Ford global technologies, llc (20240263508). VEHICLE DOOR CONTROL SYSTEM simplified abstract

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VEHICLE DOOR CONTROL SYSTEM

Organization Name

ford global technologies, llc

Inventor(s)

Stuart C. Salter of White Lake MI (US)

Aaron Halonen of Brighton MI (US)

Annette Lynn Huebner of Highland MI (US)

Kristin Ann Hellman of Walled Lake MI (US)

David Brian Glickman of Southfield MI (US)

Kristopher Karl Brown of Dearborn MI (US)

VEHICLE DOOR CONTROL SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240263508 titled 'VEHICLE DOOR CONTROL SYSTEM

The abstract of the patent application describes a vehicle door control system that includes a door assembly with a side door and a liftgate. The system also includes an actuation assembly to adjust the position of the side door and liftgate, a sensor assembly with different sensor fields, and a controller to determine the presence of a recognized passenger, their speed, and whether they are carrying an object. Based on this information, the actuation assembly opens either the liftgate or the side door, with the timing of activation based on the passenger's speed.

  • The patent application describes a vehicle door control system that can automatically open the liftgate or side door based on the presence of a recognized passenger and whether they are carrying an object.
  • The system includes sensors to detect passengers in different areas around the vehicle, allowing for precise control of the door opening mechanism.
  • The controller analyzes the data from the sensors to make decisions about which door to open and when, enhancing convenience and safety for passengers.
  • By considering the speed of the recognized passenger, the system can adjust the timing of door opening to accommodate their movement and ensure a smooth experience.
  • This innovation aims to improve the functionality and user experience of vehicle door systems, providing a more efficient and convenient way to access the vehicle.

Potential Applications: - Automotive industry for passenger vehicles - Transportation services for enhanced passenger experience - Security systems for controlled access to vehicles

Problems Solved: - Ensures convenient and safe access to vehicles for passengers - Enhances user experience by automating door opening based on passenger presence and speed

Benefits: - Improved convenience and efficiency for passengers - Enhanced safety and security features for vehicle access - Streamlined user experience with automated door control

Commercial Applications: Title: Advanced Vehicle Door Control System for Enhanced Passenger Experience This technology can be utilized in passenger vehicles, transportation services, and security systems to provide a more convenient and secure way for passengers to access vehicles. The market implications include improved user experience, enhanced safety features, and potential for integration into various automotive applications.

Questions about the technology: 1. How does the system differentiate between recognized passengers and other individuals? 2. What measures are in place to ensure the safety of passengers when the doors are automatically opened?


Original Abstract Submitted

a vehicle door control system includes a door assembly, which includes a side door and a liftgate. the door assembly includes an actuation assembly that adjusts each of the side door and the liftgate between opened and closed positions. a sensor assembly defines a rear sensor field, a first side sensor field, and a second side sensor field. a controller determines whether a person in at least one of the rear sensor field, the first side sensor field, and the second side sensor field is a recognized passenger, determines a speed of the recognized passenger, determines whether the recognized passenger is carrying an object, and activates the actuation assembly to open at least one of the liftgate and the side door based on whether the recognized passenger is carrying an object, where timing of activation of the actuation assembly is based on the speed of the recognized passenger.