Digital Communication



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Rajiv Gandhi Technological University, Bhopal (MP) M.E./ M.Tech. Communication Systems ( JEC, Jabalpur) Digital Communication (MPCT, ITM (gwl), RKDF, Bansal, NRI, TIT(bpl), Sriram(Jbl), Mahakal (Ujn), Satya sai(shr)) ‘‘FIRST SEMESTER” S.No . Code No. Subject Contact Period L 1. 2 3 4. 5. MEDC101 MEDC102 MEDC103 MEDC104 MEDC105 MEDC106 MEDC107 Advenced Mathematics Micro controller system Design DSP Application VLSI Design Data Comm. And computer Network Lab-I(102,103) Lab-II(104,105) 3 3 3 3 3 T P 50 50 50 50 50 Internal Assessment End Sem Exam Theor Pract y 100 100 100 100 100 Total 150 150 150 150 150 6. 7. 3 3 25 25 100 100 125 125 TOTAL 300 500 200 1000 Subject Contact Period L 3 3 T --P --50 50 Internal Assessment End Sem Exam Theory 100 100 Pract --Total MEDC201 MEDC202 3 4. Jabalpur) Digital Communication (MPCT. 7. NRI.Rajiv Gandhi Technological University. TIT(bpl).No . 2 Code No.Tech. RKDF./ M. 5. ITM (gwl).Advanced Digital Communication MEDC-204 Elective II (A) Network Design Technology MEDC-205 Elective III (A) Optical Network (B) Mobile & Satellite Communication . Satya sai(shr)) ‘‘SECOND SEMESTER” S. 1. Sriram(Jbl). Communication Systems ( JEC. Mahakal (Ujn). MEDC203 MEDC204 MEDC205 MEDC206 MEDC207 System Programming Modelling & simulation of Computer Network Elective I Elective II Elective .III Lab-III (201) Lab-IV (202) 150 150 3 3 3 --- ------ ---3 3 50 50 50 25 25 100 100 100 ---100 100 150 150 150 125 125 TOTAL 300 500 200 1000 MEDC-203 Elective I – (A). Bansal. Bhopal (MP) M.E. 6. Subject Contact Period L 1. ITM (gwl). 2 3 4.No . Bhopal (MP) M. Communication Systems ( JEC.Tech.Rajiv Gandhi Technological University. Satya sai(shr)) “THIRD SEMESTER” S./ M. Jabalpur) Digital Communication (MPCT.E. 5. TIT(bpl). Code No. Optical Instrumentation & Measurement . NRI. Mahakal (Ujn).V Seminar Project Preliminary Dissertation TOTAL 3 3 T -------3 3 3 P 50 50 50 50 50 Internal Assessment End Sem Exam Theor Pract y 100 -100 --50 Total 150 150 50 100 50 250 200 100 50 500 MEDC-301 Elective IV (A). MEDC.301 MEDC -302 MEDC -303 MEDC -304 MEDC -305 Elective – IV Elective . Information Theory & Coding MEDC -302 Elective V (A). Sriram(Jbl). RKDF. Bansal. Marks 25/50/200 4. Jabalpur) Digital Communication (MPCT. ITM (gwl). Sriram(Jbl). Practical Max.Rajiv Gandhi Technological University. Exam = 300 -T -6 P 200 Internal Assessment End Sem Exam Theor Pract y -300 Total 500 200 -- 300 500 PassMin = 40 PassMin = 25/50 Pass Min = 15/30/120 Pass Min = 150 . Mahakal (Ujn). TIT(bpl). Theory Marks = 100 2. Pass Marks: 1. MEDC-401 Dissertation Evaluation & Defence TOTAL Grand Total of Marks:1000+1000+500+500=3000 *Max. Satya sai(shr)) ‘‘FOURTH SEMESTER” S. Code No.Min. Internal Ass./ M. Dissertation End.Tech. RKDF. Subject Contact Period L 1. 50/100 3. NRI.No .E. Bhopal (MP) M. Bansal. Communication Systems ( JEC. DFT. numerical solution of PDE (Laplace. concepts of queuing models (M/M/1: Infinity/ Infinity/ FC FS). J.V. elementary concept of estimation and theory of hypothesis. Zimmersoms . Applied Numerical Methods with MATLAB by Steven C chapra. Fourier Transforms by J. Marks-40 Duration: 3 hrs. fuzzy relation equations. compound probability and discrete random variable. UNIT II Probability. Poisson’s. Scarborogh 8. Shastry. concepts of fault tolerant analysis. Ross 10. MATLAB introduction. distribution queuing system. Sheddon 9. Elementary idea about decision theory and goal programming.S. recurred relations. J. Wavelet transform. (M/M/S: Infinity/ Infinity/ FC FS) UNIT IV Operations of fuzzy sets. programming in MATLAB scripts. Fuzzy Sets Theory & its Applications by H. UNIT V Introduction and definition of reliability. Wiley Easten Edd. (M/M/1: N/ Infinity/ FC FS). Failure rate. Binomial. WFT. Normal. Parabola) using finite difference methods. Hazard rate. Advance Engineering Mathematics by Ervin Kreszig. N. Poisson’s distribution. Ramana. 2. 4. Elementary properties of FT. fuzzy logics. Tata Mc Graw Hill. Markov process transition probability transition probability matrix.Higher Engineering Mathematics by B. mean time t future & their relations. Tata Mc Hill. Fuzzy Logic in Engineering by T. just and higher order Markov process. traffic intensity. UNIT I Solution of Partial Differential Equation (PDE) by separation of variable method. Reference Books: 1. Introduction of Numerical Analysis by Forberg 6. UNIT III Stochastic process.