Multi-Agent Systems for Collaborative Inference Based on Deep Policy Q-Inference Network

This study tackles the problem of increasing efficiency and scalability in deep neural network (DNN) systems by employing collaborative inference, an approach that is gaining popularity because to its ability to maximize computational resources. It involves splitting a pre-trained DNN model into two parts and running them separately on user equipment (UE) and edge servers. This approach is advantageous because it results in faster and more energy-efficient inference, as computation can be offloaded to edge servers rather than relying solely on UEs. However, a significant challenge of collaborative belief is the dynamic coupling of DNN layers, which makes it difficult to separate and run the layers independently. To address this challenge, we proposed a novel approach to optimize collaborative inference in a multi-agent scenario where a single-edge server coordinates the assumption of multiple UEs. Our proposed method suggests using an autoencoder-based technique to reduce the size of intermediary features and constructing tasks using the deep policy inference Q-inference network’s overhead (DPIQN). To optimize the collaborative inference, employ the Deep Recurrent Policy Inference Q-Network (DRPIQN) technique, which allows for a hybrid action space. The results of the tests demonstrate that this approach can significantly reduce inference latency by up to 56% and energy usage by up to 72% on various networks. Overall, this proposed approach provides an efficient and effective method for implementing collaborative inference in multi-agent scenarios, which could have significant implications for developing DNN systems.

Authors
Wang Shangshang 1 , Jing Yuqin2 , Wang Kezhu3 , Wang Xue4, 5
Publisher
Springer Science+Business Media B.V., Formerly Kluwer Academic Publishers B.V.
Number of issue
1
Language
English
Pages
38
Status
Published
Volume
22
Year
2024
Organizations
  • 1 People’s Friendship University of Russia
  • 2 Chongqing Open University
  • 3 Lu’an Vocational and Technical College
  • 4 Nanjing Normal University
  • 5 Nanjing Audit University
Keywords
deep reinforcement learning; mobile edge computing; Multi-user; collaborative inference; Hybrid action space; Processor architectures; management of computing and information systems; User Interfaces and Human Computer Interaction
Share

Other records