Detailed Plan For Lectures

Week NumberLecture NumberBroad Topic(Sub Topic)Chapters/Sections of Text/reference booksOther Readings,Relevant Websites, Audio Visual Aids, software and Virtual LabsLecture DescriptionLearning OutcomesPedagogical ToolDemonstration/ Case Study / Images / animation / ppt etc. PlannedLive Examples

Week 1Lecture 1Fundamentals(Channel fade Statistics)T-1:1 1.1 1.1.1-1.1.3RW-1AV-3Lecture 1 should be used as lecture zero while lecture 2 should be used to cover Characteristics of Radio Channel, and Radio Channel ModelingFrom Lecture zero a students will understand about the objectives and the expected outcomes of the course and brief them about how the course would progress for the coming lectures and generate their curiosityA specially designed presentation should be used which contains animations and graphics so that intended objective and outcome of this course could be conveyedWireless LAN, Mobile phones, Radio Receiver, Satellite TV Receiver, WiMAX Technology WiFi , WMAN, LTE and 4G

Fundamentals(Radio channel characteristics)T-1:1 1.1 1.1.1-1.1.3RW-1AV-3Lecture 1 should be used as lecture zero while lecture 2 should be used to cover Characteristics of Radio Channel, and Radio Channel ModelingFrom Lecture zero a students will understand about the objectives and the expected outcomes of the course and brief them about how the course would progress for the coming lectures and generate their curiosityA specially designed presentation should be used which contains animations and graphics so that intended objective and outcome of this course could be conveyedWireless LAN, Mobile phones, Radio Receiver, Satellite TV Receiver, WiMAX Technology WiFi , WMAN, LTE and 4G

Fundamentals(Understanding radio channel)T-1:1 1.1 1.1.1-1.1.3RW-1AV-3Lecture 1 should be used as lecture zero while lecture 2 should be used to cover Characteristics of Radio Channel, and Radio Channel ModelingFrom Lecture zero a students will understand about the objectives and the expected outcomes of the course and brief them about how the course would progress for the coming lectures and generate their curiosityA specially designed presentation should be used which contains animations and graphics so that intended objective and outcome of this course could be conveyedWireless LAN, Mobile phones, Radio Receiver, Satellite TV Receiver, WiMAX Technology WiFi , WMAN, LTE and 4G

Fundamentals(Channel modelling)T-1:1 1.1 1.1.1-1.1.3RW-1AV-3Lecture 1 should be used as lecture zero while lecture 2 should be used to cover Characteristics of Radio Channel, and Radio Channel ModelingFrom Lecture zero a students will understand about the objectives and the expected outcomes of the course and brief them about how the course would progress for the coming lectures and generate their curiosityA specially designed presentation should be used which contains animations and graphics so that intended objective and outcome of this course could be conveyedWireless LAN, Mobile phones, Radio Receiver, Satellite TV Receiver, WiMAX Technology WiFi , WMAN, LTE and 4G

Lecture 2Fundamentals(Channel modelling)T-1:1 1.1 1.1.1-1.1.3RW-1AV-3Lecture 1 should be used as lecture zero while lecture 2 should be used to cover Characteristics of Radio Channel, and Radio Channel ModelingFrom Lecture zero a students will understand about the objectives and the expected outcomes of the course and brief them about how the course would progress for the coming lectures and generate their curiosityA specially designed presentation should be used which contains animations and graphics so that intended objective and outcome of this course could be conveyedWireless LAN, Mobile phones, Radio Receiver, Satellite TV Receiver, WiMAX Technology WiFi , WMAN, LTE and 4G

Fundamentals(Understanding radio channel)T-1:1 1.1 1.1.1-1.1.3RW-1AV-3Lecture 1 should be used as lecture zero while lecture 2 should be used to cover Characteristics of Radio Channel, and Radio Channel ModelingFrom Lecture zero a students will understand about the objectives and the expected outcomes of the course and brief them about how the course would progress for the coming lectures and generate their curiosityA specially designed presentation should be used which contains animations and graphics so that intended objective and outcome of this course could be conveyedWireless LAN, Mobile phones, Radio Receiver, Satellite TV Receiver, WiMAX Technology WiFi , WMAN, LTE and 4G

Fundamentals(Radio channel characteristics)T-1:1 1.1 1.1.1-1.1.3RW-1AV-3Lecture 1 should be used as lecture zero while lecture 2 should be used to cover Characteristics of Radio Channel, and Radio Channel ModelingFrom Lecture zero a students will understand about the objectives and the expected outcomes of the course and brief them about how the course would progress for the coming lectures and generate their curiosityA specially designed presentation should be used which contains animations and graphics so that intended objective and outcome of this course could be conveyedWireless LAN, Mobile phones, Radio Receiver, Satellite TV Receiver, WiMAX Technology WiFi , WMAN, LTE and 4G