- Theory Papers Max. Markov chain. Marks-100 Min. transient and steady state. Haar transform. K. 3. derivation of reliability functions. Sampling distribution. Numerical Solution of Differential Equation by M. Numerical Mathematical Analysis By James B. Queuing system. Jain 7. 5. Introductory Methods of Numerical Analysis by S. functions and their application. fuzzy arithmetic & relations.Category of Course Course Title ADVANCED MATHEMATICS Course Code MEDC 101 CreditsL T P 3 . Embedded Micro-Computers System By Jonathan W. ports. input Output interfacing and programming. support chips and interfacing techniques. Object oriented interfacing and programming. Valvano 4. integrated software development environment. Unit3 Software development Modular approach. Design and application of Micro-Controller in Data acquisition. program and data memory. Design With Micro-Controllers By John P.INTEL 8051/ 8751.Category of Course ME/ M. Reference Books: 1. instruction set and programming. Unit 5 DSP Processor architecture and sample design using TI – DSP. Data Manuals – Intel Motorola . Embedded Systems 8051 By Majidi & Majidi 2. Peatman Tmh 3. architecture.102 MICRO CONTROLLER SYSTEM DESIGN Unit 1 Review of 8-Bit and 16-bit microprocessor. Embedded controllers.Tech. Recursion and debugging. Process control etc. single chip micro-computers. expanded modes.Marks-40 Duration-3hrs.Case studies. addressing modes.Marks-100 Min. Unit2 Single chip micro controllers. COURSE CONTENTS Course CreditsCode MICRO L T P CONTROLLER MEDC-102 3 SYSTEM DESIGN Course Title Theory Papers (ES) Max. Memory mapping. MOTOROLA 68HC0/68HC11 architecture. Interrupt handling timing and serial I / O. Unit 4 ATMEL 89C51 / 52 and PIC micro-Controllers. MEDC. Registers. Hann. Effect of Finite register length in filter Design Unit5 Discrete time Random signals: Discrete time random process. Recursive and Non Recursive systems.103 DSP APPLICATION Unit 1 Review of Discrete time signals: sequences. Inverse Chebychev . representation. Advance signal processing technique and transforms: multi rate signal processing. Discreate time signal Processing by Opperenheim & Schaffer PHI 2nd Edition 2. and constant coefficients difference equations. Design of FIR filters by windowing – Rectangular.Rabiner & B. Design method relationship of Kaiser to other window. Discrete time systems: linear. ROC. Bilinear Transformation. Wavelet Transform. Relationship between DFT and DCT. time in variant.Category of Course ME/ M. Inverse Z Transform. Application of MATLAB for Design of Digital filter. Design of Discrete time IIR filter-Butterworth . Elliptic etc. Kaiser.Marks-100 Min. Linear and Circular convolution. response of linear systems to random signals. Hamming.Tech. Haar Transform etc. Chebychev . COURSE CONTENTS Course CreditsCode DSP APPLICATION L T P MEDC-103 3 Course Title Theory Papers (ES) Max. Frequency Domain representation of discrete time signals and systems Unit 2 Review of Z Transform – Properties. Stability. Reference Books: 1. power spectrum estimation: Basic principals of spectrum estimation.Mitra 3 Digital Signal Processing By Proakis Pearson Education 4. estimate of auto con variance. properties.down sampling/up sampling. Theory & application of Digital Signal Processing by L. power spectrum . introduction to discrete Hilberts Transform. MEDC. LTI systems. Window filter. Causality. Criterion. Averages.Marks-40 Duration-3hrs. Digital Signal Processing using MATLAB by S. Spectrum Representation of finite energy signals. Discrete Cosine Transform. Computation of DFT: FFT/Decimation in Time and Decimation in Frequency Unit 4 FIR and IIR systems: Basic structure of FIR and IIR. Bartlett.cross con variance and cross spectrum. Realization of discrete time system Unit 3 DFT: Properties. Gold PHI .R. Optimization. Placement and Routing Algorithms. Course Title VLSI DESIGN COURSE CONTENTS Course CreditsCode L T P MEDC-104 3 - Theory Papers (ES) Max. Unit2 CMOS circuit and Logic Design: CMOS Logic gate design. Power and Delay consideration Unit 3 System Design: