Reliability measurements of an augmented reality-based 4.0 system for supporting workmen in handmade assembly

The 4.0 paradigm has diffused across many sectors in a number of technological application fields, from industry to healthcare and constructions, and also to immaterial contexts, such as social events. The relevant enabling technologies of this paradigm are declined to adhere to the requirements of the specific field. Because 4.0 is often associated with technological advancement, in the literature, little attention has been dedicated to the adoption of 4.0 technologies in sectors that are not 'intrinsically technological'. Starting from these considerations, the goal of this work is to address the possibility of extending the 4.0 Era paradigm also to fields that, by definition, are not technology-oriented, such as the craft sector. In particular, as a case study, the adoption of augmented reality (AR) to administer instructions to a workman in the manual assembly of a product is addressed. In line with the 4.0 paradigm, a dedicated workman-centered, AR application was designed, implemented and tested. As a case study, the manual assembly of a mechanical clock was considered. After describing the design strategies and the implementation modalities, experimental tests were carried out to measure the reliability of the AR-based system.