文件列表:

draw1.m (339, 2018-05-18)
DS_MPA.m (5877, 2018-05-18)
interation_num.m (4721, 2018-05-18)
log_sum_exp.m (298, 2017-01-12)
MPA.m (3398, 2018-05-16)
PM_MPA.m (5110, 2018-05-18)
scmaenc.m (837, 2017-01-12)
SD_MPA.m (4072, 2018-05-16)
simulation.m (5499, 2018-05-18)

# Sparse Code Multiple Access (SCMA) scheme demonstration Bit error rate (BER) simulation of **SCMA** scheme (based on [presentation](http://www.innovateasia.com/5g/images/pdf/1st%205G%20Algorithm%20Innovation%20Competition-ENV1.0%20-%20SCMA.pdf) from [1st 5G Algorithm Innovation Competition](http://www.innovateasia.com/5g/en/)) in **Matlab**/**Octave**. ## Objectives To provide implementations of **SCMA** encoding/decoding algorithms for use in the researches of new schemes for 5G telecommunication standard. ## Description This project demonstrates BER simulation of **SCMA** scheme. The main features of project: * codebooks are from [presentation](http://www.innovateasia.com/5g/images/pdf/1st%205G%20Algorithm%20Innovation%20Competition-ENV1.0%20-%20SCMA.pdf) * Log-MPA algorithm is used * current version is only demonstration and works with the next SCMA codebooks parameters: *M* = 4, *d_f* = 3 and the number of non-zero elements in codewords is equal 2 (notes from paper [M. Taherzadeh, H. Nikopour, A. Bayesteh and Hadi Baligh. SCMA Codebook Design](https://arxiv.org/pdf/1408.3653v1.pdf)). The code is written in **Matlab**, but fully compatible with **Octave**. Unfortunately, the program executions very slow in **Octave**. The mex function generation in **Matlab** increases the speed of execution approximately in 15 times. ## Channel models * AWGN channel: `h = ones(K, V, N)` * Uplink, Rayleigh channel without diversity: `h = 1/sqrt(2)*(repmat(randn(1, V, N), K, 1)+1j*repmat(randn(1, V, N), K, 1))` * Rayleigh channel with diversity: `h = 1/sqrt(2)*(randn(K, V, N)+1j*randn(K, V, N))` * Downlink, Rayleigh channel without diversity: `h = 1/sqrt(2)*(repmat(repmat(randn(1, 1, N),K, 1), 1, V)+1j*(repmat(repmat(randn(1, 1, N), K, 1), 1, V)))` * Downlink, Rayleigh channel with diversity: `h = 1/sqrt(2)*(repmat(randn(K, 1, N), 1, V)+1j*repmat(randn(K, 1, N), 1, V))` ## Running Run script `simulation.m`. ## Future work Implementation of decoder for arbitrary **SCMA** codebooks parameters. ## Contact Vyacheslav P. Klimentyev, vklimentyev@gmail.com ## Contributions Thanks to Alexander B. Sergienko, PhD, Saint Petersburg Electrotechnical University "LETI", Saint Petersburg, Russia. ## Our publications (SCMA investigation) * [Detection of SCMA signal with channel estimation error](http://ieeexplore.ieee.org/document/7561515/) * [SCMA detection with channel estimation error and resource block diversity](http://ieeexplore.ieee.org/document/7491765/) * [A low-complexity SCMA detector for AWGN channel based on solving overdetermined systems of linear equations](http://ieeexplore.ieee.org/document/7779331/)

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