Peter Schlicht scite author profile

We propose an efficient protocol for decentralized training of deep neural networks from distributed data sources. The proposed protocol allows to handle different phases of model training equally well and to quickly adapt to concept drifts. This leads to a reduction of communication by an order of magnitude compared to periodically communicating state-of-the-art approaches. Moreover, we derive a communication bound that scales well with the hardness of the serialized learning problem. The reduction in communication comes at almost no cost, as the predictive performance remains virtually unchanged. Indeed, the proposed protocol retains loss bounds of periodically averaging schemes. An extensive empirical evaluation validates major improvement of the trade-off between model performance and communication which could be beneficial for numerous decentralized learning applications, such as autonomous driving, or voice recognition and image classification on mobile phones.

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Unsupervised Domain Adaptation to Improve Image Segmentation Quality Both in the Source and Target Domain

Bolte

Kamp

Breuer

et al. 2019

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Application of Maximum Likelihood Decision Rules for Handling Class Imbalance in Semantic Segmentation

Chan¹,

Rottmann²,

Gottschalk³

et al. 2020

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Controlled False Negative Reduction of Minority Classes in Semantic Segmentation

Chan

Rottmann

Hüger

et al. 2020

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Peter Schlicht

Prediction Error Meta Classification in Semantic Segmentation: Detection via Aggregated Dispersion Measures of Softmax Probabilities

Efficient Decentralized Deep Learning by Dynamic Model Averaging

Unsupervised Domain Adaptation to Improve Image Segmentation Quality Both in the Source and Target Domain

Application of Maximum Likelihood Decision Rules for Handling Class Imbalance in Semantic Segmentation

Controlled False Negative Reduction of Minority Classes in Semantic Segmentation

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