Wireless and Mobile Communications

April 2, 2018 | Author: Ravikumaar Rayala | Category: Channel Access Method, Computer Network, Wireless Lan, Data Compression, Session Initiation Protocol
Share
Report this link


Comments



Description

M.Tech.- WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD (Established by an Act No.30 of 2008 of A.P. State Legislature) Kukatpally, Hyderabad – 500 085, Andhra Pradesh (India) M.Tech. WIRELESS AND MOBILE COMMUNICATIONS COURSE STRUCTURE AND SYLLABUS I Year - I Semester Code Group Subject Advanced Data Communications TCP/IP and ATM Networks Advanced Digital Signal Processing Image and Video Processing Detection and Estimation Theory Random Processes and Time Series Analysis RF Circuit Design Voice Over IP Satellite Communications Spread Spectrum Communications Communication Lab-I Seminar Total Credits Subject Coding Theory and Techniques Wireless Communications & Networks Optical Communications Technology Telecommunication Switching Systems and Networks Optical Networks Mobile Computing Technologies Ad-hoc and Wireless Sensor Networks Network Security And Cryptography Propagation Models for Wireless Communications Software Radio Communication Lab-II Seminar Total Credits Subject Comprehensive Viva Project Seminar Project work Total Credits Subject Project work and Seminar Total Credits L 3 3 3 3 3 P 0 0 0 0 0 Credits 3 3 3 3 3 Elective -I Elective -II 3 0 3 Lab 0 18 L 3 3 3 3 3 3 3 P 0 0 0 0 0 2 2 22 Credits 3 3 3 3 3 I Year - II Semester Code Group Elective - III Elective – IV 3 0 3 Lab 0 18 L 0 L - 3 3 P 3 3 P - 2 2 22 Credits 2 2 18 22 Credits 22 22 II Year - I Semester Code Group II Year - II Semester Code Group M.Tech. - WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Tech – I Year – I Sem. (WMC) ADVANCED DATA COMMUNICATIONS UNIT -I: Digital Modulation Schemes: BPSK, QPSK, 8PSK, 16PSK, 8QAM, 16QAM, DPSK – Methods, Band Width Efficiency, Carrier Recovery, Clock Recovery. UNIT -II: Basic Concepts of Data Communications, Interfaces and Modems: Data Communication Networks, Protocols and Standards, UART, USB, I2C, I2S, Line Configuration, Topology, Transmission Modes, Digital Data Transmission, DTE-DCE interface, Categories of Networks – TCP/IP Protocol suite and Comparison with OSI model. UNIT -III: Error Correction: Types of Errors, Vertical Redundancy Check (VRC), LRC, CRC, Checksum, Error Correction using Hamming code Data Link Control: Line Discipline, Flow Control, Error Control Data Link Protocols: Asynchronous Protocols, Synchronous Protocols, Character Oriented Protocols, Bit-Oriented Protocol, Link Access Procedures. UNIT -IV: Multiplexing: Frequency Division Multiplexing (FDM), Time Division Multiplexing (TDM), Multiplexing Application, DSL. Local Area Networks: Ethernet, Other Ether Networks, Token Bus, Token Ring, FDDI. Metropolitan Area Networks: IEEE 802.6, SMDS Switching: Circuit Switching, Packet Switching, Message Switching. Networking and Interfacing Devices: Repeaters, Bridges, Routers, Gateway, Other Devices. UNIT -V: Multiple Access Techniques: Random Access, Aloha- Carrier Sense Multiple Access (CSMA)Carrier Sense Multiple Access with Collision Avoidance (CSMA/CA), Controlled Access- ReservationPolling- Token Passing, Channelization, Frequency- Division Multiple Access (FDMA), Time - Division Multiple Access (TDMA), Code - Division Multiple Access (CDMA), OFDM and OFDMA. TEXT BOOKS: nd 1. Data Communication and Computer Networking - B. A.Forouzan, 2 Ed., 2003, TMH. th 2. Advanced Electronic Communication Systems - W. Tomasi, 5 Ed., 2008, PEI. REFERENCE BOOKS: 1. Data Communications and Computer Networks - Prakash C. Gupta, 2006, PHI. 2. Data and Computer Communications - William Stallings, 8th Ed., 2007, PHI. nd 3. Data Communication and Tele Processing Systems -T. Housely, 2 Ed, 2008, BSP. nd 4. Data Communications and Computer Networks- Brijendra Singh, 2 Ed., 2005, PHI. Transition from IPV4 to Ipv6. TEXT BOOKS: th 1. Random Early Detection. Service Classes. Types of Spread Spectrum Techniques. Tech – I Year – I Sem. ATM Application. Switching. Quality of Service. X. and Differentiated services. Forouzen. A. Forouzen. SONET/SDH:-Synchronous Transport Signals. SONET Frame.Tech. Wireless Communication System -Abhishek yadav –University Sciences Press. UNIT –III: Spread Spectrum: Introduction. congestion control. 4 Edition TMH th 2. Application Of Spread Spectrum. ATM Layers.A. High Performance TCP-IP Networking -Mahaboob Hassan -Jain Raj-PHI 4. Folding Algorithm .21 protocol. IPV4. Integrated services. Protection against Jamming. Properties. Congestion Control. 2009 2. Banyan Networks. Generation. Switch Fabric. Random drop. Rearrangeble Networks. -B. Leaky Bucket algorithm. ATM:-Design Goals. Forouzan 2nd Edition TMH 5. congestion. Frame relay Layers. Drop front. Wireless Digital Communications -Kamilo Feher-1999 PHI 3. ATM Architecture. Physical Configuration. Three Stage Class Networks. 4 Edition TMH REFERENCE BOOKS: 1.25 Layers. Bit Allocation Algorithm. UNIT –II: Congestion Control and Quality of Service: Data traffic. Spreading Codes (PNSequence). Properties.B. UNIT –V: Interconnection Networks: Introduction. . UDP.X. Data communication and Networking. Queue management:-Passive-Drop-tail.Process to process delivery.M.Biswas -Adveture book Publishers-1998. TCP/IP Protocol Suit .WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Lopping Algorithm. IPV6. SONET Layers.A. . UNIT –IV: X. Data Communication & Networking -B. Active –Early Random drop. (WMC) TCP/IP AND ATM NETWORKS UNIT –I: Internet Protocol: Internetworking.N. Techniques to improve QOS. Crossbar Switch. Frame relay Operation.Benes Networks.25:. ATM Fundamentals – N. Frame Relay:-Introduction. Basic Concept. TCP and SCTP. two examples. Reflection coefficients for lattice realization. W.. Jervis. TEXT BOOKS: 1. Discrete Time Signal Processing . Interpolation by a factor I. IIR Filters and FIR Filters: Multi Rate Signal Processing: Introduction. UNIT -III: Non-Parametric Methods of Power Spectral Estimation: of spectra from finite duration observation of signals. Marple . Forward prediction error. 2000. Tech – I Year – I Sem.. Implementation of Narrow Band Low Pass Filters.Yule-Walker & Burg Methods. Digital Spectral Analysis – Jr.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M.Kay. 2 ed. Digital Signal Processing – S. (WMC) ADVANCED DIGITAL SIGNAL PROCESSING UNIT –I: Review of DFT. M . Finite word length effect in IIR digital Filters – Finite word-length effects in FFT algorithms. Sampling rate conversion by a rational factor I/D. Non-parametric Methods: Bartlett. .Alan V Oppenheim & R. Welch & Blackman-Tukey methods.Tech.Gnanapriya. C. Barrie.J. Implementation of Digital Filter Banks. 3. 