Flexible Artificial(柔性人工)研究综述
Flexible Artificial 柔性人工 - A qualitative and quantitative growth in flexible artificial touch sensing technologies has been witnessed over the recent years. [1] Emerging flexible artificial sensory systems using neuromorphic electronics have been considered as a promising solution for processing massive data with low power consumption. [2] Here, freestanding oxide-based neuromorphic transistors with dual-gate structures were fabricated on proton-conducting electrolyte membranes and used for flexible artificial nociceptor emulation. [3] We introduced flexible artificial coral reef (ACR) structures to diminish coastal erosion, but planar installation effects should be considered to evaluate the feasibility of coastline maintenance. [4] Flexible artificial muscles were fabricated in accordance with the predefined 3D musculoskeletal geometries. [5] PURPOSE To evaluate a customized silicone flexible artificial iris in cases of aniridia or iris deficiencies. [6] Realization of functional flexible artificial synapse is a significant step toward neuromorphic computing. [7] Bio-inspired self-repairing technology (BISRT), inspired by biological self-healing processes and multicellular structure, can dynamically adjust its structure to the faulty region on a flexible artificial multicellular substrate. [8] The flexible artificial synaptic transistor enables its potential to be generally applicable to various flexible wearable biological and intelligent applications. [9] The overall performance of the memristor with the Ag-doped BSA device by inserted oxide ZrO2 layer has the potential to open up a new way to improve the reliability of oxides-based memristor and lays the foundation for flexible artificial synapses. [10] Moreover, the MNIST-based recognition rate of over 90% is maintained upon bending, indicative of a promising candidate for highly efficient flexible artificial synapses. [11] Here, we have developed a flexible artificial olfactory system by integrating Sr-ZnO-based gas sensors, HfOx-based memristors and electrochemical actuators, which can recognize and memorize and make the self-protection action for NH3. [12] This not only suggests promising applications of OATs in flexible artificial intelligent elements, but also provides a strategy for engineering organic devices toward novel biomimetic functions. [13] The proposed ultra-thin flexible artificial material not only possesses perfect conformity with complex surfaces but also achieves larger angle electromagnetic absorption. [14] In order to restore the antenna performance, a fully flexible artificial magnetic conductor (AMC) based ground plane is placed beneath the antenna which is found to enhance the front to back ratio, gain and efficiency of the standalone antenna. [15] Herein, we have developed peripheral nerve electrodes with a cone-shaped flexible artificial conduit capable of protecting wire electrodes from scar formation. [16] Nonvolatile, flexible artificial synapses that can be used for brain-inspired computing are highly desirable for emerging applications such as human-machine interfaces, soft robotics, medical implants, and biological studies. [17] We present flexible artificial synesthesia electronics that visualize continuous and complicated sounds. [18] Excellent biosimulation characteristics have been demonstrated in this egg albumen-based memristor device, which is desirable in biocompatible and dissolvable electronics for flexible artificial neuromorphic systems. [19]近年来,柔性人工触摸传感技术出现了质和量的增长。 [1] 使用神经形态电子学的新兴柔性人工感觉系统被认为是一种有前途的低功耗处理海量数据的解决方案。 [2] 在这里,在质子传导电解质膜上制造了具有双栅极结构的独立式氧化物基神经形态晶体管,并用于灵活的人工伤害感受器仿真。 [3] 我们引入了灵活的人工珊瑚礁(ACR)结构来减少海岸侵蚀,但应考虑平面安装效果来评估海岸线维护的可行性。 [4] 根据预定义的 3D 肌肉骨骼几何形状制造柔性人造肌肉。 [5] 目的 在无虹膜或虹膜缺陷的情况下评估定制的硅胶柔性人工虹膜。 [6] 功能灵活的人工突触的实现是向神经形态计算迈出的重要一步。 [7] 受生物自愈过程和多细胞结构启发的仿生自修复技术(BISRT)可以在柔性人工多细胞基质上将其结构动态调整到故障区域。 [8] 柔性人工突触晶体管使其具有普遍适用于各种柔性可穿戴生物和智能应用的潜力。 [9] 插入氧化物ZrO2层的Ag掺杂BSA器件忆阻器的整体性能有可能为提高氧化物忆阻器的可靠性开辟一条新途径,并为柔性人工突触奠定基础。 [10] 此外,基于 MNIST 的识别率在弯曲时保持在 90% 以上,表明高效柔性人工突触的候选者很有希望。 [11] 在这里,我们通过集成基于 Sr-ZnO 的气体传感器、基于 HfOx 的忆阻器和电化学致动器开发了一种灵活的人工嗅觉系统,该系统可以识别和记忆并做出对 NH3 的自我保护动作。 [12] 这不仅表明 OAT 在柔性人工智能元件中的应用前景广阔,而且还为将有机设备设计为具有新的仿生功能提供了一种策略。 [13] 所提出的超薄柔性人造材料不仅对复杂表面具有完美的顺应性,而且实现了更大角度的电磁吸收。 [14] 为了恢复天线性能,在天线下方放置了一个基于完全柔性人工磁导体 (AMC) 的接地平面,可以提高独立天线的前后比、增益和效率。 [15] 在这里,我们开发了具有锥形柔性人工导管的周围神经电极,该导管能够保护线电极免受疤痕形成。 [16] 可用于类脑计算的非易失性、灵活的人工突触对于人机界面、软机器人、医学植入物和生物学研究等新兴应用非常理想。 [17] 我们展示了灵活的人工联觉电子设备,可以可视化连续和复杂的声音。 [18] 这种基于蛋蛋白的忆阻器装置已经证明了出色的生物模拟特性,这对于柔性人工神经形态系统的生物相容性和可溶解电子设备来说是理想的。 [19]
flexible artificial synapse 灵活的人工突触
Realization of functional flexible artificial synapse is a significant step toward neuromorphic computing. [1] The overall performance of the memristor with the Ag-doped BSA device by inserted oxide ZrO2 layer has the potential to open up a new way to improve the reliability of oxides-based memristor and lays the foundation for flexible artificial synapses. [2] Moreover, the MNIST-based recognition rate of over 90% is maintained upon bending, indicative of a promising candidate for highly efficient flexible artificial synapses. [3] Nonvolatile, flexible artificial synapses that can be used for brain-inspired computing are highly desirable for emerging applications such as human-machine interfaces, soft robotics, medical implants, and biological studies. [4]功能灵活的人工突触的实现是向神经形态计算迈出的重要一步。 [1] 插入氧化物ZrO2层的Ag掺杂BSA器件忆阻器的整体性能有可能为提高氧化物忆阻器的可靠性开辟一条新途径,并为柔性人工突触奠定基础。 [2] 此外,基于 MNIST 的识别率在弯曲时保持在 90% 以上,表明高效柔性人工突触的候选者很有希望。 [3] 可用于类脑计算的非易失性、灵活的人工突触对于人机界面、软机器人、医学植入物和生物学研究等新兴应用非常理想。 [4]