GL BAJAJ Central Library

Archive Video Lectures

SN Lec. No Subject/Topics
  Computer Network by Ghosh, Sujoy , IIT, Khadagpur
1
Lec.-01 Emergence of  Networks & Reference Models
2
Lec.-02 Network Topology
3
Lec.-03 Physical Medium-I
4
Lec.-04 Physical Medium-II
5
Lec.-05 Multiplexing (Sharing a Medium)
6
Lec.-06 Telecom Networks
7
Lec.-07 Switches-I
8
Lec.-08 Pocket Switches
9
Lec.-09 SONET/SDH
10
Lec.-10 Fiber Optic Components
11
Lec.-11 Routing and weblenght Assignment in WDM all-optical networks
12
Lec.-12 Protection and Restoration
13
Lec.-13 Multiple Access
14
Lec.-14 Token Based Mac
15
Lec.-15 Data Link Protocols
16
Lec.-16 Error Control
17
Lec.-17 Stop & Wait Protocol
18
Lec.-18 Satellite Communication
19
Lec.-19 Ethernet - CSMA/CD
20
Lec.-20 Modern Ethernet
21
Lec.-21 Local Internetworking
22
Lec.-22 Cellular Networks
23
Lec.-23 Wireless Network
24
Lec.-24 ATM : Asynchronous Transfer Mode
25
Lec.-25 ATM : Signaling, Routing and LAN Emulation
26
Lec.-26 Introduction to Routing
27
Lec.-27 RIP- Distance Vector Routing
28
Lec.-28 IP Version 4
29
Lec.-29 IP Version 6 & Mobile IP
30
Lec.-30 UDP & Client Server
31
Lec.-31 TCP
32
Lec.-33 DHCP and ICMP
33
Lec.-34 DNS & Directory
34
Lec.-35 Congestion Control
35
Lec.-36 QOS & Multimedia
36
Lec.-37 Network Management
37
Lec.-38 Security
38
Lec.-39 FTP - SMTP
39
Lec.-40 HTTP
  Digital Communication by Dey, Bikash Kumar, IIT, Bombey
40
Lec.-01 Introduction to Digital Communication-
41
Lec.-02 Sampling-
42
Lec.-03 Quantization , PCM and Delta Modulation-
43
Lec.-04 Probability and Random Process-(2)
44
Lec.-06 Channels and their Models
45
Lec.-07 Channels and their Models (Part -2)
46
Lec.-08 Information Theory (Part - 1)-(2)
47
Lec.-10 Bandpass Signal Representation (Part 1)-(2)
Industrial Instrumentation by Baura, Alok, IIT, Khadagpur
48 Lec.-01 Introduction
49 Lec.-02 Dynamic Characteristics
50 Lec.-03 Dynamic Characteristics ( Contd.)
51 Lec.-04 Strain Gauge
52 Lec.-05 Load Cell
53 Lec.-06 Torque Measurement
54 Lec.-07 Thermistor
55 Lec.-08 Thermocouples
56 Lec.-09 Resistance Temperature Detector
57 Lec.-10 LDVT
58 Lec.-11 Capacitance Transducers
59 Lec.-12 Flowmeter - I
60 Lec.-13 Flowmeter - II
61 Lec.-14 Flowmeter - III
62 Lec.-15 Flowmeter - IV
63 Lec.-16 Flowmeter - V
64 Lec.-17 Problems on Temperature Sensors
65 Lec.-18 Pressure Sensors
66 Lec.-19 Low Pressure Measurement
67 Lec.-20 pH and Viscosity Measurement
68 Lec.-21 Problems and Solutions on Industrial Instrumentation
69 Lec.-22 Signal Conditioning Circuits-I
70 Lec.-23 Signal Conditioning Circuits-II
71 Lec.-24 Piezoelectric Sensors
72 Lec.-25 Ultrasonic Sensors
73 Lec.-30 Synchro
74 Lec.-31 Dissolved Oxygen Sensors-I
75 Lec.-32 Dissolved Oxygen Sensors-II
Power System Analysis by Sinha, A.K., IIT, Khadagpur
76 Lec.-01 Introduction
77 Lec.-02 Introduction to Single line Diagram, Symbols used for PS components, Introduction to per unit Representation, Selection of Base Quantites, Advantages of PU System