CMOS Chip Design. Pearson Education 3 4 5 Vlsi Technology By Sze S.M. CMOS Sub System Design. Programmable gate array. I /O Structure.Marks-100 Min. Memory and Control Strategies. CMOS Logic structure. Basic Physical design. Tmh Basic Vlsi Design. Layout Analysis. System And Circuits By Pucknil D. Simulation and Verification. Phi Vhdl Primer By Bhaskar Star Galax Pub. Design Abstraction and circuit Validation. Principal Of Cmos Design: A System Prospective By Waste And Eshraghin 2. MEDC-104 VLSI DESIGN Unit1 Introduction: Basic concept of integrated circuits and manufacturing. standard cells.Category of Course ME/ M. Vlsi Design: System On Silicon. PLA and ROM Implementation Unit 5 CAD system and Algorithms: CAD systems. Timing Analysis. Design Capture.Tech. Reference Books: 1. Unit 4 Subsystem Design: Data Operation. . Design fundamental for digital CMOS circuits.A.Marks-40 Duration-3hrs. Logic Synthesis and Simulation. Testability Issues. Unit 5 Introduction to WAN packet switching technologies such as ATM and Frame relay. Protocols. algorithm. flow control. Reference Books:1.Category of Course ME/ M. packet switching and their comparison. deadlock and its avoidance. null model. point-to-point and multi-point links. various detector techniques. routing algorithm. sliding window protocol. Local Area Network By Keiser Tmh . vertical and longitudinal redundancy check and CRC code and their error detecting capabilities. UBS LANs. Modelings And Analysis By M. MEDC-105 DATA COMMUNICATION AND COMPUTER NETWORK Unit 1 Review of synchronous and asynchronous transmission. Schwartz 4. Telecommunication Network. dijkstera and Bellman ford least cost. COURSE CONTENTS Course Title Course CreditsCode DATA L T P COMMUNICATION MEDC-105 3 AND COMPUTER NETWORK Theory Papers (ES) Max. polling. RS-232 C and X. Unit 4 Local Area network:. congestion control technique.Tech. Computer Networks Y Tanenebaum Phi 3. message switching. various routing protocol. HDLC as a bit oriented link control protocol. FDDI. parity check. circuit switching.Various topologies and medium access control schemes such as contention.21 standards.Virtual circuit and datagram. Unit 3 Communication Network:. Unit 2 Data link control.Marks-100 Min. modern operation. token parsing and performance analysis. Introduction to TCP / IP protocols. Data And Computer Communication By W. various IEEE standards for LAN.Marks-40 Duration-3hrs. Stalling Phi 2. various ARQ technique for eroor control and their comparison and performance analysis. Introductory problem solving by pascal by Schieder. PHI 4. appending.201 SYSTEM PROGRAMMING Unit 1 Fundamental of programming.Marks-40 Duration-3hrs. data structure array-various operations with array. divide and conquer. queues & various operations on queues. minimum and maximum selection. applications of stacks. insertion and deletion in tree. stack.Category of Course ME/ M.Algorithms.Data structure & programs by Wirth N. iteration. tree. static and dynamic allocations. PUSH/POP & TOP of stack operation. PHI 3. COURSE CONTENTS Course Title Course CreditsCode SYSTEM L T P PROGRAMMING MEDC-201 3 - Theory Papers (ES) Max. binary and K-ary trees. matrix operations. programming with Pascal of C UNIT2 Data & Data types. implementations with arrays and pointers. data representation. MEDC. conditional repetition. pointers for data structures and functions. PHI 2. recursion. Assembler. binary and Hash search.Data structure & Program design by Kruze. various operations like searching.Marks-100 Min. steps in problem solving with digital computer algorithm. Reference books: 1. concept of pointers and pointers manipulations.The programming language by Kernighan & Ritchi. insertion & deletion in lists. quick sort & heap sort. flow chart and textual representation.John Wiley . interpreter. primitive actions. B-tree and AVL tree. bubble sort. sorting. compiler. doubly linked list and their implementations. control construct like conditional. dynamic programming Unit 4 Overview of system programs. tree traversal..Tech. operations on those tree applications Unit 3 Searching and sorting. linear. insertion sort. Editor and operating system. discrete distributions. types of simulation with respect to output analysis. nature of output