Nonlinear control systems represent a critical area of study wherein the relationship between inputs and outputs is not directly proportional, resulting in complex and often unpredictable dynamics.

The development of such control methodologies is critical in applications spanning robotics, industrial process control, and autonomous systems, where precise tracking and stability are essential.

Synthetic antiferromagnets are carefully engineered magnetic materials made up of alternating ferromagnetic layers with ...

If you pull twice as hard on a spring, it stretches twice as far. However, when we introduce very large forces or complicated interactions, that linear rule breaks down into a "nonlinear" regime.

This study proposes a comprehensive strategy to optimize the operation of real-world gas pipeline networks and support decision-making. The goal is to improve environmental sustainability by ...

Conventional vehicle suspension systems, often relying on integer-order models with fixed damping coefficients, struggle to deliver optimal performance across diverse an ...

Electrons can travel through silicon as waves, paving the way for smaller and more advanced devices. Scientists at the, Riverside, have discovered a method to control how electricity moves through ...

Block deals: Alchemy, ITI Mutual fund pick up stake in Avalon Technologies Bandhan Mutual Fund exited 1.67 lakh shares (1.55 percent) of Knowledge Marines and Engineering Works at a price of Rs ...

1. To define terminology specific to batch control systems that will encourage understanding between manufacturers and users. 2. To provide a standard data structure batch control language to simplify ...

The human muscular system is complex and has many functions in the body, like mobility and stability. Learn more about the muscular system here.

The paper describes the problem of creation of a tracked mobile robot nonlinear control system to be able to move in an environment with obstacles. To solve the problem, a method of mobile robots ...