Intel corporation (20240211774). GEOGRAPHIC HEAT OR COLD DISTRIBUTION MODEL simplified abstract
Contents
GEOGRAPHIC HEAT OR COLD DISTRIBUTION MODEL
Organization Name
Inventor(s)
Cornelius Buerkle of Karlsruhe (DE)
Ignacio Alvarez of Portland OR (US)
Fabian Oboril of Karlsruhe (DE)
Frederik Pasch of Karlesruhe (DE)
GEOGRAPHIC HEAT OR COLD DISTRIBUTION MODEL - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240211774 titled 'GEOGRAPHIC HEAT OR COLD DISTRIBUTION MODEL
The patent application describes an apparatus that can generate a digital twin of a geographic area and create a heat distribution model based on heat factor information received for that area. The apparatus then performs actions based on this heat distribution model.
- Interface to receive heat factor information for a geographic area
- Processing circuitry to generate a digital twin of the area and create a heat distribution model
- Action performed based on the heat distribution model
Potential Applications: - Urban planning and design - Environmental monitoring and management - Energy efficiency optimization in buildings
Problems Solved: - Lack of accurate heat distribution modeling for geographic areas - Inefficient urban planning based on outdated data - Ineffective energy management strategies
Benefits: - Improved accuracy in heat distribution modeling - Enhanced urban planning and design capabilities - Increased energy efficiency in buildings
Commercial Applications: Title: "Smart Urban Planning and Energy Management System" This technology can be used by city planners, architects, and energy management companies to optimize urban development and energy usage.
Prior Art: Researchers in the field of urban planning and environmental modeling may have explored similar concepts of digital twins and heat distribution modeling for geographic areas.
Frequently Updated Research: Stay updated on advancements in digital twin technology, urban planning strategies, and energy management solutions to enhance the capabilities of this apparatus.
Questions about the technology: 1. How does this apparatus improve upon traditional urban planning methods? - By utilizing real-time heat factor information and generating accurate heat distribution models, this apparatus enables more precise and efficient urban planning decisions.
2. What are the potential environmental benefits of using this technology? - By optimizing energy usage and reducing heat waste in buildings, this technology can contribute to lower carbon emissions and overall environmental sustainability.
Original Abstract Submitted
an apparatus, including: an interface operable to receive heat factor information for a geographic area; processing circuitry operable to: generate a digital twin of the geographic area, wherein the digital twin is a virtual representation of the geographic area, and based on the received heat factor information, spawns a heat distribution model that mirrors a heat distribution of the geographic area; and perform an action based on the heat distribution model.