Application of Axiomatic Design for the Design of a Safe Collaborative Human-Robot Assembly Workplace

Author:

Gualtieri Luca,Rauch Erwin,Rojas Rafael,Vidoni Renato,Matt Dominik T.

Abstract

In the context of the Industry 4.0 wave, which is currently making its way into production engineering research, human robot collaboration is also a very important topic. With new technologies and ever more intelligent control systems for machines and robots, the cooperation between human and machine has become easier. In the smart factory of the future, robots are working hand in hand with people and support them, when their assistance is needed. However, the implementation of such collaborative human-robot workplaces is not so easy in practice. The design of collaborative workplaces also presents completely new challenges in terms of safety of the worker. Such a complex problem requires a systematic and structured approach for concept design, in order to avoid loops in the design stage or even worse during implementation. The research team therefore uses a laboratory case study to show how Axiomatic Design can be used as a method to design collaborative human-robot workstations. First, functional requirements for such workplaces are defined. Based on the functional requirements, the design parameters are derived by using the Axiomatic Design mapping and decomposition process. The result is a concept study for a collaborative workplace in the laboratory environment based on Axiomatic Design.

Publisher

EDP Sciences

Subject

General Medicine

Reference20 articles.

1. Huber M., Rickert M., Knoll A., Brandt T., Glasauer S., Human-robot interaction in handing-over tasks, the 17th International Symposium on Robot and Human Interactive Communication, 1-3 August 2008, Munich, Germany, 107-112, IEEE, (2008).

2. ISO, Ts 15066: 2011, Robots and robotic devices-collaborative robots, Geneva, Switzerland: International Organization for Standardization, (2011).

3. Matthias B., Reisinger T., Example application of ISO/TS 15066 to a collaborative assembly scenario, the 47th International Symposium on Robotics (ISR), 21-22 June 2016, Munich, Germany, 1-5, VDE (2016).

4. Fantini P., Pinzone M., Taisch M., Placing the operator at the centre of Industry 4.0 design: Modelling and assessing human activities within cyber-physical systems, Computers & Industrial Engineering, (2018, in press).

5. Engineering insights from an anthropocentric cyber-physical system: A case study for an assembly station

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