Control of an Articulated Vehicle with Feedback Linearization
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Updated
Mar 13, 2023 - MATLAB
Control of an Articulated Vehicle with Feedback Linearization
In this repository, The nonlinear control for a wind turbine driven by a variable-speed pump-controlled hydraulic servo system has been investigated.
Feedback linearization for quadrotors
Project for Automatic Control Systems III Course / Winter Semester 2020
The code accompanying the 2026 TCST Submission "Lightweight Tracking Control for Computationally Constrained Systems with Newton-Raphson Flow". Users of this code will straightforwardly be able to replicate our simulation results for quadrotor and miniature blimp.
Projects of Nonlinear Systems and Control Exam (A.Y. 2022/2023) from Prof. Ticozzi
Regulation and trajectory tracking of flexible joint link. State transformation and feedback linearization are applied. It is a solution of Assignment2 in Fundamentals of Robot Control course for ROCV master's program at Innopolis University.
Robotics PhD student at Georgia Tech's FACTS Lab, where I design provably safe autonomous flight controllers for real quadrotors. My research spans Control Barrier Functions, nonlinear control, and optimization-based methods — published at ACC, IEEE TCST, and IEEE TRO. I also build open-source tools for the robotics community.
Comparison of different control algorithms for a robotic arm. Miniprojects from the course "Control Theory in Robotics" during my 1st semester of the Master's.
🎯 Comparison of model-based Feedback Linearization Control and model-free Soft Actor-Critic for a two-joint robotic manipulator in the Gymnasium Reacher-v5 environment.
Controlling an RRBOT manipulator with feedback linearization by generating a desired trajectory
Nonlinear control of a two-wheeled inverted pendulum (Segway): Lagrangian modeling, Sliding Mode Control & Feedback Linearization with Lyapunov stability proofs, and MATLAB simulations comparing the controllers (MEEN 655, Texas A&M).
Discrete LQR control for determining the optimal inhibitor dose level for an anti-angiogenic therapy based on a mathematical model of tumor growth dynamics.
This repository is related to my graduation course conclusion work
🤖 Kinematics, dynamics and control of robot manipulators: assignments from the Robotics course @ UniPD. Numerical inverse kinematics, Euler-Lagrange modelling, adaptive control, and PD vs. feedback linearization on a SCARA and a UR10.
This repository contains the project for the Nonlinear Dynamics and Control exam. The assignment involved analyzing the characteristics of a chosen nonlinear model and subsequently implementing nonlinear control techniques.
Application of robot control tools
Neural network–based controller (NARMA-L2) for Anti-Lock Braking Systems, designed to regulate wheel slip more accurately than a traditional PID.
A lightweight, retro-compatible Python virtual pet simulator implementing a formal hybrid Sensing-to-Action Cycle under Thermodynamic Constraints (SATC) dynamical system.
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