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Filters: Author is Wigness, Maggie B.  [Clear All Filters]
2022-06-09
Fang, Shiwei, Huang, Jin, Samplawski, Colin, Ganesan, Deepak, Marlin, Benjamin, Abdelzaher, Tarek, Wigness, Maggie B..  2021.  Optimizing Intelligent Edge-clouds with Partitioning, Compression and Speculative Inference. MILCOM 2021 - 2021 IEEE Military Communications Conference (MILCOM). :892–896.
Internet of Battlefield Things (IoBTs) are well positioned to take advantage of recent technology trends that have led to the development of low-power neural accelerators and low-cost high-performance sensors. However, a key challenge that needs to be dealt with is that despite all the advancements, edge devices remain resource-constrained, thus prohibiting complex deep neural networks from deploying and deriving actionable insights from various sensors. Furthermore, deploying sophisticated sensors in a distributed manner to improve decision-making also poses an extra challenge of coordinating and exchanging data between the nodes and server. We propose an architecture that abstracts away these thorny deployment considerations from an end-user (such as a commander or warfighter). Our architecture can automatically compile and deploy the inference model into a set of distributed nodes and server while taking into consideration of the resource availability, variation, and uncertainties.