4. UNIT –II: Applications of Multi Rate Signal Processing: Design of Phase Shifters. Digital Signal Processing: Principles. PHI. Ifeacher.P. G. 2.G. DSP – A Practical Approach – Emmanuel C. Backward prediction error.Proakis & D. Manolakis.M. Transmultiplexers. AR Models . Implementation of lattice structures for IIR filters. Frequency sampling structures of FIR. REFERENCE BOOKS: 1. Modern Spectral Estimation: Theory & Application – S. 1988.TMH. Lattice structures. Multi Rate Systems and Filter Banks – P. MA & ARMA models for power spectrum estimation. Subband Coding of Speech Signals. Algorithms & Applications . A. Relation between auto correlation & model parameters. FFT. Filter design & Implementation for sampling rate conversion. Quadrature Mirror Filters. W Schaffer. Decimation by a factor D. Advantages of lattice structures.Vallavaraj. Multistage Implementation of Sampling Rate Conversion. Pearson Education. th 4 Ed. 2. UNIT –V: Parametric Methods of Power Spectrum Estimation: Autocorrelation & Its Properties. Comparison of all Non-Parametric methods UNIT –IV: Implementation of Digital Filters: Introduction to filter structures (IIR & FIR). Interfacing of Digital Systems with Different Sampling Rates. PHI. Over Sampling A/D and D/A Conversion. 3.Salivahanan.Vaidyanathan – Pearson Education. PHI. Point. Huffman coding. Selective filtering. (WMC) IMAGE AND VIDEO PROCESSING UNIT –I: Fundamentals of Image Processing and Image Transforms: Basic steps of Image Processing System Sampling and Quantization of an image. . Application of motion estimation in Video coding. Digital Video. Compression models: Lossy & Lossless. Predictive coding. 2 Ed. Elsevier. Block based transform coding. BlockMatching Algorithm. Sharpening spatial filters. Elsevier. CRC Press. JPEG Standards. Region based Motion Estimation. Tech – I Year – I Sem.Veera Kumar – TMH. image sharpening. Mesh based Motion Estimation. image smoothing. Global Motion Estimation. 2011. Time-Varying Image Formation models: Three-Dimensional Motion Models.M. Digital Image Processing with MATLAB and Labview – Vipula Singh. UNIT -IV: Basic Steps of Video Processing: Analog Video. . th 6. Wavelet coding. 5. Multidimentional Signal. Spatial and Temporal redundancy. 2009. . Filtering operations. Basic relationship between pixels. TEXT BOOKS: 1. UNIT –III: Image Compression: Image compression fundamentals . Video Processing and Communication – Yao Wang. Photometric Image Formation. REFRENCE BOOKS: 1. Multi resolution motion estimation. Fundamentals of Spatial filtering. Frequency domain methods: Basics of filtering in frequency domain. 3rd Ed. Image Segmentation: Segmentation concepts. 1 Ed. Smoothing spatial filters. UNIT –II: Image Enhancement: Spatial domain methods: Histogram processing. Sampling of Video signals. Elsevier. Image and Video Processing and Coding – John Woods. Pearson. 3. nd 4. Thresholding. General Methodologies.Esakkirajan. Tekalp. 5 Ed.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Digital Image Processing and Analysis-Human and Computer Vision Application with CVIP nd Tools – Scotte Umbaugh.Coding Redundancy. Video Demystified – A Hand Book for the Digital Engineer – Keith Jack. Lossy Predictive coding. Line and Edge Detection. Predictive coding. st 2. Digital Video Processing – M.. Geometric Image Formation. Waveform based coding. Joem Ostermann and Ya–quin Zhang. Pixel Based Motion Estimation. Digital Image Processing – S. 2. Bit plane coding. T... PH Int.Tech. Region based segmentation. UNIT –V: 2-D Motion Estimation: Optical flow. 2 Ed.Jayaraman. Transform coding. Digital Image Processing – Gonzaleze and Woods. S. Prentice Hall International. Neyman-Pearson Classifier. UNIT –V: Estimating the Parameters of Random Processes from Data: Tests for Stationarity and Ergodicity. USA.Srinath.K. Estimation and Data Analysis . General Calculation of Probability of Error. Addison Wesley.M.M. Breipohl. Estimation and Detection . 2011. PHI. Bayes Decision Rule. UNIT –III: Linear Minimum Mean-Square Error Filtering: Linear Minimum Mean Squared Error Estimators. Markov Sequences and Processes. . Innovations. Introduction to Statistical Signal Processing with Applications . Multiple Linear Regression. Digital Wiener Filters with Stored Data. UNIT –II: Detection Theory: Basic Detection Problem. Estimation and Time Series Analysis – Louis L.minimum probability error with and without equal a priori probabilities. Random Signals: Detection. Simple Linear Regression. Ltd. UNIT –IV: Statistics: Measurements. Wiley India Pvt.Scharf. 5. 1991. Real-time Digital Wiener Filters. Wiley India Pvt.I) UNIT –I: Random Processes: Discrete Linear Models. Statistical Signal Processing: Detection. Van Trees. Nonlinear Minimum Mean Squared Error Estimators.Kay. Sam Shanmugan & A. TEXT BOOKS: 1.M. Model-free Estimation. REFERENCE BOOKS: 1. Multiple-Class Problem (Bayes). 2010.Tech. 1975. Minimum Probability of Error Classifier.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. 2001. John Wiley & Sons. Prentice Hall. 4. Detection. USA. 3. Ltd.Lonnie C. Maximum A posteriori Decision Rule. 6. Power Special Density Functions. Random Processes: Filtering.Kay. Measures of the Quality of Estimators. Kalman Filters. Rajasekaran. 2.. 2. USA. Ludeman. 1998.M. and Gaussian Processes. Estimation and Modulation Theory: Part – I – Harry L. Viswanathan. Model-based Estimation of Autocorrelation Functions. Point Processes. 2003. Prentice Hall. Tech – I Year – I Sem. Point Estimators of Parameters. Leonard Shaw. Nonparametric Estimators of Probability Distribution and Density Functions. Fundamentals of Statistical Signal Processing: Volume I Estimation Theory– Steven. . Fundamentals of Statistical Signal Processing: Volume I Detection Theory– Steven. Mc Graw Hill. 1998. (WMC) DETECTION AND ESTIMATION THEORY (ELECTIVE . Introduction to Interval Estimates. General Gaussian Problem. Tests of Hypotheses. Signal Processing: Discrete Spectral Analysis – Detection & Estimation – Mischa Schwartz. Distribution of Estimators. Composite Hypotheses. Gambler’s ruin as a Markov chains UNIT -V: Basic Queuing Theory: Elements of a Queueing System. Some special cases: The Poisson process. TEXT BOOKS: 1.M.Tech. The Cross Power Spectral Density. the relation between the spectral density for the input and for the output UNIT -IV: Markov Chains: Markov Processes: Discrete time Markov chains. Goodman . Elsevier. Ibe. Woods. UNIT -III: Random Processes Analyzed in the Frequency Domain: The Fourier Transform. Probability and Random Processes for Electrical Engineering .Delay Distribution in M/M/1 System. 