Thomas Predki scite author profile

Thomas Predki

5Publications

21Citation Statements Received

47Citation Statements Given

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Affiliations

Linköping University, Ruhr University Bochum

Publications

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Snake‐like, tracked, mobile robot with active flippers for urban search‐and‐rescue tasks

Neumann

Predki²,

Heckes³

et al. 2013

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PurposeAfter a building collapse, people buried alive have to be localized and rescued. This requires the damage site's inspection and surveillance. These tasks are dangerous and challenging due to the area's hard‐to‐reach and hazardous environment. The damage site cannot be actively entered but must be inspected from a safe distance. In this context, mobile robots gain in importance as they can be operated semi‐autonomously or remote‐controlled without exposing the first responders to the risk. The purpose of this paper is to introduce a novel robot.Design/methodology/approachThe novel robot introduced in this paper has a snake‐like build‐up, uses tracks and active flippers for locomotion and negotiates completely structured as well as extremely unstructured and rough terrain. The system's slender, segmented and modular structure is actively articulated by the use of overall 30 degrees‐of‐freedom, which allow the robot's flexible adaptation to a given terrain. System‐terrain‐interaction is detected by the use of an innovative, RFID‐based sensory integrated in the system's tracks.FindingsThe paper presents the mobile robot's basic features, as well as first experimental results for semi‐autonomy and tele‐operation.Originality/valueThe introduced robot stands out due to its high locomotion and mobility capabilities.

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Study of efficiency of USAR operations with assistive technologies

et al. 2013

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This paper presents presents a study on e ciency of Urban Search and Rescue (USAR) missions that has been carried out within the framework of the German research project I-LOV. After three years of development, first field tests have been carried out in 2011 by professionals such as the Rapid Deployment Unit for Salvage Operations Abroad (SEEBA). We present results from evaluating search teams in simulated USAR scenarios equipped with newly developed technical search means and digital data input terminals developed in the I-LOV project. In particular, USAR missions assisted by the "bioradar", a ground-penetrating radar system for the detection of humanoid movements, a semi-active video probe of more than 10 m length for rubble pile exploration, a snake-like rescue robot, and the decision support system FRIEDAA were evaluated and compared with conventional USAR missions. Results of this evaluation indicate that the developed technologies represent an advantages for USAR missions, which are discussed in this paper.

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Controlled Maneuverability of an Articulated Tracked Mobile Robot

Labenda

Sadek

Predki

2010

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Considerable potentials with regard to mobility in unstructured environment offer actively articulated mobile robots equipped with powered wheels or tracks. These potentials are obvious when dealing with a system’s trafficability and terrainability. However, maneuverability and steerability of articulated mobile robots are challenging. This is due to the fact that these robots represent a form of truck-trailer systems leading to interactions and influences between the individual vehicles resulting in significant problems like e.g. off-tracking with regard to a given path. Further on, when dealing with a mobile robot’s maneuverability there are only few scientific contributions covering articulated vehicles with actively powered trailers using tracks as propulsive elements. The described systems differ significantly with regard to their configuration with respect to the multi-redundant mobile robot in this work. To investigate the maneuverability of articulated tracked mobile robots a demonstrator has been developed. It is built up out of three identical modules which are connected with each other in a rowby means of a rotational and a translational degree-of-freedom. Each module has two tracks which can be powered independently. Overall, the system has got ten degrees-of-freedom whereas six of them are active and four passive. The developed demonstrator has been used for investigations dealing with maneuverability and steerability as well as modularization of the system’s control architecture. The paper summarizes the development of the mobile robot, its feedback control strategy as well as the tests carried out. The achieved results show a satisfying performance with regard to the implemented control strategy and the system’s maneuverability.

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A wireless contact point sensor for tracked robots

Heckes

Predki

Labenda

2012

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Mobile robots offer significant potentials for inspection and surveillance of damage sites after building collapses in the course of a natural or manmade catastrophe. They can be operated semi-autonomously or remote controlled which decreases the danger of the first responders at place. Nevertheless the mentioned scenarios are mostly hard-to-reach and hazardous environments. Therefore mobile robots for the use in such areas have to possess outstanding locomotion and mobility capabilities. Those can be theoretically provided by snake-like robots which have a slender, segmented and modular structure. Furthermore the trafficability and terrainability can be improved by the use of tracks as propulsive elements. Though the use of tracks is best suited for unstructured terrain their design is challenging. This is especially due to the aspect of sensor integration for the detection of physical system-environment-interaction which is necessary for a better terrain adaptation. The paper at hand introduces and describes a new wireless contact sensor for contact point detection for the mobile robot MOEBHIU²S. It focuses on the design, the post integration into the tracks, the signal routing by using RFID technology and first results measured on a test rig.

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Traditional and project- and team-based education in mechatronic and robotic systems design

Labenda

Predki

Heckes

et al. 2012

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Thomas Predki

Snake‐like, tracked, mobile robot with active flippers for urban search‐and‐rescue tasks

Study of efficiency of USAR operations with assistive technologies

Controlled Maneuverability of an Articulated Tracked Mobile Robot

A wireless contact point sensor for tracked robots

Traditional and project- and team-based education in mechatronic and robotic systems design

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