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Inertial Guidance Systems in Insects: From the Neurobiology to the Structural Mechanics of Biological Gyroscopes

机译：昆虫中的惯性指导系统：从神经生物学到生物陀螺结构力学

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Flying insects employ a vast array of sensory modalities to coordinate complex aerial maneuvers with incredible speed and acuity. One central feature underlying this is their ability to rapidly acquire and process information about rotational motion. In Diptera (flies), gyroscopic sensing is accomplished with halteres, organs that are derived from hindwings. In Lepidoptera (moths and butterflies), antennae have been recently suggested to serve this crucial function. Here we review the biomechanical and sensory aspects of these biological gyroscopes. We focus on past and ongoing research to understand how the physical and physiological aspects of these inertial guidance units interact to determine their functional performance.

机译：飞行昆虫采用了大量的感觉方式，以协调具有令人难以置信的速度和敏锐度的复杂的空中动作。其中一个中心功能这是他们快速获取和处理旋转运动的信息的能力。在Diptera（苍蝇）中，陀螺仪感测是用止轭，器官衍生自挤出的。在鳞片（飞蛾和蝴蝶）中，最近建议天线提供这种至关重要的功能。在这里，我们审查了这些生物陀螺仪的生物力学和感官方面。我们专注于过去和持续的研究，了解这些惯性指导单位的物理和生理方面是如何相互作用的，以确定其功能性能。

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《Annual Meeting of The Institute of Navigation》|2007年||共7页
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Thomas L. Daniel; Alexandre Dieudonne; Jessica Fox; Cameron Myhrvold; Sanjay Sane; Barry Wark;
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1. Inertial Guidance Systems In Insects:from The Neurobiology To The Structural mechanics Of Biological Gyroscopes [J] . THOMAS L. DANIEL, ALEXANDRE DIEUDONNE, JESSICA FOX, Navigation . 2008,第4期

机译：昆虫惯性导航系统：从神经生物学到生物陀螺仪的结构力学
2. Combined Use of Strapdown Inertial Navigation Systems and Odometers from the Standpoint of Mechanics of Inertial Navigation Systems. Part 1 [J] . A. A. Golovan, I.V. Nikitin Moscow University Mechanics Bulletin . 2015,第2期

机译：从惯性导航系统的力学角度出发，结合使用捷联惯性导航系统和里程表。第1部分
3. Combined Use of Strapdown Inertial Navigation Systems and Odometers from the Standpoint of Mechanics of Inertial Navigation Systems. Part 2 [J] . A. A. Golovan, I.V. Nikitin Moscow University Mechanics Bulletin . 2015,第4期

机译：从惯性导航系统的力学角度出发，结合使用捷联惯性导航系统和里程表。第2部分
4. Inertial Guidance Systems in Insects: From the Neurobiology to the Structural Mechanics of Biological Gyroscopes [C] . Thomas L. Daniel, Alexandre Dieudonne, Jessica Fox, Annual Meeting of The Institute of Navigation . 2007

机译：昆虫中的惯性指导系统：从神经生物学到生物陀螺结构力学
5. The feasibility of using an instrumented vehicle equipped with inertial navigation guidance system to collect roadway grade and cross-slope data for safety analysis. [D] . Rhoades, Cyle Joseph. 2010

机译：使用配备有惯性导航制导系统的仪表车辆来收集巷道坡度和横坡数据进行安全分析的可行性。
6. Insect and insect-inspired aerodynamics: unsteadiness structural mechanics and flight control [O] . Richard J Bomphrey, Ramiro Godoy-Diana -1

机译：昆虫和昆虫启发的空气动力学：不稳定结构力学和飞行控制
7. Study of running engines inertial and gyroscopic properties influence on the dynamic system engine – pylon – wing structural capabilities [O] . V. V. Ovchinnikov, Yu. V. Petrov 2020

机译：运行发动机惯性和陀螺特性对动态系统发动机的影响 - 塔翼结构能力

Inertial Guidance Systems in Insects: From the Neurobiology to the Structural Mechanics of Biological Gyroscopes

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