattern Matching: Repeat Finding. The Manhattan Tourist Problem. SpaceEfÞcient Sequence Alignment. Multimedia Communication System: Multimedia Conferencing Model and Multimedia Network Model. Textbook 1) Multimedia: Computing. Synchronization Specification. Pearson Education. P. QOS and Resource Management. Sound/Audio: Basic sound concepts. Transport Subsystem.Module – I (10 hours) Definition and Main properties of Multimedia System. space and continuity.Buford. Multimedia File System Paradigm. Graphics format. QOS layer Architecture. Multimedia Communication Systems: Application Subsystem. Computer Video format. JPEG. QOS in Distributed Multimedia System. Entropy and Hybrid Encoding.K. Image Analysis and Image Transmission. Image Format. Traditional Data streams characteristics. 2) Multimedia Systems. Television Module –II (12 hours) Data Compression: Source. Computer Image Processing: Image Synthesis. Multimedia Operating Systems: Process Management-Realtime Scheduling System Model.Ze Nian and Mark S Drew (PHI) Module – I SATELLITE COMMUNICATION SYSTEMS (12 Hours) . Types of Distributed Multimedia Application. Distributed Multimedia Systems: Features of Distributed Multimedia System. Presentation Requirements. Pearson Education Reference Books 1) Fundamentals of Multimedia. Disk Scheduling. Module –III (10 hours) Multimedia Authoring Tools. Video: Video Signal Representation. Image: Digital image representation. Characteristics of continuous media data based on time. Rate Monotonic & Earliest Deadline First Algorithm. Ralf Steinmetz and Klara Nahrstedt.261. Some basic compression techniques. Reference model for Multimedia Synchronization. MPEG. Communications & Applications. DVI. H. Synchronization: Notion of Synchronization. Multimedia Systems Frameworks: Multimedia Information System: Multimedia Information Model and Multimedia Distributed Processing Model. Process Utilization. MIDI devices and MIDI messages. Harlod Kolimbins. Satellite Communication by T. Design of small earth station antennas: Front fed paraboloid reflector antennas. CBS Publishers MICRO-ELECTRO-MECHANICAL SYSTEMS (MEMS) . rectangular & circular aperture. look angle determination. Satellite Link Design: Basics of transmission theory. PHI 2. Pratt. C. Satellite Communication by Robert M. system noise temperature and G/T ratio. fundamentals of mobile communication satellite Module – III (12 Hours) Propagation on satellite: Earth paths and influence on link design: Quantifying attenuation and depolarization. John Wiley Co. Gain. Reference Books: 1. Attitude and orbit control system(AOCS). feed system for large cassegrain antennas. ionosphere effects. Module – II (10 Hours) Analog telephone and television transmission: Energy dispersal. Bostian. Spread Spectrum Transmission and Reception. Design of large antennas – Cassegrain antennas. hydrometric & non hydrometric effects. design of satellite links for specified (C/N) performance. Digital Communication with Satellite and Fiber Optic Application. 2nd Edition. Estimating Channel requirements. TT&C . Global Beam Antenna. Gagliardi. Uplink and Downlink design. optimizing gain of large antenna. SPADE. pointing loss. beam steering. Equipment reliability and space qualification. Earth station Technology: Earth station design. Basic Antennas Theory – linear. Random access Application of Satellite communication: Network distribution and direct broad casting TV. Comprehensive study on FDMA. equipment for earth station Text Books: 1. digital transmission Multiple Access: Multiplexing techniques for satellite links. offset fed antennas. Description of spacecraft System – Transponders. TDMA and CDMA. rain and ice effects Satellite Antennas: Types of antenna and relationships .Introduction to state of satellite communication: Orbital mechanics and parameters. Orbital effects in communication system performance. antenna temperature. Launches and Lunch vehicle. 