Peter Ahrendt scite author profile

Abstract-Temporal feature integration is the process of combining all the feature vectors in a time window into a single feature vector in order to capture the relevant temporal information in the window. The mean and variance along the temporal dimension are often used for temporal feature integration, but they capture neither the temporal dynamics nor dependencies among the individual feature dimensions. Here, a multivariate autoregressive feature model is proposed to solve this problem for music genre classification. This model gives two different feature sets, the diagonal autoregressive (DAR) and multivariate autoregressive (MAR) features which are compared against the baseline mean-variance as well as two other temporal feature integration techniques. Reproducibility in performance ranking of temporal feature integration methods were demonstrated using two data sets with five and eleven music genres, and by using four different classification schemes. The methods were further compared to human performance. The proposed MAR features perform better than the other features at the cost of increased computational complexity.Index Terms-Autoregressive (AR) model, music genre classification, temporal feature integration.

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Development of a real-time computer vision system for tracking loose-housed pigs

Ahrendt

Gregersen

Karstoft

2011

Computers and Electronics in Agriculture

117

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Weight prediction of broiler chickens using 3D computer vision

Mortensen

Lisouski

Ahrendt

2016

Computers and Electronics in Agriculture

117

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Novel stretch-sensor technology allows quantification of adherence and quality of home-exercises: a validation study

et al. 2013

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The stretch-sensor readings from the elastic exercise band allow health professionals to quantify whether strength-exercises have been performed as prescribed. These findings have great implications for future clinical practice and research where home exercises are the drugs-of-choice, as they enable clinicians and researchers to measure the exact adherence and quality of the prescribed exercises.

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A Novel Method for Measuring In-Shoe Navicular Drop during Gait

Kappel

Rathleff

Hermann

et al. 2012

Sensors

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Analysis of foot movement is essential in the treatment and prevention of foot-related disorders. Measuring the in-shoe foot movement during everyday activities, such as sports, has the potential to become an important diagnostic tool in clinical practice. The current paper describes the development of a thin, flexible and robust capacitive strain sensor for the in-shoe measurement of the navicular drop. The navicular drop is a well-recognized measure of foot movement. The position of the strain sensor on the foot was analyzed to determine the optimal points of attachment. The sensor was evaluated against a state-of-the-art video-based system that tracks reflective markers on the bare foot. Preliminary experimental results show that the developed strain sensor is able to measure navicular drop on the bare foot with an accuracy on par with the video-based system and with a high reproducibility. Temporal comparison of video-based, barefoot and in-shoe measurements indicate that the developed sensor measures the navicular drop accurately in shoes and can be used without any discomfort for the user.

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Peter Ahrendt

Temporal Feature Integration for Music Genre Classification

Development of a real-time computer vision system for tracking loose-housed pigs

Weight prediction of broiler chickens using 3D computer vision

Novel stretch-sensor technology allows quantification of adherence and quality of home-exercises: a validation study

A Novel Method for Measuring In-Shoe Navicular Drop during Gait

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