data. Possion process and empirical distribution. Unit 4 Random number and its generation: Properties of random numbers. Random variant Distribution.Category of Course ME/ M. continuous distributions. Discreate and Homogeneous system. types of performance and their estimation. Modeling and Analysis By M. Direct transformation for normal distribution. Schwartz .Simulation Modeling and Analysis by 2. analysis for terminating simulation. inverse transform technique. multivariate and input models. parameter variation. simulation and analysis by Garcia and Garcia 4. Acceptance and rejection technique. Reference Books: 1. test for random no. Various steps in simulation. Unit 5 Introduction and validation of simulation models: output analysis for single model.Marks-100 Min. measures of performance using queuing systems property. useful statistical models. distribution of pseudo random no.Network Modeling.Modeling and simulation by Bank and Carson PHI 3. COURSE CONTENTS Course CreditsCode L T P MODELING AND SIMULATION OF MEDC-202 3 COMPUTER NETWORK Course Title Theory Papers (ES) Max. goodness of fit tests.Marks-40 Duration-3hrs. advantages and advantages. output analysis for terminating simulations. its applications. Unit 3 Queuing model: Characteristics of queuing system transient and steady state behavior of queue. system and system. MEDC–202 MODELING AND SIMULATION OF COMPUTER NETWORK Unit 1 Induction to Discrete event system simulation. Modeling: Data Collection. identifying the distribution with data.Telecommunication Network: Protocols.Tech. General concept in discrete event simulation. modeling of system and type of models. environments and component of system. selection of input model without data.. Unit 2 Practical models in simulation: review of terminology and concepts. Marks-100 Min.Marks-40 Duration-3hrs. coded waveform for padding channels and their application. Unit5 Characterization of fading multi path channels. optimum receivers for signals corrupted by AWGN and their performance for memory less channel. Signal design band limited channels and their characterization. optimum receivers for PCM. direct sequence spread spectrum signals and frequency hopped spread spectrum signals and their performances. modulation codes for spectrum spacing. MEDC-203 (A) ADVANCE DIGITAL COMMUNICATION Unit 1 Introduction to digital modulation technique and their spectral characteristics. Unit 4 Multi channel and multi carrier systems.Category of Course Elective I COURSE CONTENTS Course Title Course CreditsCode L T P ADVANCE DIGITAL MEDC-203 3 COMMUNICATION (A) Theory Papers (ES) Max. spread spectrum signals for digital communication. OFDM. Unit 2 Estimation of signal parameters. regenerative repeaters and link budget analysis. probability of error in detection PAM with zero ISI. diversity techniques for padding multi path channels. frequency non-selective slowly padding channels. REFERENCE BOOKS: Digital Communication by Proakis TMH Digital Communication by Glover and Grantt PHI Digital Communication by Simon Haykins . adaptive linear and adaptive decision feed back equalizer. Unit 3 Optimum receivers for channels with ISI and AWGN. linear equalization and decision feed back equalization. carrier phase and symbol timings. FDDI Internet working with TCP/IP. Computer Networks. PHI 6. Internetworking with TCP/IP Vol. 5. transmission Medium. bridges. I PHI 3. Data and computer communications. various interior gateways protocols like RIP. Unit 5 ATM: ATM adaptation layer (AAL).Category of Course Elective II Course Title Network Design Technology COURSE CONTENTS Course CreditsCode L T P MEDC -204 3 (A) Theory Papers (ES) Max. PHI 4. Fast Ethernet& Gigabit Ethernet. ATM traffic and congestion control ATM LAN. Comer. switches and Int protocols Pearson Edu 2. Digital Communication. services and congestion control. Unit 2 LAN system. IP V6 Transport Protocols. Forouzan B. ISDN. PHI 7. Inside networks. 