System and Method for Development of an AI Computational Intelligence Platform for Energy Resilience in Buildings

20230119984

17/503269

October 16, 2021

Systems and methods are disclosed herein for completely automated system for energy management. The system uses advanced mathematical concepts and learning algorithms replacing all static rules-based software, to create an advance AI functionality including climate benefits of increased energy efficiency with lower greenhouse gas emissions and environmental benefits; reducing overall emission of other air pollutants, economic benefits including less investments in new power generation and transmission, stronger local economy; Utility infrastructure benefits include lowering of baseload and peak demand; Social benefits including increased disposable income providing the ability to spend on other needs, fewer public health stressors and direct benefits of the proposed integrated energy efficiency and resiliency solution include reduced building energy consumption, curtailing building peak load through energy efficiency measures for demand side management, allowing residents to shelter in buildings longer; reduction of energy spending; helping vulnerable populations avoiding dangerous and life-threatening situations due to weather and hazards.

1:. An apparatus for facilitating a home energy management where managing a plurality of energy consuming devices associated to an individual consumer and connected on a power distribution system to an energy supplying system and real-time power outage prediction that will provide needed information to proposed system to plan and operate in resiliency mode during no or low power scenarios comprising of following scenarios: an AI model to predict number and location of power outages due to localized short duration storm events; an AI model to predict number and location of power outages due to extreme weather events like hurricanes; and, an AI model that uses social media feeds and repair logs to improve and update number, location and also duration of power outages.

2:. An integrated Resiliency-Energy Efficiency platform comprising: AI Processing Engine to target the energy consumption of appliances, learning user preferences, recognizing current activities, automated implementation of energy efficiency plans; Sensory Infrastructure allowing to measure energy consumption; Sensors for acquiring environmental data (e.g., temperature, humidity) and context information (user presence); and, Actuation Infrastructure to control HVAC, lighting, appliances and other devices.

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