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Oliver Riedel
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2020 – today
- 2024
- [c38]Marc Ungen, Elias Huber, David Kampert, Oliver Riedel:
Assembly procedure generation for reconfigurable robot cells considering operation concurrency and geometrical constraints. CASE 2024: 981-987 - [c37]Samed Ajdinovic, Matthias Milan Strljic, Armin Lechler, Oliver Riedel:
Interoperable Digital Product Passports: An Event-Based Approach to Aggregate Production Data to Improve Sustainability and Transparency in the Manufacturing Industry. SII 2024: 729-734 - 2023
- [j4]Adrian Barwasser, Joachim Lentes, Oliver Riedel, Nikolas Zimmermann, Manfred Dangelmaier, Jingyi Zhang:
Method for the development of Software-Defined Manufacturing equipment. Int. J. Prod. Res. 61(19): 6467-6484 (2023) - [c36]Moritz Walker, Christian von Arnim, Michael Neubauer, Armin Lechler, Oliver Riedel, Alexander Verl:
Reflection-based Prototyping Framework for OPC UA Servers for Companion Specifications. ICIT 2023: 1-6 - [c35]Christian von Arnim, Moritz Walker, Armin Lechler, Oliver Riedel, Alexander Verl:
Isolating Shared Resources for Time-Triggered Networking of Containerized Applications. M2VIP 2023: 1-6 - 2022
- [j3]Chiara Cimini, Alexandra Lagorio, Sergio Cavalieri, Oliver Riedel, Carlos Eduardo Pereira, Jason Wang:
Human-technology integration in smart manufacturing and logistics: current trends and future research directions. Comput. Ind. Eng. 169: 108261 (2022) - [c34]Christian von Arnim, Gernot Gessner, Michael Jarwitz, Armin Lechler, Oliver Riedel:
Updating the Linux TAPRIO Scheduler in Deterministic Time. ETFA 2022: 1-7 - [c33]Shan Fur, Nicolas Delonge, Oliver Riedel, Alexander Verl:
Hybrid Commissioning of Industrial Plants: A Merge-Tool for PROFINET. ETFA 2022: 1-7 - [c32]Tonja Heinemann, Marwin Gihr, Oliver Riedel, Armin Lechler:
Towards Data-driven Production: Analysis of Data Models Describing Machinery Jobs in OPC UA. ICINCO 2022: 729-736 - [c31]Erik-Felix Tinsel, Oliver Riedel:
A Virtual Assistant System for the Requirements Elicitation and Initial Simulation Model Variant Generation of Modular Industrial Plants. M2VIP 2022: 1-4 - [c30]Marc Fischer, Oliver Riedel, Armin Lechler:
Comprehensive Analysis of Software-Based Fault Tolerance with Arithmetic Coding for Performant Encoding of Integer Calculations. SAFECOMP 2022: 144-157 - 2021
- [j2]Dominik Schopper, Karl Kübler, Stephan Rudolph, Oliver Riedel:
EIPPM - The Executable Integrative Product-Production Model. Comput. 10(6): 72 (2021) - [j1]Alexander Schmidt, Florian Schellroth, Marc Fischer, Lukas Allimant, Oliver Riedel:
Reinforcement learning methods based on GPU accelerated industrial control hardware. Neural Comput. Appl. 33(18): 12191-12207 (2021) - [c29]Alexander Schmidt, Christian Kotschote, Oliver Riedel:
Supervised learning based observer for in-process tool offset estimation in robotic arc welding applications. CASE 2021: 1991-1996 - [c28]Marc Fischer, Oliver Riedel, Armin Lechler, Alexander Verl:
Arithmetic Coding for Floating-Point Numbers. DSC 2021: 1-8 - [c27]Shan Fur, Oliver Riedel, Alexander Verl:
Hybrid Commissioning of Production Plants. ETFA 2021: 1-6 - [c26]Carsten Ellwein, Viktor Krimstein, Oliver Riedel:
Ambiguity Tolerant Commissioning Ontology: Targeting Client Communication. ICE/ITMC 2021: 1-9 - [c25]Sebastian Friedl, Tonja Heinemann, Armin Lechler, Oliver Riedel:
Implicit Templates for Conformance Units in OPC UA Companion Specifications. ICIT 2021: 730-735 - [c24]Christian von Arnim, Armin Lechler, Oliver Riedel:
Operations for non-disruptive modification of real-time network schedules. ICIT 2021: 1131-1137 - [c23]Matthias Milan Strljic, Eric Prokop, Sebastian Saueressig, Oliver Riedel:
Resulting Artifacts and Application Scenarios of the Communication Intermediate Layer SFCS With A Focus on Usability for the Automation Industry. ICKII 2021: 38-43 - [c22]Alexander Schmidt, Christian Kotschote, Oliver Riedel:
In-Process Workpiece Geometry Estimation for Robotic Arc Welding based on Supervised Learning for Multi-Sensor Inputs. ICRA 2021: 722-728 - [c21]Marc Fischer, Oliver Riedel, Armin Lechler:
Arithmetic Coding for Floating-Points and Elementary Mathematical Functions. ICSRS 2021: 270-275 - [c20]Adrian Henrich, Tobias Schultze, Anette Weisbecker, Oliver Riedel:
