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相关概念视频

Transformations of Functions I01:29

Transformations of Functions I

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A function's graph can be modified by changing its position or size without altering its overall shape. These transformations allow the graph to be moved across the coordinate plane while preserving its pattern and structure. One of the most common transformations is shifting, which repositions the graph without distorting it.When the output of a function is adjusted by adding or subtracting a constant, the graph shifts vertically. A positive value moves the graph upward, while a negative value...
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Transformations of Functions II01:29

Transformations of Functions II

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Transformations in mathematics alter the position or orientation of a function’s graph while preserving its fundamental shape. One important type of transformation is the horizontal shift, which involves modifying the input variable within a function’s equation. This operation affects where outputs occur along the horizontal axis but does not alter the function’s overall structure.A horizontal shift is achieved by replacing the input variable x with either x + c or x - c,...
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Transformations of Functions III01:20

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Transformations modify the graphical representation of a function without changing its fundamental form. One common transformation is reflection, which flips the graph across a designated axis. When the vertical coordinates of all points are multiplied by the negative one, the entire graph is mirrored over the horizontal axis. This transformation reverses the vertical orientation of peaks and troughs, akin to signal inversion in electrical systems, where a waveform is flipped, but the timing of...
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直接视觉运动转换以达到目的.

Christopher A Buneo1, Murray R Jarvis, Aaron P Batista

  • 1Division of Biology, California Institute of Technology, Pasadena, CA 91125, USA.

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|April 12, 2002
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概括
此摘要是机器生成的。

后壁皮质 (PPC) 使用眼睛和手的参考框架转换视觉目标位置. 这表明PPC内部的直接坐标转换用于视觉引导的到达.

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科学领域:

  • 神经科学是一个神经科学.
  • 认知神经科学 认知神经科学
  • 发动机控制器的控制器

背景情况:

  • 后壁皮质 (PPC) 涉及到用于视觉引导的触摸的感觉运动转换.
  • PPC损伤导致达到缺陷而没有初级视力或运动障碍.
  • PPC神经元整合视觉,眼睛位置和四肢位置信号.

研究的目的:

  • 为了研究后额叶皮质 (PPC) 如何转化视觉目标位置.
  • 为了确定PPC是否直接转换眼睛和手中心坐标之间的目标位置.

主要方法:

  • 电生理学记录来自神经元的背部区域5的PPC和顶部到达区域 (PRR) 在子.
  • 分析神经元对记住目标位置的反应,相对于眼睛和手的位置.

主要成果:

  • 在PPC的背部区域5中,记住的目标位置与眼睛和手的位置相对表示.
  • 来自PRR的数据表明,通过将手部位置从目标位置减去以以眼部为中心的坐标来实现转换.

结论:

  • 该PPC直接转换眼睛和手以中心的参考框架之间的目标位置.
  • 在PPC中,这种直接转换机制有助于以视觉指导的方式达到目标.