Cong Hao scite author profile

The Visual Object Tracking challenge VOT2018 is the sixth annual tracker benchmarking activity organized by the VOT initiative. Results of over eighty trackers are presented; many are state-of-the-art trackers published at major computer vision conferences or in journals in the recent years. The evaluation included the standard VOT and other popular methodologies for short-term tracking analysis and a "real-time" experiment simulating a situation where a tracker processes images as if provided by a continuously running sensor. A long-term tracking subchallenge has been introduced to the set of standard VOT sub-challenges. The new subchallenge focuses on long-term tracking properties, namely coping with target disappearance and reappearance. A new dataset has been compiled and a performance evaluation methodology that focuses on long-term tracking capabilities has been adopted. The VOT toolkit has been updated to support both standard short-term and the new longterm tracking subchallenges. Performance of the tested trackers typically by far exceeds standard baselines. The source code for most of the trackers is publicly available from the VOT page. The dataset, the evaluation kit and the results are publicly available at the challenge website 60 .

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EDD: Efficient Differentiable DNN Architecture and Implementation Co-search for Embedded AI Solutions

Hao

Zhang

et al. 2020

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T-DLA: An Open-source Deep Learning Accelerator for Ternarized DNN Models on Embedded FPGA

Yao

Zhang

Cheng

et al. 2019

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Optimal Operation Analysis of Integrated Community Energy System Considering the Uncertainty of Demand Response

Wang

Hou

et al. 2021

IEEE Trans. Power Syst.

136

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EDD: Efficient Differentiable DNN Architecture and Implementation Co-search for Embedded AI Solutions

Hao

Zhang

et al. 2020

Preprint

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High quality AI solutions require joint optimization of AI algorithms and their hardware implementations. In this work, we are the first to propose a fully simultaneous, Efficient Differentiable DNN (deep neural network) architecture and implementation cosearch (EDD) methodology. We formulate the co-search problem by fusing DNN search variables and hardware implementation variables into one solution space, and maximize both algorithm accuracy and hardware implementation quality. The formulation is differentiable with respect to the fused variables, so that gradient descent algorithm can be applied to greatly reduce the search time. The formulation is also applicable for various devices with different objectives. In the experiments, we demonstrate the effectiveness of our EDD methodology by searching for three representative DNNs, targeting low-latency GPU implementation and FPGA implementations with both recursive and pipelined architectures. Each model produced by EDD achieves similar accuracy as the best existing DNN models searched by neural architecture search (NAS) methods on ImageNet, but with superior performance obtained within 12 GPU-hour searches. Our DNN targeting GPU is 1.40× faster than the state-of-the-art solution reported in Proxyless [1], and our DNN targeting FPGA delivers 1.45× higher throughput than the state-of-the-art solution reported in DNNBuilder [2].

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Cong Hao

The Sixth Visual Object Tracking VOT2018 Challenge Results

EDD: Efficient Differentiable DNN Architecture and Implementation Co-search for Embedded AI Solutions

T-DLA: An Open-source Deep Learning Accelerator for Ternarized DNN Models on Embedded FPGA

Optimal Operation Analysis of Integrated Community Energy System Considering the Uncertainty of Demand Response

EDD: Efficient Differentiable DNN Architecture and Implementation Co-search for Embedded AI Solutions

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