Digital Communications for Beginners Course is now available at Researcherstore.com

Описание: researcherstore.com/courses/digital-communication-beginner-to-expert/
The course titled "Digital Communications for Beginners" gives a comprehensive and detailed view of the general structure of digital communication systems including transmitter and receiver designs as well as the different types of wireless channels that may be encountered in communication systems. In particular, it covers topics like real and complex random vectors, signal space representations, and advanced digital modulation/demodulation techniques such as ASK, PSK, FSK, BPSK, M-ASK, M-PSK, M-FSK, QPSK, QAM, OFDM, OFDM-IM, OFDM-SNM, OFDM-SPM, and MIMO-SM. In addition, the course will cover digital data transmission over noisy and fading channels, as well as the design of ideal transceivers for recovering the received data. Moreover, the calculation of key performance metrics in digital communication systems such as bit error probability, data rate, and throughput will also be explained and discussed in this course.
More specifically, the covered topics in the course are listed as follows:
Lesson 1: Introduction to the basic processing blocks in digital transceivers systems (source coding, channel coding, modulation, pulse selection, synchronization, detection, demodulation, decoding, equalization).
Lesson 2 – More details about basic processing blocks + Quantization and Analog to digital conversion (ADC).
Lesson 3 – Quantization Noise and its probability distribution function (PDF) in pulse code modulation (PCM).
Lesson 4 – Nonuniform Quantization + Advantages of PCM + Line codes & D-encoding.
Lesson 5 – Time Division Multiplexing (TDM).
Lesson 6 – Digital Multiplexers and their different types.
Lesson 7 – Delta modulation: Concept, Advantages, Disadvantages, and Solutions.
Lesson 8 – Linear Prediction Filters (LPC).
Lesson 9 – Base-band Pulse Transmission: Matched Filters.
Lesson 10 – Probability of Error over AWGN Channel.
Lesson 11 – Inter-Symbol Interference (ISI) and Raised Cosine Pulse Shaping Filter.
Lesson 12 – Correlative level (duo binary) coding for doubling channel capacity.
Lesson 13 – Addressing the drawbacks of Correlative level (duo binary) Coding.
Lesson 14 – Passband Data Transmission and Basic Concepts of Digital Modulation.
Lesson 15 – New types of carriers & features for digital modulation (IM, NM, SM).
Lesson 16 – Binary phase-shift keying (BPSK).
Lesson 17 – Quadrature phase-shift keying (QPSK).
Lesson 18 – Offset and Shifted Quadrature Phase-Shift Keying (OQPSK).
Lesson 19 – M-array phase-shift keying (MPSK) & M-array quadrature amplitude (MQAM).
Lesson 20 – Non-coherent modulation: Transmission & detection of non-coherent BFSK.
Lesson 21 – Non-coherent differential binary phase-shift keying (DBPSK) & detection.

What you’ll learn
Learn the exact generic meaning of modulation and why we must have it
Gain the ability to apply digital theorems for communication systems
Understand most common transmission techniques in digital communication systems
Identification of signals and modulation types in digital systems
Calculation of digital communication system performance
Design and analysis of efficient digital communication systems
Design of channel equalization and symbol synchronization systems
Interpret the results of numerical communication coding techniques

Are there any course requirements or prerequisites?
True desire to learn this subject
Basic knowledge of Mathematics
Basic knowledge in signal processing
No programming experience required

Who this course is for:
COMPUTER ENGINEERING STUDENTS
ELECTRICAL ENGINEERING STUDENTS
TELECOMMUNICATION ENGINEERING STUDENTS
WORKING ENGINEERS WHO WANT TO REFRESH THEIR KNOWLEDGE

Course Instructor
Jehad M. HAMAMREH, the Founder and Director of WISLAB, Editor at Researcherstore.com & RS-OJICT journal, and A. Professor with the Electrical and Electronics Engineering Department, Antalya International University. He received his Ph.D. degree in electrical-electronics engineering and cyber systems from Istanbul Medipol University in 2018. Previously, he worked as a Researcher at the Department of Electrical and Computer Engineering at Texas A&M University. He is the inventor of 15+ patents and has authored more than 90+ peer-reviewed scientific papers along with several book chapters. His innovative patented works won the gold, silver, and bronze medals in numerous international invention contests and fairs. His current research interests include wireless physical and MAC layers security, orthogonal frequency-division multiplexing multiple-input multiple-output systems, advanced waveforms design, multidimensional modulation techniques, and orthogonal/non-orthogonal multiple access schemes for future wireless systems. He is a regular investigator and referee for various scientific journals as well as a TPC member for several international conferences. He is an Editor at RS-OJICT and Frontiers in Communications and Networks. Wireless Communication, Security, 5G/6G, IoT-AI.