Florian Schmidt scite author profile

-Research on humanoid robots for use in servicing tasks, e.g. fetching and delivery, attracts steadily more interest. With Rollin' Justin a mobile robotic system and research platform is presented that allows the implementation and demonstration of sophisticated control algorithms and dexterous manipulation. Important problems of service robotics such as mobile manipulation and strategies for using the increased workspace and redundancy in manipulation task can be studied in detail. This paper gives an overview of the design considerations for a mobile platform and their realizations to transform the formerly table-mounted humanoid upper body system Justin into Rollin' Justin, a fully self-sustaining mobile research platform.

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Catching flying balls and preparing coffee: Humanoid Rollin'Justin performs dynamic and sensitive tasks

Bäuml¹,

Schmidt²,

Wimböck³

et al. 2011

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Abstract-The mobile humanoid Rollin'Justin is a versatile experimental platform for research in manipulation tasks. Previously, different state of the art control methods and first autonomous task execution scenarios have been demonstrated. In this video two new applications with challenging task requirements are presented. One is the catching of one or even two flying balls using all of Justin's degrees of freedom. The other is the autonomous preparation of coffee. Both applications need adequate sensors to support local referencing. The required precision in position and timing is realized in software, using the sensor information, taking the varying precision of Justin's kinematic sub-chains into account and handling all timings in sub-millisecond range.

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CLASH: Compliant Low Cost Antagonistic Servo Hands

Friedl

Höppner

Schmidt

et al. 2018

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This paper presents the first two members of the new generation of CLASH hands, which exploit low cost actuation and rapid prototyping to create antagonistic modular and lightweight hands and grippers. The hands approach the robustness of the DLR Awiwi hand with a much lower complexity and cost. To reduce the number of required actuators, a differential coupling mechanism for underactuated fingers was developed, along with a new mechanism that uses variable stiffness actuation in order to increase the workspace of underactuated fingers. The hands provide a research platform for both hand-in-hand and robotic grasping. Design aspects are discussed, and an initial experimental validation verifies the hands' performance.

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Making planned paths look more human-like in humanoid robot manipulation planning

Zacharias

Schlette

Schmidt

et al. 2011

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Florian Schmidt

Rollin' Justin - Mobile platform with variable base

Rollin' Justin - Design considerations and realization of a mobile platform for a humanoid upper body

Catching flying balls and preparing coffee: Humanoid Rollin'Justin performs dynamic and sensitive tasks

CLASH: Compliant Low Cost Antagonistic Servo Hands

Making planned paths look more human-like in humanoid robot manipulation planning

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