18060755. DRIVER COMMAND INTERPRETER SYSTEM DETERMINING ACHIEVABLE TARGET VEHICLE STATE DURING STEADY-STATE AND TRANSIENT DRIVING CONDITIONS simplified abstract (GM Global Technology Operations LLC)
DRIVER COMMAND INTERPRETER SYSTEM DETERMINING ACHIEVABLE TARGET VEHICLE STATE DURING STEADY-STATE AND TRANSIENT DRIVING CONDITIONS
Organization Name
GM Global Technology Operations LLC
Inventor(s)
SeyedAlireza Kasaiezadeh Mahabadi of Novi MI (US)
Bharath Pattipati of South Lyon MI (US)
DRIVER COMMAND INTERPRETER SYSTEM DETERMINING ACHIEVABLE TARGET VEHICLE STATE DURING STEADY-STATE AND TRANSIENT DRIVING CONDITIONS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18060755 titled 'DRIVER COMMAND INTERPRETER SYSTEM DETERMINING ACHIEVABLE TARGET VEHICLE STATE DURING STEADY-STATE AND TRANSIENT DRIVING CONDITIONS
The abstract describes a driver command interpreter system for a vehicle that utilizes controllers to receive dynamic variables, vehicle configuration information, and driving environment conditions to determine a target vehicle state during transient driving conditions. The controllers build a transient vehicle dynamic model based on the target vehicle state and solve for desired zeros corresponding to the target vehicle state during transient conditions.
- The system includes controllers that process dynamic variables, vehicle configuration information, and driving environment conditions.
- It determines a target vehicle state during transient driving conditions.
- A transient vehicle dynamic model is built based on the target vehicle state, dynamic variables, vehicle configuration information, and driving environment conditions.
- The system solves for desired zeros corresponding to the target vehicle state during transient conditions.
Potential Applications: - Autonomous driving systems - Advanced driver assistance systems - Vehicle safety systems
Problems Solved: - Enhancing vehicle control during transient driving conditions - Improving overall driving performance and safety
Benefits: - Increased vehicle stability and control - Enhanced driver experience and safety - Optimal vehicle performance in varying driving conditions
Commercial Applications: Title: Advanced Driver Command Interpreter System for Vehicles This technology can be utilized in the development of autonomous vehicles, advanced driver assistance systems, and vehicle safety applications, catering to the growing demand for innovative automotive technologies in the market.
Questions about the technology: 1. How does the system handle real-time changes in driving conditions? 2. What are the key components of the transient vehicle dynamic model?
Original Abstract Submitted
A driver command interpreter system for a vehicle includes one or more controllers that execute instructions to receive a plurality of dynamic variables, vehicle configuration information, and driving environment conditions, and determine a target vehicle state during transient driving conditions based on the plurality of dynamic variables from the one or more sensors, the vehicle configuration information, and the driving environment conditions. The one or more controllers build a transient vehicle dynamic model based on the target vehicle state during transient driving conditions, the plurality of dynamic variables, the vehicle configuration information, and the driving environment conditions, and solve for desired zeros corresponding to the target vehicle state during transient conditions.
