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VLSI Implementation of Multi-Channel ECG Lossless Compression System

Tsung‐Han Tsai, Nai-Chieh Tung, Ding-Bang Lin

2021IEEE Transactions on Circuits & Systems II Express Briefs18 citationsDOI

Abstract

Electrocardiogram (ECG) is used to record the electrical activity of heart. If the instrument monitoring the signal for a long time, it will produce large amount of data. So, the effective lossless ECG compression system can help to reduce the storage space. This brief presents a hardware architecture of multi-channel lossless ECG compression system. The system is based on the algorithm including multi-channel linear prediction and adaptive linear prediction. Also, Golomb rice code (GRC) is used for entropy coding. The hardware implementation has been designed with low hardware complexity usage while using optimum hardware resources. And the architecture can process multiple channels in parallel that can obtain the high throughput. PTB database has been used for verification and testing purposes. This design was implemented in TSMC 180nm. The implementation results show the gate count is 476K and power consumption is 69.18μW while working frequency is 1 KHz.

Topics & Concepts

Lossless compressionComputer scienceComputer hardwareData compressionVery-large-scale integrationAdaptive codingEntropy encodingGolomb codingChannel (broadcasting)Entropy (arrow of time)Real-time computingEmbedded systemAlgorithmImage compressionArtificial intelligencePhysicsImage processingImage (mathematics)Quantum mechanicsComputer networkECG Monitoring and AnalysisAnalog and Mixed-Signal Circuit DesignAdvanced Data Compression Techniques
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