Title :
A Peak Synchronization Measure for Multiple Signals
Author :
Biswas, Rubel ; Khamaru, Koulik ; Majumdar, Kaushik K.
Author_Institution :
Stat. & Math.Unit, Indian Stat. Inst., Kolkata, India
Abstract :
Peaks signify important events in a signal. In a pair of signals how peaks are occurring with mutual correspondence may offer us significant insights into the mutual interdependence between the two signals based on important events. In this work we proposed a novel synchronization measure between two signals, called peak synchronization, which measures the simultaneity of occurrence of peaks in the signals. We subsequently generalized it to more than two signals. We showed that our measure of synchronization is largely independent of the underlying parameter values. A time complexity analysis of the algorithm has also been presented. We applied the measure on intracranial EEG signals of epileptic patients and found that the enhanced synchronization during an epileptic seizure can be modeled better by the new peak synchronization measure than the classical amplitude correlation method.
Keywords :
computational complexity; correlation methods; electroencephalography; medical disorders; medical signal processing; synchronisation; amplitude correlation method; electroencephalogram signals; epileptic patients; epileptic seizure; iEEG signals; intracranial EEG; multiple signals; pair signal interdependence; peak synchronization measure; time complexity analysis; Artificial neural networks; Biomedical measurement; Correlation; Signal processing algorithms; Standards; Strips; Synchronization; Amplitude correlation; focal epilepsy; intra cranial electroencephalogram (iEEG); normal density function; peak synchronization;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2014.2333568