Fundamentals(Channel fade Statistics)T-1:1 1.1 1.1.1-1.1.3RW-1AV-3Lecture 1 should be used as lecture zero while lecture 2 should be used to cover Characteristics of Radio Channel, and Radio Channel ModelingFrom Lecture zero a students will understand about the objectives and the expected outcomes of the course and brief them about how the course would progress for the coming lectures and generate their curiosityA specially designed presentation should be used which contains animations and graphics so that intended objective and outcome of this course could be conveyedWireless LAN, Mobile phones, Radio Receiver, Satellite TV Receiver, WiMAX Technology WiFi , WMAN, LTE and 4G

Lecture 3Spread Spectrum Techniques(Spread Spectrum Techniques)T-1:1 1.3-1.3.1AV-6Spread Spectrum Techniques, Direct sequence code division multiple accessAfter the topic, a student has in-depth knowledge about CDMA techniquesLecturing and Matlab simulationCDMA Mobile phone

Fundamentals(Multi-carrier channel modeling)T-1:1 1.1.4 - 1.1.6R-1:1.2AV-5AV-6Inter-Symbol (ISI) and Inter-Channel Interference (ICI), Multi-carrier channel modeling and Why bother with Spread spectrum system?After the topic, a student will learn about ISI and ICI, Multi-carrier channel modelingand the need of Spread spectrum systemLecturing and QuestioningCDMA Mobile phone

Fundamentals(Why bother with Spread spectrum system?)T-1:1 1.1.3R-4:1.2AV-5AV-6Inter-Symbol (ISI) and Inter-Channel Interference (ICI), Multi-carrier channel modeling and Why bother with Spread spectrum system?After the topic, a student will learn about ISI and ICI, Multi-carrier channel modelingand the need of Spread spectrum systemLecturing and QuestioningCDMA Mobile phone

Spread Spectrum Techniques(Direct sequence code division multiple access)T-1:1 1.3-1.3.1AV-6Spread Spectrum Techniques, Direct sequence code division multiple accessAfter the topic, a student has in-depth knowledge about CDMA techniquesLecturing and Matlab simulationCDMA Mobile phone

Fundamentals(Inter-Symbol (ISI) and Inter-Channel Interference (ICI))T-1:1 1.1.4 - 1.1.6R-1:1.2AV-5AV-6Inter-Symbol (ISI) and Inter-Channel Interference (ICI), Multi-carrier channel modeling and Why bother with Spread spectrum system?After the topic, a student will learn about ISI and ICI, Multi-carrier channel modelingand the need of Spread spectrum systemLecturing and QuestioningCDMA Mobile phone

Week 2Lecture 4Spread Spectrum Techniques(Frequency-Hopping Code division multiple access)T-1:1.3.2RW-2RW-3AV-6Frequency-Hopping Code division multiple access techniqueAfter the topic, a student has in-depth knowledge about FH-CDMA techniqueLecturing, Questioning and Image demonstrationCDMA Mobile Phones for data or voice communication

Spread Spectrum Techniques(Advantages and dis-advantages of DS-CDMA and FH-CDMA)T-1:1.3.2RW-2RW-3AV-6AV-8Advantages and dis-advantages of DS-CDMA and FH-CDMA TechniquesAfter the topic, a student has in-depth knowledge about Advantages and dis-advantages of DS-CDMA and FH-CDMA TechniquesLecturing, Questioning and Scientific Presentation

Lecture 5Spread Spectrum Techniques(Principles of various schemes)T-1:1.4 1.4.1-1.4.2Principles of various schemes of MC-CDMAAt the end of thislecture students willunderstand the Principles of various schemes of MC-CDMALecturing, Questioning,and Matlab Simulation3G CDMA mobile phone

Spread Spectrum Techniques(Advantages and Drawbacks)T-1:1.4 1.4.1-1.4.2AV-8Advantages and Drawbacks of CDMAAt the end of this lecture students will understand the Various Advantages and Drawbacks of CDMA TechniquesLecturing, Questioning,and Image demonstration

Spread Spectrum Techniques(Multi carrier spread spectrum, Principles of various schemes)T-1:1.4 1.4.1-1.4.2RW-6RW-7Multi carrier spread spectrum, Principles of various schemes of itAfter the topic, a student has in-depth knowledge about Multi carrier spread spectrum Techniques ant its typeLecturing, Questioningand Matlab SimulationWiMAX Technology WiFi , WMAN, Wireless LAN, LTE and 4G

