Measuring spectrally-resolved information transfer for sender- and receiver-specific frequencies

Abstract: Information transfer, measured by transfer entropy, is a key component of distributed computation. It is therefore important to understand the pattern of information transfer in order to unravel the distributed computational algorithms of a system. Since in many natural systems distributed computation is thought to rely on rhythmic processes a frequency resolved measure of information transfer is highly desirable. Here, we present a novel algorithm, and its efficient implementation, to identify separately freq… Show more

“…We believe that most of these caveats may be overcome by approaching TE findings with a hypothesis-driven analysis supported by stringent statistical testing, but further investigation is necessary in this regard. A recently proposed method has recommended addressing the problem of filtering in TE computation by implementing the filtering only when generating surrogate data representing the null-hypothesis of no information transfer at the frequencies of interest [ 74 ]. Studying how this approach will influence PAC analysis by local TE, where the signals entering the TE analysis are first bandpass filtered and Hilbert transformed (see Section Specific caveats in [ 74 ]), will be future work.…”

What Can Local Transfer Entropy Tell Us about Phase-Amplitude Coupling in Electrophysiological Signals?

“…We believe that most of these caveats may be overcome by approaching TE findings with a hypothesis-driven analysis supported by stringent statistical testing, but further investigation is necessary in this regard. A recently proposed method has recommended addressing the problem of filtering in TE computation by implementing the filtering only when generating surrogate data representing the null-hypothesis of no information transfer at the frequencies of interest [ 74 ]. Studying how this approach will influence PAC analysis by local TE, where the signals entering the TE analysis are first bandpass filtered and Hilbert transformed (see Section Specific caveats in [ 74 ]), will be future work.…”

What Can Local Transfer Entropy Tell Us about Phase-Amplitude Coupling in Electrophysiological Signals?