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Non-causal Control For Wave Energy Conversion Based on the Double Deep Q Network

Non-causal Control For Wave Energy Conversion Based on the Double Deep Q Network
Non-causal Control For Wave Energy Conversion Based on the Double Deep Q Network
To harness maximal wave energy, control and optimization for wave energy converters(WECs) have been investigated for decades. It has been long recognized that WEC control is essentially a non-causal control problem, in which future wave determines current control decisions. This paper introduces double deep Q network into the foundation of the non-causal time variant PD control system, enabling real-time parameter adjustments for dynamic control responses. Additionally, this paper delves into a comparative assessment of the influence of different prediction horizons on the efficiency of energy harvesting. The primary objective of this study is to elevate the control performance of wave energy converters, facil-itating more efficient capture and conversion of wave energy into usable electrical power. The integration of deep reinforcement learning empowers researchers to adapt swiftly to fluctuating waves and ocean conditions, fine-tuning control parameters to enhance overall system efficiency and stability. Taking the point absorber as an example, the effectiveness of the proposed method has been verified. This method can be straightforwardly applied to other types of WEC, such as Dielectric Elastomer Generators and Dielectric Fluid Generators.
Double Deep Q Network, Robustness, Wave Energy Converter, Wave Prediction
13-18
IEEE
Wang, Hanzhen
e7b7a3ed-e62b-49bf-842a-9aeaccc0974c
Wijaya, Vincentius Versandy
26f6f93b-c554-4a3b-b538-b542afddcf80
Zhang, Yao
a4f30318-ab42-4b38-a60d-f7199ff3a02a
Zeng, Tianyi
0c259925-4a87-4aaf-b373-215f65c56298
dong, Xin
84b366e7-4c85-4b54-b3c5-fe7859018aa5
Wang, Hanzhen
e7b7a3ed-e62b-49bf-842a-9aeaccc0974c
Wijaya, Vincentius Versandy
26f6f93b-c554-4a3b-b538-b542afddcf80
Zhang, Yao
a4f30318-ab42-4b38-a60d-f7199ff3a02a
Zeng, Tianyi
0c259925-4a87-4aaf-b373-215f65c56298
dong, Xin
84b366e7-4c85-4b54-b3c5-fe7859018aa5

Wang, Hanzhen, Wijaya, Vincentius Versandy, Zhang, Yao, Zeng, Tianyi and dong, Xin (2024) Non-causal Control For Wave Energy Conversion Based on the Double Deep Q Network. In 2024 UKACC 14th International Conference on Control, CONTROL 2024. IEEE. pp. 13-18 . (doi:10.1109/CONTROL60310.2024.10532100).

Record type: Conference or Workshop Item (Paper)

Abstract

To harness maximal wave energy, control and optimization for wave energy converters(WECs) have been investigated for decades. It has been long recognized that WEC control is essentially a non-causal control problem, in which future wave determines current control decisions. This paper introduces double deep Q network into the foundation of the non-causal time variant PD control system, enabling real-time parameter adjustments for dynamic control responses. Additionally, this paper delves into a comparative assessment of the influence of different prediction horizons on the efficiency of energy harvesting. The primary objective of this study is to elevate the control performance of wave energy converters, facil-itating more efficient capture and conversion of wave energy into usable electrical power. The integration of deep reinforcement learning empowers researchers to adapt swiftly to fluctuating waves and ocean conditions, fine-tuning control parameters to enhance overall system efficiency and stability. Taking the point absorber as an example, the effectiveness of the proposed method has been verified. This method can be straightforwardly applied to other types of WEC, such as Dielectric Elastomer Generators and Dielectric Fluid Generators.

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More information

e-pub ahead of print date: 22 May 2024
Published date: 22 May 2024
Additional Information: Publisher Copyright: © 2024 IEEE.
Keywords: Double Deep Q Network, Robustness, Wave Energy Converter, Wave Prediction

Identifiers

Local EPrints ID: 491091
URI: http://eprints.soton.ac.uk/id/eprint/491091
DOI: doi:10.1109/CONTROL60310.2024.10532100
PURE UUID: 156eefa7-7664-42c6-bc95-9f4eb3f4941b
ORCID for Vincentius Versandy Wijaya: ORCID iD orcid.org/0009-0009-4209-5988
ORCID for Yao Zhang: ORCID iD orcid.org/0000-0002-3821-371X

Catalogue record

Date deposited: 11 Jun 2024 23:55
Last modified: 31 Jul 2024 02:10

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Contributors

Author: Hanzhen Wang
Author: Vincentius Versandy Wijaya ORCID iD
Author: Yao Zhang ORCID iD
Author: Tianyi Zeng
Author: Xin dong

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