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Compression Ratio Learning and Semantic Communications for Video Imaging

Bowen Zhang, Zhijin Qin, Geoffrey Ye Li

发表年份
2024
引用次数
8
访问权限
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摘要

It is crucial to improve data acquisition and transmission efficiency for mobile robots with limited power, memory, and bandwidth resources. For efficient data acquisition, a novel video compressed-sensing system with spatially-variant compression ratios is designed, which offers high imaging quality with low sampling rates; To improve data transmission efficiency, semantic communication is leveraged to reduce bandwidth requirement, which provides high image recovery quality with low transmission rates. In particular, we focus on the trade-off between rate and quality. To address the challenge, we use neural networks to decide the optimal rate allocation policy for given quality requirements. Due to the non-differentiable issue of rate, we train the networks by policy-gradient-based reinforcement learning. Numerical results show the superiority of the proposed methods over the existing baselines.

关键词

Computer scienceBandwidth (computing)Real-time computingData compressionReinforcement learningArtificial intelligenceVideo qualityData compression ratioTransmission (telecommunications)Image compression

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