78 Lec.-03 Transmission Line Parameters
79 Lec.-04 Inductance Calculation ( Three Phase)
80 Lec.-05 Transmission line Capacitance
81 Lec.-06 Transmission line Capacitance ( Contd.)
82 Lec.-07 Transmission line Modeling
83 Lec.-08 Transmission line Modeling long line ( contd.)
Transmission Lines by Shevgaonkar, R.K., IIT, Bombay
84 Lec.-01 Electromagnetic Waves
85 Lec.-02 Transmission lines & E.M. Waves
86 Lec.-03 Transit Time Effect, Distributed elements, differential equations for voltage and current, voltage and current waves, propagation constant 
87 Lec.-05 Loss-Less Transmission Line
88 Lec.-06 Impendance Transformation Relation
89 Lec.-07 Graphical Approach
90 Lec.-09 Identification of load from standing wave pattern
91 Lec.-10 Measurement of unknown Impedance
92 Lec.-11 Impendance Measurment, Circuit element, step-up Transformer, Impendance Matching
93 Lec.-13 Lossy Transmission Line
94 Lec.-15 Measurement of  Impedance
95 Lec.-16 Cartesiation Coordinates
96 Lec.-17 Curl of Vector F
97 Lec.-20 Boundary Conditions
98 Lec.-21 Unbound, isotropic, Homogeneous
99 Lec.-23 Wave Polarigation
100 Lec.-24 State of polarigation
101 Lec.-25 Medium with Finite Conductivity
102 Lec.-26 Good Conductor
103 Lec.-27 Power flow in an EM Wave
104 Lec.-28 Surface current & Power Loss in a Conductor
105 Lec.-30 Plane Wave at Media Interface
106 Lec.-31 Reflection & Refraction at Dielectric Interface
107 Lec.-33 Incident Wave
108 Lec.-34 Reflection from Conducting Boundary
109 Lec.-35 Parallel Plane Wave Guide
110 Lec.-37 Analysis of Waveguide General Approach
Wireless Communication by Bose, Ranjan, IIT, Delhi
111 Lec.-01 Motivation and Introduction
112 Lec.-02 Types of wireless Communication
113 Lec.-03 The modern wireless Communication Systems
114 Lec.-04 The cellular concept - System Design issues
115 Lec.-05 Cell capacity and reuse
116 Lec.-06 Interference and System capacity
117 Lec.-07 Improving coverage and system capacity
118 Lec.-08 Mobile Radio Propagation
119 Lec.-09 Mobile Radio Propagation Contd
120 Lec.-10 Mobile Radio Propagation Contd
121 Lec.-11 Mobile Radio Propagation Contd
122 Lec.-12 Mobile Radio Propagation Contd
123 Lec.-13 Mobile Radio Propagation Contd
124 Lec.-14 Mobile Radio Propagation II
125 Lec.-15 Mobile Radio Propagation II
126 Lec.-16 Mobile Radio Propagation II
127 Lec.-17 Mobile Radio Propagation II
128 Lec.-18 Mobile Radio Propagation II
129 Lec.-19 Mobile Radio Propagation II
130 Lec.-20 Mobile Radio Propagation II Contd-lec20
131 Lec.-28 Modulation Techniques for Mobile Communications
132 Lec.-29 Equalization and Diversity Techniques
133 Lec.-30 Equalization and Diversity Techniques
134 Lec.-31 Equalization and Diversity Techniques
135 Lec.-32 Equalization and Diversity Techniques
