噪声对视觉信息处理的影响。

Hiie Hinrikus, Deniss Karai, Jaanus Lass, Anastassia Rodina
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引用次数: 5

摘要

背景:神经系统的信息传递和加工具有随机性。多种因素导致神经元试验间的差异。噪声和变化是由分子和细胞水平的过程引入的(热噪声、通道电流噪声、膜电位变化、突触的生化和扩散噪声等)。随机过程受到不同物理(温度、电磁场)和化学(药物)因素的影响。这项研究的目的是对大脑中噪音水平的增加会影响视觉信息处理的假设进行实验调查。噪音水平的变化是由大脑中产生过量噪音的外部因素引起的。方法:采用450mhz低频调制微波辐射产生过量噪声。这种暴露已被证明增加扩散,改变膜静息电位,门控变量和细胞内钙外排。9名健康志愿者在低(无微波)和高(有微波)噪声水平下通过了实验方案。两张不熟悉的年轻男性面孔的照片(视觉刺激)一张接一张地呈现给受试者。这项任务是随后从一组六张照片中识别出这些照片,并决定它们呈现的顺序。每个受试者总共有8个低噪音和8个高噪音。每组包括50个试验;一个实验对象总共做了800次实验,400次在低噪音水平下,400次在高噪音水平下。采用学生t检验对结果进行统计学评价。结果:在较低的噪声水平下,对两种刺激物按正确顺序的正确识别效果较好。在较低的噪音水平下,所有被调查者都显示出更高的正确答案。n=400次实验中,微波暴露组的平均正确答案数为50.3,未暴露组的平均正确答案数为54.4,差异为7.5%。结论:实验结果表明,过量噪声的引入显著降低了神经系统正确处理视觉信息的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Effect of noise in processing of visual information.

Background: Information transmission and processing in the nervous system has stochastic nature. Multiple factors contribute to neuronal trial-to-trial variability. Noise and variations are introduced by the processes at the molecular and cellular level (thermal noise, channel current noise, membrane potential variations, biochemical and diffusion noise at synapses etc). The stochastic processes are affected by different physical (temperature, electromagnetic field) and chemical (drugs) factors. The aim of this study was experimental investigation of hypotheses that increase in the noise level in the brain affects processing of visual information. Change in the noise level was introduced by an external factor producing excess noise in the brain.

Methods: An exposure to 450 MHz low-frequency modulated microwave radiation was applied to generate excess noise. Such exposure has been shown to increase diffusion, alter membrane resting potential, gating variables and intracellular Calcium efflux. Nine healthy volunteers passed the experimental protocol at the lower (without microwave) and the higher (with microwave) noise level. Two photos (visual stimuli) of unfamiliar, young male faces were presented to the subjects, one picture after another. The task was to identify later the photos from a group of six photos and to decide in which order they were presented. Each subject had a total of eight sessions at the lower and eight at the higher noise level. Each session consisted of 50 trials; altogether a subject made 800 trials, 400 at the lower and 400 at the higher noise level. Student t-test was applied for statistical evaluation of the results.

Results: Correct recognition of both stimuli in the right order was better at the lower noise level. All the subjects under investigation showed higher numbers of right answers in trials at the lower noise level. Average number of correct answers from n=400 trials with microwave exposure was 50.3, without exposure 54.4, difference 7.5%, p<0.002. No difference between results at the lower and the higher noise level was revealed in the case of only partly correct or incorrect answers.

Conclusions: Our experimental results showed that introduced excess noise reduced significantly ability of the nervous system in correct processing of visual information.

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