INTELLIGENT VEHICLE SYSTEMS AND CONTROL LOGIC WITH ADAPTIVE VEHICLE AUTOMATION FOR USER HEALTH CONDITIONS

Organization Name

GM GLOBAL TECHNOLOGY OPERATIONS LLC

Inventor(s)

Duncan Lopatine of Athens GA (US)

Russell A. Patenaude of Macomb Township MI (US)

Armando Mendoza of Austin TX (US)

INTELLIGENT VEHICLE SYSTEMS AND CONTROL LOGIC WITH ADAPTIVE VEHICLE AUTOMATION FOR USER HEALTH CONDITIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240043041 titled 'INTELLIGENT VEHICLE SYSTEMS AND CONTROL LOGIC WITH ADAPTIVE VEHICLE AUTOMATION FOR USER HEALTH CONDITIONS

Simplified Explanation

The abstract describes a patent application for intelligent vehicle systems and control logic that can adapt to the health conditions of occupants. The method involves determining the existing health condition of an occupant and retrieving predefined calibration settings and condition symptoms customized to that condition. The in-vehicle sensing devices are calibrated using the predefined settings to detect the condition symptoms and monitor the occupant for health-related events. Upon detecting an event, the controller commands vehicle subsystems to mitigate the event.

• The patent application presents intelligent vehicle systems and control logic for adaptive vehicle sensing and automation for occupants with health conditions.
• The method involves determining the existing health condition of an occupant in the vehicle's passenger compartment.
• Predefined sets of calibration settings and condition symptoms customized to the health condition are retrieved from a memory device.
• The in-vehicle sensing devices are calibrated using the predefined settings to detect the condition symptoms.
• The calibrated sensing devices monitor the occupant to detect a health-related event based on the predefined condition symptoms.
• Upon detecting the health-related event, the controller commands resident vehicle subsystems to execute vehicle control operations to mitigate the event.

Potential Applications:

• This technology can be applied in vehicles used for transportation of individuals with specific health conditions, such as elderly or disabled individuals.
• It can be used in medical transport vehicles to ensure the safety and well-being of patients during transportation.
• The system can be integrated into autonomous vehicles to provide adaptive sensing and automation for occupants with health conditions.

Problems Solved:

• The technology addresses the challenge of providing adaptive vehicle sensing and automation for occupants with health conditions.
• It solves the problem of detecting health-related events in real-time and taking appropriate control actions to mitigate them.
• The system helps in ensuring the safety and comfort of occupants with health conditions during vehicle travel.

Benefits:

• The technology improves the overall safety and well-being of occupants with health conditions by providing adaptive sensing and automation.
• It enhances the driving experience for individuals with health conditions by mitigating health-related events.
• The system can potentially reduce the risk of accidents or medical emergencies during vehicle travel.

Original Abstract Submitted

presented are intelligent vehicle systems and control logic for adaptive vehicle sensing and automation for occupants with health conditions, methods for making/using such systems, and vehicles equipped with such systems. a method of operating a vehicle includes a resident or remote vehicle controller determining an existing health condition of an occupant in the vehicle's passenger compartment. the controller then retrieves, e.g., from a resident or remote memory device, predefined sets of calibration settings and condition symptoms customized to this existing health condition. an in-vehicle network of sensing devices is calibrated using the predefined calibration settings to detect one or more of the predefined condition symptoms. the calibrated sensing devices monitor the occupant to detect a health-related event based on the predefined condition symptoms. upon detecting the health-related event, the controller commands one or more resident vehicle subsystems to execute one or more vehicle control operations to mitigate the health-related event.