3 Edition. Computer Methods for Generating Random Variables. M/M/1. Expected Value of Random Variable. Linear Systems with random input: Impulse response. the Normal (Gaussian) Process. Probability. M/M/1 System with Finite Capacity. UNIT -II: Random Processes Analyzed in the Time Domain: Continuous and Discrete Time. David J. Multidimensional Random variables. limiting state probabilities. state transition probability matrix. Fundamentals of Applied Probability and Random Processes – Oliver C. differentiation. P. M/G/1 Queueing system. Probability and Random Processes with Applications to Signal Processing – Henry Stark. S. rd John W. Pearson REFERENCE BOOKS: 1.Third edition or later – New York – McGraw-Hill 2. Chi-square tests of hypotheses concerning distribution. Transfer function. Markov and Chebyshev Inequalities.I) UNIT -I: Stationary Random Processes from a Probability Point of View: Probability Density and Probability Distribution Functions of a Random Variable. n-step state transition probability. Stationarity. Spectral Density. Random Variables and Stochastic Processes – Athanasios Papoulis. Integrals of Random Processes. Probability and Stochastic Processes – A Friendly Introduction for Electrical and Computer Engineers – Roy D. transition diagrams. Little’s Formula. (WMC) RANDOM PROCESSES AND TIME SERIES ANALYSIS (ELECTIVE .Residual Service Time.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Auto Covariance and Auto Correlation functions. . Queue. 2008 2. Random Variables. Unnikrishna Pillai – TMH.Alberto Leon-Garcia. Yates. Pearson 3. Probability. Continuous-time Markov chains. 2009 nd 3. classification of states. Tech – I Year – I Sem. 2 Ed. Mean Delay in M/G/1 Systems. Continuity. and Random Signal Principles – Peebles. Z (1993). Tech – I Year – I Sem. Low phase noise oscillator design. Low noise amplifiers. Power amplifier design.Active Filters . John Wiley & Sons REFERENCE BOOKS: 1. High frequency Oscillator configuration. Sawyer.Image Reject and Harmonic mixers. PLL Synthesizer. LC Oscillators. Radio frequency and microwave electronics illustrated Mathew M. Scattering Parameters. TEXT BOOKS: 1. RF Diodes – BJTs. 5. 2008. Interconnectivity networks. Stability Considerations. MMIC amplifiers. Vectors. PE Asia Publication.Special Termination Conditions. Small Signal amplifier design. 2 Edition. .M. UNIT -V: Oscillators: Oscillator basics.Tunable filters – Power Combiners / Dividers – Directional Couplers – Hybrid Couplers – Isolators. Network properties and Applications. Broadband High Power multistage amplifiers.HEMTs and Models.Tech. RF Circuit Design – Christopher Bowick.III: Matching and Biasing Networks: Impedance matching using discrete components – Micro strip line matching networks. Frequency domain considerations.Voltage and Current in capacitor circuits – Tuned RF / IF Transformers.Active mixers. Wiley Student Edition. and Direct Digital Synthesizer. Cheryl Aljuni and John Biyler. UNIT -IV: RF Transistor Amplifier Design: Characteristics of Amplifiers . (WMC) RF CIRCUIT DESIGN (ELECTIVE .2 by Less Besser and Rowan Gilmore. 2001. RF Circuit design: Theory and applications by Reinhold Ludwing. Complete Wireless Design by Cotter W.Micro Strip Transmission Lines.Crystal and Saw filters. Misra. Secrets of RF Design by Joseph Carr. Tab Electronics. Radio Frequency and Microwave Communication Circuits – Analysis and Design – Devendra K. 2. Elsevier Science. units and Physical Constants. 3 Edition. .I) UNIT -I: Introduction to RF Electronics: The Electromagnetic Spectrum.Amplifier Circuit Configurations. 2. RF Passive & Active Components: Filter Basics – Lumped filter design – Distributed Filter Design – Diplexer Filters. VGA Amplifiers. UNIT. nd 4. VCOs. Crystal Oscillators. Inductors and Capacitors . RF Mixers: Basic characteristics of a mixer . rd 3.Radmangh. Amplifier Matching Basics.sourced and Loaded Transmission Lines. Pavel Bretchko. UNIT -II: Transmission Line Analysis: Examples of transmission lines.Transmission line equations and Biasing. Pearson Education Asia Publication..WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Microwave bands – RF behavior of Passive components: Tuned resonant circuits. Amplifier classes of Operation and Biasing networks.FETs. New Delhi 2001. Distortion and noise products. Mc-Graw Hill. Single And Multiport Networks: The Smith Chart. Practical RF Circuit Design for Modem Wireless Systems Vol. Diffserv. TEXT BOOK: Carrier Grade Voice over IP – Daniel Collins. H.323 and SS7. 2nd ed.Based Routing.Usage of SDP With SIP.Overview of SIP Messaging SyntaxExamples of SIP Message sequences. Finnevan.SCTP. UNIT –III: The Session Initiation Protocol (SIP): SIP architecture.Tech. . The Real-time Transport Protocol (RTP). UNIT -II: H. 1 Ed..Label Distribution Protocols and Constraint.Proxy Servers. 2008. REFERENCE BOOKS: st 1 Understanding Voice over IP Technology – Nicholas Wittenberg – Cengage.245 Standards: The H.The Message Transfer Part (MTP).II) UNIT –I: Overview of IP Protocol Suite: The Internet Protocol. The VoIP Market.323 and H. ISDN User Part (ISUP) and Signaling Connection Control Part (SCCP). F. .Sigtran Architecture. IP multicast.The MPLS Architecture.MPLS Traffic Engineering. UNIT -IV: Quality of Service (QoS): Need for QOS – End-to-end QoS. Sigtran. TMH. IP version 6 ( IP v6).323 Architecture. UNIT -V: VoIP and SS7: The SS7 Protocol Suite. (WMC) VOICE OVER INTERNET PROTOCOL (VoIP) (ELECTIVE .M2PA Operation.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Interworking IPv4 and IPv6. Call Signaling-Call Scenarios.M2UA Operation. SS7 Network Architecture.SS7 Addressing.Service Control Point(SCP). Overview of QOS solutions. 2010.. Tech – I Year – I Sem.M.The Decomposed Gateway. The User Datagram Protocol (UDP). 2 Voice Over WLANS – The Complete Guide – Michael.Signaling Points( SPs)Single Transfer Point (STP).Interworking H.Multi-protocol Label Switching ( MPLS). VoIP Challenges.The Diffserv Architecture. Performance Requirements for SS7. The Transmission Control Protocol(TCP).M3UA Operation.Interworking SS7 and VoIP ArchitecturesInterworking Soft switch and SS7.245 Control Signaling Conference calls. ISUP. . The Session Description Protocol (SDP).The Resource reservation Protocol (RSVP). Elsevier.Message Signal Units (MSUs).Redirect Servers. 2 Edition. Characteristics. Applications. rain induced cross polarization interference. TT&C subsystem. Satellite Communications Engineering – Wilbur. Differential GPS. nd Suyderhoud. Design of satellite Links for a specified C/N. Digital Satellite Communications – Tri. 2. John Wiley & Sons. Digital Satellite Communications-Tri. Packet Reservation. GPS C/A Code Accuracy. Attitude Control subsystem. 1996. Antennas. 1990. 2003. Placement of a Satellite in a Geo-Stationary orbit. PURE ALOHA-Satellite Packet Switching. 4. Tracking Systems. nd 2. Mc. Tropospheric and Ionospeheric Scintillation and Low angle fading.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Coverage angle and slant Range. nd 3. . Satellite Frequency Bands. 2 Edition. Satellite Switched TDMA.Frame Structure. On-board Processing. Power Test Methods. MGH. Eclipse. Nelson and Heuri G. Power systems. PHI. Slotted Aloha. Communication subsystems. Satellite Link: Basic Transmission Theory. Receivers. Basic Link Analysis. Satellite Antenna Equipment. 