Integrating a Teaching Concept for the Use of Virtual Reality in University Teaching. iLRN 2021: 1-8 - 2020
- [c19]Ralf Gulde, Marc Tuscher, Akos Csiszar, Oliver Riedel, Alexander Verl:
Deep Reinforcement Learning using Cyclical Learning Rates. AI4I 2020: 32-35 - [c18]Alexander Schmidt, Florian Schellroth, Oliver Riedel:
Control architecture for embedding reinforcement learning frameworks on industrial control hardware. APPIS 2020: 14:1-14:6 - [c17]Christian von Arnim, Mihai Dragan, Florian Frick, Armin Lechler, Oliver Riedel, Alexander Verl:
TSN-based Converged Industrial Networks: Evolutionary Steps and Migration Paths. ETFA 2020: 294-301 - [c16]Matthias Milan Strljic, Chris Vollmann, Oliver Riedel:
Shop-Floor Service Connector - a message-oriented Middleware Focused on the Usability and Infrastructure Requirements of SMEs Developing Smart Services. ICKII 2020: 37-40 - [c15]Julia Sawodny, Oliver Riedel, Toru Namerikawa:
Detection of Attacks in Smart Grids via Extended Kalman Filter and Correlation Analysis. SICE 2020: 663-669 - [i2]Ralf Gulde, Marc Tuscher, Akos Csiszar, Oliver Riedel, Alexander Verl:
Reinforcement Learning Approach to Vibration Compensation for Dynamic Feed Drive Systems. CoRR abs/2004.09263 (2020) - [i1]Ralf Gulde, Marc Tuscher, Akos Csiszar, Oliver Riedel, Alexander Verl:
Deep Reinforcement Learning using Cyclical Learning Rates. CoRR abs/2008.01171 (2020)
2010 – 2019
- 2019
- [c14]Ralf Gulde, Marc Tuscher, Akos Csiszar, Oliver Riedel, Alexander Verl:
Reinforcement Learning Approach to Vibration Compensation for Dynamic Feed Drive Systems. AI4I 2019: 26-29 - [c13]Manuel Dixken, Daniel Diers, Benjamin Wingert, Adamantini Hatzipanayioti, Betty J. Mohler, Oliver Riedel, Matthias Bues:
Distributed, Collaborative Virtual Reality Application for Product Development with Simple Avatar Calibration Method. VR 2019: 1299-1300 - [c12]Matthias Milan Strljic, Oliver Riedel, Armin Lechler:
Collective Cloud Manufacturing for Maintaining Diversity in Production through Digital Transformation. CBI (1) 2019: 594-603 - 2018
- [c11]Carsten Ellwein, Oliver Riedel, Olga Meyer, Daniel Schel:
Rent'n'Produce: A Secure Cloud Manufacturing Platform for Small and Medium Enterprises. ICE/ITMC 2018: 1-6 - [c10]Matthias Milan Strljic, Daniella Brovkina, Tobias Korb, Oliver Riedel, Armin Lechler:
Platform architecture concept for the composition of collective cloud manufacturing*. M2VIP 2018: 1-6 - [c9]Matthias Bues, Benjamin Wingert, Oliver Riedel:
VD1: a technical approach to a hybrid 2D and 3D desktop environment. SEARIS 2018: 1-7 - [c8]Oliver Riedel:
25 Years of VR in Industry: Pioneers, Enablers, Applications - and Some Vintage Metal. VR 2018: 1 - 2017
- [c7]Karl Kübler, Alexander Verl, Oliver Riedel, Michael Oberle:
Simulation-assisted run-to-run control for battery manufacturing in a cloud environment. M2VIP 2017: 1-6 - [c6]Stefan Scheifele, Oliver Riedel, Günter Pritschow:
Engineering of machine tools and manufacturing systems using cyber-physical systems. WSC 2017: 1503-1514
2000 – 2009
- 2001
- [c5]Dirk Rantzau, Franz Maurer, C. Mayer, R. Löffler, Oliver Riedel, Holger René Scharm, D. Banek:
The integration of immersive Virtual Reality applications into Catia V5. EGVE/IPT 2001: 93-102
1990 – 1999
- 1998
- [b1]Oliver Riedel:
3D-Echtzeit-Rendering unter Berücksichtigung der Anatomie und Physiologie des menschlichen Auges: mit 26 Tabellen. University of Stuttgart, Germany, Springer 1998, ISBN 978-3-540-64272-5, pp. 1-191 - 1997
- [c4]Joachim Deisinger, Carolina Cruz-Neira, Oliver Riedel, Jürgen Symanzik:
The Effect of Different Viewing Devices for the Sense of Presence of Immersion in Virtual Environments: A Comparison of Stereoprojections Based on Monitors, HMDs and Screens. HCI (2) 1997: 881-884 - [c3]Roland Blach, Andreas Simon, Oliver Riedel:
Experiences with User Interactions in a CAVETM-Like Projection Environment. HCI (2) 1997: 977-980 - [c2]Oliver Riedel:
3D-Rendering and the Eye: Aspects for Efficient Rendering Through Physiological and Anatomical Parameters of the Eye. HCI (2) 1997: 981-984 - 1993
- [c1]Wilhelm Bauer, Oliver Riedel:
New Techniques for Interaction in Virtual Worlds - Contents of Development and Examples. HCI (2) 1993: 687-692
Coauthor Index
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last updated on 2024-11-08 21:33 CET by the dblp team
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