Extended Kalman Filters (project 5 of 9 from Udacity Self-Driving Car Engineer Nanodegree)
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Updated
May 24, 2020 - C++
Extended Kalman Filters (project 5 of 9 from Udacity Self-Driving Car Engineer Nanodegree)
Solving a dynamic system by solving its differential and algebraic equations ... 2 approaches are used to solve algebraic equation first and differential next is Partitioned approach, Simultaneous solving is also done. The jacobian matrix of the equation tells much about the state of the system.
Position and Velocity Estimation of a bicycle using the Extended Kalman Filter with noisy lidar and radar data measurements.
in this repository, we learn how to find equilibrium points of a system of non-linear ODE and calculate the solution using Runge-Kutta Fourth Order (RK4). The equations used here can be found in the article link attached.
This is a COVID-19 based research article implementing SEQIR model, Graph theory and Linear Algebra
Python program capable of Modeling any robotic arm virtually, Displaying modeled arm graphically, Simulating manipulation operations (FK) and Trajectory plotting, Computing solutions to reach the target (IK)
Code for controlling the Lynxmotion 4DoF Robot Arm.
Implementation of a Physics Informed Neural Network (PINN) written in Tensorflow v2, which is capable of solving Partial Differential Equations.
First assignment of Robot Dynamics and Control, regarding the study of the momentums of different configurations of a manipulator with two joints.
These are some programs i had to hand in for my "Higher Mathematics 2" Class in University
Implementation ML algorithem in Numpy with derivation
Robot Manipulator Analysis
Suite of 1D, 2D, 3D demo apps of varying complexity with built-in support for sample mesh and exact Jacobians
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