2 Edition. effects of Orbital Inclination. CDMA Spread Spectrum Transmission and Reception. 2 Ed. Lower Orbit Considerations. Link Budget. GPS Receivers. (With and without frequency Re-use). Message Transmission by TDMA. nd 3. Satellite Navigation and Global Positioning Systems: Radio and Satellite Navigation. TEXT BOOKS: nd 1. 2 Ed. Orbital Period and Velocity. Satellite Communications –Timothy Pratt. UNIT -II: Satellite Sub-Systems: Attitude and Orbit Control system. Ha. Richcharia. REFERENCE BOOKS: nd 1.Tech. Terrestrial Interface. Demand Assignment Multiple Access (DAMA) – Types of Demand Assignment. UNIT -III: Propagation Effects: Introduction. Cloud Attenuation. Satellite Communications-Dennis Roddy. L. Atmospheric Absorption. Burst Structure. System Noise Temperature and G/T ratio.Graw Hill. 2004. GPS Position Location Principles. T.II) UNIT -I: Communication Satellite: Orbit and Description: A Brief history of satellite Communication. 1990. Azimuth and Elevation. Time Division Multiple Access (TDMA) . BSP. Pritchand. N. (WMC) SATELLITE COMMUNICATIONS (ELECTIVE . Raja Rao. Satellite Communications: Design Principles – M. McGraw Hill.Intermodulation. Orbital Perturbations. Rain induced attenuation.T. Charles Bostian. Calculation of C/N. Robert A. . Tech – I Year – I Sem. Multiple Access: Frequency Division Multiple Access (FDMA) .. UNIT -IV: Earth Station Technology: Transmitters... Jeremy Allnutt. Interference Analysis.M. Pearson Publications. 2 Ed.Ha. Fundamentals of Satellite Communications – K. Satellite Systems. 2003. UNIT -V: Satellite Packet Communications: Message Transmission by FDMA: M/G/1 Queue. Tree Algorithm. UNIT -V: Performance of Spread Spectrum Systems in Jamming Environments: Spread Spectrum Communication System Model. st 2.” Cambridge University Press. 2005. Linear Suboptimal Detectors.“Introduction to Spread Spectrum st Communication. 1995. Maximal Length Sequences. Mc Gillem . Rodger E Ziemer. Performance of Spread Spectrum Systems with Forward Error Correction: Elementary Block Coding Concepts. Tau-Dither Non. Calculation of Error Probability.” Elsevier Publications. 5. Double Dither Non-Coherent Tracking Loop. UNIT -IV: Cellular Code Division Multiple Access (CDMA) Principles: Introduction. 1986. 2008. Single User Receiver in a Multi User Channel. Optimum Decoding Rule. Pseudo Noise Sequences. Frequency Hop Spread Spectrum. Multi-User Detection in CDMA Cellular Radio: Optimal Multi-User Detection.” McGraw Hill. 4. Definitions.Spread Spectrum CDMA. UNIT -III: Initial Synchronization of the Receiver Spreading Code: Introduction.“CDMA: Principles of spread spectrum communication.M. Synchronization using a Matched Filter. Wide Band Mobile Channel. Peterson and David E Borth . TEXT BOOKS: 1. Serial Search Synchronization Techniques. . Performance of Spread Spectrum Systems without Coding.” Pearson Education. .Pearson. Cooper. Andrew Richardson . Viterbi .“Wireless Digital Communications. Hybrid Direct Sequence Frequency Hop Spread Spectrum.” PHI. Synchronization by Estimated the Received Spreading Code. Mathematical Background and Sequence Generator Fundamentals.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Tech – I Year – I Sem. 1 Edition. Steve Lee . Interference Cancellation Techniques.“WCDMA Design Handbook.Coherent Tracking Loop. Kamilo Feher .Tech. Decoding and Bit-Error Rate. Code Division Multiple Access. Base Band Delay-Lock Tracking Loop. 2. Interference Combat Detection Schemes. Binary Shift Register Sequences for Spread Spectrum Systems: Introduction. (WMC) SPREAD SPECTRUM COMMUNICATIONS (ELECTIVE –IV) UNIT -I: Introduction to Spread Spectrum Systems: Fundamental Concepts of Spread Spectrum Systems. Viterbi Algorithm. Optimum Tracking of Wideband Signals. Problem Definition and the Optimum Synchronizer. The Cellular CDMA System. CDMA System Capacity. UNIT -II: Code Tracking Loops: Introduction.“Modern Communication and Spread Spectrum. Clare D. Mosa Ali Abu-Rgheff – “Introduction to CDMA Wireless Communications. 2009. Andrew j. Roger L. George R. Gold Codes. REFERENCE BOOKS: 1. 3. McGraw Hill. 2002. 1995. Elementary Convolution Coding Concepts. Direct Sequence Spread Spectrum. 1 Edition. 8. 6. 15.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. 14. (WMC) COMMUNICATION LAB . Optimum receiver for the AWGN channel. Generation of constant envelope PSK signal wave form for different values of M. 7. 9.I Note: A. 2. Tech – I Year – I Sem. Measurement of effect of Inter Symbol Interference. 5.Tech. 1. 3. Design FIR (LP/HP/BP) filter using Window method. All Experiments may be Simulated using MATLAB and to be verified using related training kits.M. Simulation of PSK system with M=4 Simulation of DPSK system with M=4 Design of FSK system Simulation of correlation type demodulation for FSK signal BPSK Modulation and Demodulation techniques QPSK Modulation and Demodulation techniques DQPSK Modulation and Demodulation techniques 8-QAM Modulation and Demodulation techniques DQAM Modulation and Demodulation techniques Verification of Decimation and Interpolation of a given signal Power spectrum estimation using AR models . 16. 4. Minimum of 10 Experiments have to be conducted B. 13. 10. . Implementation of Matched Filters. 12. 11. Inc. Phased-Burst –ErrorCorrecting Cyclic and Convolutional codes.Bernard Sklar. PE. Burst-Error-Correcting Convolutional Codes. (WMC) CODING THEORY AND TECHNIQUES UNIT -I: Coding for Reliable Digital Transmission and Storage: Mathematical model of Information. Wiley India. 2006. TMH. Syndrome and Error Detection. Decoding .Fundamentals and Applications –Shu Lin.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. . Prentice Hall. Hamming Codes. th 2. Error Control Strategies. 2008. Types of Errors. Digital Communications. Proakis.John G.Cyclic Hamming Codes. Error Correcting Coding Theory-Man Young Rhee. Applications of Convolutional codes in ARQ system. Tech – I Year – II Sem. Syndrome Computation and Error Detection. Majority.Syndrome Computation and Iterative Algorithms. Encoding. REFERENCE BOOKS: 1. Error Correction Coding – Mathematical Methods and Algorithms – Todd K. SingleBurst-Error-Correcting Cyclic codes. Minimum Distance of a Block code. Application of Viterbi Decoding and Sequential Decoding. Error Location Polynomials and Numbers for single and double error correction TEXT BOOKS: 1. Information Theory. Sequential decoding. Error Control Coding. Error-trapping decoding for cyclic codes. Minimum distance and BCH Bounds. Average and Mutual Information and Entropy. Daniel J. Interleaved Cyclic and Convolutional Codes.M. 2009. 