Modeling of Complex Human-Process Interaction as Framework for Assistance and Supervisory Control of Technical Processes

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Abstract

Interactive processes are omnipresent in fields dealing with automation of complex technical processes, allowing a wide range of application scenarios of assistance systems to support human operators. However, the definition and description of the interaction strongly depends on the application. The description of Human-Process-Interaction HPI in most cases is the key for the development of interaction models leading to a framework for the development of assistance systems. The goal of such assistance systems is to support human operators, or human factors, and thereby improve the considered process in parallel. For the purpose of creating a framework for the development of assistance systems, the Situation-Operator-Model SOM approach is applied. The SOM approach is capable of modeling HPI in a net-like structure representing the complex environment or process and human interactions. By this formal modeling of HPI for the development of human-centered assistance systems based on the underlying modeled interaction is available. In this contribution illustrative examples of different applications for the proposed approach are given by a cognitive, individualized driver assistance system for lane changing maneuvers, by the assessment of operator decisions in air traffic control as well as the operator supervision in semi-automated production process.