1. MEDC-204 (A) Network Design Technology Unit 1 Review of concepts of Layering and Layered models. Circuit switching mechanism and network design. Glover and Grant. layers and ISDN servicesISDN standards and services High Speed network frame relay. Token Ring.Marks-40 Duration-3hrs. Ethernet system. ATM LAN emulation and multi protocols over ATM (MPOA) Reference Books. Internet Protocol (IP) Suite including IP V4. Stalling W. Topology. packet switched networking including routing and traffic control. X. Redia Pearlman. Data communication and networking. OSPF and exterior gateway protocols like BGP Unit 4 Introduction to label Switching and MPLS WAN technology: WAN Vs LAN. routers.Marks-100 Min. Interconnections. interface and functions. Hardy. Medium Access Control (MAC) Techniques including MAC& LLC sub layers. Tenenbaum.25 ISDN and Broadband ISDN: Overview.OSI & TCP/IP LAN Technology. TMH. frame relay protocols. TCP and UDP Unit 3 Introduction to IP routing. PHI . SDH.S. physical layer.N. Optical Networks: Apractical Prospective By R.Guruswamy. filter. tera hertz optical asymmetric demultiplexer. thermo-optic. Isolators. electro-optic. Multiplexing in SONET.OTDM network . bus topology. Circulators. SONET physical layer.Marks-100 Min. static and reconfigurable network. data link layer. goals of SONET design .optical time domain multiplexing(OTDM). and performance criteria.virtual circuit services and data gram. Broadcast . media access control(MAC) protocols. star topology. acoustics optical tunable filters. synchronization.Marks-40 Duration-3hrs.rainbow.Method of multiplexing and demultiplexing. throughput calculation.elements of SONET/SDH infrastructure. switching architecture.Shivrajan 2. network design and operation traffic models. fiber bragg gratings as ADD/Drop multiplexers. aloha and slotted ALOHA.IP layered architecture . transport layer Unit 4 Broad cast and select network: topologies for broadcast networks. PHI 3.ESCON. deflection routing Referance Books: 1. Computer Networks By Tanenbaum .bit interleaving and packet interleaving.LAMBDANET. network layer. second generation optical network. multiplexing technique. FDDI. and SOA switches.ATM.starnet Unit 5 Wavelength routing network: optical layer. mechanical. first generation optical network.R. transparencies of regenerator Unit 2 Network components: couplers. Multiplexer . Optical Networks By C. test beds.Category of Course Course Title Course Code MEDC -205 (A) L 3 CreditsT P - OPTICAL Elective III NETWORKS Theory Papers (ES) Max.Murthy and M. wavelength reuse reliability. degree of wavelength conversion.Ramaswamy and K. characterization of switches. frabry perot filters. optical and gates non linear optical loop mirror. virtual topology and circuit switching and node design. wavelength cross connect. fiber channel. Unit 3 First generation of optical network: SONET.comuter interconnections. classification of light paths Unit 6 Photonic packet switching . MEDC-205(A) OPTICAL NETWORKS Unit 1 Introduction to optical network: Telecommunication. switch based network. direct sequence. coding techniques for audio and voice and popular speech codes. channel assignment strategies.11 and its variants. their generation and detection. coherence bandwidth Unit 3 Modulation techniques for mobile and satellite communication. Schiller J. Principles of GSM technology. wideband CDMA concepts principles. adaptive equalization. multiple access with collision avoidance. Unit 1 Review of wireless and cellular radio communication: The cellular concept. CDMA.Marks-40 Duration-3hrs. Antena positioning in GEO and Link calculations. spread. 802.COURSE CONTENTS Category Course Title Course Creditsof Course Code L T P Mobile and satellite Elective III Communication MEDC -205 3 (B) MEDC-205(B) Mobile & Satellite Communication Theory Papers (ES) Max. MEO and LEO satellite systems. handoff strategies. 1. Viterbi A. Delmer Thomson . frequency reuse. diversity. reused distance. co-channel interference and system capacity. Brief introduction to radio channel characterization. Addison Wesley 3. performance of spectral and power efficiency. Mobile Communications. Orthogonal Frequency Division Multiplexing (OFDM) Unit 4 MAC Protocols. exponential power delay profile. scattering. Gokhle. ground reflection. propagation effects. system design fundamentals.. PHI 2. co channel interference. Reference Books. fading. Unit 5 Introduction to GEO. cluster size. ETSI-HILARAN type 1 MAC protocol.Marks-100 Min. Introduction to Telecommunications. spectrum. long normal shadowing. Unit 2 Speech coding for wireless