Oskar Baumann scite author profile

Oskar Baumann

5Publications

9Citation Statements Received

18Citation Statements Given

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Technical University of Munich

Publications

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Mobile service robots for the operating room wing: balancing cost and performance by optimizing robotic fleet size and composition

et al. 2022

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Purpose Integrating fleets of mobile service robots into the operating room wing (OR wing) has the potential to help overcome staff shortages and reduce the amount of dull or unhealthy tasks for humans. However, the OR wing has been little studied in this regard and the requirements for realizing this vision have not yet been fully identified. This includes fundamental aspects such as fleet size and composition, which we have now studied comprehensively for the first time. Methods Using simulation, 150 different scenarios with varying fleet compositions, robot speeds and workloads were studied for a setup based on a real-life OR wing. The simulation included battery recharging cycles and queueing due to shared resources. Results For all simulated scenarios we report results regarding total duration of execution, average task response times and fleet utilization. The relationship between these performance measures and global scenario parameters—such as fleet size, fleet composition, robot velocity and the number of operating rooms to be served—is visualized. Conclusion Our simulation-based studies have proven to be a valuable tool for individualized dimensioning of mobile robotic fleets, based on realistic workflows and environmental models. Thereby, important implications for future developments of mobile robots have been identified and a basis of decision-making regarding fleet size, fleet composition, robot capabilities and robot velocities can be provided. Due to costs, space limitations and safety requirements, these aspects must be carefully considered to successfully integrate mobile robotic technology into real-world OR wing environments.

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Five-Year Breeding Data, Immunology, and Tumor Take Rates of an NMRI Nude Mouse Colony

Spruβ¹,

Schlemmer²,

Bernhardt³

et al. 1996

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Fernando Póo und die Bube

Baumann¹

1888

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Florenzonen (63).-Hooker's Sätze über die Flora von Fernando Poo (65).-Die Fauna (66).-Reichthum an kleinen Säugethieren (67).-Vögel, Reptilien, Fische und wirbellose Thiere (67-70).-Vortheile einer wissenschaftlichen Durchforschung der vulkanischen Guinealänder (71) .... 50-71 Y. CÄPITEIx. Abstammung der Bube (72).-Vertheilung der Stämme (75).-Zahl der Bube (77).-Sprachhches (77).-Psychische Eigenschaften (77).-Krankheiten (80).-Kleidung und Schmuck (80).-Narbenverzierung (82).-Wohnungen (84). Jagd, Fischerei (87).-Hausthiere (88).-Ackerbau (89).-Nur Culturpflanzen der alten Welt bekannt (89).-Bereitung der Speisen (92).-Rumgenuss (92).-Hausgeräthe .... 72-9-1 YI. CAPITEL.

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Intuitive teaching of medical device operation to clinical assistance robots

et al. 2022

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Purpose: The adjustment of medical devices in the operating room is currently done by the circulating nurses. As digital interfaces for the devices are not foreseeable in the near future and to incorporate legacy devices, the robotic operation of medical devices is an open topic. Methods: We propose a teleoperated learning from demonstration process to acquire the high-level device functionality with given motion primitives. The proposed system is validated using an insufflator as an exemplary medical device. Results: At the beginning of the proposed learning period, the teacher annotates the user interface to obtain the outline of the medical device. During the demonstrated interactions, the system observes the state change of the device to generalize logical rules describing the internal functionality. The combination of the internal logics with the interface annotations enable the robotic system to adjust the medical device autonomously. To interact with the device, a robotic manipulator with a finger-like end-effector is used while relying on haptic feedback from torque sensors. Conclusion: The proposed approach is a first step towards teaching a robotic system to operate medical devices. We aim at validating the system in an extensive user study with clinical personnel. The logical rule generalization and the logical rule inference based on computer vision methods will be focused in the future.

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Die Knickung der Eisenbeton-Säulen

Baumann¹

1935

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Oskar Baumann

Mobile service robots for the operating room wing: balancing cost and performance by optimizing robotic fleet size and composition

Five-Year Breeding Data, Immunology, and Tumor Take Rates of an NMRI Nude Mouse Colony

Fernando Póo und die Bube

Intuitive teaching of medical device operation to clinical assistance robots

Die Knickung der Eisenbeton-Säulen

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