136 Lec.-33 Coding Techniques for Mobile Communications
137 Lec.-34 Coding Techniques for Mobile Communications
138 Lec.-35 Coding Techniques for Mobile Communications
139 Principles of Modern CDMA MIMO OFDM Wireless Communications by Prof. Aditya K. Jagannatham, 
140 Lec.-01 Evolution of Wireless Communication Technologies
141 Lec.-02 Modeling Wireless Channel
142 Lec.-03 Wireless Fading Channel Model
143 Lec.-04 Fading Channel Distribution
C Programming, NPTEL
144 Lec.-01 Intro - Process of programming-mod01
145 Lec.-02 Intro - GCD-mod01
146 Lec.-03 Intro - Programming cycle-mod01
147 Lec.-04 Intro - Tracing a simple program-mod01
148 Lec.-05 Intro - Variables-mod01
149 Lec.-06 Intro - Operators-mod01
150 Lec.-07 Loops - While-mod01
151 Lec.-08 Loops - While example-mod01
152 Lec.-09 Loops - While GCD example-mod01
153 Lec.-10 Loops - Longest 1-mod01(2)
154 Lec.-11 Loops - Longest 2-mod01
155 Lec.-12 Loops - Longest 3-mod01
156 Lec.-13 Loops - Do-while-mod01
157 Lec.-14 Loops - Matrix using nested loops-mod01
158 Lec.-15 Loops - For-mod01
159 Lec.-16 Loops - Matrix using nested for loops-mod01
160 Lec.-17 Loops - Break statement-mod01
161 Lec.-18  Loops - Continue statement-mod01
162 Lec.-19  Loops - Continue statement example-mod01
163 Lec.-20  Data types in C-mod01
164 Lec.-21 ASCII code-mod01
165 Lec.-22 Operators Expressions Associativity-mod01
166 Lec.-23 Precedence of operators-mod01
167 Lec.-24 Expression evaluation-mod01(2)
168 Lec.-25 Functions - Introduction-mod01
169 Lec.-26 Functions - How functions are executed-mod01
170 Lec.-27 Functions - Examples - 1-mod01
171 Lec.-28 Functions - Examples - 2-mod01
172 Lec.-29 Arrays in C-mod01
173 Lec.-30 Initializing arrays-mod01(2)
174 Lec.-31 Initializing character arrays-mod01
175 Lec.-32 Pointers in C-mod01
176 Lec.-33 Pointer arithmetic-mod01
Adaptive Filter, by Srivastava, Rahul , NPTEL
177 Lec.-16  Introduction to Adaptive FIlters
Cognitive Radio, NPTEL
178 PPT Cooperative spectrum sensing in cognitive radio
179 PPT Cooperative Spectrum Sensing with Cluster-Based Architecture in Cognitive Radio Networks.wmv
180 PPT DalalKapil_EEE6509_Project_video
181 PPT PERFORMANCE EVALUATION OF COOPERATIVE SPECTRUM SENSING IN COGNITIVE RADIO NETWORK
182 PPT Seminar Report on 5g Technology
Probability and Random Process_Communication Engineering by Prof. Prasad Surendra, IIT, Delhi
183 Lec.-27 Review of Probability Theory and Random Process
184 Lec.-28 Review of Probability Theory and Random Variables
185 Lec.-29 Random Processes
186 Lec.-30 Random Processes
187 Lec.-31 Random Processes
188 Lec.-32 Gaussian Random Processes
Small Science With a Big Future- Breakthroughs in Nanotechnology by Stanford University
