ANALYZING AND MODELING FRACTAL INTENSITY POINT-PROCESSES

被引:18
作者
KUMAR, AR
JOHNSON, DH
机构
[1] Computer and Information Technology Institute, Department of Electrical and Computer Engineering, Rice University, Houston, Texas
关键词
D O I
10.1121/1.405692
中图分类号
O42 [声学];
学科分类号
070206 ; 082403 ;
摘要
Fractal intensity point processes-doubly stochastic point processes with a fractal waveform intensity process-are required to describe the discharge patterns recorded from the auditory and visual systems. The Fano factor-the ratio of the variance of the number of events in an interval to the mean of this number-captures the self-similar characteristics of the intensity via two quantities: fractal dimension and fractal time. The fractal dimension is the exponent of the asymptotic power law behavior of the Fano factor with interval duration. The fractal time delineates long-term fractal behavior from short-term characteristics of the data. The average rate and self-similarity parameter of the intensity process, absolute and relative refractory effects, and serial dependence all modify the fractal time. To generate fractal intensity point processes, stochastic fractal processes are derived by applying memoryless, nonlinear transformations to fractional Gaussian noise. The intensity's amplitude distribution in combination with the Fano factor form criteria to choose the transformation that best describes data.
引用
收藏
页码:3365 / 3373
页数:9
相关论文
共 27 条
[1]  
[Anonymous], 1985, STATIONARY SEQUENCES
[2]   SIGNAL-DETECTION IN FRACTIONAL GAUSSIAN-NOISE [J].
BARTON, RJ ;
POOR, HV .
IEEE TRANSACTIONS ON INFORMATION THEORY, 1988, 34 (05) :943-959
[3]   PRACTICAL APPLICATION OF FRACTIONAL BROWNIAN-MOTION AND NOISE TO SYNTHETIC HYDROLOGY [J].
CHI, M ;
NEAL, E ;
YOUNG, GK .
WATER RESOURCES RESEARCH, 1973, 9 (06) :1523-1533
[4]   IONIZATION YIELD OF RADIATIONS .2. THE FLUCTUATIONS OF THE NUMBER OF IONS [J].
FANO, U .
PHYSICAL REVIEW, 1947, 72 (01) :26-29
[5]   STATISTICS OF THE MAINTAINED DISCHARGE OF CAT RETINAL GANGLION-CELLS [J].
FRISHMAN, LJ ;
LEVINE, MW .
JOURNAL OF PHYSIOLOGY-LONDON, 1983, 339 (JUN) :475-494
[6]   STIMULUS AND RECOVERY DEPENDENCE OF CAT COCHLEAR NERVE-FIBER SPIKE DISCHARGE PROBABILITY [J].
GAUMOND, RP ;
MOLNAR, CE ;
KIM, DO .
JOURNAL OF NEUROPHYSIOLOGY, 1982, 48 (03) :856-873
[7]   THE TRANSMISSION OF SIGNALS BY AUDITORY-NERVE FIBER DISCHARGE PATTERNS [J].
JOHNSON, DH ;
SWAMI, A .
JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, 1983, 74 (02) :493-501
[8]   RELATIONSHIP OF POST-STIMULUS TIME AND INTERVAL HISTOGRAMS TO TIMING CHARACTERISTICS OF SPIKE TRAINS [J].
JOHNSON, DH .
BIOPHYSICAL JOURNAL, 1978, 22 (03) :413-430
[9]   APPLICATION OF A POINT PROCESS MODEL TO RESPONSES OF CAT LATERAL SUPERIOR OLIVE UNITS TO IPSILATERAL TONES [J].
JOHNSON, DH ;
TSUCHITANI, C ;
LINEBARGER, DA ;
JOHNSON, MJ .
HEARING RESEARCH, 1986, 21 (02) :135-159
[10]  
KUMAR AR, 1990, THESIS RICE U HOUSTO