基于Bandit学习的分散式交易能源拍卖

Zibo Zhao, K. Nakayama, Ratnesh K. Sharma
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引用次数: 7

摘要

世界范围内的电力系统已经接受了分布式能源的快速发展。通常,分布式能源存在于配电层,如电动汽车、屋顶光伏板、家庭电池系统等,无法由公用事业等集中实体控制。然而,当业主(产消者)被允许将电力送回电网时,大量的分布式能源有可能重塑发电格局。通过使产消者和消费者之间的能源交换能够协调产消者和消费者之间的能源交互模式正在出现。在本文中,我们提出了一个基于区块链技术的交易能源拍卖框架,用于在配电网络中创建可信和透明的交易环境,该环境不依赖于集中式实体来清算交易。此外,我们提出了基于强盗学习的分散智能决策策略,让市场参与者在拍卖中本地决定自己的能源价格。在区块链框架下,强盗学习方法可以为市场参与者提供比与中心化实体交易能源更多的利益,这一点在我们基于区块链的平台上进行的初步模拟结果进一步得到了支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Decentralized Transactive Energy Auctions with Bandit Learning
The power systems worldwide have been embracing the rapid growth of distributed energy resources. Commonly, distributed energy resources exist in the distribution level, such as electric vehicles, rooftop photovoltaic panels, and home battery systems, which cannot be controlled by a centralized entity like a utility. However, a large number of distributed energy resources have potential to reshape the power generation landscape when the owners (prosumers) are allowed to send electricity back to the grids. Transactive energy paradigms are emerging for orchestrating the coordination of prosumers and consumers by enabling the exchange of energy among them. In this paper, we propose a transactive energy auction framework based on blockchain technology for creating trustworthy and transparent transactive environments in distribution networks, which does not rely on a centralized entity to clear transactions. Moreover, we propose intelligent decentralized decision-making strategies by bandit learning for market participants to locally decide their energy prices in auctions. The bandit learning approach can provide market participants with more benefits under the blockchain framework than trading energy with the centralized entity, which is further supported by the preliminary simulated results conducted over our blockchain-based platform.
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