7 of Text Book 2) Microfluidics: Capillary action. N. wet and dry etching. Photolithography. 2002. T. Section 3.2. Piezoelectric actuators. K. Atre: Micro and Smart Systems.1 to 10. Chapter 2 of Text Book 2) Module II 10 lectures Microsystem Modeling and Design: Mechanics of deformable bodies. Filter. (Chapter 3 and Section 8. Resonator. (Section 10. Gopalakrishnan.3 and 6. (Section 9. Tata McGraw-Hill.2 of Text Book 1.2 of Text Book 1. 2007. Modeling of electromechanical systems. (Chapter 1 of Text Book 1) Micromachining Techniques: Silicon as material for micromachining. Varactor. Energy method. Reference Book: 1. Wafer bonding.4 of Text Book 2) Module III 15 Lectures MEMS Applications: Mechanical sensors and actuators: Piezoresistive pressure sensors. 2010. New Delhi.K.N. Ananthsuresh. Optical switch (Section 7. (Section 8. G.7 of Text Book 2) Radio frequency MEMS: Inductor. Estimation of stiffness and damping for different micro-structures. packaging. Micro-mirror. Vinoy. Pull-in voltage.3 and 5. S.P. K. Micropumping.5 to 7. Wiley India. 2. Gyroscopes. Tata McGraw-Hill. doping.J.11 of Text Book 2) Optical: Micro-lens.K.3 to 9. thin film deposition. Hsu: MEMS and Microsystems: Design and Manufacture. New Delhi. Lab-on-a-chip. Mahalik: MEMS.1 to 4.3 of Text Book 1 and Section 5. Bhat and V. (Section 4. New Delhi. surface and bulk micromachining. Electrowetting. MEMS capacitive accelerometer.Module-I 14 Lectures Overview of MEMS and Microsystems.8 of Text Book 2) Text Books: 1. MEDICAL IMAGING TECHNIQUES (3-00) . X-Ray Machine: High Voltage Generation. Visualization of X-rays & Digital Radiography: X-ray Films.M. Computed Tomography Machine (CT): Basic Principle of CT. B-scan with its applications in medicine. Basic NMR Components – Block Diagram Description. portable & mobile X-ray units. Viewing system. Ophthalmic Imaging. Patient dose in CT Scan & Advantages of CT Scanning. System components: scanning system. and Automatic Control. Digital Radiography.BROWN (Pearson education publication) (2) Medical Instrumentation-application & design.CAAR & JOHN. and Double headed CT & PET scanner. Module II (15 Hours) Ultrasonic Imaging System: Physics of Ultrasonic waves. 4e.S.Khandpur. 2e PHI (4) Dr. SPECT & PET scanners and Introduction to recent developments like Infrared Imaging. By JOSEPH. Production of X-rays : stationary anode tube & rotating anode tube. Text Book: Hand Book of Biomedical Instrumentation – 2 2003. The Gamma Camera – Block Diagram Description. Exposure Time Systems. Cromwell – Biomedical instrumentation & measurements. Properties of X-rays. Anuradha Publishers ANALOG VLSI DESIGN Module – I 10 Hours . Module III (10 Hours) MRI Machine & Gamma Camera: Principles of NMR Imaging System. High frequency Generator. X-ray Image Intensifier Television System. Flat Panel detector for Digital Radiography. Nature of X-rays. Detector. Tata McGraw Hill- Reference Books: 1) Introduction to Biomedical equipment technology. 3e – By JOHN. nd Ed. Advantages of NMR Imaging. R. Processing system. Units of Xradiation. Collimators & Grids.G. Gantry geometry. Dental X-ray machines.J. M. storing & documentation.Module I (15 Hours) X-Ray Machines: Basis of Diagnostic Radiology. M-mode. High Tension Cable. Study of Working Principle of Emission CT. brief description of different modes of scans like A-scan. basic pulse-echo apparatus.WEBSTER John Wiley & sons publications (3) Leslie. Arumugam – Biomedical instrumentations. generation & detection of ultrasound. Performance Parameters. CS Stage with Source Degeneration. Analysis and Design of Analog P. Bandga References: General Considerations. Miller Effect.R. Levels of Abstraction. Allen. Two-Stage Op Amps. (Chapters 5. John Wiley. Loading in CurrentVoltage Feedback. P. CS Stage with Diode-Connected Load. Hurst. Types of Amplifiers. Properties of Feedback Circuits. S. 11 and 9 of Text Book) Module – III 14 Hours Frequency Response of Amplifiers: General Considerations. 