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相关概念视频

Design Example: Resistive Touchscreen01:14

Design Example: Resistive Touchscreen

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A device engineer plays a crucial role in designing user interfaces for mobile devices. One such interface is the resistive touchscreen, which fundamentally consists of two metallic layers: a flexible upper layer and a rigid lower layer, separated by a narrow gap. The high resistance between these two layers is a key characteristic of this design.
When a user touches the screen, the two layers make contact at a specific point known as the touchpoint. This contact reduces the resistance between...
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Non-ohmic Devices00:51

Non-ohmic Devices

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In most substances, the current flow is proportional to the voltage applied to it. A simple relationship between the values of current, voltage, and resistance is known as Ohm's law. Nonohmic devices do not exhibit a linear relationship between voltage and current. One such device is the semiconducting circuit element known as a diode. A diode is a circuit device that allows current flow in only one direction.
Consider a simple circuit consisting of a battery, a diode, and a resistor. A...
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Sensory Perception: Organization of the Somatosensory System01:11

Sensory Perception: Organization of the Somatosensory System

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The somatosensory system is the central and peripheral nervous system component that senses and processes touch, pressure, pain, temperature, and body position or proprioception. The process of sensation takes place at three levels:
The receptor level:
The receptor level is the first stage of sensation. It involves the detection of a stimulus by specialized sensory receptors. The stimulus must arrive within the receptor's receptive field. Next, the receptor converts the energy of the...
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Somatosensation01:33

Somatosensation

42.9K
The somatosensory system relays sensory information from the skin, mucous membranes, limbs, and joints. Somatosensation is more familiarly known as the sense of touch. A typical somatosensory pathway includes three types of long neurons: primary, secondary, and tertiary. Primary neurons have cell bodies located near the spinal cord in groups of neurons called dorsal root ganglia. The sensory neurons of ganglia innervate designated areas of skin called dermatomes.
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The Role of Ion Channels in Neuronal Computation01:19

The Role of Ion Channels in Neuronal Computation

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A postsynaptic neuron usually receives numerous impulses from several other presynaptic neurons. The axon hillock of the postsynaptic neuron integrates all these signals and determines the likelihood of firing an action potential.
Sometimes a single EPSP is strong enough to induce an action potential in the postsynaptic neuron. However, multiple presynaptic inputs must often create EPSPs around the same time for the postsynaptic neuron to be sufficiently depolarized to fire an action potential....
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Ampere-Maxwell's Law: Problem-Solving01:17

Ampere-Maxwell's Law: Problem-Solving

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A parallel-plate capacitor with capacitance C, whose plates have area A and separation distance d, is connected to a resistor R and a battery of voltage V. The current starts to flow at t = 0. What is the displacement current between the capacitor plates at time t? From the properties of the capacitor, what is the corresponding real current?
To solve the problem, we can use the equations from the analysis of an RC circuit and Maxwell's version of Ampère's law.
For the first part of the...
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相关实验视频

Updated: Jan 9, 2026

Fabricating Metamaterials Using the Fiber Drawing Method
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材料内计算:用于数据高效触觉接口的计算元材料.

Yongxing Guo1, Baorui Li1,2, Li Xiong1

  • 1Key Laboratory of Metallurgical Equipment and Control Technology, Ministry of Education, Wuhan University of Science and Technology, Wuhan 430081, China.

ACS applied materials & interfaces
|December 9, 2025
PubMed
概括
此摘要是机器生成的。

研究人员开发了一种新的计算超材料,它将复杂的压力模式编码为光学信号. 这种材料在布莱尔字符的分类中达到100%的准确性,提高了智能传感器的数据效率.

关键词:
压力感应感应 压力感应感应机械信息编码机械信息编码形态学计算的计算方法基于物理的机器学习.稀缺的传感器阵列阵列是稀缺的.触觉感应是一种触觉感应.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 机器人技术 机器人技术 机器人技术
  • 生物医学工程 生物医学工程

背景情况:

  • 将计算功能集成到软材料中对于先进的智能传感器和人机接口至关重要.
  • 符合规定的材料中的决定性信息处理存在重大设计和制造障碍.

研究的目的:

  • 引入一种能够通过机械编译执行信息编码的新型计算元材料.
  • 证明该材料能够确定性地将高维空间压力模式映射成低维光学信号的能力.

主要方法:

  • 设计了一个结构性弹性体,嵌入了一个稀疏的光学传感网络.
  • 开发了一种用于确定性信息编码的"机械编译"过程.
  • 使用基于物理的机器学习 (PIML) 解码器来解释编码的光学信号.

主要成果:

  • 在将26个不同的盲文字符映射到独特的光学信号时实现了100%的分类准确性.
  • PIML解码器保持了超过96%的准确性,培训数据减少了80%.
  • 演示了用于计算元材料的结构驱动设计范式.

结论:

  • 通过将计算负载转移到材料的物理结构,开创了计算元材料的新方法.
  • 建立了一条通往高效,低复杂度传感系统的道路.
  • 展示了材料在执行复杂信息处理任务方面的潜力.