An energy efficient IoT data compression approach for edge machine learning
Author:
Funder
EIPHI Graduate School, France
Publisher
Elsevier BV
Subject
Computer Networks and Communications,Hardware and Architecture,Software
Reference26 articles.
1. Edge computing: Vision and challenges;Shi;IEEE Internet Things J.,2016
2. Energy conservation in wireless sensor networks: A survey;Anastasi;Ad Hoc Netw.,2009
3. Compression in wireless sensor networks: A survey and comparative evaluation;Razzaque;ACM Trans. Sen. Netw.,2013
4. Energy efficiency of mobile clients in cloud computing;Miettinen,2010
5. Learning iot in edge: Deep learning for the internet of things with edge computing;Li;IEEE Network,2018
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