6. Two-Port Network Models. 3 and 4 of Text Book) Module – II 12 Hours Passive and Active Current Mirrors: Basic Current Mirrors. Positive-TC Voltage. CS Stage with Triode Load. Oscillators: General Considerations. Reference 2002. Source Followers. Input Range Limitations. Design of Analog CMOS Integrated Circuits. (Chapters 1. Loading in Voltage-Current Feedback.C. and R. Current-Voltage Feedback. K. 5th Edition. Common-Source Stage. Power Supply Rejection. 8 and 14 of Text Book) Text 1. Summary of Loading Effects. Mathematical Model of VCOs. 2002. Association of Poles with Nodes. Cascode Stage. Operational Amplifiers: General Considerations. Smith. Small-Signal Analysis. Lewis. Gain Boosting. LC Oscillators. Martin. Circuits. Holberg and P.D. Behzad Razavi. Systems. 2008. Feedback: General Considerations.M. Source Follower. Voltage-Controlled Oscillators. Sansen. D. Voltage-Voltage Feedback. MECHATRONICS Module – I: . Books: Gray. Voltage-Current Feedback. Cascode Current Mirrors. 2001. 4th Integrated Edition. Tuning in LC Oscillators. Supply-Independent Biasing. Microelectronic Circuits.. Loading in Voltage-Voltage Feedback. McGraw-Hill. CrossedCoupled Oscillator. Oxford University Press. Loading in Current-Current Feedback. Current-Current Feedback. Colpitts Oscillator. Effect of Loading. A. Basic Differential Pair. Differential Pair with MOS Loads. Robust Analog Design Single-Stage Amplifiers: Basic Concepts. CMOS Analog Circuit Design. OneStage Op Amps. Effect of Feedback on Noise. 1. Common-Mode Response. Temperature-Independent References. Inc. Qualitative Analysis. CommonGate Stage. Press. Common-Mode Properties. Differential Pair. John Wiley. Cascode Stage. Tuning in Ring Oscillators. Oxford University 1994. Meyer. (Chapters 6. One-Port Oscillators. Common-Source Stage with Resistive Load. 5. Active Current Mirrors. Negative-TC Voltage. 4. Johns and K.Introduction to Analog Design: General Concepts.C. Fundamentals of Microelectronics. Comparison. CS Stage with Current-Source Load. 1st Edition. Sedra and K. p Bandgap Reference. Behzad Razavi. Ring Oscillators. Differential Amplifiers: Single-Ended and Differential Operation. Tata McGraw-Hill Books: Publishing Company Limited. Slew Rate. Laker and W. Quantitative Analysis. Analog Integrated Circuit Design. Gilbert Cell. Common-Source Stage. Common-Mode Feedback. Folded Cascode. 2. Common-Gate Stage. Feedback Topologies. 3. Design of Analog Integrated Circuits and 1997. Large-Signal Analysis. John Wiley. Derivative control.2. 15. Tata McGraw building blocks. Fluid pressure. Principles of Industrial Instrumentation.7.8. 3.Continuous and discrete control processes.5.2. M. Ramachandran.6. Data acquisition.1.5. 8. 8.Sensors and Transduceers:. Rotary actuators.7. 3. Analogue and digital signals.1.2. Book Editor-in-Chief. Controller tuning. 13.2.11. 3. Instruments for Analysis: Introduction. Principles of Operation. Selecting a PLC for the Application. 4. th Edition by William Bolton. Reference Books: Electromechanical systems. Chromatography (Chapter 8 of Text Book) Book – 1: 3. Module II: 10 Hours Digital Signals:. Belt and chain drives.Signal conditioning. nd INDUSTRIAL INSTRUMENTATION Module 1 18 Hours . 2009. Linearity. 2008.3.Sensors and transducers. Types of motion.4. 