Performance Analysis of Iteratively Decoded Convergent Source Mapping with Sphere Packing‐Assisted Differential Space‐Time Spreading Technique for Efficient Video Transmission

Ahmed, Ishtiaque; Minallah, Nasru; Frnda, Jaroslav; Nedoma, Jan

doi:10.1155/2021/5776480

Complexity

2021

DOI: 10.1155/2021/5776480

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Performance Analysis of Iteratively Decoded Convergent Source Mapping with Sphere Packing‐Assisted Differential Space‐Time Spreading Technique for Efficient Video Transmission

Ishtiaque Ahmed

Nasru Minallah

Jaroslav Frnda

et al.

Abstract: With the substantial growth in number of wireless devices, future communication demands overarching research to design high-throughput and efficient systems. We propose an intelligent Convergent Source Mapping (CSM) approach incorporating Differential Space-Time Spreading (DSTS) technique with Sphere Packing (SP) modulation. The crux of CSM process is assured convergence by attaining an infinitesimal Bit-Error Rate (BER). Data Partitioning (DP) H.264 video codec is deployed to gauge the performance of our inte… Show more

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2024

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Enhancing reliability with MIMO aided dual iterations for mobile video transmission system

Ahmed,

Ahmad,

Minallah

et al. 2024

Wireless Netw

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Futuristic requirements of mobile communication systems ask for discovering new possibilities and dimensions to enable ultrafast and reliable communication. This work relates to the advancements in jointly decoded iterative multimedia communication systems for the H.264 source standard. The beneficial technique of Over-Complete Mapping (OCM) is utilized for introducing redundancy in the highly compressed source encoded video streams. Differential Space–Time Spreading (DSTS) is invoked along with Rate-3/4 Recursive Systematic Convolutional (RSC) as intermediate encoder in the proposed three-stage setup. More specifically, the RSC encoder is beneficial in attaining the iterative gain as it divides the decoder into two parts. The DSTS is invoked with the Sphere Packing (SP) modulation which is highly desirable for the non-coherent detection schemes without requiring any information from the channel. The proposed system comprises of three main components, namely OCM, Rate-3/4 RSC and SP modules, thus we call this as three-stage system. The iterative decoding enhances the Bit-Error Rate (BER) and Peak Signal-to-Noise Ratio (PSNR) performances of the joint source-channel systems. Furthermore, to expeditiously predict the convergence pattern of the proposed three-stage iteratively decoded systems, EXtrinsic Information Transfer (EXIT) chart analysis is performed. Moreover, the effect of variations in the minimum Hamming distance ($${d}_{H,min}$$ d H , m i n ) is observed for the proposed three-stage system. The $${{DSTS}-{SP}-{RSC}-{OCM}}_{[5 15]}$$ DSTS - SP - RSC - OCM [ 515 ] having $${d}_{H,min}=6$$ d H , m i n = 6 exhibits a gain of 20 dB against the benchmarker $${{DSTS}-{SP}-{RSC}-{OCM}}_{[2 6]}^{*}$$ DSTS - SP - RSC - OCM [ 26 ] ∗ with $${d}_{H,min}=1$$ d H , m i n = 1 at the PSNR degradation point of 1 dB over a correlated Rayleigh fading channel.

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Enhancing reliability with MIMO aided dual iterations for mobile video transmission system

Ahmed,

Ahmad,

Minallah

et al. 2024

Wireless Netw

View full text Add to dashboard Cite

show abstract

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Performance Analysis of Iteratively Decoded Convergent Source Mapping with Sphere Packing‐Assisted Differential Space‐Time Spreading Technique for Efficient Video Transmission

Cited by 1 publication

References 41 publications

Enhancing reliability with MIMO aided dual iterations for mobile video transmission system

Enhancing reliability with MIMO aided dual iterations for mobile video transmission system

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