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Uwe Brinkschulte
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- affiliation: Goethe University of Frankfurt, Germany
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2020 – today
- 2024
- [c92]Aleksey Koschowoj, Uwe Brinkschulte:
Modifiable Artificial DNA - Change Your System's ADNA at Any Time. ARCS 2024: 67-81 - [c91]Timo Kisselbach, Philipp Wörner, Mathias Pacher, Uwe Brinkschulte:
An Organic Computing Approach for CARLA Simulator. ARCS 2024: 142-157 - [c90]Melanie Feist, Uwe Brinkschulte, Mathias Pacher:
The Adaptation Mechanism of Chameleon - A Comprehensive Adaptive Middleware for Mixed-Critical Cyber-Physical Networks. ISORC 2024: 1-10 - [c89]Philipp Homann, Jonas Diegelmann, Mathias Pacher, Uwe Brinkschulte:
Evaluation of Trust Metrics in an Artificial Hormone System. ISORC 2024: 1-12 - 2023
- [c88]Utkarsh Raj, Simon Meckel, Aleksey Koschowoj, Mathias Pacher, Roman Obermaisser, Uwe Brinkschulte:
Self-adaptive Diagnosis and Reconfiguration in ADNA-Based Organic Computing. ARCS 2023: 63-77 - [c87]Aleksey Koschowoj, Uwe Brinkschulte:
Abstract Artificial DNA's Improved Time Bounds. ARCS 2023: 185-199 - [c86]Melanie Feist, Mathias Pacher, Uwe Brinkschulte:
Evaluating the Comprehensive Adaptive Chameleon Middleware for Mixed-Critical Cyber-Physical Networks. ARCS 2023: 200-214 - [c85]Jonas Diegelmann, Philipp Homann, Mathias Pacher, Uwe Brinkschulte:
Towards Dependable Unmanned Aerial Vehicle Swarms Using Organic Computing. ARCS 2023: 311-325 - 2022
- [c84]Timo Kisselbach, Simon Meckel, Mathias Pacher, Uwe Brinkschulte, Roman Obermaisser:
Organic Computing to Improve the Dependability of an Automotive Environment. ARCS 2022: 211-225 - [c83]Philipp Homann, Mathias Pacher, Uwe Brinkschulte:
Evaluation of Conditional Tasks in an Artificial DNA System. ISORC 2022: 1-10 - [c82]Eric Hutter, Robin Lakos, Uwe Brinkschulte:
Improving an Artificial Hormone System's Time Bounds Using Task Allocation Signals. ISORC 2022: 1-8 - [c81]Aleksey Koschowoj, Mathias Pacher, Uwe Brinkschulte:
The Next Step in the Evolution of Artificial DNA: the Abstract ADNA. LIFELIKE 2022 - 2021
- [j19]Uwe Brinkschulte, Mathias Pacher, Melanie Brinkschulte:
Improving the fail-operational behavior of automotive applications by artificial DNA. Concurr. Comput. Pract. Exp. 33(14) (2021) - [j18]Andreas Lund, Uwe Brinkschulte:
Task-allocation in a large-scaled hierarchical many-core topology. Concurr. Comput. Pract. Exp. 33(14) (2021) - [c80]Eric Hutter, Uwe Brinkschulte:
Evaluating a Priority-Based Task Distribution Strategy for an Artificial Hormone System. ARCS 2021: 150-164 - [c79]Uwe Brinkschulte, Mathias Pacher:
Handling Communication Dropouts in an Artificial Hormone and DNA System. ISORC 2021: 123-131 - [c78]Eric Hutter, Uwe Brinkschulte:
Handling Assignment Priorities to Degrade Systems in Self-Organizing Task Distribution. ISORC 2021: 132-140 - 2020
- [j17]Eric Hutter, Uwe Brinkschulte, Felix Fastnacht:
Adapting the concept of artificial DNA and hormone system to AUTOSAR environments. J. Syst. Archit. 104: 101700 (2020) - [j16]Mathias Pacher, Uwe Brinkschulte:
Evaluation of the dependability of an artificial DNA in a dynamic automotive environment. J. Syst. Archit. 107: 101736 (2020) - [c77]Eric Hutter, Uwe Brinkschulte:
Towards a Priority-Based Task Distribution Strategy for an Artificial Hormone System. ARCS 2020: 69-81 - [c76]Eric Hutter, Mathias Pacher, Uwe Brinkschulte:
Complexity Analysis of Task Dependencies in an Artificial Hormone System. GI-Jahrestagung 2020: 987-994 - [c75]Eric Hutter, Mathias Pacher, Uwe Brinkschulte:
