應用稀疏時頻表現式解析生理系統間非線性耦合機轉;Probing the Nonlinear Mechanisms Between Physiological Systems by Time- Frequency Sparse Representation

NCU Institutional Repository > 生醫理工學院 > 生物醫學工程研究所 > 博碩士論文 > Item 987654321/89280

jsp.display-item.identifier=請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/89280

题名:	應用稀疏時頻表現式解析生理系統間非線性耦合機轉;Probing the Nonlinear Mechanisms Between Physiological Systems by Time- Frequency Sparse Representation
作者:	許境恩;Ching-En-Hsu
贡献者:	生物醫學工程研究所
关键词:	跨頻率耦合;鎮幅調變;頻率調變;時頻展開式;時頻分析;Cross Frequency Coupling;Amplitude Modulation;Frequency Modulation;Time Frequency Representation
日期:	2022-09-06
上传时间:	2022-10-04 11:08:46 (UTC+8)
出版者:	國立中央大學
摘要:	跨頻率耦合（Cross Frequency Coupling, CRC）可用來定義不同系統之前的交互作用，當兩系統開始耦合時，兩系統的訊號可被觀察到有相似特徵，交互作用的訊息可能會載在訊號的頻率、相位或者振幅之中。在生理系統中，跨頻率耦合現象廣泛出現，例如腦波中存在相位-振幅調變 (Phase-Amplitude Coupling, PAC)，也就是存在兩震盪子之間的相互作用，低頻訊號的相位，會改變高頻訊號的振幅，因此高頻震盪訊號除了自己的調頻(Carrier Frequency)外，其振幅能量強度由低頻訊號控制。其中腦波中的PAC便可應用於麻醉場域，而PAC的強度可用來監控患者的麻醉深度與意識狀態。欲將低頻震盪子的信息載到高頻震盪子上，便牽涉的通訊領域的震幅調變(Amplitude Modulation)與頻率調變(Frequency Modulation)，不同於應用於通訊領域，將訊息(Message)載於已知載波(Carrier)上，在探勘生理系統中的非線性耦合現象，並無法訊息或載波的性質，因此本文的主要目的是提出訊號處理的方法，可針對非線性耦合訊號進行估測。頻率調變與振幅調變是一種時變且非線性轉換，然而確保有一定的穩定性(Stationary)，因此本文欲針對調變的頻率響應進行分析，且採用時頻展開式(Time Frequency Representation)針對非線性的調變進行觀測，數理證明以時頻轉換解析訊號調變與頻率調變的可行性，提出一套訊號處理方法，可以對訊號中的振幅與頻率調變進行估測，最終以此方法為基礎，檢測生理系統中未知的跨頻率耦合反應，以分析系統間交互作用。 ;Cross-frequency coupling (CFC) serves a critical role to define the interaction and synchronization between different systems. When systems begin to communicate, the phase, frequency, or amplitude of these systems may indicate similar pattern. In electroencephalogram (EEG), the low frequency oscillators’ phase could modulate the high frequency oscillators’ amplitude, which is known as phase-amplitude coupling (PAC). PAC occurs in EEG especially when the subject losses consciousness. Therefore, PAC is an important factor to monitor both the depth of unconsciousness due to anesthesia in surgery and sleepiness in sleep medicine. Moreover, phase frequency coupling (PFC) , another kind of CFC, reflects the interaction between respiratory system and the cardiovascular system. The respiratory sinus arrhythmia (RSA) is defined as the increase and decrease of the rate of heartbeat during inhalation and expiration, respectively. Subject with terrible autonomic nervous function has poor RSA. That is, PFC is a practical tool to evaluate autonomic nervous system. Given that different modulations are able to explain mechanisms between systems, it is essential to develop the signal processing tool that precisely quantitate coupling activities. CFCs are phenomena comprised of amplitude modulation (AM) and the frequency modulation (FM) in communication domain. AM and FM are non-linear frequency interactions that pose obstacle for Fourier-based method to access correct frequency. The traditional method is to acquire modulation index with constant bandwidth band-pass filter, through this method is not able to discover non-stationary coupling. In this paper, we aim to propose a method based on time frequency representation (TFR) that distinguishes different CFC precisely. TFR also provides an opportunity to deal with non-stationary coupling. We are looking forward to applying our method to other CFCs, including amplitude-amplitude coupling (AAC) and phase-phase coupling (PPC). Eventually, with proposed toolbox, we expect to establish a standard to observe the CFC correctly.
显示于类别:	[生物醫學工程研究所 ] 博碩士論文

文件中的档案:

档案	描述	大小	格式	浏览次数
index.html		0Kb	HTML	89	检视/开启

在NCUIR中所有的数据项都受到原著作权保护.

社群 sharing

数据加载中.....