Short-term load forecasting with distributed long short-term memory
Short-term load forecasting with distributed long short-term memory
With the employment of smart meters, massive data on consumer behaviour can be collected by retailers. From the collected data, the retailers may obtain the house-hold profile information and implement demand response. While retailers prefer to acquire a model as accurate as possible among different customers, there are two major challenges. First, different retailers in the retail market do not share their consumer's electricity consumption data as these data are regarded as their assets, which has led to the problem of data island. Second, the electricity load data are highly heterogeneous since different retailers may serve various consumers. To this end, a fully distributed short-term load forecasting framework based on a consensus algorithm and Long Short-Term Memory (LSTM) is proposed, which may protect the customer's privacy and satisfy the accurate load forecasting requirement. Specifically, a fully distributed learning framework is exploited for distributed training, and a consensus technique is applied to meet confidential privacy. Case studies show that the proposed method has comparable performance with centralised methods regarding the accuracy, but the proposed method shows advantages in training speed and data privacy.
consensus, distributed learning, long short term memory, multi-agent system, short-term load forecasting
Dong, Yi
355a62d9-5d1a-4c14-a900-9911e8c62453
Chen, Yang
1c63be41-d426-435f-a849-aab897ba6c88
Zhao, Xingyu
56d69104-77e5-4741-bca1-c0fa13f433fe
Huang, Xiaowei
ea80b217-6df4-4708-970d-93303f2a17e5
22 March 2023
Dong, Yi
355a62d9-5d1a-4c14-a900-9911e8c62453
Chen, Yang
1c63be41-d426-435f-a849-aab897ba6c88
Zhao, Xingyu
56d69104-77e5-4741-bca1-c0fa13f433fe
Huang, Xiaowei
ea80b217-6df4-4708-970d-93303f2a17e5
Dong, Yi, Chen, Yang, Zhao, Xingyu and Huang, Xiaowei
(2023)
Short-term load forecasting with distributed long short-term memory.
In Proceedings of the 2023 IEEE Power and Energy Society Innovative Smart Grid Technologies Conference, ISGT 2023.
IEEE.
5 pp
.
(doi:10.1109/ISGT51731.2023.10066368).
Record type:
Conference or Workshop Item
(Paper)
Abstract
With the employment of smart meters, massive data on consumer behaviour can be collected by retailers. From the collected data, the retailers may obtain the house-hold profile information and implement demand response. While retailers prefer to acquire a model as accurate as possible among different customers, there are two major challenges. First, different retailers in the retail market do not share their consumer's electricity consumption data as these data are regarded as their assets, which has led to the problem of data island. Second, the electricity load data are highly heterogeneous since different retailers may serve various consumers. To this end, a fully distributed short-term load forecasting framework based on a consensus algorithm and Long Short-Term Memory (LSTM) is proposed, which may protect the customer's privacy and satisfy the accurate load forecasting requirement. Specifically, a fully distributed learning framework is exploited for distributed training, and a consensus technique is applied to meet confidential privacy. Case studies show that the proposed method has comparable performance with centralised methods regarding the accuracy, but the proposed method shows advantages in training speed and data privacy.
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Published date: 22 March 2023
Additional Information:
Funding Information:
This work is supported by the UK EPSRC through End-to-End Conceptual Guarding of Neural Architectures [EP/T026995/1]).
Venue - Dates:
2023 IEEE Power and Energy Society Innovative Smart Grid Technologies Conference, ISGT 2023, , Washington, United States, 2023-01-16 - 2023-01-19
Keywords:
consensus, distributed learning, long short term memory, multi-agent system, short-term load forecasting
Identifiers
Local EPrints ID: 484271
URI: http://eprints.soton.ac.uk/id/eprint/484271
PURE UUID: 4d47e2ac-0d49-4c28-b024-af9e63650133
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Date deposited: 13 Nov 2023 18:55
Last modified: 18 Mar 2024 04:17
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Contributors
Author:
Yi Dong
Author:
Yang Chen
Author:
Xingyu Zhao
Author:
Xiaowei Huang
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