肌肉骨骼类人仿生双耳设计及声源方向估计

IF 1.5 Q3 INSTRUMENTS & INSTRUMENTATION

ROBOMECH Journal Pub Date : 2022-06-17 DOI:10.1186/s40648-022-00231-x

Omura, Yusuke, Kawaharazuka, Kento, Nagamatsu, Yuya, Koga, Yuya, Nishiura, Manabu, Toshimitsu, Yasunori, Asano, Yuki, Okada, Kei, Kawasaki, Koji, Inaba, Masayuki

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引用次数: 0

摘要

通过肌肉骨骼类人机器人识别类人环境对于在真实复杂环境中实现任务以及作为测试对象的假人具有重要意义。人类整合各种感官信息来感知周围环境，听觉在识别看不见或接触不到的物体时特别有用。在本研究中，我们旨在通过为肌肉骨骼类人机器人配备类人听觉处理系统，实现类人听觉环境识别和任务实现。人类通过估计声源的方向，根据传入声音的时频域变化和听觉信息在中枢神经系统的整合来检测环境声音，从而实现基于声音的环境识别。本文提出了一种拟人听觉信息处理系统，该系统由三个部分组成:拟人双耳单元(模仿人耳结构和特征)、声源方向估计系统和环境声检测系统(模仿中枢神经系统处理)。我们将其应用于武藏，一个模拟人类肌肉骨骼的类人机器人，并让它在真实嘈杂的环境中执行需要声音信息的任务，以确认所提出方法的实用性。

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Human-mimetic binaural ear design and sound source direction estimation for task realization of musculoskeletal humanoids

Human-like environment recognition by musculoskeletal humanoids is important for task realization in real complex environments and for use as dummies for test subjects. Humans integrate various sensory information to perceive their surroundings, and hearing is particularly useful for recognizing objects out of view or out of touch. In this research, we aim to realize human-like auditory environmental recognition and task realization for musculoskeletal humanoids by equipping them with a human-like auditory processing system. Humans realize sound-based environmental recognition by estimating directions of the sound sources and detecting environmental sounds based on changes in the time and frequency domain of incoming sounds and the integration of auditory information in the central nervous system. We propose a human mimetic auditory information processing system, which consists of three components: the human mimetic binaural ear unit, which mimics human ear structure and characteristics, the sound source direction estimation system, and the environmental sound detection system, which mimics processing in the central nervous system. We apply it to Musashi, a human mimetic musculoskeletal humanoid, and have it perform tasks that require sound information outside of view in real noisy environments to confirm the usefulness of the proposed methods.

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来源期刊

ROBOMECH Journal Mathematics-Control and Optimization

CiteScore

3.20

自引率

7.10%

发文量

审稿时长

13 weeks

期刊介绍： ROBOMECH Journal focuses on advanced technologies and practical applications in the field of Robotics and Mechatronics. This field is driven by the steadily growing research, development and consumer demand for robots and systems. Advanced robots have been working in medical and hazardous environments, such as space and the deep sea as well as in the manufacturing environment. The scope of the journal includes but is not limited to: 1. Modeling and design 2. System integration 3. Actuators and sensors 4. Intelligent control 5. Artificial intelligence 6. Machine learning 7. Robotics 8. Manufacturing 9. Motion control 10. Vibration and noise control 11. Micro/nano devices and optoelectronics systems 12. Automotive systems 13. Applications for extreme and/or hazardous environments 14. Other applications