Menu
|
111-222-292 (Ext: 245)
Home
|
About US
|
Creditors
|
Mentorship
|
Faq
Home
About US
Creditors
Mentorship
Faq
Lecture
SEARCH COURSES / LECTURES
Search Lectures
Search Courses
All Disciplines
Basic and Health Sciences
Biology
Chemistry
Mathematics
Physics
Medicine
Test Prep
Applied Sciences
Agricultural Science
Computer Science
Earth, Atmospheric, and Planetary Sciences
Energy
Engineering
Healthcare
Social Sciences
Business and Finance
Economics
English
History
Arts and Humanities
Law
Literature and Linguistics
Management
Marketing
Mass Communication
Philosophy
Physical Education
Political Science
Psychology
Sociology
All Levels
Undergraduate
School
College
Graduate
All Institutes
Harvard
Khan Academy
Khan Academy Urdu
MIT
Oxford
Stanford
UCI Open
Udacity
Virtual Education Project Pakistan (VEPP)
Virtual University
Yale University
Home
>>
Applied Sciences
>>
Engineering
>>
Principles of Digital Communications I (M-I-T)
Principles of Digital Communications I (M-I-T)
(24 Lectures Available)
S#
Lecture
Course
Institute
Instructor
Discipline
1
Baseband detection and complex Gaussian processes (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
2
Case study — code division multiple access (CDMA) (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
3
Degrees of freedom, orthonormal expansions, and aliasing (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
4
Detection for flat rayleigh fading and incoherent channels, and rake receivers (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
5
Detection for random vectors and processes (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
6
Discrete source encoding (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
7
Discrete-time baseband models for wireless channels (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
8
Discrete-time fourier transforms and sampling theorem (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
9
Doppler spread, time spread, coherence time, and coherence frequency (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
10
Entropy and asymptotic equipartition property (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
11
High rate quantizers and waveform encoding (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
12
Introduction of wireless communication (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
13
Introduction: A layered view of digital communication (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
14
Jointly Gaussian random vectors and processes and white Gaussian noise (WGN) (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
15
Linear functionals and filtering of random processes (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
16
Markov sources and Lempel-Ziv universal codes (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
17
Measure, fourier series, and fourier transforms (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
18
Memory-less sources, prefix free codes, and entropy (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
19
Nyquist theory, pulse amplitude modulation (PAM), quadrature amplitude modulation (QAM), and frequency translation (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
20
Quantization (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
21
Random processes (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
22
Review: introduction to detection (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
23
Signal space, projection theorem, and modulation (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
24
Theorem of irrelevance, M-ary detection, and coding (M-I-T)
Principles of Digital Communications I (M-I-T)
MIT
Prof. Dr. Lizhong Zheng, Prof. Dr. Robert Gallager
Applied Sciences
Basic and Health Sciences
Biology
Chemistry
Mathematics
Physics
Medicine
Test Prep
Applied Sciences
Agricultural Science
Computer Science
Earth, Atmospheric, and Planetary Sciences
Energy
Engineering
Healthcare
Social Sciences
Business and Finance
Economics
English
History
Arts and Humanities
Law
Literature and Linguistics
Management
Marketing
Mass Communication
Philosophy
Physical Education
Political Science
Psychology
Sociology