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Artificial intelligence-enhanced skin-like sensors based on flexible nanogenerators
VIEW ( IF 9.7 ) Pub Date : 2022-10-08 , DOI: 10.1002/viw.20220026 Yiqian Wang 1, 2 , Puchuan Tan 1 , Yuxiang Wu 3 , Dan Luo 1, 4 , Zhou Li 1, 2, 4, 5
VIEW ( IF 9.7 ) Pub Date : 2022-10-08 , DOI: 10.1002/viw.20220026 Yiqian Wang 1, 2 , Puchuan Tan 1 , Yuxiang Wu 3 , Dan Luo 1, 4 , Zhou Li 1, 2, 4, 5
Affiliation
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Artificial intelligence-enhanced skin-like sensors based on flexible nanogenerators have been widely used in physiological signal acquisition, artificial organ, sensory simulation, human movement status recognition, and other biomedical related fields due to their excellent biocompatibility, comfortable wearing experience, high sensing accuracy, and low power consumption. In this paper, the working principle, evolution process, and several established general strategies of artificial intelligence-enhanced skin-like sensors are summarized in detail. More importantly, this paper further reviews several recent important advances on artificial intelligence enhanced skin-like sensor, and systematically analyzes and compares these works according to their principles and application directions. In the discussion section, we also list the current concerns of stress adaptation, stretchability–conductivity, algorithm optimization, function integration, and propose potential solutions to these problems. We hope that the deep integration of artificial intelligence and flexible nanogenerators can bring more enlightenment to the progress of biomedical engineering in the future.
中文翻译:
基于柔性纳米发电机的人工智能增强类皮肤传感器
基于柔性纳米发电机的人工智能增强类皮肤传感器以其优异的生物相容性、舒适的佩戴体验、高传感精度等优点,被广泛应用于生理信号采集、人工器官、感官模拟、人体运动状态识别等生物医学相关领域, 低功耗。本文详细总结了人工智能增强类皮肤传感器的工作原理、演化过程和几种既定的通用策略。更重要的是,本文进一步回顾了近年来人工智能增强类皮肤传感器的几项重要进展,并根据它们的原理和应用方向对这些工作进行了系统的分析和比较。在讨论区,我们还列出了当前关注的应力适应、拉伸性-导电性、算法优化、功能集成,并提出了这些问题的潜在解决方案。我们希望人工智能与柔性纳米发电机的深度融合,能为未来生物医学工程的进步带来更多启示。
更新日期:2022-10-08
中文翻译:
基于柔性纳米发电机的人工智能增强类皮肤传感器
基于柔性纳米发电机的人工智能增强类皮肤传感器以其优异的生物相容性、舒适的佩戴体验、高传感精度等优点,被广泛应用于生理信号采集、人工器官、感官模拟、人体运动状态识别等生物医学相关领域, 低功耗。本文详细总结了人工智能增强类皮肤传感器的工作原理、演化过程和几种既定的通用策略。更重要的是,本文进一步回顾了近年来人工智能增强类皮肤传感器的几项重要进展,并根据它们的原理和应用方向对这些工作进行了系统的分析和比较。在讨论区,我们还列出了当前关注的应力适应、拉伸性-导电性、算法优化、功能集成,并提出了这些问题的潜在解决方案。我们希望人工智能与柔性纳米发电机的深度融合,能为未来生物医学工程的进步带来更多启示。
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