3. . Introduction to Error Control Codes-Salvatore Gravano-Oxford 4. Coding and Cryptography – Ranjan Bose. Decoding Procedure for BCH Codes.1989. UNIT –IV: Burst –Error-Correcting Codes: Decoding of Single-Burst error Correcting Cyclic codes. Linear Block Codes: Introduction to Linear Block Codes. Probability of an undetected error for Linear Codes over a BSC. UNIT –III: Convolutional Codes: Encoding of Convolutional Codes. Generator and Parity-check Matrices. Majority logic decoding for cyclic codes.Costello. TMH. 5 Ed.Definition. Shortened cyclic codes. Standard array and Syndrome Decoding. UNIT -V: BCH – Codes: BCH code. 2 Edition.Tech. A Logarithmic Measure of Information. maximum likelihood decoding. 2.. McGraw-Hill Publishing. nd 5. Bounds on Burst Error-Correcting Capability. Digital Communications-Fundamental and Application .logic decoding of Convolution codes.Moon. Structural and Distance Properties. Applications of Block codes for Error control in data storage system UNIT –II: Cyclic Codes: Description.Jr. Error-Detecting and Error-correcting Capabilities of a Block code. Time Diversity.b. slow fading. WLAN Standard IEEE 802. Wireless Communication and Networking – William Stallings. Wireless Digital Communications – Kamilo Feher. Power Control for Reducing interference. 2002. 2. PHI. Handoff Strategies. Rappaport. Training A Generic Adaptive Equalizer. 1999. PCS Extension to Hata Model. PE. 2 Ed. Diversity Techniques-Derivation of selection Diversity improvement. Wireless PANs. Frequency selective fading.LongleyRyce Model. Pearson Education. Wideband PCS Microcell Model.11 a.IEEE 802. Practical Space Diversity ConsiderationSelection Diversity. Relating Power to Electric Field. UNIT -IV: Equalization and Diversity: Introduction. Hiper Lan. Ground Reflection (Two-Ray) Model. Wireless Communication – Upen Dalal. WLAN Topologies. Small-Scale Multipath Measurements-Direct RF Pulse System. 2012. Types of Small-Scale Fading-Fading effects Due to Multipath Time Delay Spread. Knife-edge Diffraction Model. Principles.16 and its enhancements. REFERENCE BOOKS: 1. The Three Basic Propagation Mechanisms. 5. RAKE Receiver.Prioritizing Handoffs. Parameters of Mobile Multipath Channels-Time Dispersion Parameters. Log-distance path loss model. Tech – I Year – II Sem. Multiple knife-edge Diffraction. Indoor Propagation Models-Partition losses (Same Floor). 4. Equalizers in a communication Receiver. Oxford Univ. Krishna Murthy. Ray Tracing and Site Specific Modeling. Diffraction-Fresnel Zone Geometry. Wireless Communications.M. Frequency Domain Channels Sounding. Interference and system capacity – Co channel Interference and system capacity.g and n standards.11. Practice – Theodore. Maximal Ratio Combining. Partition losses between Floors. Frequency Reuse. .WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Impulse Response Model of a multipath channel. Improving Coverage & Capacity in Cellular Systems. Practical Handoff Considerations. 3. Outdoor Propagation Models. Wireless Communications-Andrea Goldsmith. PHI. Statistical Models for multipath Fading Channels-Clarke’s model for flat fading. Reflection-Reflection from Dielectrics. Recursive least squares algorithm. Adjacent Channel interference . Mobile Cellular Communication – Gottapu Sasibhushana Rao. Equal Gain Combining. Scattering. Doppler Spread and Coherence Time. Doppler shift. Wireless Communications and Networking – Vijay K..Relationship between Bandwidth and Received power. Spread Spectrum Sliding Correlator Channel Sounding. Brewster Angle. Walfisch and Bertoni Model. Coherence Bandwidth. Fading effects Due to Doppler Spread-Fast fading.Tech. Simulation of Clarke and Gans Fading Model. Frequency Diversity. PHI. Elsevier. (WMC) WIRELESS COMMUNICATIONS AND NETWORKS UNIT -I: The Cellular Concept-System Design Fundamentals: Introduction. Maximum Likelihood Sequence Estimation (MLSE) Equalizer. Comparision of IEEE 802. Sectoring . Signal penetration into buildings. Polarization Diversity. UNIT –II: Mobile Radio Propagation: Large-Scale Path Loss: Introduction to Radio Wave Propagation. spectral shape due to Doppler spread in Clarke’s model. Channel Assignment Strategies. Fundamentals of Equalization. Gary. UNIT -V: Wireless Networks: Introduction to wireless Networks. Two-ray Rayleigh Fading Model. Least Mean Square Algorithm. Level crossing and fading statistics. Free Space Propagation Model. Ericsson Multiple Breakpoint Model. Feedback or Scanning Diversity. Okumura Model. UNIT –III: Mobile Radio Propagation: Small –Scale Fading and Multipath: Small Scale Multipath propagation-Factors influencing small scale fading. IEEE 802. Trunking and Grade of Service. Derivation of Maximal Ratio Combining improvement. Press. Algorithms for adaptive equalization-Zero Forcing Algorithm. 2002. Reflection from prefect conductors. Channel planning for Wireless Systems.11 Medium Access Control. Attenuation Factor Model. Hata Model. 2003. Flat fading.Cell Splitting. TEXT BOOKS: nd 1. . S. Principles of Wireless Networks – Kaveh Pah Laven and P. Advantages and disadvantages of Wireless Local Area Networks. WLL. Linear Equalizers. Non linear EqualizationDecision Feedback Equalization (DFE). 2005 Cambridge University Press. 3. 2. Rajiv Ramaswami and Kumar N. Optical Fiber Communications and Its Applications – S. 2nd Ed. Single Side Band and Multilevel Schemes. nd 4. Fabry-Perot Filters. PEI. 2 Ed. Optical Networks: A Practical Perspective . Non Linear effects. TMH. Optical Fiber Communications – Govind Agarwal. Optical Amplifiers. Four Wave Mixing. 2000. Optical Fiber Communications: Principles and Practice – John. 5. PHI. nd Sivarajan. Self Phase Modulation and Cross Phase Modulation. Bit Error Rates. ReedSolomon Codes for Error Detection and Correction. Wavelength Stabilization against Temperature Variations. Optical Networks: Third Generation Transport Systems – Uyless Black. Cascaded Filters. 2 Ed. All Optical Networks. Arrayed Waveguide Grating. UNIT –II: Fiber Optic Components for Communication & Networking: Couplers. Elsevier Morgan Kaufmann Publishers. Tech – I Year – II Sem.Gupta. Bragg Gratings. (WMC) OPTICAL COMMUNICATIONS TECHNOLOGY UNIT –I: Signal Propagation in Optical Fibers: Geometrical Optics approach and Wave Theory approach.. 2004. Dispersion Limitations and Compensation Techniques. Overall System Design considerations – Fiber Dispersion. PEI nd 3. Optical Modulations – Duobinary. Optical Amplifiers.Tech. Direct and External Modulation Transmitters. Principle of Solitons. Tunable Filters.. Crosstalk and Reduction of Crosstalk. Non-Linear Effects.. 2004.M. Propagation in a Non-Linear Medium. UNIT –V: Fiber Non-linearities and System Design Considerations: Limitation in High Speed and WDM Systems due to Non-linearities in Fibers. rd 2. Loss and Bandwidth. 3 Ed. TEXT BOOKS: 1. Wavelengths.C... 2 Ed. Pump Sources for Amplifiers. Mach Zender Interferometers. Power Penalty in Transmitter and Receiver. 2009. 2nd Ed. Optical Switches and Wavelength Converters. Isolators and Circulators. Timing Recovery and Equalization. 2. Fiber Optics Communication – Harold Kolimbris. 2000. Multiplexers. . PE.