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收缩偏差的计算原理和神经机制

The Computational Principles and Neural Mechanism Underlying Contraction Bias
课程网址: http://videolectures.net/eccs08_loewenstein_tcpanm/  
主讲教师: Yonatan Loewenstein
开课单位: 耶路撒冷希伯来大学
开课时间: 2008-10-17
课程语种: 英语
中文简介:
已经确定的是,记忆刺激的估计幅度是有偏见的:小幅度被高估,大幅度被低估,这种现象被称为“收缩偏差”。在先前的研究中,训练猴子记忆振动触觉刺激的频率(基础)并将其与第二刺激的频率(比较)进行比较,同时在其前额皮质中记录单个单位活动(Romo等人(1999),自然,399:470 473)。我们发现猴子的错误模式与收缩偏差一致,提供了在行为水平和神经活动水平上研究这种现象的机会。在这里我们讨论两个问题:(1)什么是计算原理和(2)收缩偏差背后的神经机制?(1)我们证明收缩偏差与贝叶斯推断是一致的,其中噪声测量与先验相结合关于基准量分布的知识,以提高性能。根据贝叶斯假设,增加记忆刺激幅度的不确定性水平会增加偏差。这种不确定性是基频和比较频率之间的延迟的函数,因为猴子的性能水平随着延迟的持续时间而减小。实际上,正如贝叶斯假设所预期的那样,基频和比较频率之间的延迟越长,偏差越大。根据贝叶斯假设,猴子在决策过程中利用基频的先验分布。为了研究猴子如何估计这种先前的分布,我们分析了猴子的决定对实验中呈现给他们的近期刺激史的依赖性。我们表明,估计的先前分布主要取决于几个先前试验的近期历史。 (2)延迟期间许多前额叶皮层神经元的放电率是基础刺激频率的单调函数。有人建议,通过将此活动与比较频率的神经表示进行比较来做出判别任务中的决定。因此,记忆频率的收缩应反映在前额叶皮层神经元的活动中,从而导致偏倚的决定。通过研究过去的试验如何影响前额叶皮层的神经活动,我们寻求识别收缩偏差的神经相关性。
课程简介: It is well established that the estimated magnitude of memorized stimuli is biased: small magnitudes are overestimated and large magnitudes are underestimated, a phenomenon known as 'contraction bias.' In a previous study monkeys were trained to memorize the frequency of a vibrotactile stimulus (Base) and compare it with the frequency of a second stimulus (Comparison) while single unit activity was recorded in their prefrontal cortex (Romo et al. (1999), Nature, 399:470-473). We identified that the pattern of errors made by the monkeys is consistent with the contraction bias, providing an opportunity to study this phenomenon both at the level of behavior and at the level of neural activity. Here we address two questions: (1) What are the computational principles and (2) the neural mechanisms underlying the contraction bias? (1) We show that contraction bias is consistent with Bayesian inference, in which a noisy measurement is combined with a-priori knowledge about the distribution of Base magnitudes in order to improve performance. According to the Bayesian hypothesis, increasing the level of uncertainty in the magnitude of the memorized stimulus enhances the bias. This uncertainty is a function of the delay between the Base and Comparison frequencies, as the performance level of the monkey decreases with the duration of the delay. Indeed, as expected from the Bayesian hypothesis, the longer the delay between the Base and Comparison frequencies, the greater the bias. According to the Bayesian hypothesis, monkeys utilize the prior distribution of Base frequencies in their decision making process. In order to study how the monkeys estimate this prior distribution, we analyzed the dependence of the monkeys' decisions on the recent history of stimuli presented to them in the experiment. We show that the estimated prior distribution depends mostly on the recent history of several previous trials. (2) The firing rate of many prefrontal cortex neurons during the delay period is a monotonic function of the Base stimulus frequency. It has been suggested that decisions in the discrimination task are made by comparing this activity with the neural representation of the Comparison frequency. Thus, the contraction of the memorized frequencies should be reflected in the activity of the prefrontal cortex neurons, resulting in the biased decisions. By studying how past trials affect neural activity in the prefrontal cortex, we seek to identify the neural correlate of the contraction bias.
关 键 词: 记忆刺激; 行为水平; 神经活动
课程来源: 视频讲座网
最后编审: 2019-03-20:lxf
阅读次数: 60

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