189 Lec. Small Science With a Big Future- Breakthroughs in Nanotechnology
Engineering Mathamatics-I, by Srivastava, P D - IIT, Khadagpur
190 Lec.-01 Rolles Theorem
191 Lec.-02 Genaralized Mean Value Theorem and L' Hospital Rule
192 Lec.-03 Interminate Forms
193 Lec.-04 Taylor's and maclaurin formula
194 Lec.-05 Asyamptote
195 Lec.-06 convexity, concavity and point of inflection
196 Lec.-07 curvature of a curve
197 Lec.-08 Functions of several variables, concepts of limits
198 Lec.-09 Concept of continuity
199 Lec.-10 Partial Derivatives
200 Lec.-11 Total derivative of composite function
201 Lec.-12 Partial Derivative of higher order
202 Lec.-13 Taylor formula for function of two variables
203 Lec.-14 Maximum and minimum of a function of several variables
204 Lec.-15 Lagrange's method of multipliers
205 Lec.-16 Tutorial-I
206 Lec.-17 Tutorial-II
207 Lec.-18 Tutorial-III(Problem based on Euler's theorem)
208 Lec.-19 Differencial equation of first order and first degree-introduction 
209 Lec.-20 Liner equations and Bernouli's form & Homogeneous Equations
210 Lec.-21 Exat Differencial equations
211 Lec.-22 Higher Order linear differencial equations
212 Lec.-23 Higher Order linear differencial equations (contd..)
213 Lec.-24 Higher Order linear differencial equations (contd..)
214 Lec.-25 System of simultaneous linear equations with constant coefficients
215 Lec.-26 System of simultaneous linear equations with constant coefficients (contd.) & Tutorial
216 Lec.-27 Introduction to complex number system
217 Lec.-28 Various concepts in the complex plane
218 Lec.-29 Limit and continuity
219 Lec.-30 Defferentiability and Analyticity
220 Lec.-31 Continue (Analytic function), Harmonic Function
221 Lec.-32 Integration of Complex Functions
222 Lec.-33 Integration of Complex Functions ( Contd.)
223 Lec.-34 Cauchi Integral Theorem
224 Lec.-35 Cauchy Integral Formula
225 Lec.-36 Power Series, Taylor's Formula
226 Lec.-37 Taylor's Series and Laurent Series
227 Lec.-38 Laurent Series ( Contd.)
228 Lec.-39 Zeros, Singularrities and Residues
Electrical Machine-I,  by Bhattacharya, T K , IIT, Khadagpur
229 Lec.-01 Review of Circuit Concepts (Review-1)
230 Lec.-02 Concepts of active & reactive Power ( Review-2)
231 Lec.-03 Magnetic circuit & Magnetizing current
232 Lec.-04 Ideal Transformer- Its Properties
233 Lec.-05 Phasor Diagram & Equivalent Circuit of I.T - Referred to both sides
234 Lec.-06 Bringing Realities to Ideal Transformer : Finite Magnetising Current
235 Lec.-07 Taking into account the Core Loss : Eddy Current Loss & Hysteresis Loss
236 Lec.-08 Effecting of winding resistances & Leakage fluxes - Exact & Approx. Equivalent circuit
237 Lec.-09 Determination of equivalent circuit parameters from O.C & S, C tests
238 Lec.-10 Losses, Efficiency & All Day efficiency
239 Lec.-11 Regulation - Its Importance & Expression
240 Lec.-12 A Typical numerical Problem
241 Lec.-13 Two winding transformer as Autotrans
242 Lec.-14 Types of Three phase transformer & basic connections
243 Lec.-15 Vector Groups - Various connections in detail
244 Lec.-16 A Single unit 3- phase transformer Vs Bank of 3-phase transformer
245 Lec.-17 Zig-Zag connections
246 Lec.-18 Effect of Harmonic Magnetising Current
247 Lec.-19 Phase Conversion - 3 - phase to 6-phase/1 2-phase and 2- phase
248 Lec.-20 Per phase equivalent circuit of a 3-phase transformer - A typical problem
249 Lec.-21 Parallel operation of transformers
250 Lec.-22 Parallel operation continued and sumpner's test
251 Lec.-23 Basic concepts of generator & motor operation
252 Lec.-24 Electrical & Mechanical degrees and conditions for production of electromagnetic
253 Lec.-25 MMF distribution in rotating machine & elementary 3-phase winding
254 Lec.-26 Production of Rotating Magnetic Field-its speed & derection
255 Lec.-27 Expression for induced voltage in a coil due to relative motion wrt a field
256 Lec.-28 Expression for resultant voltage across a number of series connected distributed  coils and winding factor
257 Lec.-29 Basic principle of operation of 3-phase Induction Motor and concept of slip
258 Lec.-30 Development of Equivalent circuit
259 Lec.-31 Concept of Air-Gap Power, Power Flow Diagram, Torque Production and Stable & Unstable Zone of Operation
260 Lec.-32 Torque-Slip Characteristic & Effect of various parameters on it
261 Lec.-33 Understanding the operation of Cage induction motor
262 Lec.-34 Slip Measurement. Introduction to Circle diagram
263 Lec.-35 Torque Line & Output Line, construction of Circle Diagram From Test Data
264 Lec.-36 Slip Line and usefulness of circle diagram - an Example
265 Lec.-37  
266 Lec.-38 Speed control of induction motor - Some Basic Principles

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