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7/30/2019 EC 4th Year Lesson Plans
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LESSON PLAN
Teacher Sapna Katiyar File Name LP-EEC802-SK
Subject Code EEC802 Subject Name Electronic
Switching
Session 2011-12 Group 08EC
No. of Lectures 40
Lect. No. Ref. Pt. Topics to be covered
Unit I: Introduction
1 1.1
1.2
Message switchingCircuits switching
2 1.3
1.4
Functions of a switching system,
Register-translator-senders
3 1.5
1.6
Distribution frames
Crossbar switch
4 1.7
1.8
1.9
A general trunking
Electronic switching
Reed electronic system
Unit II: Digital switching
5 2.1
2.2
Switching functions
Space division switching
6 2.3
2.4
Multiple stage switching
Nonblocking switches
7 2.5 Blocking probabilities: Lee graphs and Jacobaeus
8 2.6
2.7
2.8
Foulded four wire switches
Path finding
Switch matrix control
9 2.9 Time division switching: analog and digital time division switching
10 2.10
2.11
A digital memory switch
Time stage in general
11 2.12
2.13
Two dimensional switching
Implementation complexity of TD switches
12 2.14
2.15
2.16
Multiple stage time and space switching
STS switching
TST switching
13 2.17
2.18
TSSST switches
No.4 ESS Toll switch
14 2.19
2.20
System 75 digital PBXDigital cross connect systems
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15 2.21
2.22
2.23
Consolidation and segregation
DCS hierarchy
Integrated cross connect equipment
16 2.24
2.25
Digital switching in analog environment
zero loss switching
Unit IV: Control of Switching Systems
17 4.1
4.2
4.3
Call processing functions
Sequence of operations
Signal exchanges
18 4.4
4.5
State transition diagrams
Common control
19 4.6
4.7
4.8
Reliability availability and security
Stored program control
Processor architecture
20 4.9
4.10
Centralized SPCDistributed SPC, Level3, Level2 and Level-1 processing
21 4.11 SPC software, system software and Language processor
22 4.12 SDL, application software
Unit III: Telecom Traffic Engineering
23 3.1
3.2
Network traffic load and parameters
Grade of service and blocking probability
24 3.3
3.4
Modeling switching systems
Markov processes
25 3.5
3.6
Birth-death processesIncoming traffic and service time characteristics
26 3.7 Poisson arrival process, holding time of calls
27 3.8
3.9
Blocking models and loss estimates
Lost calls cleared systems with infinite and finite subscribers
28 3.10 Lost calls returned systems and lost calls held system
29 3.11 Delay systems and Erlang C formula
Unit V: Signalling
30 5.1
5.2
Customer line signaling
AF junctions and trunk circuits
31 5.3
5.4
Outband and inband signaling
PCM and inter register signalling
32 5.5 Common channel signaling: general principles and network
33 5.6 CCITT signaling system No. 6 and 7
Packet Switching
34 5.7
5.8
Packets formats
Statistical multiplexing
35 5.9 Routing control: dynamic, virtual path circuit and fixed path routing
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36 5.10
5.11
5.12
Flow control
X.25 protocol
Frame relay
37 5.13
5.14
5.15
TCP/IP
ATM cell
ATM service categories
38 5.16
5.17
ATM switching
ATM memory switch
39 5.18
5.19
Space memory switch
Memory-space,memory-space-memory switch
40 5.20 Banyan network switch
LESSON PLAN
Teacher: Pradeep kumar File
Name:
LP- EEC-035-PK.doc
Subject Code: EEC-035 Subject
Name:
INTRODUCTION TO
RADAR SYSTEMS
Session: 2011-12 Group: 08 EC
Lect.
No.
Ref.
Pt.
Topics to be covered
Unit 1:Introduction to Radar
1. 1.1 Basic Radar, The Simply Form of the RadarEquations
2. 1.2 Radar Block Diagram, Radar Frequencies, Applications of Radar.3. 1.3 Detection of Signals in Noise4. 1.4 Receiver Noise and
the Signal-to-Noise Ratio
5. 1.5 Probabilities of Detection and False Alarm,Integration of Radar Pulses,
6. 1.6 Radar Cross Section of Targets, Radar Cross-Section of Targets, Radar Cross-Section Fluctuations
7. 1.7 Transmitter Power,Pulse Repetition Frequency
8. 1.8 Antenna Parameters, System Losses, Problems
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Lect.
No.
Ref.
Pt.
Topics to be covered
Unit ii: MTI and Pulse Doppler Radar
9. 2.1 Introduction to Doppler and MTI Radar10. 2.2 Delay-Line Cancelers11. 2.3 Staggered Pulse Repetition Frequencies,12. 2.4 Doppler Filter Banks13. 2.5 Digital MTI Processing14. 2.6 Moving Target Detector15. 2.7 Limitations to MTI Performance
Unit iii: Tracking Radar
16. 3.1 Tracking with Radar17. 3.2 Mono pulse Tracking18. 3.3 Conical
Scan and Sequential Lobing
19. 3.4 Limitations to tracking Accuracy20. 3.5 Low-
Angle Tracking, Tracking in Range,
21. 3.6 Other Tracking Radar Topics,Comparison of Trackers
22. 3.7 Automatic Tracking with SurveillanceRadars(ADT)
Unit IV: Detection of Signals in Noise23. 4.1 Introduction24. 4.2 Detection Criteria25. 4.3 Detectors,
26. 4.4 Automatic Detection27. 4.5 Integrators28. 4.6 Constant-False-Alarm Rate Receivers
Unit V: Information from Radar Signals
29. 5.1 Basic Radar Measurements30. 5.2 Theoretical
Accuracy of Radar Measurements
31. 5.3 Ambiguity Diagram32. 5.4 Pulse
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Lect.
No.
Ref.
Pt.
Topics to be covered
Compression
33. 5.5 Target Recognition
34. 5.6 Land Clutter35. 5.7 Sea Clutter, Weather
Clutter
Teacher ANAGHA CHOUGAONKARSubjectCode EEC 801SubjectName Mobile and Wireless Communication
Session 2012Group 08EC
Lect. No(s) Topics to be covered with reference points
Unit III:1 Introduction to wireless comm,Evolution of mobile radio communication fundamentals
2 Cellular Systems
3,4 Frequency reuse, channel assignment strategies
5handoff strategies, interference and system capacity6 improving coverage and capacity in cellular systems.
Unit IV:7 GSM system for mobile
8,9 Services and features, System Architecture
10,11 Radio Sub system Channel types, Frame Structure.
12 CDMA Digital Cellular Standard (IS 95)
13 Forward CDMA channel and reverse CDMA channel
Unit V:14 Mobile data networks
15 wireless standards IMT2000
16,17 Introduction to 4G and concept of NGN
Unit II:18 Fundamentals of equalisation
19,20 Equalisers in communication receiver,Survey of equalisation techniques
21,22 linear equaliser, Algorithms for Adaptive Equalization
23 Diversity techniques
24 RAKE receiver.
25 Characteristics of speech signals, quantisation techniques
26vocoders, linear predictive coders27,28 Multiple Access techniques for Wireless Communication
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Unit I:29 Large scale path loss: propagation models, reflection, diffraction,scattering,
30 link budget design using path loss model.
31 Small scale fading & multipath propagation and measurements,
32 Impulse response model and parameters of multipath channels.
33 Small scale Multipath Measurements, Parameters of Mobile Multipath
34 Parameters of Mobile Multipath Channels, types of small scale fading.
35 Introduction to Mobile Adhoc Networks
36,37 Question paper solution