Publication Type : Conference Paper
Thematic Areas : Center for Computational Engineering and Networking (CEN)
Publisher : IOP Science
Source : IOP Conference Series: Material Science and Engineering, 2021, 1012, 012007, International Conference on Robotics, Intelligent Automation and Control Technologies (RIACT 2020), 2-3 October 2020, Chennai, India.
Url : https://iopscience.iop.org/article/10.1088/1757-899X/1012/1/012007
Campus : Coimbatore
School : School of Artificial Intelligence - Coimbatore
Center : Computational Engineering and Networking
Year : 2021
Abstract : Design of bio-inspired robotic fish has been an important area of research for applications such as water quality monitoring, aquatic animal behavioral study and underwater exploration. The modeling of robotic fish requires high dimensional analysis, which increases the design complexity. To address this complexity, approximate models are preferred and frequently used in the design of robotic fishes. The accuracy of these models mainly relies on various hydrodynamic parameter identification of which drag coefficient estimation is highly challenging. This paper utilizes a simple deceleration motion model to estimate the drag coefficient effectively so that the linearization error is reduced. The non-linearity in the deceleration model is simplified and mapped as a linear model to predict the drag coefficient. The estimated drag coefficient is used for dynamic modeling of robotic fish using slender body theory. The dynamic model is validated through experimental setup using accelerometer and visual sensor data. The maximum swimming speed of 0.32 ms-1 is achieved at 1.2 Hz caudal fin oscillations.
Cite this Research Publication : Palmani Duraisamy, Manigandan Nagarajan Santhanakrishnan, "Hydrodynamic Modeling and Design of Robotic Fish using Slender Body Theory", IOP Conference Series: Material Science and Engineering, 2021, 1012, 012007, International Conference on Robotics, Intelligent Automation and Control Technologies (RIACT 2020), 2-3 October 2020, Chennai, India.