CDC: Classification Driven Compression for Bandwidth Efficient Edge-Cloud Collaborative Deep Learning

Abstract: The emerging edge-cloud collaborative Deep Learning (DL) paradigm aims at improving the performance of practical DL implementations in terms of cloud bandwidth consumption, response latency, and data privacy preservation. Focusing on bandwidth efficient edge-cloud collaborative training of DNN-based classifiers, we present CDC, a Classification Driven Compression framework that reduces bandwidth consumption while preserving classification accuracy of edge-cloud collaborative DL. Specifically, to reduce bandwid… Show more

“…It is therefore important to reduce the size of the intermediate features for the purpose of efficient transmission to the next device/edge/cloud. This transmission problem is generally solved by adding a compression module for the features [4,5,6]. However, most approaches consider a fixed location and/or a fixed compression rate, thus at inference time the compressed features are not well-adapted to the changing communication bandwidth [5] or require a different model for each deployment setting (characteristics of each device and of the transmission network).…”

Feature Compression Using Dynamic Switches in Multi-split CNNs

“…It is therefore important to reduce the size of the intermediate features for the purpose of efficient transmission to the next device/edge/cloud. This transmission problem is generally solved by adding a compression module for the features [4,5,6]. However, most approaches consider a fixed location and/or a fixed compression rate, thus at inference time the compressed features are not well-adapted to the changing communication bandwidth [5] or require a different model for each deployment setting (characteristics of each device and of the transmission network).…”

Feature Compression Using Dynamic Switches in Multi-split CNNs