Somprasonk Gabbualoy, Solos Punkabut, P. Phasukkit, S. Tungjitkusolmun
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引用次数: 0
摘要
本研究中的单耳节拍是由双耳节拍原理产生的,两种原理相同,但单耳节拍不是通过耳机产生的。然而,许多先前的研究仅通过耳机使用双耳节拍来创建一个新的频率。这可能会让听者或病人感到不舒服。因此,在本研究中,我们将提出一种利用非接触式扬声器传输的单耳节拍对人体进行脑电波感应的方法,该方法在低频理论基础上进行了改进。利用音乐和音频工程原理,设计了一个尺寸为2.60 x 4.03 x 3米的实验室测试,并通过音频扬声器产生和传输131.81 Hz和121.81 Hz的频率。然后我们会用特定的麦克风和软件来检测频率。为了测量脑电波,25名受试者将佩戴EEG(脑电图)头戴设备,并基于生物医学工程技术在MATLAB中采集数据进行分析。结果表明,单耳节拍可以被发送给被试。此外,它还调节被试的大脑信号。
Laboratory design for Reduce Brainwaves Frequency by using Monaural beats
Monaural beats in this studied was generated by the principles of binaural beats which both of principle is same but monaural beats is not via headphone. Nevertheless, many previous researches used the binaural beats to create a new frequency of via headphone only. Which that might be make the listener or patient feel uncomfortable. So, for using a non-contact, in this research will be presented a method that was developed for induce brain waves on human based on monaural beats that were transmitted through the speakers which was improved by theory of low frequency. Principle of music and audio engineering were used for designed a laboratory test size 2.60 x 4.03 x 3 meter together with the frequency of 131.81 Hz and 121.81 Hz that were generated and transmitted via audio speakers. Then we will detect the frequency with specific microphones and software. For measure up the brain waves, 25 subjects will be wearing EEG (Electroencephalography) headset and collect data to analysis in MATLAB base on biomedical engineering technique. From the result we found that the monaural beats can be sent to the subjects. In addition, it also modulation the brain signal of subjects.
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