Week 2Lecture 6Orthogonal Frequency Division Multiplexing(Diversity Techniques)R-3:7.10.3AV-4Diversity TechniquesAfter the topic, a student has in-depth knowledge about Diversity TechniquesLecturing, Questioning,and Matlab SimulationWiFi, WiMAX any wireless communication system

Orthogonal Frequency Division Multiplexing(Multi-Carrirer Transmission)T-1:1 1.1.7 1.2AV-10Multi-Carrirer Transmission TechniqueAt the end of this lecture students will understand and able to use the Multi-Carrirer Transmission Technique in communication systemLecturing, Questioning,and Matlab SimulationWiFi, WiMAX WLAN and WMAN

Orthogonal Frequency Division Multiplexing(Diversity)T-1:1 1.1.7 1.2AV-4Familiarization with Diversity TechniqueAt the end of this lecture a student will understand about Familiarization with Diversity TechniqueLecturing, Questioning and Matlab SimulationWiFi, WiMAX any wireless communication system

Week 3Lecture 7Orthogonal Frequency Division Multiplexing(Orthogonal Frequency Division Multiplexing (OFDM))T-1:1 1.2.1AV-10This topic is intended to provide students with an introductory, but comprehensive treatment ofOrthogonal Frequency Division Multiplexing (OFDM) TechniqueAfter the topic, a student has in-depth knowledge aboutOrthogonal Frequency Division Multiplexing (OFDM) TechniqueMatlab simulationmay be used to implement IFFTWiMAX, LTE and 4G technology

Orthogonal Frequency Division Multiplexing(Introduction of OFDM)T-1:1 1.2.1AV-10Introduction of Orthogonal Frequency Division Multiplexing (OFDM) TechniqueAt the end of this lecture students will understand the basics of Orthogonal Frequency Division Multiplexing (OFDM) Technique in communication systemMatlab simulation may be used to implement IFFTWiMAX, LTE and 4G technology

Lecture 8Orthogonal Frequency Division Multiplexing(Advantages and Drawbacks of OFDM)T-1:1 1.2.2 - 1.2.3AV-11AV-12Advantages and Drawbacks of OFDM TechniqueAt the end of this lecture a student will learn the various Advantages and Drawbacks of OFDM TechniqueLecturing, Questioning and Image demonstration

Orthogonal Frequency Division Multiplexing(Application and standards)T-1:1 1.2.2 - 1.2.3Applications and standards for WiMAX, Wireless MANAt the end of this lecture students will able to know the Various Applications and IEEE Standards of for OFDMA Technology in Wireless NetworkLecturing, Questioning and Image demonstrationWiMAX, LTE , WiFI and 4G

Lecture 9MC-CDMA and MC-DS-CDMA(MC-CDMA)T-1:2 2.1 2.1.1-2.1.3R-1:1 4.1RW-6RW-7AV-10MC-CDMA Technique for communication systemAt the end of this lecture a Student has in-depth knowledge about MC-CDMA Technique for communication systemLecturing, Questioningand Matlab SimulationCDMA Mobile phones

MC-CDMA and MC-DS-CDMA(Signal Structure)T-1:2 2.1 2.1.1-2.1.3Signal Structure for MC-CDMA TechniqueAt the end of this lecture students will understand about the Signal Structure for MC-CDMA TechniqueLecturing, Questioning and Scientific PresentationCDMA Mobile phones

MC-CDMA and MC-DS-CDMA(Downlink Signal)T-1:2 2.1 2.1.1-2.1.3Downlink Signal for MC-CDMA TechniqueAt the end of this lecture students will understand about the Downlink Signal for MC-CDMA TechniqueLecturing, Questioning

MC-CDMA and MC-DS-CDMA(Uplink Signal)T-1:2 2.1 2.1.1-2.1.3Uplink Signal for MC-CDMA TechniqueAt the end of this lecture students will understand about the Uplink Signal for MC-CDMA TechniqueLecturing, Questioning and Image demonstration

Week 4Lecture 10MC-CDMA and MC-DS-CDMA(Spreading Techniques)T-1:2 2.1.4R-1:4.1Spreading TechniquesAt the end of this lecture students will understand about the Spreading Techniques used in communication systemLecturing, Questioningand Matlab Simulation

Lecture 11Term Paper,Test1

Lecture 12MC-CDMA and MC-DS-CDMA(Detection Techniqes)T-1:2 2.1.5Detection Techniques for communication systemAt the end of this lecture students will understand about the Detection Techniques at the receiver for communication systemLecturing, Questioning and Image demonstration3G and 4G mobile phone voice and data communication

