Novel architecture of analog biodegradable sensors performing Shannon mapping via single FET for low-power underwater sensing, with new decoding method verified in simulations.
Communication in the presence of noise
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2019 3verdicts
UNVERDICTED 3representative citing papers
Proposes AJSCC analog multi-signal compression without ADCs and FPMM multiplexing for low-power healthcare IoT, evaluated via simulations on MSE and MDR.
MOSFET circuit design realizes analog joint source-channel coding for ultra-low-power multi-signal compression in IoT sensors, verified via Spice and MATLAB simulations.
citing papers explorer
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Energy-efficient Wireless Analog Sensing for Persistent Underwater Environmental Monitoring
Novel architecture of analog biodegradable sensors performing Shannon mapping via single FET for low-power underwater sensing, with new decoding method verified in simulations.
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Analog Signal Compression and Multiplexing Techniques for Healthcare Internet of Things
Proposes AJSCC analog multi-signal compression without ADCs and FPMM multiplexing for low-power healthcare IoT, evaluated via simulations on MSE and MDR.
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Towards Ultra-low-power Realization of Analog Joint Source-Channel Coding using MOSFETs
MOSFET circuit design realizes analog joint source-channel coding for ultra-low-power multi-signal compression in IoT sensors, verified via Spice and MATLAB simulations.