Decay ratio estimation based on time-frequency representations

被引:4
|
作者
Torres-Fernandez, Jose E. [1 ]
Prieto-Guerrero, Alfonso [1 ]
Espinosa-Paredes, Gilberto [1 ]
机构
[1] Univ Autonoma Metropolitana Iztapalapa, Div Ciencias Basicas & Ingn, Mexico City 09340, DF, Mexico
来源
ANNALS OF NUCLEAR ENERGY | 2010年 / 37卷 / 02期
关键词
BOILING WATER-REACTORS; REDUCED-ORDER MODEL; NUCLEAR-REACTORS; STABILITY ANALYSIS; KERNEL DESIGN; INSTABILITIES; DYNAMICS; PHASE; BWR;
D O I
10.1016/j.anucene.2009.11.015
中图分类号
TL [原子能技术]; O571 [原子核物理学];
学科分类号
0827 ; 082701 ;
摘要
A novel method based on bilinear time-frequency representations (TFRs) is proposed to determine the time evolution of the linear stability parameters of a boiling water reactor (BWR) using neutronic noise signals. TFRs allow us to track the instantaneous frequencies contained in a signal to estimate an instantaneous decay ratio (IDR) that closely follows the signal envelope changes in time, making the IDR a measure of local stability. In order to account for long term changes in BWR stability, the ACDR measure is introduced as the accumulated product of the local IDRs. As it is shown in this paper, the ACDR measure clearly reflects major long term changes in BWR stability. Last to validate our method, synthetic and real neutronic signals were used. The methodology was tested on the Laguna Verde Unit 1, two events were reported in the Forsmark stability benchmark. (C) 2009 Elsevier Ltd. All rights reserved.
引用
收藏
页码:93 / 102
页数:10
相关论文
共 50 条
  • [31] DOA Estimation Based on Spatial Time-frequency Analysis
    Liu, B. S.
    Song, H. Y.
    Shi, J.
    Diao, M.
    Yang, C. Y.
    MECHANICAL, CONTROL, ELECTRIC, MECHATRONICS, INFORMATION AND COMPUTER, 2016, : 80 - 85
  • [32] DOA estimation based on time-frequency maximum likelihood
    Tian, Da
    Zhang, Hong
    Chen, Tian-Qi
    Dianzi Yu Xinxi Xuebao/Journal of Electronics and Information Technology, 2005, 27 (02): : 184 - 188
  • [33] IF Estimation of FM Signals Based on Time-Frequency Image
    Zhang, Haijian
    Bi, Guoan
    Yang, Wen
    Razul, Sirajudeen Gulam
    See, Chong Meng Samson
    IEEE TRANSACTIONS ON AEROSPACE AND ELECTRONIC SYSTEMS, 2015, 51 (01) : 326 - 343
  • [34] Ultrasonic attenuation estimation based on time-frequency analysis
    Feng Gao
    Jian-Xin Wei
    Bang-Rang Di
    Applied Geophysics, 2019, 16 : 414 - 426
  • [35] Ultrasonic attenuation estimation based on time-frequency analysis
    Gao, Feng
    Wei, Jian-Xin
    Di, Bang-Rang
    APPLIED GEOPHYSICS, 2019, 16 (04) : 414 - 426
  • [36] On the time-frequency analysis of signals that decay exponentially with time
    Tang, SK
    JOURNAL OF SOUND AND VIBRATION, 2000, 234 (02) : 241 - 258
  • [37] Adapted and Adaptive Linear Time-Frequency Representations
    Balazs, Peter
    Doerfler, Monika
    Kowalski, Matthieu
    Torresani, Bruno
    IEEE SIGNAL PROCESSING MAGAZINE, 2013, 30 (06) : 20 - 31
  • [38] Localized subclasses of quadratic time-frequency representations
    PapandreouSuppappola, A
    Murray, RL
    BoudreauxBartels, GF
    1997 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH, AND SIGNAL PROCESSING, VOLS I - V: VOL I: PLENARY, EXPERT SUMMARIES, SPECIAL, AUDIO, UNDERWATER ACOUSTICS, VLSI; VOL II: SPEECH PROCESSING; VOL III: SPEECH PROCESSING, DIGITAL SIGNAL PROCESSING; VOL IV: MULTIDIMENSIONAL SIGNAL PROCESSING, NEURAL NETWORKS - VOL V: STATISTICAL SIGNAL AND ARRAY PROCESSING, APPLICATIONS, 1997, : 2041 - 2044
  • [39] Time-Frequency Representations: Spectrogram, Cochleogram and Correlogram
    Chaurasiya, Himanshu
    INTERNATIONAL CONFERENCE ON COMPUTATIONAL INTELLIGENCE AND DATA SCIENCE, 2020, 167 : 1901 - 1910
  • [40] The Linear Canonical Transform and Time-Frequency Representations
    Xiang, Qiang
    PROCEEDINGS OF THE 2015 INTERNATIONAL CONFERENCE ON EDUCATION, MANAGEMENT, INFORMATION AND MEDICINE (EMIM 2015), 2015, 8 : 728 - 733
12345