Kinova Gen3 First 3 DOF Dataset for Dynamics Estimation

Citation Author(s):
Jing
Wang
The University of British Columbia
Erfaan
Rezvanfar
The University of British Columbia
Submitted by:
Jing Wang
Last updated:
Tue, 06/25/2024 - 22:30
DOI:
10.21227/kezn-a764
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Abstract 

Precise modeling of dynamical systems can be crucial for engineering applications. Traditional analytical models often struggle when capturing real-world complexities due to challenges in system nonlinearity representation and model parameter determination. Data-driven models, such as deep neural networks (DNNs), offer better accuracy and generalization but require large quantities of high-quality data. The present paper introduces a novel method called the Synthesized-Data Neural Network (SDNN), which integrates analytical models, which represent physics, with DNNs to enhance the dynamic model. The main steps of the present method are as follows: The first three degrees of freedom (DOF) of a Kinova Gen3 Lite manipulator are formulated using the Euler-Lagrange equations of motion. The experimental data are recorded from the manipulator. Simulated data from the analytical model are combined with experimental data to train the neural network. The model's performance is evaluated using the Mean Squared Error (MSE) in real-time experiments with the Kinova Gen3 Lite manipulator. Training datasets represent 14 trajectories, with the MSE calculated for four testing trajectories. The obtained results have led to the following conclusions: The SDNN model has shown improved performance in predicting joint torques when compared to the purely analytical model or the purely data-driven model. The SDNN, when trained with Synthesized data from 14 trajectories (SDNN-14) achieved the lowest MSE of 2.14, outperforming the analytical model (MSE of 2.81) and the neural network trained solely on experimental data (MSE of 3.05).

Instructions: 

Download the dataset, and Python file for processing the data will be leased upon accpectance of our paper.