20240022075. CHARGING PLAN RESCHEDULING RESPONSIVE TO DYNAMICALLY CHANGING CONDITIONS simplified abstract (Wireless Advanced Vehicle Electrification, LLC)
Contents
CHARGING PLAN RESCHEDULING RESPONSIVE TO DYNAMICALLY CHANGING CONDITIONS
Organization Name
Wireless Advanced Vehicle Electrification, LLC
Inventor(s)
CHARGING PLAN RESCHEDULING RESPONSIVE TO DYNAMICALLY CHANGING CONDITIONS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240022075 titled 'CHARGING PLAN RESCHEDULING RESPONSIVE TO DYNAMICALLY CHANGING CONDITIONS
Simplified Explanation
The abstract describes techniques for managing energy usage plans of network components associated with energy storage systems. These plans are based on calculated anticipated energy needs of the network components. In case of a disruption, the initial configurations of the network components can be dynamically adjusted based on recalculated anticipated energy needs at the time of the disruption.
- Techniques for managing energy usage plans of network components associated with energy storage systems
- Energy usage plans are based on calculated anticipated energy needs of the network components
- Initial energy usage plan defines initial configurations of the network components
- In case of a disruption, the initial configurations of the network components can be dynamically adjusted
- Adjustments are based on recalculated anticipated energy needs at the time of the disruption
Potential Applications:
- Energy management systems for network components
- Optimization of energy usage in network infrastructure
- Improved resilience and adaptability of network components during disruptions
Problems Solved:
- Inefficient energy usage in network components
- Lack of adaptability and resilience during disruptions
- Difficulty in managing energy needs of network components
Benefits:
- Improved energy efficiency in network components
- Enhanced adaptability and resilience during disruptions
- Better management of energy needs in network infrastructure
Original Abstract Submitted
techniques for managing energy usage plans of network components that are associated with energy storage systems are described herein. energy usage plans may be based upon calculated anticipated energy needs of the network components. in one embodiment, an initial energy usage plan may define initial configurations of the network components. in case of detected disruption, the initial configurations of the network components may be dynamically adjusted based upon recalculated anticipated energy needs at the time of the detected disruption.