2012 IEEE/RSJ International Conference on Intelligent Robots and Systems 2012
DOI: 10.1109/iros.2012.6385727
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Towards robust personal assistant robots: Experience gained in the SRS project

Abstract: SRS is a European research project for building robust personal assistant robots using ROS (Robotic Operating System) and Care-O-bot (COB) 3 as the initial demonstration platform. In this paper, experience gained while building the SRS system is presented. A main contribution of the paper is the SRS autonomous control framework. The framework is divided into two parts. First, it has an automatic task planner, which initialises actions on the symbolic level. The planner produces proactive robotic behaviours bas… Show more

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Cited by 21 publications
(11 citation statements)
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“…• An underlying control architecture that allows recognition of robot failure states and smooth handover of control between robot and human remote operators [5] • System-assisted, semi-autonomous telemanipulation with offline trajectory execution and editing of 3D collision maps by the user for high controllability of the telemanipulation result yet safe, collision-free operation • Remote navigation with several control modes of different autonomy, with and without collision avoidance • An ecological visualization approach that integrates data from various sensors as well as other data like a robot model and collision indicators into a single 3D representation of the remote environment [16] • Visualization of colored point clouds enhanced by global 3D environment mapping [16,45] with a freely adjustable viewpoint for high situation awareness • Reliance on low-cost interaction devices in form of a standard mouse for viewpoint adjustments and a 3D mouse for precise and intuitive 6-DOF gripper positioning and 3-DOF robot navigation • Avoidance of the need for human compensation of displaycontrol misalignment by the ability to control robot and gripper in the coordinate system of the remote operator's chosen viewpoint on the 3D scene • Optional stereoscopic display mode using contemporary active shutter technology While most of these approaches have been used previously in an isolated form in various domains (e.g., [3,4,6,22,27,29,32,[36][37][38][39]46]), our user interface integrates them into a coherent experience, highly focused on real-world applications.…”
Section: Innovations Of the Evaluated User Interfacementioning
confidence: 99%
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“…• An underlying control architecture that allows recognition of robot failure states and smooth handover of control between robot and human remote operators [5] • System-assisted, semi-autonomous telemanipulation with offline trajectory execution and editing of 3D collision maps by the user for high controllability of the telemanipulation result yet safe, collision-free operation • Remote navigation with several control modes of different autonomy, with and without collision avoidance • An ecological visualization approach that integrates data from various sensors as well as other data like a robot model and collision indicators into a single 3D representation of the remote environment [16] • Visualization of colored point clouds enhanced by global 3D environment mapping [16,45] with a freely adjustable viewpoint for high situation awareness • Reliance on low-cost interaction devices in form of a standard mouse for viewpoint adjustments and a 3D mouse for precise and intuitive 6-DOF gripper positioning and 3-DOF robot navigation • Avoidance of the need for human compensation of displaycontrol misalignment by the ability to control robot and gripper in the coordinate system of the remote operator's chosen viewpoint on the 3D scene • Optional stereoscopic display mode using contemporary active shutter technology While most of these approaches have been used previously in an isolated form in various domains (e.g., [3,4,6,22,27,29,32,[36][37][38][39]46]), our user interface integrates them into a coherent experience, highly focused on real-world applications.…”
Section: Innovations Of the Evaluated User Interfacementioning
confidence: 99%
“…2. Its foundation is a control architecture that enables the robot to recognize failure states, contact human remote operators for assistance, and reassume control afterwards [5]. Local elderly people are equipped with a portable, smartphone- User interface concept with three user groups: elderly people at home, remote relatives, and professional teleassistants sized multi-touch device so the robot can be commanded from any position in the apartment.…”
Section: Overall Usage Conceptmentioning
confidence: 99%
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“…In terms of the difficulties experienced by the elderly, standing up and sitting down rank in the top three on the list of the most expected homecare assistances [22]. Therefore, an assistive chair that will assist the elderly in need is in demand, and could possibly delay age-related impairment and further change their lifestyle to reduce the risk of potential diseases.…”
Section: Sedentry Lifestylementioning
confidence: 99%
“…One of the promising applications is a robot which lives with and takes care of the elderly. Such an assistive robot usually has mobility, object recognition and manipulation skills, and interaction abilities, and assists residents in various ways (e.g., [2], [3], [4], [5]). These works mainly focus on robot operations and human robot interaction.…”
Section: Introductionmentioning
confidence: 99%