MACHINE AND PROCESS FOR ROTATING A VEHICLE

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MACHINE AND PROCESS FOR ROTATING A VEHICLE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18171185 titled 'MACHINE AND PROCESS FOR ROTATING A VEHICLE

Simplified Explanation: This patent application describes a machine and process for controlling the rotation of a vehicle around its axis. The system includes control laws, estimates inertia, and uses this information to enhance the accuracy of the control laws.

Control system for vehicle rotation
Control laws to manage rotation around vehicle axis
Estimate inertia from sensed material quantities
Inertia gain schedule and filter for accuracy enhancement
Focus on controlling vehicle rotation effectively

Key Features and Innovation: - Flight control system for vehicle rotation - Utilizes sensed material quantities to estimate inertia - Enhances control laws accuracy with inertia gain schedule and filter - Improves overall control of vehicle rotation around its axis

Potential Applications: - Aerospace industry for aircraft control systems - Automotive industry for advanced vehicle stability control - Robotics for precise movement control

Problems Solved: - Enhances accuracy of vehicle rotation control - Improves stability and maneuverability of vehicles - Provides a more efficient control system for rotational movements

Benefits: - Increased safety in vehicle operations - Enhanced precision in maneuvering - Improved overall performance of vehicles

Commercial Applications: Title: Advanced Vehicle Rotation Control System This technology can be applied in the aerospace, automotive, and robotics industries for improved control and stability in vehicle operations. It has the potential to revolutionize the way vehicles are controlled and maneuvered, leading to safer and more efficient transportation systems.

Prior Art: Readers interested in prior art related to this technology may want to explore patents and research papers in the fields of flight control systems, vehicle stability control, and robotics control algorithms.

Frequently Updated Research: Researchers in the fields of aerospace engineering, automotive technology, and robotics are constantly working on advancements in vehicle control systems. Stay updated on the latest research to discover new innovations in this area.

Questions about Vehicle Rotation Control Systems: 1. What are the key components of a vehicle rotation control system? - A vehicle rotation control system typically includes control laws, sensors for measuring material quantities, and algorithms for estimating inertia. 2. How does the estimated inertia enhance the accuracy of control laws in vehicle rotation control systems? - The estimated inertia provides crucial information for adjusting control laws to achieve more precise and effective control of vehicle rotation.

Original Abstract Submitted

A machine and process for control of rotation of a vehicle about an axis of the vehicle is shown. A flight control system includes control laws that control the rotation of the vehicle around the axis of the vehicle. An estimate is derived for an inertia about the axis. The estimated inertia is derived from sensed quantities of material in a component of the vehicle. An inertia gain schedule and filter are added to enhance, using the estimated inertia, the accuracy of the control laws that control the rotation of the vehicle around the axis of the vehicle.