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Ideal and Practical receivers for Demodulation. Modulation. UNIT –III: Modulation and Demodulation: Signal formats for Modulation. Optical Fiber Communications – Gerd Keiser.Senior. High Channel Count Multiplexer Architectures. Chromatic Dispersion. REFERENCE BOOKS: 1.Stimulated Brillouin and Stimulated Raman Scattering. 2004. McGraw Hill.. Subcarrier Modulation and Multiplexing. . UNIT -IV: Transmission System Engineering: System Model. 2004.M. Audio.Stage Networks. Transmission Plan.J.B. Gradings. Combination Switching. (WMC) TELECOMMUNICATION SWITCHING SYSTEMS AND NETWORKS UNIT -I: Introduction: Evolution of Telecommunications. John Wiley. Principles of Crossbar Switching. FDM Carrier Systems.. Distributed SPC. ISDN Standards. Basic Time Division Time Switching.Tech. New Services.Frequency Junctions and Trunk Circuits. Common. Link Systems. Numbering Plan.Achyut S.Area Networks. Telecommunication System Engineering – Roger L.J. Cellular Mobile Telephony Signaling: Customer Line Signaling. Bellamy. Touch Tone Dial Telephone. Basics of Switching System. A Mathematical Model. Godbole. TMH.Register Signaling. Local.Stage Combination Switching. th 5. Time Division Switching: Basic Time Division Space Switching. Forouzan. 2000. Enhanced Services. Switching Networks: Single. Use of Expansion.Network Interfaces.Stage Networks. PCM Signaling. n. Schilling.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Time Multiplexed Time Switching. Transmission Systems.Area and Wide. Integrated Services Digital Network: Motivation for ISDN. Application of Graph Theory to link Systems. TMH. 2004. . 2006. CCITT Signaling System no. REFERENCE BOOKS: nd 1. Telecommunication Switching Systems and Networks. Transmission Channels. Grades of service of link systems. ThreeStage Combination Switching. User. 2003. 2004. Simple Telephone Communication. Major Telecommunication Networks. 2004. TMH. TEXT BOOKS: 1.Sense non-blocking Networks. Cross point Technology. Interworking.6. Centralized SPC. Digital Telephony. n. Congestion. Taub & D. Expert Systems in ISDN. John Wiley & Sons. Time Multiplexed Space Switching. CCITT Signaling System no. Switching Hierarchy and Routing. Signaling. Lost-call Systems. Broadband Networks. Data Communications and Networks.Thiagarajan Viswanathan. UNIT -III: Telephone Networks: Subscriber Loop System. 3. Charging Plan. E. Data Communication & Networking. Large-scale Networks. Call Packing.M. 2 Edition. Telecommunications Switching. 2nd Edition. PHI. Principles of Communication Ststems. Inter. Crossbar Exchange Organization. Signaling Techniques. Queuing Systems. Manual Switching System. Application Software. Crossbar Switching: Principles of Common Control. Common Channel Signaling. rd 4. Three-Stage Networks. Freeman. 4 Ed. UNIT -II: Electronic Space Division Switching: Stored Program Control. . Rearrangeable Networks. Sectionalized Switching Networks UNIT -V: Telecommunications Traffic: The Unit of Traffic. Wiley-Inter Science. 3 Edition.7. Traffic and Networks.Digital Customer Line Signaling.Channel Signaling Principles. Strict. UNIT -IV: Packet Switching: Statistical Multiplexing. A. Crossbar Switch Configurations. 2. Broadband ISDN. 2001. Traffic Measurement. Flood. Network and Protocol Architecture. Two-Stage Networks. In-channel Signaling. Numbering and Addressing. Tech – I Year – II Sem. Voice Data Integration. Service Characterization. Pearson Education. 2.H. Software Architecture. Physical Layer. Elsevier Morgan Kaufmann Publishers (An Imprint of Elsevier). Optical Networks: A Practical Perspective .Tech.. UNIT -II: WDM Network Elements and Design: Optical Line Terminals and Amplifiers. Sivarajan. PE. Networks – Timothy S. 4. UNIT –III: Network Control and Management: Network Management Functions. . Header Processing. 2004.. UNIT –IV: Network Survivability: Basic Concepts of Survivability. PEI. IP – Routing. Performance and Fault Management. WDM Optical Networks: Concepts. 2009. 2004. nd 2. PEI. 3. PEI. Add/Drop Multiplexers. QoS.. 2004. ATM – Functions. Optical Fiber Communications: Principles and Practice – John. MPLS.Gupta. th 6. Adaptation layers. (WMC) OPTICAL NETWORKS (ELECTIVE – III) UNIT –I: Client Layers of Optical Networks: SONET / SDH – Multiplexing. Dimensioning – Wavelength Routing Networks. Buffering.. Burst Switching.Senior. 2nd Ed. Storage Area Networks – ESCON. . Gigabit Ethernet. Optical Networks: Third Generation Transport Systems – Uyless Black.2000. Freeman. 2004. John Wiley & Sons. Optical Fiber Communications and Its Applications – S. Test Beds. Frame Structure. 2004. TMH. nd 3... Tech – I Year – II Sem. Protection in IP Networks. Layers within Optical Layer.C. LTD and RWA Problems. 2 ed. Enhanced HFC.M. Protection in SONET/SDH Links and Rings. REFERENCE BOOKS: nd 1. Configuration Management. Telecommunication System Engineering – Roger L. Wiley-Interscience. 2 Ed. FTTC. Interworking between Layers. Multivendor Interoperability. Fiber Channel.M. Statistical and Maximum Load Dimensioning Models.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Infrastructure. TEXT BOOKS: 1. PHI. Optical Fiber Communications – Govind Agarwal. HIPPI. 2nd Ed. Design and Algorithms – C. QoS. 2003. Cost trade-offs in Network Design. Fiber Optics Communication – Harold Kolimbris. PEI. 2004. Photonic Packet Switching – OTDM. Synchronization. 4 Ed.. 5. 2 Ed.Rajiv Ramaswami and Kumar N. Ramteke. Optical Layer Protection – Service Classes. Protection Schemes. Optical Layer Services and Interfacing. UNIT –V: Access Networks and Photonic Packet Switching: Network Architecture. Optical Safety. Siva Rama Murthy and Mohan nd Guruswamy 2 Ed. Optical Cross Connects. 2 Ed.. 2. Flow Control Signaling and Routing. GPS.323 and SIP – Real Time protocols – Convergence Technologies – Call Routing – Voice over IP Applications – IP multimedia subsystem (IMS) – Mobile VoIP Security Issues in Mobile Computing: Introduction – Information Security – Security Techniques and Algorithms – Security Protocols – Public Key Infrastructure – Trust – Security Models – Security frameworks for Mobile Environment TEXT BOOKS: 1. Alexander Damn Jaonvic – Pearson 2. The CDMA 2000 System for Mobile Communications – Vieri Vaughi. (WMC) MOBILE COMPUTING TECHNOLOGIES (ELECTIVE – III) UNIT –I: Introduction to Mobile Computing Architecture: Mobile Computing – Dialog Control – Networks – Middleware and Gateways – Application and Services – Developing Mobile Computing Applications – Security in Mobile Computing – Architecture for Mobile Computing – Three Tier Architecture – Design considerations for Mobile Computing – Mobile Computing through Internet – Making existing Applications Mobile Enabled. Roopa R Yavagal. 