@inproceedings{4323, abstract = {{The latest generation of head-mounted displays such as HoloLens pro- vide mixed reality capabilities that claim to better integrate the real and virtual worlds. In this paper, we would like the share our experiences in implementing a user interface for an assembly assistance system using the HoloLens. We carried out a preliminary evaluation of the applicability of mixed reality using the per- spective of developers and expert users in an assembly scenario that allows us to operate and compare two interfaces - a state-of-the-art projector display system and the HoloLens. We believe our findings may contribute towards a better un- derstanding of the effects of new display technologies such as the HoloLens in developing and using assistance systems in other fields as well. Areas that may be of future research are also highlighted.}}, author = {{Dhiman, Hitesh and Martinez, Sascha and Paelke, Volker and Röcker, Carsten}}, booktitle = {{HCI in Business, Government, and Organizations}}, editor = {{Fui-Hoon Nah, Fiona and Sophia Xiao, Bo}}, isbn = {{978-3-319-91715-3}}, keywords = {{Human machine interaction, Assembly assistance system, Qualitative study, HoloLens}}, location = {{Las Vegas, NV, USA}}, pages = {{67--78}}, publisher = {{Springer}}, title = {{{Head-Mounted Displays in Industrial AR-Applications: Ready for Prime Time?}}}, doi = {{10.1007/978-3-319-91716-0_6}}, volume = {{10923}}, year = {{2018}}, } @inproceedings{557, abstract = {{Current processes for designing manual assembly workstations do not consider the need for employee-appropriate, product-specific and operating resources-specific factors. A systematic design tool would help to minimize cycle times, increase productivity and improve ergonomic criteria. Therefore, a literature research concerning workplace design for manual assembly was conducted. Additionally, a guided Interview and a questionnaire were developed and approached on the trade show “Motek” with 14 participants.The study shows evidence for the assumption that there is no systematic approach todesigning manual assembly workstations.}}, author = {{Gote, Henning and Glatzel, Thomas}}, booktitle = {{Production Engineering and Management}}, editor = {{Villmer, Franz-Josef and Padoano, Elio}}, isbn = {{978-3-946856-03-0}}, keywords = {{Manual assembly, Workplace design, Ergonomic workstations, SME}}, location = {{Lemgo}}, number = {{1}}, pages = {{137--148}}, title = {{{Empirical Study of Workplace Design of Manual Assembly Workstations in SME}}}, year = {{2018}}, } @inproceedings{265, abstract = {{The maintenance of a tool for injection molding or forming is usually accompanied by its disassembly and assembly. The duration of the assembly activities is often a large part of the total activity time for the maintenance of the tool. The degree of performance of the employees in the execution of these disassembly and assembly activities is often low. In addition, allowances occur (e.g. searching for work equipment). At the Industrial Engineering Lab of the Ostwestfalen-Lippe University of Applied Sciences, a prototype of an assistance system was developed to support the assembly activities in toolmaking. With the help of this system, the operator is guided step by step through the assembly process. The economic potential of the system exists in the reduction of training times, the avoidance of assembly errors and the increase of labor productivity.}}, author = {{Hinrichsen, Sven and Riediger, Daniel and Unrau, Alexander}}, booktitle = {{2017 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM)}}, isbn = {{978-1-5386-0948-4 }}, keywords = {{injection moulding, machine tools, maintenance engineering, productivity, projection-based assistance system, injection molding tools, assembly activities, assembly process, assembly errors, tool maintenance, disassembly activities, economic potential, Industrial Engineering Lab, Ostwestfalen-Lippe University of Applied Sciences, toolmaking, Tools, Injection molding, Maintenance engineering, Usability, Task analysis, Workstations, Morphology, assembly assistance systems, assistance systems, maintenance of injection molding tools, manual assembly}}, location = {{Singapore}}, number = {{1}}, pages = {{1571--1575}}, title = {{{Development of a Projection-Based Assistance System for Maintaining Injection Molding Tools}}}, doi = {{https://doi.org/10.1109/IEEM.2017.8290157}}, year = {{2017}}, } @inbook{4302, abstract = {{In this paper we present smARt.assembly – a projection-based augmented reality (AR) assembly assistance system for industrial applications. Our system projects digital guidance information in terms of picking information and assembly data into the physical workspace of a user. By using projections, we eliminate the use of smart glasses that have drawbacks such as a limited field of view or low wearing comfort. With smARt.assembly, users are able to assemble products without previous knowledge and without any other assistance.}}, author = {{Sand, Oliver and Büttner, Sebastian and Paelke, Volker and Röcker, Carsten}}, booktitle = {{18th International Conference on Human-Computer Interaction (HCII '16)}}, editor = {{Lackey, Stefanie and Shumaker, Randall}}, isbn = {{978-3-319-39906-5}}, keywords = {{Augmented reality, Projection, Assembly work, Manual assembly}}, location = {{Toronto, Canada}}, pages = {{643--652}}, publisher = {{Springer}}, title = {{{smARt.Assembly: Projection-Based Augmented Reality for Supporting Assembly Workers}}}, doi = {{10.1007/978-3-319-39907-2_61}}, volume = {{9740}}, year = {{2016}}, } @inproceedings{584, abstract = {{Due to the continuing trend towards more complexity of products with an increasing number of variants and smaller lot sizes, the assembly often takes place -despite relatively high labor costs in Western industrialized nations -manually or partially automated. An outsourcing or relocation of assembly function abroad is not suitable in most cases.Therefore, it is increasingly important to reduce process variations and waste in manual assembly processes. Assistance systems have the potential, depending on the situation, to assist the worker in his work, to reduce error rate and to increase productivity. In a first part of the paper an overview will be given to different types of assembly assistance systems. Then a morphological chart is developed, which can provide assistance in selecting or comparing assembly assistance systems. With the help of this chart an assembly assistant system is presented. Finally a quick look is taken at further research being done in this area.}}, author = {{Hinrichsen, Sven and Riediger, Daniel and Unrau, Alexander}}, booktitle = {{Production Engineering and Management}}, editor = {{Villmer, Franz-Josef and Padoano, Elio}}, isbn = {{978-3-946856-00-9}}, keywords = {{Assistance systems, Manual assembly, Morphology}}, location = {{Lemgo}}, number = {{01}}, pages = {{3--14}}, title = {{{Assistance Systems in Manual Assembly}}}, year = {{2016}}, } @inproceedings{665, abstract = {{The requirements of assembly systems are changing, due to trends such as shorter innovation and product lifecycles as well as an increase in the number of product variants and product customization. Certain markets are characterized by demand volatility and short delivery schedules. As a result of shortened product and innovation lifecycles and demand volatility, the assembly system design should be versatile. The aim of this paper is to demonstrate a versatile assembly system which was jointly developed by the Fraunhofer IOSB-INA and the Ostwestfalen-Lippe University of Applied Sciences. }}, author = {{Hinrichsen, Sven and Jasperneite, Jürgen and Schrader, Florian and Lücke, Benedikt}}, booktitle = {{Production Engineering and Management}}, editor = {{Villmer, Franz-Josef and Padoano, Elio}}, keywords = {{Assembly System, Versatility, Modularity}}, location = {{Lemgo}}, number = {{10}}, pages = {{37--45}}, publisher = {{Hochschule Ostwestfalen-Lippe}}, title = {{{Versatile Assembly Systems - Requirements, Design Principles and Examples}}}, year = {{2014}}, }