Transcript Chapter 8
Chapter 8
運動知覺
(Perceiving
movement )
運動知覺有多重要?
• 協助個體瞭解周遭發生
的事
– 如果喪失運動知覺……..
– 運動失認症(motion
agnosia)
• 無法用茶壺倒茶
• 與人談話有困難
• 最感困難的是
– 人和東西突然出現/消
失
• 運動吸引注意力
– Attentional capture
• 運動提供物體的訊息(VL1,2)
– 透過刺激的運動,使原本不清楚的結構(形狀
)變得清楚可辨
Fig. 9-3a, p. 198
Fig. 9-3b, p. 198
Fig. 9-3c, p. 198
運動知覺的研究
• 真實運動
• 似動運動(apparent motion)
– Exner (1875)
– 電影/動畫/霓虹燈
– Wertheimer
• AM-illusory contour
真實vs.似動運動激發視皮質的相近區域
(No motion)
• 誘發運動(induced
movement)(VL 12)
– 周遭的運動引發自身
運動的錯覺
• 如,坐在靜止火車中
等待會車,相鄰車廂
的移動引發自身車廂
移動的錯覺
• 運動後效(motion aftereffect)(VL 13-14)
– 如瀑布錯覺(waterfall illusion)
• http://www.bu.edu/smec/lite/perception/waterfall/
– spiral motion aftereffect
• http://www.michaelbach.de/ot/mot_adaptSpiral/in
dex.html
• 不同條件下的運動知覺
– 依照視覺的生態取向(JJ Gibson), 運動知覺的
解釋繫於分析視覺環境所提供的運動訊息
• a. 光陣列中局部擾動(local disturbance)
• b. local disturbance
• c. Global optic flow
– 依照視覺的生理學取向,應該設法瞭解運動知
覺與神經激發之間的關係
Motion of a Stimulus Across the Retina
• 腦如何解讀網膜上
刺激運動的訊息?
– 透過複雜細胞(
complex cell)的處
理?
– 恐怕不是
• 框架問題 (the aperture problem)
– 兩種情況下,神經元的反應相同
• 解決框架問題?
– responses of a number
of directionally selective
neurons are pooled.
Their signals are sent
to-• MT cortex (the
where/action
stream).
– Neurons on the striate
cortex respond to
movement of ends of
objects.
解決方式—統整不同區域的訊息
Module for
movement
perception
Figure 9.15 (a) Some of the nuclei in the dorsal and ventral streams. The MT cortex, which is a module for
movement perception, is in the dorsal stream, and the IT cortex, which is a module for form perception, is in
the ventral stream. (b) The location of the MT and IT cortex in the brain.
Motion of arrays of dots on the retina
• MT神經元與global motion的偵測有關
– 相關
相關
0.8% -- baseline firing of MT neuron
chance detection
12.8%-- faster firing than baseline
highly accurate detection
Coherence of dot movement↑
Firing of the MT neurons↑
Judgment accuracy of movement direction↑
• Lesioning experiment
– Normal monkeys can detect motion with
coherence of 1 or 2%.
– Monkeys with lesions in MT cortex cannot detect
motion until the coherence is 10 to 20%.
• microstimulation
• Stimulating MT neurons
that preferred downward
direction
• Monkeys’ direction
judgments were affected.
• Downward + Rightward
眼球移動的角色
Corollary discharge theory
• 運動知覺仰賴三種訊號
– 動作訊號(motor signal, MS)
– 附帶釋放訊號(corollary discharge signal, CDS)
– 影像移動訊號(image movement signal, IMS)
• 當CDS或IMS到達比較器(comparator)時,運
動知覺產生;但是當CDS與IMS同時到達比較器
(comparator)時,沒有運動知覺
Figure 8.18 According to the corollary discharge
model (a) when a motor signal (MS) to move the
eyes is sent to the eye muscles, so the eye can
follow a moving object, there is a corollary discharge
signal (CDS), which splits off from the motor signal.
(b) When the CDS reaches the comparator, it sends
a signal to the brain that the eye is moving, and
motion is perceived.
Figure 9.8 How inputs to the comparator (circle) affect movement perception. When the comparator
receives either the corollary discharge signal (CDS) alone, as in (a), or the image movement signal (IMS)
alone, as in (b), it sends a movement signal to the cortex, and movement is perceived. When the
comparator receives both the CDS and IMS signals, a movement signal is not sent to the cortex, and no
movement is perceived.
Figure 9.9 In all four examples shown in the figure, a signal is sent to the eye muscles, and a corollary
discharge is generated. However, no image movement signal is generated, so movement is perceived.
See text for details.
Fig. 9-10, p. 203
– 沒有IMS,但CDS引發運動知覺的可能方式 – 這些行為證據支持
corollary discharge theory
真實運動神經元
當眼球與刺激都運動時就不活躍
Fig. 8.23, p. 191
知覺組織與運動知覺
• 運動造成知覺組織
– Biological motion
• animal
• male vs. female
• Neurons in monkey’s
superior temporal
sulcus respond to
man walking forward
but less so for other
directions of walking
生物運動(biological
motion)
http://www.biomotionlab.ca/Demos/BMLwalker.html
Fig. 9-17, p. 208
Figure 9.18 Frames from the stimuli used by Grossman and Blake (2001). (a) Sequence from the pointlight walker stimulus. (b) Sequence from the scrambled point-light stimulus.
• Determining whether
motion was biological
or scrambled
– Noise added led to
71% accuracy.
– Transcranial magnetic
stimulation (TMS)
applied only to STS
caused a decrease in
ability to detect
biological motion.
Biological motion
Scrambled stimulus
Biological motion
+ noise
Biological motion
+ noise
Biological motion
stimulus
• Other
neurons
respond to
point light
walker
• Also, for
human, PET
activity
increases in
STS when
presented
with man
walking
• 暗示運動(Implied motion)
– 靜態圖像隱涵運動的型態
• 表徵動量(representational momentum)
– 圖像隱涵中的運動會在觀看者的心中持續完成
– 「遮蔽」經驗法則
• 運動的物體落於同一位置時可能會被遮蔽
• Duck demo