Markus Klotzbücher scite author profile

Markus Klotzbücher

5Publications

76Citation Statements Received

36Citation Statements Given

How they've been cited

165

How they cite others

Affiliations

KU Leuven

Publications

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Bayesian time-series models for continuous fault detection and recognition in industrial robotic tasks

Lello

Klotzbücher

Laet

et al. 2013

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This paper presents the application of a Bayesian nonparametric time-series model to process monitoring and fault classification for industrial robotic tasks. By means of an alignment task performed with a real robot, we show how the proposed approach allows to learn a set of sensor signature models encoding the spatial and temporal correlations among wrench measurements recorded during a number of successful task executions. Using these models, it is possible to detect continuously and on-line deviations from the expected sensor readings. Separate models are learned for a set of possible error scenarios involving a human modifying the workspace configuration. These non-nominal task executions are correctly detected and classified with an on-line algorithm, which opens the possibility for the development of error-specific recovery strategies. Our work is complementary to previous approaches in robotics, where process monitors based on probabilistic models, but limited to contact events, were developed for control purposes. Instead, in this paper we focus on capturing dynamic models of sensor signatures throughout the whole task, therefore allowing continuous monitoring and extending the system ability to interpret and react to errors.

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Reusable hybrid force-velocity controlled motion specifications with executable Domain Specific Languages

Klotzbücher

Smits

Bruyninckx

et al. 2011

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The BRICS component model

Bruyninckx

Klotzbücher

Hochgeschwender

et al. 2013

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Because robotic systems get more complex all the time, developers around the world have, during the last decade, created component-based software frameworks (Orocos, Open-RTM, ROS, OPRoS, SmartSoft) to support the development and reuse of "large grained" pieces of robotics software. This paper introduces the BRICS Component Model (BCM) to provide robotics developers with a set of guidelines, metamodels and tools for structuring as much as possible the development of, both, individual components and componentbased architectures, using one or more of the aforementioned software frameworks at the same time, without introducing any framework-or application-specific details. The BCM is built upon two complementary paradigms: the "5Cs" (separation of concerns between the development aspects of Computation, Communication, Coordination, Configuration and Composition) and the meta-modeling approach from Model-Driven Engineering.

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A Lightweight, Composable Metamodelling Language for Specification and Validation of Internal Domain Specific Languages

Klotzbücher

Bruyninckx

2013

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Service Component Architectures in Robotics: The SCA-Orocos Integration

Brugali

Gherardi

Klotzbücher

et al. 2012

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