Evaluation and Complexity Analysis of Task Dependencies in an Artificial Hormone System. ISORC 2020: 1-9 - [i2]Eric Hutter, Mathias Pacher, Uwe Brinkschulte:
On the Hardness of Problems Involving Negator Relationships in an Artificial Hormone System. CoRR abs/2006.08958 (2020)
2010 – 2019
- 2019
- [c74]Uwe Brinkschulte, Felix Fastnacht:
Applying the Concept of Artificial DNA and Hormone System to a Low-Performance Automotive Environment. ARCS 2019: 87-99 - [c73]Mathias Pacher, Uwe Brinkschulte:
Monitoring of an Artificial DNA in Dynamic Environments. IESS 2019: 167-178 - [c72]Uwe Brinkschulte, Eric Hutter, Felix Fastnacht:
Adapting the Concept of Artificial DNA and Hormone System to a classical AUTOSAR Environment. ISORC 2019: 35-42 - [c71]Mathias Pacher, Uwe Brinkschulte:
Towards an Artificial DNA for the Use in Dynamic Environments. ISORC 2019: 209-212 - [c70]Uwe Brinkschulte, Roman Obermaisser, Simon Meckel, Mathias Pacher:
Online-Diagnosis with Organic Computing based on Artificial DNA. SA 2019: 1-4 - 2018
- [c69]Andreas Lund, Uwe Brinkschulte:
Task-Allocation in a Large Scaled Hierarchical Many-Core Topology. ISORC 2018: 1-8 - 2017
- [j15]Uwe Brinkschulte:
Prototypic implementation and evaluation of an artificial DNA for self-descripting and self-building embedded systems. EURASIP J. Embed. Syst. 2017: 23 (2017) - [c68]Ralf Dörner, Uwe Brinkschulte, Marcus Thoss, Adrian Ulges:
Workshop 11. GI-Jahrestagung 2017: 873-874 - [c67]Uwe Brinkschulte:
Determining the Communication Load for Self-Building Embedded Systems Based on Artificial DNA. ISORC 2017: 67-75 - [i1]Uwe Brinkschulte:
Technical Report: Artificial DNA - a Concept for Self-Building Embedded Systems. CoRR abs/1707.07617 (2017) - 2016
- [j14]M. Teresa Higuera-Toledano, Uwe Brinkschulte, Achim Rettberg:
SORT 2014. Concurr. Comput. Pract. Exp. 28(14): 3709-3710 (2016) - [j13]Uwe Brinkschulte:
An artificial DNA for self-descripting and self-building embedded real-time systems. Concurr. Comput. Pract. Exp. 28(14): 3711-3729 (2016) - [c66]Mathias Pacher, Andreas Lund, Uwe Brinkschulte:
Development and Evaluation of Hierarchical Artificial Hormone Systems. ISORC 2016: 1-9 - [c65]Uwe Brinkschulte:
Prototypic Implementation and Evaluation of an Artificial DNA for Self-Descripting and Self-Building Embedded Systems. ISORC 2016: 10-18 - 2015
- [j12]Julius von Rosen, Felix Salfelder, Lars Hedrich, Benjamin Betting, Uwe Brinkschulte:
A highly dependable self-adaptive mixed-signal multi-core system-on-chip architecture. Integr. 48: 55-71 (2015) - [c64]Andreas Lund, Benjamin Betting, Uwe Brinkschulte:
Design and Evaluation of a Bio-Inspired, Distributed Middleware for a Multiple Mixed-Core System on Chip. ISORC Workshops 2015: 80-88 - [e8]Luís Miguel Pinho, Wolfgang Karl, Albert Cohen, Uwe Brinkschulte:
Architecture of Computing Systems - ARCS 2015 - 28th International Conference, Porto, Portugal, March 24-27, 2015, Proceedings. Lecture Notes in Computer Science 9017, Springer 2015, ISBN 978-3-319-16085-6 [contents] - 2014
- [c63]Benjamin Betting, Uwe Brinkschulte:
Analyzing the Overhead of Self-Optimization through Task Migration within a Decentralized Task Control Mechanism for Dependable System-on-Chip Architectures. ISORC 2014: 84-91 - [c62]Uwe Brinkschulte, Daniel Lohn, Michael Bauer:
Design and Evaluation of an Energy-Saving Real-Time Microprocessor. ISORC 2014: 92-99 - [c61]Uwe Brinkschulte:
Introducing Virtual Accelerators to Decrease the Communication Overhead of an Artificial Hormone System for Task Allocation. ISORC 2014: 117-124 - [c60]Uwe Brinkschulte:
