An Evolutionary Robotics Approach to the Control of Plant Growth and Motion: Modeling Plants and Crossing the Reality Gap

2016 IEEE 10th International Conference on Self-Adaptive and Self-Organizing Systems (SASO) Pub Date : 2016-12-08 DOI:10.1109/SASO.2016.8

Mostafa Wahby, D. Hofstadler, Mary Katherine Heinrich, Payam Zahadat, Heiko Hamann

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引用次数: 19

Abstract

The self-organizing bio-hybrid collaboration ofrobots and natural plants allows for a variety of interestingapplications. As an example we investigate how robots can beused to control the growth and motion of a natural plant, using LEDs to provide stimuli. We follow an evolutionaryrobotics approach where task performance is determined bymonitoring the plant's reaction. First, we do initial plantexperiments with simple, predetermined controllers. Then weuse image sampling data as a model of the dynamics ofthe plant tip xy position. Second, we use this approach toevolve robot controllers in simulation. The task is to makethe plant approach three predetermined, distinct points in anxy-plane. Finally, we test the evolved controllers in real plantexperiments and find that we cross the reality gap successfully. We shortly describe how we have extended from plant tipto many points on the plant, for a model of the plant stemdynamics. Future work will extend to two-axes image samplingfor a 3-d approach.

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植物生长和运动控制的进化机器人方法:植物建模和跨越现实差距

机器人和自然植物的自组织生物混合协作允许各种有趣的应用。作为一个例子，我们研究如何使用机器人来控制自然植物的生长和运动，使用led提供刺激。我们采用了一种进化的机器人方法，通过监测植物的反应来确定任务的表现。首先，我们用简单的预先确定的控制器进行初始植物实验。然后利用图像采样数据作为植物尖端xy位置的动态模型。其次，我们在仿真中使用这种方法来进化机器人控制器。任务是使植物接近任意平面上三个预定的、不同的点。最后，我们在真实的植物实验中测试了进化的控制器，发现我们成功地跨越了现实的差距。我们简要地描述了我们如何从植物的尖端扩展到植物上的许多点，以建立植物系统动力学的模型。未来的工作将扩展到三维方法的两轴图像采样。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE 10th International Conference on Self-Adaptive and Self-Organizing Systems (SASO)

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