Teddy Lazebnik, Yiftach Golov, Roi Gurka, Ally Harari, Alex Liberzon
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引用次数: 0
摘要
雄蛾在寻找交配对象的过程中向雌蛾飞行,为决策中的探索-开发(EE)模型提供了一个独特的视角。本研究利用 EE 模型来解释雄蛾在信息素驱动下的飞行路径。研究利用风洞测量和红外摄像机的三维跟踪来了解雄蛾的行为。在风洞实验过程中,气流受到了干扰,并根据提出的 EE 模型分析了气流波动增加对飞蛾飞行的影响。利用遗传算法对实验获得的飞蛾三维轨迹数据集进行分析,将探索和开发阶段分开。首先,探索到利用率(EER)随着与雌性信息素来源的距离增加而增加,这可以用 EE 模型来解释。此外,我们的研究结果还揭示了 EER 与信息素源附近流量波动增加之间的密切关系。利用嗅觉导航模拟和飞蛾启发导航模型,我们解释了雄性飞蛾在湍流水平增加时表现出更强的 EER 的现象。这项研究扩展了我们对基于一般生物 EE 模型的最佳导航策略的理解,并支持生物启发导航算法的开发。
Exploration-exploitation model of moth-inspired olfactory navigation.
Navigation of male moths towards females during the mating search offers a unique perspective on the exploration-exploitation (EE) model in decision-making. This study uses the EE model to explain male moth pheromone-driven flight paths. Wind tunnel measurements and three-dimensional tracking using infrared cameras have been leveraged to gain insights into male moth behaviour. During the experiments in the wind tunnel, disturbance to the airflow has been added and the effect of increased fluctuations on moth flights has been analysed, in the context of the proposed EE model. The exploration and exploitation phases are separated using a genetic algorithm to the experimentally obtained dataset of moth three-dimensional trajectories. First, the exploration-to-exploitation rate (EER) increases with distance from the source of the female pheromone is demonstrated, which can be explained in the context of the EE model. Furthermore, our findings reveal a compelling relationship between EER and increased flow fluctuations near the pheromone source. Using an olfactory navigation simulation and our moth-inspired navigation model, the phenomenon where male moths exhibit an enhanced EER as turbulence levels increase is explained. This research extends our understanding of optimal navigation strategies based on general biological EE models and supports the development of bioinspired navigation algorithms.
期刊介绍:
J. R. Soc. Interface welcomes articles of high quality research at the interface of the physical and life sciences. It provides a high-quality forum to publish rapidly and interact across this boundary in two main ways: J. R. Soc. Interface publishes research applying chemistry, engineering, materials science, mathematics and physics to the biological and medical sciences; it also highlights discoveries in the life sciences of relevance to the physical sciences. Both sides of the interface are considered equally and it is one of the only journals to cover this exciting new territory. J. R. Soc. Interface welcomes contributions on a diverse range of topics, including but not limited to; biocomplexity, bioengineering, bioinformatics, biomaterials, biomechanics, bionanoscience, biophysics, chemical biology, computer science (as applied to the life sciences), medical physics, synthetic biology, systems biology, theoretical biology and tissue engineering.