2008. Applications and Service Creation – Asoke K Talukder. Palm OS.M.Tech.323 Framework for Voice over IP – Session Initiation Protocol – Comparison between H. Mobile Communications – Jochen Schiller – 2 Edition – Pearson Education REFERENCE BOOKS: 1. Tech – I Year – II Sem. TATA McGraw Hill nd 2. UNIT –II: Cellular Technologies: GSM.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. 2009. Different flavors of Windows CE -Windows CE Architecture J2ME: JAVA in the Handset – The Three-prong approach to JAVA Everywhere – JAVA 2 Micro Edition (J2ME) technology – Programming for CLDC – GUI in MIDP – UI Design Issues – Multimedia – Record Management System – Communication in MIDP – Security considerations in MIDP – Optional Packages UNIT –V: Voice Over Internet Protocol and Convergence: Voice over IP. CDMA and 3G: Bluetooth – Radio Frequency Identification – Wireless Broadband – Mobile IP – Internet Protocol Version 6 (IPv6) – Java Card – GSM Architecture – GSM Entities – Call Routing in GSM – PLMN Interfaces – GSM addresses and Identifiers – Network aspects in GSM – Authentication and Security – Mobile computing over SMS – GPRS and Packet Data Network – GPRS Network Architecture – GPRS Network Operations – Data Services in GPRS – Applications for GPRS – Limitations of GPRS – Spread Spectrum technology – Is-95 – CDMA Versus GSM – Wireless Data – Third Generation Networks – Applications on 3G UNIT –III: Wireless Application Protocol (WAP) and Wireless LAN: WAP – MMS – Wireless LAN Advantages – IEEE 802.11 Standards – Wireless LAN Architecture – Mobility in wireless LAN Intelligent Networks and Interworking : Introduction – Fundamentals of Call processing – Intelligence in the Networks – SS#7 Signaling – IN Conceptual Model (INCM) – soft switch – Programmable Networks – Technologies and Interfaces for IN UNIT –IV: Client Programming. TMH . Symbian OS. GPRS. Mobile Computing – Technology.H. Win CE Architecture: Introduction – Moving beyond the Desktop – A Peek under the Hood: Hardware Overview – Mobile phones – PDA – Design Constraints in Applications for Handheld Devices – Palm OS architecture – Application Development – Multimedia – Symbian OS Architecture – Applications for Symbian. Adalestein : Fundamentals of Mobile & Parvasive Computing. . UNIT –IV: Quality of Service: Introduction. Key Management. Secure Routing in Ad Hoc Wireless Networks. MAC Layer Solutions. TCP in Wireless Domain. Siva Ram Murthy and B. PHI. Contention – Based MAC Protocols with Scheduling Mechanisms. Quality of a Sensor Network. Issues in Designing a Routing Protocol for Ad Hoc Wireless Networks. Hybrid Routing Protocols. Network Security Requirements. Hierarchical Routing Protocols. Transport Layer and Security Protocols: Introduction. Classifications of MAC Protocols.Based Protocols. WAP.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Design Goals of a Transport Layer Protocol for Ad Hoc Wireless Networks. Raghavendra. Data Gathering. Table –Driven Routing Protocols. AD Hoc Wireless Internet.Manoj. Issues in Ad Hoc Wireless Networks. Issues in Designing a Transport Layer Protocol for Ad Hoc Wireless Networks. Need for Energy Management in Ad Hoc Wireless Networks. Sivalingam. Classification of Routing Protocols. Wireless Internet: Wireless Internet. Bluetooth. Tech – I Year – II Sem. Toh . Other MAC Protocols. Wireless Ad. Data Dissemination.11 Standard. Security in Ad Hoc Wireless Networks. Fundamentals of WLANS. IEEE 802.Tech.K. Issues and Challenges in Security Provisioning. Issues and Challenges in Providing QoS in Ad Hoc Wireless Networks. (WMC) ADHOC AND WIRELESS SENSOR NETWORKS (ELECTIVE – III) UNIT-I: Wireless LANS and PANS: Introduction. C.C. Pearson Education. Evolving Standards. Network Security Attacks. HIPERLAN Standard.C. Performance and Control .S. Classification of QoS Solutions. Location Discovery. System Power Management Schemes. TEXT BOOKS: 1. Springer .hoc and Sensor Networks: Protocols. Transmission Power Management Schemes.Jagannathan Sarangapani. Contention . On – Demand Routing Protocols.M. Ad Hoc Wireless Networks: Architectures and Protocols . Contention . 2004. Other Issues. Sensor Network Architecture. CRC Press REFERENCE BOOKS: 1. Wireless Sensor Networks . UNIT-II: AD HOC Wireless Networks: Introduction. Krishna M. 2. MAC Protocols that use Directional Antennas. Network Layer Solutions.Hoc Mobile Wireless Networks: Protocols & Systems. MAC Protocols for Sensor Networks. UNIT -III: Routing Protocols: Introduction. Classification of Ad Hoc Wireless Networks.1 ed. Ad. Energy Management: Introduction. Home RF. Power – Aware Routing Protocols. MAC Protocols for Ad Hoc Wireless Networks: Introduction. Routing Protocols with Efficient Flooding Mechanisms. UNIT –V: Wireless Sensor Networks: Introduction. S. 2. Classification of Transport Layer Solutions. . Battery Management Schemes. Issues in Designing a MAC protocol for Ad Hoc Wireless Networks. Design goals of a MAC Protocol for Ad Hoc Wireless Networks. Optimizing Web Over Wireless. Mobile IP. QoS Frameworks for Ad Hoc Wireless Networks. Other Transport Layer Protocol for Ad Hoc Wireless Networks. TCP Over Ad Hoc Wireless Networks.Based Protocols with reservation Mechanisms. 2004. Secure Electronic Transaction. Block Cipher Principles. Message Authentication. Encapsulating Security Payload. CAST-128. Security services. Digital signature standards. Authentication. Blowfish.Tech. Steganography. A Model for Internetwork security. Public Key Cryptography: Principles. Authentication Applications: Kerberos. Message digest Algorithm. Secure Hash Algorithm. UNIT –V: IP Security: Overview. Services and Mechanisms. Fermat’s and Euler’s theorems. X. Tech – I Year – II Sem. Diffie-Hellman Key exchange. Strength of DES. Conventional Encryption: Placement of Encryption function. Traffic confidentiality. John Wiely . Data Encryption standard. PE. Secure sockets layer and Transport layer security. RC2. Security attacks. UNIT –III: Number Theory: Prime and Relatively prime numbers. Discrete logarithms.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Differential and Linear Cryptanalysis. Security of Hash functions and MACs.M. Testing for primality. Intruders. Classical Encryption Techniques. Fire Walls: Fire wall Design Principles. REFERENCE BOOK: Principles of Network and Systems Administration. S/MIME. Message authentication and Hash Functions: Authentication requirements and functions. . Architecture. Authentication Protocols. (WMC) NETWORK SECURITY AND CRYPTOGRAPHY (ELECTIVE – IV) UNIT –I: Introduction: Attacks. Hash functions. UNIT –IV: Hash and Mac Algorithms: MD File. Electronic Mail Security: Pretty Good Privacy. Key distribution.509 directory Authentication service. Key Management. TEXT BOOK: Cryptography and Network Security: Principles and Practice . Trusted systems. RC5. Characteristics of Advanced Symmetric block cifers. Random Number Generation. 