15. Book – 2: 13. Rotational-translational systems. Power 1: 7. position and proximitry.6. motors. 8. Statistical sensors. Text Book: Electrical system building blocks. Terminology. Multiplexing. Wiley India Edition. Printed on 2.1. 7. Balasundaram.Introduction to PLCs. Directional control valves. 13.9. Analysis.Engineering systems.5. G. Gas Analysers.5. 15.4.8. Inputting Topics (Chapter 1Book – 1: 2. 4. Mechatronic Sources Book. motors. Dynamic Displacement. Methods. 11. Stepper Construction (Chapter 13 of Text – 1: 9.5. Introduction: Functional Units. Cylinders.4. 13. 10 Hours Module III: Book –Plant Instruments: Introduction. Vibration and Expansion. 2. Liquid Analysers. Light Error Analysis.University Press.2. Summary. 15. 3. ************ Adaptive control. data by switches. Frequency Telemetring. 10. Servo and proportional control valves. Selection of sensors.10. 13.Electrical systems.7. Fluid system 1. 2. 8. Performance terminology. Control system performance.4. Publication. Problems.12.2. 7. Analysis Evaluation andmotors. Reference Books: Mechatronics integrated Technologies for Intelligent Machines by A.Mathematical models. Enclosures. BookBook) Basic System Models:. Electromechanical systems. PID controller. Gregory K. 2. 15.Mechanical systems. Briefing of Pneumatic and Hydraulic Actuation Systems:. Pressure control valves. Force. 10. 2. Digital controllers.Mrad. Modulation. S. 1.9. Pearson 2. 4 Mechatronics Integrated Mechanical Electronic Systems by K. Problems. process control valves. Multiplexers. Flue Gas Analysis Mechanical Actuation Systems:.11. 2. Methods of Production. 13. 2. 15. The operational amplifier.1.3.2. 8. Pneumatic Means. – 1: 11.8. Books: Mechatronics Electronic Control Systems in Mechanical and Electrical Engg. 2 2010.6. Solid-state Ignition. 10. Performance characteristics. X-ray Filtering.4. Third Edition. Intrinsic Safety. 13. 15. Wireless I/O (Chapter 10 of Text Book) hydraulic systems. of Text book) Signal conditioning:. Analog I/O. 7. Cengage Learning India Edition by Newton C Edition.5.7. Module – II:Temperature. 7. Solenoids. 2.3. Douglas M. Telemetry: Introduction. Mechanical aspects of motor selection. Velocity control. 2. New Delhi System Models:. D.5.4. Two-step mode. GTears.1. Printed on K.4. 4. 11.6.9.1.5.Actuation systems. 8. 3.3. Hydraulic1. bearings.2. 15. Text 1. 2. Vijayaraghavan. Transmission Channels. Protection. Programmable Logic Controllers:.4. 13.9.2. Book – 1: 4. Electrical Actuation Systems:. 8. 2. Oxford F. Mechanical switches. 15. Book – 1: 15. Mc Millian mechanical systems. Digital signal processing. A. Pressure. Proportional mode.6. Cams.6.1.8. 9. Application of PLCs for Control. switches. Temperature. 7.12.C.5. P. Velocity and motion. 9. 11. Braga. 2.Electrical Means. Book – 1: Initial consideration. Pneumatic and a Telemetry System in Operation.6.7. Prevention of Hazard and Safety: 8. Smaili.3. digital-to-analogue and analogue-to-digital converters. Basic Structure of a PLC.1. Liquid level. Modulation of Digital Data.6.2.3.4.3.C.8. Thermal system building blocks. 15. 7.1. Mechanical system building blocks.3. Hill III:Module –Education Private Limited. Kinematic (Chapter 12 of Text Book) chains. The Power Plant Scheme. 13. 2010. 9.5. Pulse modulation. 4. 11.10. Integral control.3. 7. Considine Late Editor-in-Chief Closed-loop Controllers:. 9. D Patranabis. Calibration. Introduction to Internal Architecture and Hardware Components.Digital signals.Book – 1: 10. 9.3. Reliability and Related Liquid flow. 8. Flow and Level. 4. Summary.7.1. 9.4. PLC Programming. Errors: An Overview. 15. 10. PLCs versus Computers. Electrical system building blocks. Process/Industrial Instruments and Controls Handbook. Classification.
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