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Issue title: Biological Data Mining
Article type: Research Article
Authors: Patnaik, Debprakash | Sastry, P.S. | Unnikrishnan, K.P.
Affiliations: Department of Electrical Engineering, Indian Institute of Science, Bangalore, India. E-mails: debprakash@gmail.com, sastry@ee.iisc.ernet.in | General Motors R&D Center, Warren, MI, USA. E-mail: k.unnikrishnan@gm.com
Abstract: Understanding the functioning of a neural system in terms of its underlying circuitry is an important problem in neuroscience. Recent developments in electrophysiology and imaging allow one to simultaneously record activities of hundreds of neurons. Inferring the underlying neuronal connectivity patterns from such multi-neuronal spike train data streams is a challenging statistical and computational problem. This task involves finding significant temporal patterns from vast amounts of symbolic time series data. In this paper we show that the frequent episode mining methods from the field of temporal data mining can be very useful in this context. In the frequent episode discovery framework, the data is viewed as a sequence of events, each of which is characterized by an event type and its time of occurrence and episodes are certain types of temporal patterns in such data. Here we show that, using the set of discovered frequent episodes from multi-neuronal data, one can infer different types of connectivity patterns in the neural system that generated it. For this purpose, we introduce the notion of mining for frequent episodes under certain temporal constraints; the structure of these temporal constraints is motivated by the application. We present algorithms for discovering serial and parallel episodes under these temporal constraints. Through extensive simulation studies we demonstrate that these methods are useful for unearthing patterns of neuronal network connectivity.
Keywords: Data mining, temporal data mining, temporal constraints, frequent episodes, multiple neural spike train data, spike train data analysis, functional connectivity, neuronal connectivity patterns, synfire chains, synchrony
DOI: 10.3233/SPR-2008-0242
Journal: Scientific Programming, vol. 16, no. 1, pp. 49-77, 2008
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