ADAPTIVE MODULATION AND CODING REQUIREMENTS: *Bandwidth =20 MHz; *Number of FFT NFFT=64; *Number of Data subcarrier Nd = 48; *Number of pilot Np =4; *Guard Interval = ¼ of symbol period Ts; *OFDM transmission: 52 (i.e Nd+Np) *Pilot data interval = 13 sub

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Lezárva Kiszállításkor fizetve

ADAPTIVE MODULATION AND CODING

REQUIREMENTS:

*Bandwidth =20 MHz;

*Number of FFT NFFT=64;

*Number of Data subcarrier Nd = 48;

*Number of pilot Np =4;

*Guard Interval = ¼ of symbol period Ts;

*OFDM transmission: 52 (i.e Nd+Np)

*Pilot data interval = 13 sub-carriers, starting from the 6th;

*Indices of the pilot sub-carier = 6th, 19th, 32nd and 45th sub-carrier;

* All mandatory and optional data rates: 6, 9, 12, 18, 24, 36, 48, and 54 Mb/s

Modulation:

* BPSK, QPSK, 16-QAM, 64-QAM modulations

* Forward error correction coding (convolutional; code rates 1/2, 2/3, 3/4)

Note the following:

{ BPSK ½ code rate = 6Mbps}

{BPSK 2/3 code rate = 9 Mbps}

{QPSK ½ code rate = 12 Mbps}

{QPSK 2/3 code rate = 18 Mbps}

{16-QAM ½ code rate = 24 Mbps}

{16-QAM 2/3 code rate = 36 Mbps}

{64QAM 2/3 code rate = 48 Mbps}

{64QAM ¾ code rate = 54 Mbps}

* OFDM transmission: 52 subcarriers, 4 pilots, 64-pt FFTs, circular prefix

* Data interleaving

* PLCP preamble (modeled as 2x2 long training sequences)

* Receiver equalization

* Viterbi decoding

* Data rates selectable on-the-fly

* Adaptive modulation demo over dispersive multipath fading channel (Rayleigh channel)

*Fading mode = flat fading

*Max Doppler shift = 10 KHz;

*Channel*

This component simulates the effects of over-the-air transmission. It degrades the transmitted signal with both phase and frequency offset, a delay to mimic channel delay between transmitter and receiver, and AWGN.

The noise level of the AWGN is given in dB.

Channel effect with carrier offset with maximum Doppler shift of 10KHz, timing offset, and additive white Gaussian noise (AWGN).

*The Receiver:

Implement a series of components at the receiver, including timing recovery, carrier frequency recovery, channel equalization, and demodulation.

*Calculate the system frame error rate (FER) and bit error rate (BER) based on the original payload message in each frame and the bit output from the OFDM Receiver

Max SNR = 30 dB;

Timing Related Parameters

Parameter Value

Total subcarriers NST 52

Data subcarriers NSD 48

Pilot subcarriers NSP 4 (subcarriers -21, 7, 7, 21)

Subcarrier Frequency Spacing FSP 312.5 KHz (20MHz/64)

Symbol Interval Time TSYM 4 us (TGI +TFFT)

Data Interval Time TDATA 3.2 us (1/FSP)

Guard Interval (GI) Time TGI 0.8 us (TFFT/4)

IFFT/FFT Period TFFT

3.2 us (1/FSP)

SIGNAL Symbol TIme TSIGNAL 4 us (TGI +TFFT

Preamble TPREAMBLE 16 us (TSHORT +TLONG)

Short Training Sequence TSHORT 8 us (10xTFFT/4)

Long Training Sequence TLONG 8 us (TGI2 + 2xTFFT)

Training symbol GI TGI2 1.6 us (TFFT/2)

FFT sample size 64 point

(1) Develop the project as described above using Object oriented Programming in MATLAB

(3) Develop a simulink model to simulate the project as described above.

2). Develop a graphical user interface (GUI) of the adaptive modulation and coding system where a user can vary the modulation and or coding parameters and the result is displayed in a BER vs SNR graph to show the effects of the varied parameter(s)

**TRY TO COMMENT THE CODE VERY WELL FOR EASY UNDERSTANDING. Thank you.

Matlab és Mathematica Szoftverarchitektúra Szoftver fejlesztés Távközlési mérnök Felhasználói felület / IA

Projektazonosító: #13967523

A projektről

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