Cloud-based Collaborative Agricultural Learning with Flexible Model Size and Adaptive Batch Number-Reference-Cited by-同舟云学术

Cloud-based Collaborative Agricultural Learning with Flexible Model Size and Adaptive Batch Number

Published:2023-10-21 Issue: Volume: Page:
ISSN:1550-4859
Container-title:ACM Transactions on Sensor Networks
language:en
Short-container-title:ACM Trans. Sen. Netw.

Author:

Shi Hongjian¹,Bayanbayev Ilyas¹,Zheng Wenkai²,Ma Ruhui¹,Guan Haibing¹

Affiliation:

1. School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, China

2. Aerospace System Engineering Shanghai, China

Abstract

With the rapid growth in the world population, developing agricultural technologies has been an urgent need. Sensor networks have been widely used to monitor and manage agricultural status. Moreover, Artificial Intelligence (AI) techniques are adopted for their high accuracy to enable the analysis of massive data collected through the sensor network. The datasets on the devices of agricultural applications usually need to be completed and bigger, which limits the performance of AI algorithms. Thus, researchers turn to Collaborative Learning (CL) to utilize the data on multiple devices to train a global model privately. However, current CL frameworks for agricultural applications suffer from three problems: data heterogeneity, system heterogeneity, and communication overhead. In this paper, we propose cloud-based Collaborative Agricultural Learning with Flexible model size and Adaptive batch number (CALFA) to improve the efficiency and applicability of the training process while maintaining its effectiveness. CALFA contains three modules. The Classification Pyramid allows the devices to use different sizes of models during training and enables the classification of different object sizes. Adaptive Aggregation modifies the aggregation weights to maintain the convergence speed and accuracy. Adaptive Adjustment modifies the training batch numbers to mitigate the communication overhead. The experimental results illustrate that CALFA outperforms other SOTA CL frameworks by reducing up to 75% communication overhead with nearly no accuracy loss. Also, CALFA enables training on more devices by reducing the model size.

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Networks and Communications

Link

https://dl.acm.org/doi/pdf/10.1145/3628431

Reference42 articles.

1. Manoj Ghuhan Arivazhagan Vinay Aggarwal Aaditya Kumar Singh and Sunav Choudhary. 2019. Federated learning with personalization layers. arxiv:1912.00818 Manoj Ghuhan Arivazhagan Vinay Aggarwal Aaditya Kumar Singh and Sunav Choudhary. 2019. Federated learning with personalization layers. arxiv:1912.00818

2. An Efficient Deep Learning Approach To IoT Intrusion Detection

3. LiveCare: An IoT-Based Healthcare Framework for Livestock in Smart Agriculture

4. Mang Tik Chiu , Xingqian Xu , Yunchao Wei , Zilong Huang , Alexander G. Schwing , Robert Brunner , Hrant Khachatrian , Hovnatan Karapetyan , Ivan Dozier , Greg Rose , David Wilson , Adrian Tudor , Naira Hovakimyan , Thomas S. Huang , and Honghui Shi . 2020 . Agriculture-vision: A large aerial image database for agricultural pattern analysis . In Proceedings of 2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition. Computer Vision Foundation / IEEE, 2825–2835 . Mang Tik Chiu, Xingqian Xu, Yunchao Wei, Zilong Huang, Alexander G. Schwing, Robert Brunner, Hrant Khachatrian, Hovnatan Karapetyan, Ivan Dozier, Greg Rose, David Wilson, Adrian Tudor, Naira Hovakimyan, Thomas S. Huang, and Honghui Shi. 2020. Agriculture-vision: A large aerial image database for agricultural pattern analysis. In Proceedings of 2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition. Computer Vision Foundation / IEEE, 2825–2835.

5. Liam Collins , Hamed Hassani , Aryan Mokhtari , and Sanjay Shakkottai . 2021 . Exploiting shared representations for personalized federated learning . In Proceedings of the 38th International Conference on Machine Learning(Proceedings of Machine Learning Research, Vol. 139) . PMLR, 2089–2099. Liam Collins, Hamed Hassani, Aryan Mokhtari, and Sanjay Shakkottai. 2021. Exploiting shared representations for personalized federated learning. In Proceedings of the 38th International Conference on Machine Learning(Proceedings of Machine Learning Research, Vol. 139). PMLR, 2089–2099.