system applications and broadcast systems. Addison Wesley 4. Wilkies and Garg. Physical layer technique. frequency hopping. multi-path propagation. trunking and grade of service. Digital Communication by Carson. Pearson Education 5. channel capacity. Modern analog and Digital Communication system. Probability of undetected error for linear block code in BSC . syndrome computation & error detection. channel coding theorem.P.Hamming code and their applications. Linear Block Codes. cyclic Hamming codes. MIT Press 7. mutual information & its properties. Practical communication system in light of shannon’s theorem. Digital Communication by Sklar. encoding & decoding circuits.minimum distance. Lempel-Ziv Coding Unit 2 Discrete memory less channels.Category of Course Elective IV COURSE CONTENTS Course CreditsCode L T P INFORMATION THEORY & CODING MEDC3 301(A) Course Title Theory Papers (ES) Max.Marks-100 Min. its encoding & decoding.Marks-40 Duration-3hrs. HUFFMAN coding. Digital Communication by Haykins Simon Wiley Publ. Bandwidth signal to noise Trade off. Error control Coding: Theory and Application. prefix coding. 2. capacity of channel of infinite bandwidth. Generator & parity check matrix of cyclic codes. MEDC. Digital Communication by Proakis. error detecting and correcting capabilities of block code. by B. Principal of Communication system by Taub & Schilling. Lathi 4.PHI 3. Shannon’s theorem on channel capacity. Systematic codes. Reference Books: 1. syndrome and error detection . Fading Channel.. entropy and its properties.TMH . Unit 4 Cyclic codes and its basic properties. Binary symmetric channel.MGH 8. coding theorem. Unit 5 Introduction to BCH codes. and its application to BSC. Decoding circuits. entropy of binary memory less source and its extension to discrete memory less source. data compression.301(A) INFORMATION THEORY & CODING Unit 1 Introduction to uncertainty. TMH 6. vector spaces and matrices in GF(2). Error Correcting Codes by Peterson W. Unit 3 Group and field of Binary system Galois field and its construction in GF (2m) and its basic properties. Introduction to convolution codes. by Shu Lin and Cosstlello. its construction & viterbi algorithm for maximum likelihood decoding. error location & correction. information. and its encoding circuits. wavelength filters. Total Attenuation. Dispersion. reflector. frequency and wavelength of light wave Unit 4 Fiber optic Measurement: Introduction to measurement techniques i) Multimode Fiber: Refractive Index Profile. Box car Average.Marks-100 Min. Measurement of the Propagation constant of fiber mode Reference Books: 1. Ghatak and Tyagrajan 5.Category of Course Elective V COURSE CONTENTS Course CreditsCode OPTICAL L T P INSTRUMENTATION MEDC3 & MEASURMENT 302(A) Course Title Theory Papers (ES) Max. Mode Cut off Wave length and the Single Mode operating regime. modulations. wavelength division multiplexes. polarization. Unit 3 Fiber optic sensors: Pressure. connectors. polarization controllers. Numerical Aperture. Fiber Optics Measurement By A. M. CCD. Ellipsometer. MEDC. Shenoy 3. Differential Mode Delay (DMD) ii) Single Mode Fiber: Attenuation. amplifiers. Optical low Coherence Reflect meter. polarizing beam splitter. temperature. Equivalent step Index (EXI) Profile. fiber laser. transducer. Bandwidth of Jointed fiber. Optical Fiber Sensors system And Application By B. Introduction to Fiber Optics By A. Unit 2 Fiber Optics Component and Devices: Direction Couplers.R. Senior 2.Marks-40 Duration-3hrs. Refractive Index Profile (RIP). Lock in Amplifier. Birefringenence Measurement. Magnetic & Electric field sensors based on characteristics like intensity. Scattering Loss and differential mode loss. beam splitters. fiber optic isolator etc. couplers. Transmission Bandwidth and dispersion. switches. phase. Culshaw . Monochrometer. Fundamental Of Fiber Optics in Telecommunication & Sensors Systems 4. Geometric Measurement. Non destructive loss Measurement (OTDR). Optical Fiber Communication By S. Optical Spectrum Analyzer Optical power and energy meter. Mode Field Diameter. strain. Ghatak.302(A) OPTICAL INSTRUMENTATION & MEASURMENT Unit 1 Optical Instrument: Optical Time Domain Reflector. polarizer.
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