Intelligent Multi-Agents Energy Trading Services Platform
Creation of an experimental sample of a "smart" home with autonomous energy, development of self-organizing infrastructure and services in "smart" energy systems of a human-machine type. "Development of a multi-agent platform for intelligent trading services of self-organizing microenergy systems". A multi-agent platform with intelligent trading services and technologies for creating solutions based on the platform to ensure free equilibrium distribution of power (energy over short intervals of time) in horizontal (P2P), self-organizing microenergy systems (self-balancing). At the stage of the product development period, the research stage continues, the sources of uncertainty and non-stationarity of the external environment are identified and systematized, requirements for the flexibility of the infrastructure are developed, the methodology for the use of artificial intelligence is updated in order to achieve the balancing dynamics of demand power in real time, and the properties of flexibility are identified, the possibility of managing the margin of flexibility in the system is investigated. A cyber-physical model of the smart home and smart grid system behavior is being created and preparations are being made for simulation modeling at the complex for studying the dynamics of modes in electric power systems and smart grids on the NovaCor platform (RTDS). The development of the technology and the creation of the Grid Forming Platform (GFP) product will ensure: 1. Optimal and flexibly changing in time distribution of electricity from a variety of suppliers to a set of consumers, the distribution of effective loading and unloading of capacities due to the continuous process of auction bidding conducted in the system. 2. Electricity trading between any entities based on an automatic system of communication and decision-making and fixing transaction parameters using a distributed ledger. 3. Mode control and power balance in distributed energy systems with the participation of various power plug&play devices ("plug and play"), power delivery from the distributed power system to the grid in compliance with the conditions of network operation both in "island" (autonomous) and "network" modes. RIA for software will be registered in accordance with Russian and international legislation. The commercialization of the project will take place through the sale of non-exclusive software licenses.
Technical Architecture
Technology
TR Level
Software Requirements Specifications (SRS) Overview
Tech Platform
Digital Transformation Domain
Project Type
Service Model
Business and Economic Impact
Industry
Project Status
Successfully Deployed in Industry
Unit Cost
$40,000,000
Pricing Model
Social & Environmental Impact
Economic Impact
MARKET CAPABILITY & CONSUMER GROUPS
TARGET MARKET SEGMENTS
Retail Electricity Consumers: Reducing cross-subsidization and curbing tariff growth, satisfying regular consumers' desire to lower or freeze electricity rates while relieving the financial burden on heavily cross-subsidized industrial enterprises.
Smart Metering Manufacturers: Entering a new market by evolving from basic data transmission to tracking grid energy exchange, enabling smart contracts and automated transaction compliance, while introducing novel power quality control features.
IoT Device & Appliance Manufacturers: Capturing a new energy-sector market by supplying smart devices for peak load reduction, capacity backup, and seamless "plug-and-play" grid entry, while establishing remote consumption management and flexible demand resources in smart homes.
Power Supply Companies (Retailers): Leveraging smart metering infrastructure to establish innovative consumer interaction models and advanced retail energy trading frameworks.
RES and Distributed Generation Equipment Manufacturers: Accelerating the expansion of green energy and microgeneration by enabling residential households to deploy autonomous generation systems up to 15 kW.