Pan Zhou scite author profile

Mobile Edge Computing (MEC) pushes computing functionalities away from the centralized cloud to the network edge, thereby meeting the latency requirements of many emerging mobile applications and saving backhaul network bandwidth. Although many existing works have studied computation offloading policies, service caching is an equally, if not more important, design topic of MEC, yet receives much less attention. Service caching refers to caching application services and their related databases/libraries in the edge server (e.g. MEC-enabled BS), thereby enabling corresponding computation tasks to be executed. Because only a small number of application services can be cached in resource-limited edge server at the same time, which services to cache has to be judiciously decided to maximize the edge computing performance. In this paper, we investigate the extremely compelling but much less studied problem of dynamic service caching in MEC-enabled dense cellular networks. We propose an efficient online algorithm, called OREO, which jointly optimizes dynamic service caching and task offloading to address a number of key challenges in MEC systems, including service heterogeneity, unknown system dynamics, spatial demand coupling and decentralized coordination. Our algorithm is developed based on Lyapunov optimization and Gibbs sampling, works online without requiring future information, and achieves provable close-to-optimal performance. Simulation results show that our algorithm can effectively reduce computation latency for end users while keeping energy consumption low.

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MetaFormer is Actually What You Need for Vision

Luo²,

Zhou³

et al. 2022

374

154

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EnlightenGAN: Deep Light Enhancement without Paired Supervision

Jiang

Gong

Liu³

et al. 2019

Preprint

113

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Early Diagnosis of Alzheimer's Disease Based on Resting-State Brain Networks and Deep Learning

Zhou

et al. 2019

IEEE/ACM Trans. Comput. Biol. and Bioinf.

178

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Computerized healthcare has undergone rapid development thanks to the advances in medical imaging and machine learning technologies. Especially, recent progress on deep learning opens a new era for multimedia based clinical decision support. In this paper, we use deep learning with brain network and clinical relevant text information to make early diagnosis of Alzheimer's Disease (AD). The clinical relevant text information includes age, gender and ApoE gene of the subject. The brain network is constructed by computing functional connectivity of brain regions using resting-state functional magnetic resonance imaging (R-fMRI) data. A targeted autoencoder network is built to distinguish normal aging from mild cognitive impairment, an early stage of AD. The proposed method reveals discriminative brain network features effectively and provides a reliable classifier for AD detection. Compared to traditional classifiers based on R-fMRI time series data, 31.21% improvement of the prediction accuracy on average is achieved by the proposed deep learning method, and standard deviation reduces by 51.23% on average that means our prediction model is more stable and reliable compared to traditional methods. Our work excavates deep learning's advantages of classifying high-dimensional multimedia data in medical services, and could help predict and prevent AD at an early stage.

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Sentiment Analysis Using Convolutional Neural Network

Ouyang

Zhou

et al. 2015

162

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Pan Zhou

EnlightenGAN: Deep Light Enhancement Without Paired Supervision

Jointly Attentive Spatial-Temporal Pooling Networks for Video-Based Person Re-identification

Model Compression and Acceleration for Deep Neural Networks: The Principles, Progress, and Challenges

Joint Service Caching and Task Offloading for Mobile Edge Computing in Dense Networks

MetaFormer is Actually What You Need for Vision

EnlightenGAN: Deep Light Enhancement without Paired Supervision

Early Diagnosis of Alzheimer's Disease Based on Resting-State Brain Networks and Deep Learning

Sentiment Analysis Using Convolutional Neural Network

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