Abstract:
This project used artificial intelligence, the Internet of things, and blockchain technology to create a vehicle-to-everything blockchain power trading and energy management platform for electric vehicle charging stations in or between commercial buildings. The proposed platform considers bidirectional power and green power charging and discharging in microgrids, demand response bidding, and vehicle-to-vehicle emergency rescue charging. Smart contracts handle bidding, matching, and settlement of the power trading platform, while cloud and local distributed ledger nodes chain detailed real-time transaction information and power data on the ledger. This ensures data security and fairness, processes a lot of chaining information, and reduces chaining latency. AI also integrates communication protocols. An energy management system (EMS) can control charging piles and energy storage system devices and schedule optimal charging and discharging based on power transaction matching results. It can reduce power loss, microgrid operating costs, and green power efficiency in commercial buildings. The EMS automatically and simultaneously executes power transactions to balance regional microgrids’ supply and demand.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.
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