DYNAMICALLY CONTROLLABLE AND ADAPTABLE VEHICLE PAGING RESPONSE

Organization Name

ford global technologies, llc

Inventor(s)

Jeffrey William Wirtanen of Kanata (CA)

Muhammad Khaledul Islam of Ottawa (CA)

Yihai Zhang of Kanata (CA)

DYNAMICALLY CONTROLLABLE AND ADAPTABLE VEHICLE PAGING RESPONSE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240206007 titled 'DYNAMICALLY CONTROLLABLE AND ADAPTABLE VEHICLE PAGING RESPONSE

Simplified Explanation: This patent application describes a system in a vehicle that adjusts the discontinuous reception (DRX) cycle control during the engine-off state based on predefined variables and contexts. The vehicle automatically changes the DRX cycle according to a control strategy associated with the variables.

Key Features and Innovation:

• Vehicle determines the value of predefined variables related to DRX cycle control during engine-off state.
• Automatically adjusts the current DRX cycle based on the value of the variables and control strategy.
• Enhances power efficiency and performance during idle periods.

Potential Applications: This technology can be applied in:

• Automotive industry for improving fuel efficiency.
• IoT devices for optimizing power consumption.
• Mobile devices for enhancing battery life.

Problems Solved:

• Efficient management of power consumption during idle periods.
• Enhanced performance and responsiveness of the vehicle.
• Reduction of unnecessary power usage.

Benefits:

• Improved fuel efficiency.
• Extended battery life for devices.
• Enhanced overall performance of the vehicle.

Commercial Applications: Title: "Smart Power Management System for Vehicles" This technology can be utilized in:

• Automotive industry for eco-friendly vehicles.
• IoT sector for energy-efficient devices.
• Mobile device industry for longer battery life.

Prior Art: Further research can be conducted in the field of power management systems in vehicles and IoT devices to explore similar technologies.

Frequently Updated Research: Stay updated on advancements in power management systems in vehicles and IoT devices to incorporate the latest innovations.

Questions about the Technology: 1. How does this technology impact overall power efficiency in vehicles and devices?

  - This technology significantly improves power efficiency by optimizing the DRX cycle control during idle periods.

2. What are the potential long-term benefits of implementing this system in vehicles and IoT devices?

  - The long-term benefits include improved fuel efficiency, extended battery life, and enhanced overall performance.

Original Abstract Submitted

a vehicle determines the value of at least one predefined variable related to predefined contexts for discontinuous reception (drx) cycle control during an engine-off state of the vehicle. the vehicle determines how a current drx cycle should be changed responsive to the value of the at least one predefined variable in accordance with a control strategy associated with the at least one variable and, responsive to the determining how the cycle should be changed, automatically changes the current drx cycle in accordance with the control strategy while the vehicle remains powered down.