Week 5Lecture 13MC-CDMA and MC-DS-CDMA(Pre-Equalization)T-1:2 2.1.6Pre-Equalization techniqueAt the end of this lecture students will understand about the Pre-Equalization technique for improvement of the channel conditionLecturing, Questioning and Scientific Presentation

Lecture 14MC-CDMA and MC-DS-CDMA(Soft channel decoding)T-1:2 2.1.7Soft channel decoding techniqueAt the end of this lecture students will understand about the Soft channel decoding technique in communication systemLecturing, Questioningand Matlab SimulationCDMA Mobile phones for voice and data communication

Lecture 15MC-CDMA and MC-DS-CDMA(MC-DS-CDMA)T-1:2 2.2 2.2.1RW-6RW-7AV-7AV-10MC-DS-CDMA techniquesAt the end of this lecture students will understand about the MC-DS-CDMA techniques in communication systemLecturing, Questioningand Matlab Simulation

MC-CDMA and MC-DS-CDMA(MC-DS-CDMA Signal Structure)T-1:2 2.2 2.2.1MC-DS-CDMA Signal StructureAt the end of this lecture students will understand about the MC-DS-CDMA Signal StructureLecturing, Questioningand Matlab Simulation

Week 6Lecture 16MC-CDMA and MC-DS-CDMA(MC-DS-CDMA Downlink Signal and Uplink Signal)T-1:2 2.2.2-2.2.3 2.2.5MC-DS-CDMA Downlink Signal and Uplink SignalAt the end of this lecture students will understand about the Downlink Signal and Uplink Signal for MC-DS-CDMA techniqueLecturing, Questioning and Image demonstration

MC-CDMA and MC-DS-CDMA(MC-DS-CDMA Detection Techniques)T-1:2 2.2.2-2.2.3 2.2.5Detection Techniques for MC-DS-CDMAAt the end of this lecture students will understand about the Detection Techniques for MC-DS-CDMALecturing, Questioningand Matlab Simulation

Lecture 17Hybrid Multiple Access Schemes(Introduction)T-1:3 3.1 3.2Introduction of Hybrid Multiple Access SchemesAt the end of this lecture students will learn the Introduction of Hybrid Multiple Access SchemesLecturing, Questioning and Scientific Presentation

Hybrid Multiple Access Schemes(Multi-carrier FDMA)T-1:3 3.1 3.2Multi-carrier FDMA technique for communication systemAt the end of this lecture students will understand about the Multi-carrier FDMA technique for communicationLecturing, Questioning and Matlab SimulationWiMAX, LTE and 4G

Hybrid Multiple Access Schemes(Orthogonal Frequency Division Multiple Access (OFDMA))T-1:3 3.1 3.2AV-10AV-11AV-12Orthogonal Frequency Division Multiple Access (OFDMA) techniqueAt the end of this lecture students will understand about the Orthogonal Frequency Division Multiple Access (OFDMA) techniqueLecturing, Questioningand Matlab SimulationWiMAX, LTE and 4G

Lecture 18Hybrid Multiple Access Schemes(OFDMA with CDMA: SS-MC-MA)T-1:3 3.2.2-3.2.3OFDMA with CDMA: SS-MC-MA techniquesAt the end of this lecture students will understand about the OFDMA with CDMA: SS-MC-MA techniques for communication systemLecturing, Questioning and Scientific PresentationWiMAX, LTE and 4G

Hybrid Multiple Access Schemes(Interleaved FDMA)T-1:3 3.2.2-3.2.3Interleaved FDMA techniqueAt the end of this lecture students will understand about the Interleaved FDMA techniqueLecturing, Questioningand Matlab Simulation4G Mobile Phones, WiMAX

Week 7Lecture 19Hybrid Multiple Access Schemes(Multi-carrier-TDMA)T-1:3 3.3 3.4.1-3.4.2Multi-carrier-TDMAAt the end of this lecture students will understand about the Multi-carrier-TDMALecturing, Questioningand Matlab Simulation

Hybrid Multiple Access Schemes(Pseudo-Random PPM-UWB Signal Generation)T-1:3 3.3 3.4.1-3.4.2Pseudo-Random PPM-UWB Signal Generation techniqueAt the end of this lecture students will learn the Pseudo-Random PPM-UWB Signal Generation techniqueLecturing, Questioningand Matlab SimulationWireless LAN

Hybrid Multiple Access Schemes(UWB Transmission Schemes)T-1:3 3.3 3.4.1-3.4.2UWB Transmission SchemesAt the end of this lecture students will learn theUWB Transmission SchemesLecturing, Questioning and Image demonstrationWireless LAN

SPILL OVER

Week 7Lecture 20Spill Over

Lecture 21Spill Over