EV BATTERY DEGRADATION IN A FLEET

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Norman Lu of Fairview TX (US)

Maximilian Parness of Takoma Park MD (US)

EV BATTERY DEGRADATION IN A FLEET - A simplified explanation of the abstract

This abstract first appeared for US patent application 17850240 titled 'EV BATTERY DEGRADATION IN A FLEET

Simplified Explanation

The abstract of the patent application describes an operation that involves determining objects to be delivered by a group of vehicles and selecting the vehicle with the most degraded battery to transport the heaviest object.

• The operation involves determining objects to be delivered by a group of vehicles.
• The operation includes choosing a vehicle with the most degraded battery.
• The selected vehicle is assigned to transport the heaviest object among the objects to be delivered.

Potential Applications

This technology can be applied in various industries and scenarios, including:

• Delivery services: Optimizing the delivery process by efficiently assigning vehicles based on battery degradation and object weight.
• Logistics and supply chain management: Enhancing the efficiency of transporting heavy objects by selecting vehicles with the most degraded batteries.
• Autonomous vehicle systems: Integrating this technology into autonomous vehicle systems to improve decision-making for object transportation.

Problems Solved

This technology addresses several challenges and problems, such as:

• Battery degradation: By selecting vehicles with the most degraded batteries, the operation ensures that vehicles with better battery conditions are preserved for future tasks.
• Efficient resource allocation: The operation optimizes the use of vehicles by assigning the most suitable vehicle for transporting the heaviest object, reducing energy consumption and maximizing efficiency.
• Object transportation optimization: By considering both battery degradation and object weight, the operation ensures that heavy objects are assigned to vehicles capable of handling the load.

Benefits

The technology offers several benefits, including:

• Improved battery management: By utilizing vehicles with degraded batteries for heavy object transportation, the overall battery lifespan of the group of vehicles can be extended.
• Enhanced efficiency: The operation optimizes the use of vehicles, leading to reduced energy consumption and increased overall efficiency in the delivery process.
• Cost savings: By efficiently assigning vehicles based on battery degradation and object weight, the technology can help reduce operational costs in terms of energy usage and maintenance.

Original Abstract Submitted

An example operation includes one or more of determining objects to be delivered by a group of vehicles, and choosing a vehicle of the group of vehicles with a most degraded battery to transport a heaviest object of the objects.