Your search keyword '"Kepa Iturralde"' showing total 1 results

1. A technology management system for the development of single-task construction robots

Author

Thomas Bock, Charlie Zhao, Julian Trummer, Wen Pan, Meysam Taghavi, Kepa Iturralde, Thomas Linner, Marcel Schlandt, and Rongbo Hu

Subjects

General Computer Science, Computer science, Process (engineering), 0211 other engineering and technologies, 02 engineering and technology, System model, 021105 building & construction, 0502 economics and business, Architecture, Construction robotics, Single-Task Construction Robots, Modular robotics, Affordable robots, Construction automa-tion, Systems engineering, Technology management, Structured systems analysis and design method, Civil and Structural Engineering, business.industry, 05 social sciences, Robotics, Building and Construction, Technology management, ddc, Control and Systems Engineering, Management system, Systems engineering, Robot, Artificial intelligence, business, 050203 business & management, Verification and validation

Abstract

Purpose Because of the sharply growing interest worldwide of “hard” physical-mechanical robot systems for the execution of on-site construction tasks [i.e. single-task construction robots (STCRs)], the purpose of this study is to equip development projects with a systematic design-management system model that allows to integrate the different needs and aims of stakeholders. Design/methodology/approach This paper proposes a STCR-technology management system (STCR-TMS) for the complete development cycle of STCR designs. The STCR-TMS is based on established principles from systems engineering and management and STCR-specific activities developed and tested by the authors as standalone elements in previous research work. Findings The application of the STCR-TMS revealed the practicability of the method and the underlying concepts to provide practical guidance for the development process. Additional findings indicate that the method is sufficiently generic and flexible for application to different types of robots and indifferent world regions. This research has also shown that key activities need to be addressed to increase the practicability of the STCR-TMS. Originality/value A unique characteristic of this method is the evolution with each utilization cycle. In addition, individual elements are interchangeable and can be adapted based on external circumstances. These properties allow the TMS to be applied to other fields in construction robotics. With the progression of the verification and validation of the method, know-how and certain elements can be fed into standardization activities (e.g. establishing a management system standard).