Online classification of visual tasks for industrial workflow monitoring
Online classification of visual tasks for industrial workflow monitoring
Modelling and classification of time series stemming from visual workflows is a very challenging problem due to the inherent complexity of the activity patterns involved and the difficulty in tracking moving targets. In this paper, we propose a framework for classification of visual tasks in industrial environments. We propose a novel method to automatically segment the input stream and to classify the resulting segments using prior knowledge and hidden Markov models (HMMs), combined through a genetic algorithm. We compare this method to an echo state network (ESN) approach, which is appropriate for general-purpose time-series classification. In addition, we explore the applicability of several fusion schemes for multicamera configuration in order to mitigate the problem of limited visibility and occlusions. The performance of the suggested approaches is evaluated on real-world visual behaviour scenarios.
Voulodimos, Athanasios
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Kosmopoulos, Dimitrios
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Veres, Galina
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Grabner, Helmut
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Van Gool, Luc
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Varvarigou, Theodora
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Voulodimos, Athanasios
b513a3e4-6c74-4d11-b154-5da051ec876d
Kosmopoulos, Dimitrios
179a0921-6f4e-4585-8c53-f0bf8e0acb61
Veres, Galina
3c2a37d2-3904-43ce-b0cf-006f62b87337
Grabner, Helmut
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Van Gool, Luc
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Varvarigou, Theodora
d2c70b85-1140-47a5-a6ef-7ae597bf9d25
Voulodimos, Athanasios, Kosmopoulos, Dimitrios, Veres, Galina, Grabner, Helmut, Van Gool, Luc and Varvarigou, Theodora
(2011)
Online classification of visual tasks for industrial workflow monitoring.
Neural Networks.
(In Press)
Abstract
Modelling and classification of time series stemming from visual workflows is a very challenging problem due to the inherent complexity of the activity patterns involved and the difficulty in tracking moving targets. In this paper, we propose a framework for classification of visual tasks in industrial environments. We propose a novel method to automatically segment the input stream and to classify the resulting segments using prior knowledge and hidden Markov models (HMMs), combined through a genetic algorithm. We compare this method to an echo state network (ESN) approach, which is appropriate for general-purpose time-series classification. In addition, we explore the applicability of several fusion schemes for multicamera configuration in order to mitigate the problem of limited visibility and occlusions. The performance of the suggested approaches is evaluated on real-world visual behaviour scenarios.
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Accepted/In Press date: 2011
Organisations:
Electronics & Computer Science, IT Innovation
Identifiers
Local EPrints ID: 272610
URI: http://eprints.soton.ac.uk/id/eprint/272610
PURE UUID: 2eb48c53-5a77-49e7-8776-7efe63542428
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Date deposited: 01 Aug 2011 13:02
Last modified: 14 Mar 2024 10:05
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Contributors
Author:
Athanasios Voulodimos
Author:
Dimitrios Kosmopoulos
Author:
Galina Veres
Author:
Helmut Grabner
Author:
Luc Van Gool
Author:
Theodora Varvarigou
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