Development of the Obstacle Avoider of Fish Robot

Engineering Headway Pub Date : 2024-03-05 DOI:10.4028/p-e5az8j

R. Muhida, Muhammad Riza, Bambang Pratowo, Zein Muhamad, A. Cucus, Taqwan Thamrin, A. Sutjipto, R. Muhida, Ari Legowo, Mochamad Safari, Handri Santoso

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Abstract

The extraordinary swimming capacity of fish in nature makes them unique among Allah's creations. It is extremely difficult for a robotic system to achieve fish-like swimming behaviors, especially in terms of swimming performance. Many fish use their pectoral fins to provide thrust over a wide speed range and to carry out tricky maneuvers. In this paper, we report a robotic fish that can travel forward and backward using its propulsion system. In this report, the creation of a conceptual design for an interactive fish robot took into account a number of factors, including swimming ability, leakage testing, and motion controller. This needed considerable mechanical design work, and the result is a quick-return mechanism for the fish's body. We made the decision to divide the body into the head, body, and tail. In order to create the propulsion system, we employed five servo motors. Finally, controlling the robot's motion is absolutely essential, especially if there is an obstruction in its path. The servo controller, which is located at the fish's head, serves as the primary controller for all of the motors and sensors.

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鱼类机器人避障器的开发

自然界中的鱼类具有非凡的游泳能力，这使它们在真主的创造物中独一无二。机器人系统要实现鱼类的游泳行为，尤其是在游泳性能方面，是极其困难的。许多鱼类利用胸鳍在很宽的速度范围内提供推力，并完成各种刁钻的动作。在本文中，我们报告了一种可利用推进系统前后行进的机器鱼。在本报告中，交互式机器鱼概念设计的创建考虑到了游泳能力、泄漏测试和运动控制器等诸多因素。这需要大量的机械设计工作，其结果是为鱼的身体设计了一个快速返回装置。我们决定将身体分为头部、身体和尾部。为了创建推进系统，我们使用了五个伺服电机。最后，控制机器人的运动是绝对必要的，尤其是在其运动路径上有障碍物的情况下。伺服控制器位于鱼的头部，是所有电机和传感器的主要控制器。

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Engineering Headway

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