Music is the core power to promote the development of opera and to thoroughly understand its early form and development track in the domain of opera art. It plays an important role in the comprehensive understanding o...Music is the core power to promote the development of opera and to thoroughly understand its early form and development track in the domain of opera art. It plays an important role in the comprehensive understanding of the artistic nature of opera music. Opera music originated from the inheritance of excellent music culture in history, the song and dance drama in Tang Dynasty, Zaju in the Song Dynasty and Jinyuanben (a kind of Chinese ancient traditional opera) had began to form the rudiment of opera music before forming into independent musical system. The reform of the development of the opera music is based on the prototype of the opera music, with the development of the music itself and the combination of the opera art produced by external conditions of the dual effects.展开更多
Dominant frequency (DF) of electrophysiological data is an effective approach to estimate the activation rate during Atrial Fibrillation (AF) and it is important to understand the pathophysiology of AF and to help sel...Dominant frequency (DF) of electrophysiological data is an effective approach to estimate the activation rate during Atrial Fibrillation (AF) and it is important to understand the pathophysiology of AF and to help select candidate sites for ablation. Frequency analysis is used to find and track DF. It is important to minimize the catheter insertion time in the atria as it contributes to the risk for the patients during this procedure, so DF estimation needs to be obtained as quickly as possible. A comparison of computation tim- es taken for spectrum estimation analysis is presented in this paper. Fast Fourier Transform (FFT), Blackman-Tukey (BT), Autoregressive (AR) and Multiple Signal Classification (MUSIC) methods are used to obtain the frequency spectrum of the signals. The time to produce DF was measured for each method. The method which takes the shortest time for analysis is selected for real time application purpose.展开更多
In this paper, we propose a method for characterizing a musical signal by extracting a set of harmonic descriptors reflecting the maximum information contained in this signal. We focus our study on a signal of orienta...In this paper, we propose a method for characterizing a musical signal by extracting a set of harmonic descriptors reflecting the maximum information contained in this signal. We focus our study on a signal of oriental music characterized by its richness in tone that can be extended to 1/4 tone, taking into account the frequency and time characteristics of this type of music. To do so, the original signal is slotted and analyzed on a window of short duration. This signal is viewed as the result of a combined modulation of amplitude and frequency. For this result, we apply short-term the non-stationary sinusoidal modeling technique. In each segment, the signal is represented by a set of sinusoids characterized by their intrinsic parameters: amplitudes, frequencies and phases. The modeling approach adopted is closely related to the slot window;therefore great importance is devoted to the study and the choice of the kind of the window and its width. It must be of variable length in order to get better results in the practical implementation of our method. For this purpose, evaluation tests were carried out by synthesizing the signal from the estimated parameters. Interesting results have been identified concerning the comparison of the synthesized signal with the original signal.展开更多
为解决通道不一致性对传统极化敏感阵列长矢量模型的测向精度影响及传统长矢量多重信号分类(multiple signal classification,MUSIC)算法实时性不高的问题,本文在传统极化敏感测向系统基础上,在阵列中心增加一个标量平面螺旋天线,利用...为解决通道不一致性对传统极化敏感阵列长矢量模型的测向精度影响及传统长矢量多重信号分类(multiple signal classification,MUSIC)算法实时性不高的问题,本文在传统极化敏感测向系统基础上,在阵列中心增加一个标量平面螺旋天线,利用其天线方向图的增益稳定性,作为内部源对其他矢量通道不一致性进行实时校正;然后将结合标量圆阵和快速傅里叶变换(fastFouriertransform,FFT)的快速MUSIC算法推广到矢量阵列,提出降维快速极化MUSIC算法.仿真结果验证了此误差校正方法的有效性,且快速算法在保证测角精度前提下有效提高了算法实时性.本文为极化敏感阵列测向提供了一种误差校正方法及一种快速实用的测向算法.展开更多
文摘Music is the core power to promote the development of opera and to thoroughly understand its early form and development track in the domain of opera art. It plays an important role in the comprehensive understanding of the artistic nature of opera music. Opera music originated from the inheritance of excellent music culture in history, the song and dance drama in Tang Dynasty, Zaju in the Song Dynasty and Jinyuanben (a kind of Chinese ancient traditional opera) had began to form the rudiment of opera music before forming into independent musical system. The reform of the development of the opera music is based on the prototype of the opera music, with the development of the music itself and the combination of the opera art produced by external conditions of the dual effects.
文摘Dominant frequency (DF) of electrophysiological data is an effective approach to estimate the activation rate during Atrial Fibrillation (AF) and it is important to understand the pathophysiology of AF and to help select candidate sites for ablation. Frequency analysis is used to find and track DF. It is important to minimize the catheter insertion time in the atria as it contributes to the risk for the patients during this procedure, so DF estimation needs to be obtained as quickly as possible. A comparison of computation tim- es taken for spectrum estimation analysis is presented in this paper. Fast Fourier Transform (FFT), Blackman-Tukey (BT), Autoregressive (AR) and Multiple Signal Classification (MUSIC) methods are used to obtain the frequency spectrum of the signals. The time to produce DF was measured for each method. The method which takes the shortest time for analysis is selected for real time application purpose.
文摘In this paper, we propose a method for characterizing a musical signal by extracting a set of harmonic descriptors reflecting the maximum information contained in this signal. We focus our study on a signal of oriental music characterized by its richness in tone that can be extended to 1/4 tone, taking into account the frequency and time characteristics of this type of music. To do so, the original signal is slotted and analyzed on a window of short duration. This signal is viewed as the result of a combined modulation of amplitude and frequency. For this result, we apply short-term the non-stationary sinusoidal modeling technique. In each segment, the signal is represented by a set of sinusoids characterized by their intrinsic parameters: amplitudes, frequencies and phases. The modeling approach adopted is closely related to the slot window;therefore great importance is devoted to the study and the choice of the kind of the window and its width. It must be of variable length in order to get better results in the practical implementation of our method. For this purpose, evaluation tests were carried out by synthesizing the signal from the estimated parameters. Interesting results have been identified concerning the comparison of the synthesized signal with the original signal.
文摘为解决通道不一致性对传统极化敏感阵列长矢量模型的测向精度影响及传统长矢量多重信号分类(multiple signal classification,MUSIC)算法实时性不高的问题,本文在传统极化敏感测向系统基础上,在阵列中心增加一个标量平面螺旋天线,利用其天线方向图的增益稳定性,作为内部源对其他矢量通道不一致性进行实时校正;然后将结合标量圆阵和快速傅里叶变换(fastFouriertransform,FFT)的快速MUSIC算法推广到矢量阵列,提出降维快速极化MUSIC算法.仿真结果验证了此误差校正方法的有效性,且快速算法在保证测角精度前提下有效提高了算法实时性.本文为极化敏感阵列测向提供了一种误差校正方法及一种快速实用的测向算法.