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AGH University of Science and Technology, Krakow, Poland [email protected] 2 Doosan Babcock Energy Poland, Rybnik, Poland http://www.agh.edu.pl http://www.doosanbabcock.com/pl/

Abstract. This paper describes the implementation of the distributed INRED system running in a real industrial environment, with a set of intelligent tools and a workflow system. The INRED-Workflow system, being the key components of the INRED system, provides the infrastructure for process automation. Participants of the (service) processes, managed by INRED-Workflow, are controlled by the system and other process participants, such as quality managers and technologists, at every stage of the performed service procedures. All data gathered from the service processes is stored in the System Knowledge Repository (SKR) for further processing by using advanced algorithms. The INRED-Workflow system uses the so-called Smart Procedures, which allows easy implementation of newly defined algorithms based, among others, on machine learning.

Keywords: INRED models

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· Workflow · Smart Procedures · 3D device

Introduction

Maintaining highly technically advanced machinery and equipment in proper condition requires the increasingly broader specialist knowledge in the field. Such knowledge, which is indispensable to both satisfy the binding, rigorous technical standards and to ensure the safety of employees performing their duties in a limited time, often in an environment dangerous to life and health, is incorporated into the developed proprietary INRED system (see Sect. 1.1). The system integrates copyrighted and innovative solutions that use, among others, augmented This work was supported by the European Regional Development Fund under the Innovative Economy Operational Programme, POIR.01.01.01-00-0170/17. c Springer Nature Switzerland AG 2020  A. Dziech et al. (Eds.): MCSS 2020, CCIS 1284, pp. 182–195, 2020. https://doi.org/10.1007/978-3-030-59000-0_14

Work Flow Management System with Automatic Correction

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reality to visualize renovation objects in 3D space and support employees during complex repairs and renovation procedures. In this paper we describe the implementation of the sophisticated system to control highly complicated repair and service processes. The main objective of this system is to improve the quality of services by ensuring their proper execution, continuous surveillance and reporting their accomplishment. To this end, the systems allows each service procedure to be defined as a workflow process. The assistance of the system relies on delivering a detailed description of the tasks to be performed and technical documentation (pictures, technical drawings, 3D models with animation, movies, and parameter values). Moreover, the system automates some activities, such as measurements control and decision-making. Each serviceman is equipped with a mobile terminal or augmented reality (AR) glasses, camera and BlueTooth communication devices. These tools allows to automatically control the settings of devices from the procedure level, send t

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