The contribution examines the acceptance of Augmented Reality (AR) in assembly scenarios by a model-based approach for acceptance evaluation. After a critical literature research and analysis, a proprietary model for acceptance measurement is developed, which includes and synthesizes previous models and simplifies them considerably for the purpose of industrial assembly. Consequently, a structural model is derived which is based on the basic concepts of the Unified Theory of Acceptance and Use of Technology (UTAUT) and Technology Acceptance Model (TAM). This is built up as a path model to explain user acceptance. Following, a laboratory experiment is set up to collect data. At the final assembly workstation of the FHWS c-Factory the study participants assemble a toy truck once without and once with AR support. The c-Factory is a concept factory for smart production in an IoT environment. Afterwards, relevant data are collected by means of a survey. The evaluation shows that the acceptance of AR is given and the model is resilient. The results show also, that AR is accepted by the participants supporting their work.

该文稿通过基于模型的验收评估方法来检验装配场景中增强现实（AR）的接受程度。经过大量的文献研究和分析，得出了一种专有的验收测量模型，该模型包括并综合了以前的模型，并为工业装配目的大大简化了它们。因此，基于统一的技术接受与使用理论（UTAUT）和技术接受模型（TAM）的基本概念，得出了一个结构模型。它被构建为解释用户接受度的路径模型。接下来，进行实验室实验以收集数据。在FHWS c工厂的最终组装工作站上，研究参与者在没有AR支持的情况下组装了一次玩具卡车。c工厂是物联网环境中智能生产的概念工厂。之后，通过调查收集相关数据。评估表明，已经接受了AR，并且该模型具有弹性。结果还表明，AR被支持其工作的参与者接受。