The Complete Matlab Course for Wireless Comm. Engineering

The Complete Matlab Course for Wireless Comm. Engineering Course includes 5 hrs video content and enrolled by 2K+ students and received a 5 average review out of 5. Now, Course instructor offering 100%OFF on the original price of the course and its limited time offer. Enroll the course before the coupon expired Once you’re enrolled for the course, you can start it whenever and complete it at your own pace. it will never expire on your account.

What you’ll learn

  • How to estimate the Bit-Error-Rate (BER) performance over a Single-Input-Single-Output Orthogonal Frequency Division Multiplexing (SISO-OFDM) communication system based on Fast Fourier Transform (FFT) over an Additive White Gaussian Noise (AWGN) channel using different mapping schemes?
  • How to generate a Rayleigh fading channel based on the Jakes fading model?
  • How to estimate the BER performance over a SISO-OFDM communication system based on FFT over a Rayleigh fading channel without equalization procedure?
  • How to estimate the BER performance over a SISO-OFDM communication system based on FFT over a Rayleigh fading channel with equalization procedure?
  • Study the Effect of the Carrier Frequency Offset (CFO) problem.
  • How to estimate the Mean Square Error (MSE) performance for CFO estimation of OFDM communication system based on FFT Using Cyclic Prefix (CP) symmetry property over an AWGN channel and Rayleigh fading channel?
  • How to estimate the BER performance over a SISO-OFDM communication system based on Discrete Sine Transform (DST) over an AWGN channel using different mapping schemes?
  • How to estimate the BER performance over a SISO-OFDM communication system based on DST over a Rayleigh fading channel using different equalizers?
  • How to estimate the BER performance over a SISO-OFDM communication system based on Discrete Cosine Transform (DCT) over an AWGN channel using different mapping schemes?
  • How to estimate the BER performance over a SISO-OFDM communication system based on DCT over a Rayleigh fading channel using different equalizers?
  • A comparison between the BER performance of different SISO-OFDM communication systems based on FFT, DST, and DCT over a Rayleigh fading channel.
  • How to estimate the Peak-to-Average Power Ratio (PAPR) for OFDM communication system based on FFT?
  • How to estimate the PAPR for OFDM communication system based on DST?
  • How to estimate the PAPR for OFDM communication system based on DCT?
  • A comparison between the PAPR of different OFDM communication systems based on FFT, DST, and DCT will be presented.
  • The concept of a Nt×Nr configuration, where Nt, is the number of transmitting antennas, and Nr is the number of receiving antennas will be presented.
  • A general code for BER estimation in case of a Nt×Nr configuration for OFDM communication system based on FFT over a Rayleigh fading channel will be presented.
  • A general code for BER estimation in case of a Nt×Nr configuration for OFDM communication system based on DST over a Rayleigh fading channel will be presented.
  • A general code for BER estimation in case of a Nt×Nr configuration for OFDM communication system based on DCT over a Rayleigh fading channel will be presented.
  • The concepts of the Power Domain Multiplexing (PDM), and Successive Interference Cancellation (SIC) of the Non-Orthogonal Multiple Access (NOMA), which used in the 5G communication systems will be presented.
  • The differences between the interleaved and localized sub-carrier mapping.
  • How to estimate the BER performance for a FFT pre-coded downlink NOMA based on FFT-OFDM communication system using localized/interleaved sub-carrier mapping over a Rayleigh fading channel?
  • How to estimate the BER performance for a DST pre-coded downlink NOMA based on FFT-OFDM communication system using localized/interleaved sub-carrier mapping over a Rayleigh fading channel?
  • How to estimate the BER performance for a DCT pre-coded downlink NOMA based on FFT-OFDM communication system using localized/interleaved sub-carrier mapping over a Rayleigh fading channel?
  • How to estimate the BER performance for a DST pre-coded downlink NOMA based on DST-OFDM communication system using localized/interleaved sub-carrier mapping over a Rayleigh fading channel?
  • How to estimate the BER performance for a DCT pre-coded downlink NOMA based on DCT-OFDM communication system using localized/interleaved sub-carrier mapping over a Rayleigh fading channel?
  • How to estimate the PAPR for a FFT pre-coded NOMA based on FFT-OFDM communication system using localized sub-carrier mapping?
  • How to estimate the PAPR for a DST pre-coded NOMA based on FFT-OFDM communication system using localized/interleaved sub-carrier mapping?
  • How to estimate the PAPR for a DCT pre-coded NOMA based on FFT-OFDM communication system using localized/interleaved sub-carrier mapping?
  • How to estimate the PAPR for a DST pre-coded NOMA based on DST-OFDM communication system using localized/interleaved sub-carrier mapping?
  • How to estimate the PAPR for a DCT pre-coded NOMA based on DCT-OFDM communication system using localized sub-carrier mapping?

Can I download The Complete Matlab Course for Wireless Comm. Engineering course?

You can download videos for offline viewing in the Android/iOS app. When course instructors enable the downloading feature for lectures of the course, then it can be downloaded for offline viewing on a desktop.
Can I get a certificate after completing the course?
Yes, upon successful completion of the course, learners will get the course e-Certification from the course provider. The The Complete Matlab Course for Wireless Comm. Engineering course certification is a proof that you completed and passed the course. You can download it, attach it to your resume, share it through social media.
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