Maciej Łuczak scite author profile

Over recent years the popularity of time series has soared. Given the widespread use of modern information technology, a large number of time series may be collected during business, medical or biological operations, for example. As a consequence there has been a dramatic increase in the amount of interest in querying and mining such data, which in turn has resulted in a large number of works introducing new methodologies for indexing, classification, clustering and approximation of time series. In particular, many new distance measures between time series have been introduced. In this paper, we propose a new distance function based on a derivative. In contrast to well-known measures from the literature, our approach considers the general shape of a time series rather than point-to-point function comparison. The new distance is used in classification with the nearest neighbor rule. In order to provide a comprehensive comparison, we conducted a set of experiments, testing effectiveness on 20 time series datasets from a wide variety of application domains. Our experiments show that our method provides a higher quality of classification on most of the examined datasets.

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Multivariate time series classification with parametric derivative dynamic time warping

Górecki

Łuczak

2015

Expert Systems with Applications

128

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Hierarchical clustering of time series data with parametric derivative dynamic time warping

Łuczak

2016

Expert Systems with Applications

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Non-isometric transforms in time series classification using DTW

Górecki

Łuczak

2014

Knowledge-Based Systems

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Linear discriminant analysis with a generalization of the Moore–Penrose pseudoinverse

Górecki

Łuczak

2013

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The Linear Discriminant Analysis (LDA) technique is an important and well-developed area of classification, and to date many linear (and also nonlinear) discrimination methods have been put forward. A complication in applying LDA to real data occurs when the number of features exceeds that of observations. In this case, the covariance estimates do not have full rank, and thus cannot be inverted. There are a number of ways to deal with this problem. In this paper, we propose improving LDA in this area, and we present a new approach which uses a generalization of the Moore-Penrose pseudoinverse to remove this weakness. Our new approach, in addition to managing the problem of inverting the covariance matrix, significantly improves the quality of classification, also on data sets where we can invert the covariance matrix. Experimental results on various data sets demonstrate that our improvements to LDA are efficient and our approach outperforms LDA.

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Maciej Łuczak

Using derivatives in time series classification

Multivariate time series classification with parametric derivative dynamic time warping

Hierarchical clustering of time series data with parametric derivative dynamic time warping

Non-isometric transforms in time series classification using DTW

Linear discriminant analysis with a generalization of the Moore–Penrose pseudoinverse

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