2000. Key Management. HMAC. the Chinese remainder theorem. Modern Techniques: Simplified DES. UNIT –II: Algorithms: Triple DES. Combining security Associations. Classical Techniques: Conventional Encryption model. Web Security: Web Security requirements. Viruses and Worms: Intruders. Block Cipher Design Principles and Modes of operations. Elliptic Curve Cryptography. RIPEMD160. International Data Encryption algorithm.William Stallings. Digital signatures and Authentication Protocols: Digital signatures. Mark Burgess. Modular arithmetic. RSA Algorithm. Euclid’s Algorithm. Viruses and Related threats. WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. saunders. NonLinear Equalizers. 2009. line-of-sight models. 2007. Linear equalizers. Free Space Loss. measurement systems. 2009. Empirical Models. and Indoor link budgets. ITU-R models . Introduction of Mega cells. location variability. . Ultra wide band indoor propagation. Impact on coverage. Signal sampling issues. outdoor and indoor measurements. Models of Propagation into buildings. TEXT BOOKS: 1. and over all mobile satellite channel model. Physical basis for shadowing. 2nd Ed. Time diversity. Rayleigh. frequency diversity. UNIT –IV: Fast Fading: Narrow band fast fading channel. 2009.. Wireless Communication & Networks – Stallings. Sashibhushana Rao. 2.Diffraction – Principle and Single Knife Edge Diffraction. Impact of Measurement in accuracies. Definition of pathloss. Rice and Nakagani-m distribution.G. Noise Modelling. equipment calibration and validation. Tech – I Year – II Sem. Mobile Cellular Communications . Geometrical optics Principles. correlated shadowing. Pico Cells: Empirical models of propagation with in buildings. frequency domain effects and Bello functions. Adaptive Equalizers. Wiley Student Edition. Pearson Education. UNIT –III: Mega Cells: Shadowing and Fast fading. PhysicalStatistical models for built-up areas. REFERENCE BOOKS: nd 1. Narrow band fading channel. Polarization diversity. Statistical Models. Shadowing: Statistical characterization. Pearson Education. 1 Impression. and OFDM receivers.Tech.M. Physical models. Empirical Narrowband models. Rake receivers. Wireless Communications – SAHA – 2 Edition. physical models of indoor propagation. and combining methods Overcoming Wideband Fading: System modeling. comparison of models. Physical models. (WMC) PROPAGATION MODELS FOR WIRELESS COMMUNICATION (ELECTIVE – IV) UNIT -I: Basic Propagation Models: Reflection. 3. st 2. 2013. AWGN Channel. Refraction and Transmission. Antennas and Propagation for Wireless Communication Systems: Simon R. 2nd Ed. PHI. UNIT -V: Channel Measurements for Mobile Systems: Application for channel measurements. Wireless Communications: Principles and Practice – Rappaport. Alejandro Aragon-Zavala. . Wideband fast fading –Effect of wideband fading. Overcoming Narrowband Fading: Space diversity. Rough surface scattering. Non-line-of –sight models. Empirical Path Loss Models. wide band channel model and parameters. Plane Earth loss UNIT –II: Macro Cells: Definition of parameters. John Wiley & Sons. .Tech.Approaches to Direct Digital Synthesis. REFERENCE BOOKS: 1.Object Brokers. and ASICs. CHARIOT. What is Software Radio. SPEAK easyJTRS.Joint Tactical Radio System.Key Hardware Elements.Design Principles of Software Radio.Markus Dillinger.Jeffrey H.Timing Recovery in Digital Receivers Using Multirate Digital Filters. 1998.Razavi.The Purpose of RF Front – End. .Enhanced Flexibility of the RF Chain with Software Radios. Dynamic Range. 2002. Artech House.Common ADC and DAC architectures.Analog to Digital and Digital to Analog ConversionTechniques to improve data converter performance. 2003. Software Defined Radio: Architectures. UNIT -III: Analog to Digital and Digital to Analog Conversion: Parameters of ideal data convertersParameters of Practical data converters. Reed.Hybrid DDS-PLL Systems. SDR-3000 Digital Transceiver Subsystem. Systems and Functions . (WMC) SOFTWARE RADIO (ELECTIVE – IV) UNIT -I: Introduction: The Need for Software Radios. 4. UNIT -II: Multi Rate Signal Processing: Introduction. PEA Publication 2. RF Implementation issues.F. 2.M.Generation of Random Sequences.ROM Compression Techniques. 2002.The Principal Challenge of Receiver Design – RF Receiver Front.Microelectronics – B. Case Studies in Software Radio Design: Introduction and Historical Perspective. TEXTBOOKS: 1.Transmitter Architectures and Their Issues. Nancy Alonistioti. Wiley Publications.Field Programmable Gate Arrays.Mobile Application Environments.Comparison of Direct Digital Synthesis with Analog Signal Synthesis.DSP Processors.Paul Burns. Software Radio: A Modern Approach to Radio Engineering .Power Management Issues. McGraw-Hill. Digital Generation of Signals: Introduction.Band Pass Signal Generation.Mithra. DSP – A Computer Based Approach – S.Sample Rate Conversion Principles.Spurious Components due to Periodic jitter.Performance of Direct Digital Synthesis Systems. Spectrum Ware.Trade-Offs in Using DSPs. UNIT -V: Object – Oriented Representation of Radios and Network Resources: Networks.End Topologies.Analysis of Spurious Signals. R. III. Software Radio Architecture: Object Oriented Approaches to wireless System Enginering – Joseph Mitola. 2000.Applications of direct Digital Synthesis. 2002. Kambiz Madani.Polyphase FiltersDigital Filter Banks.Walter Tuttle Bee. Software Defined Radio for 3G . ADC and DAC Distortion. Characteristics and benefits of software radio.Using a Combination of DSPs.K. and ASICs.Object Oriented Programming. PHI 5.Noise and Distortion in the RF Chain. FPGAs.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Wireless Information Transfer System.Importance of the Components to Overall Performance. FPGAs. 3. Software Defined Radio: Enabling Technologies. 1998. Wiley. UNIT -IV: Digital Hardware Choices: Introduction. Tech – I Year – II Sem. Characteristics of LASER diode 13. Tech – I Year – II Sem. Determination of parameters using global positioning system trainer .Spectrum Technique Simulation of Frequency Hopping (FH) system Determination of Losses in Optical fiber Calculation of Numerical Aperture in Optical fibers Observing the waveforms at various test points of a mobile phone using Mobile Phone Trainer Study of direct sequence spread spectrum modulation and demodulation using CDMA-DSSSBER trainer 11. 8. 6. Minimum of 10 Experiments have to be conducted B. 2. All Experiments may be Simulated using MATLAB and to be verified using related training kits. Study of ISDN training system with protocol analyzer 12.M.WIRELESS AND MOBILE COMMUNICATIONS-R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. 5. 3. .Tech. Measurement of Bit Error Rate using Binary Data Verification of minimum distance in Hamming code Determination of output of Convolutional Encoder for a given sequence Determination of output of Convolutional Decoder for a given sequence Efficiency of DS Spread. 4. 9. 1. (WMC) COMMUNICATION LAB – II Note: A. 10. 7.
Copyright © 2024 DOKUMEN.SITE Inc.