An Artificial DNA for Self-Descripting and Self-Building Embedded Real-Time Systems. ISORC 2014: 326-333 - [c59]Uwe Brinkschulte, Mathias Pacher, Benjamin Betting:
A Simulator to Validate the Concept of Artificial DNA for Self-Building Embedded Systems. SASO Workshops 2014: 160-169 - 2013
- [c58]Benjamin Betting, Julius von Rosen, Lars Hedrich, Uwe Brinkschulte:
A Highly Dependable Self-adaptive Mixed-Signal Multi-core System-on-Chip. ARCS 2013: 122-133 - [c57]Michael Bauer, Daniel Lohn, Benjamin Betting, Uwe Brinkschulte:
Design and evaluation of an adaptive real-time microprocessor. ICES 2013: 81-88 - [c56]Benjamin Betting, Uwe Brinkschulte, Mathias Pacher:
Evaluation and superiority analysis of a decentralized task control mechanism for dependable real-time SoC architectures. ISORC 2013: 1-8 - [c55]Uwe Brinkschulte:
Increasing the stability of an Artificial Hormone System for task allocation by accelerator bounds. ISORC 2013: 1-10 - [c54]Uwe Brinkschulte:
Reducing the Communication Overhead of an Artificial Hormone System for Task Allocation by a Task Window. ESOS 2013 - [c53]Mathias Pacher, Uwe Brinkschulte:
A Formal Specification of the Hormone Loop of an Artificial Hormone System. ESOS 2013 - [e7]Uwe Brinkschulte, Christian Müller-Schloer, Mathias Pacher:
2013 Workshop on Embedded Self-Organizing Systems, ESOS'13, San Jose, CA, USA, June 25, 2013. USENIX Association 2013 [contents] - 2012
- [j11]M. Teresa Higuera-Toledano, Uwe Brinkschulte, Achim Rettberg:
Introduction to the Special Issue: SORT 2010. Concurr. Comput. Pract. Exp. 24(16): 1819-1820 (2012) - [j10]Mathias Pacher, Uwe Brinkschulte:
Implementation and evaluation of a self-organizing artificial hormone system to assign time-dependent tasks. Concurr. Comput. Pract. Exp. 24(16): 1879-1902 (2012) - [c52]Jan Schäfer, Reinhold Kröger, Simone Meixler, Uwe Brinkschulte:
QoS-based Testing and Selection of Semantic Services. ARCS Workshops 2012: 15-26 - [c51]Christoph Leineweber, Mathias Pacher, Benjamin Betting, Julius von Rosen, Uwe Brinkschulte, Lars Hedrich:
Detection and Defense Strategies against Attacks on an Artificial Hormone System Running on a Mixed Signal Chip. ISORC 2012: 135-143 - [c50]Uwe Brinkschulte, Mathias Pacher:
An Agressive Strategy for an Artificial Hormone System to Minimize the Task Allocation Time. ISORC Workshops 2012: 188-195 - [e6]Andreas Herkersdorf, Kay Römer, Uwe Brinkschulte:
Architecture of Computing Systems - ARCS 2012 - 25th International Conference, Munich, Germany, February 28 - March 2, 2012. Proceedings. Lecture Notes in Computer Science 7179, Springer 2012, ISBN 978-3-642-28292-8 [contents] - 2011
- [j9]Alexander von Renteln, Uwe Brinkschulte:
Implementing and evaluating the AHS organic middleware. Comput. Syst. Sci. Eng. 26(6) (2011) - [c49]Jörg Henkel, Lars Bauer, Joachim Becker, Oliver Bringmann, Uwe Brinkschulte, Samarjit Chakraborty, Michael Engel, Rolf Ernst, Hermann Härtig, Lars Hedrich, Andreas Herkersdorf, Rüdiger Kapitza, Daniel Lohmann, Peter Marwedel, Marco Platzner, Wolfgang Rosenstiel, Ulf Schlichtmann, Olaf Spinczyk, Mehdi Baradaran Tahoori, Jürgen Teich, Norbert Wehn, Hans-Joachim Wunderlich:
Design and architectures for dependable embedded systems. CODES+ISSS 2011: 69-78 - [c48]Alexander von Renteln, Uwe Brinkschulte, Mathias Pacher:
Introducing a simplified implementation of the AHS organic middleware. OC@ICAC 2011: 51-58 - [c47]Simone Meixler, Uwe Brinkschulte:
A Selection Method for Services in Dynamic Environments. ISORC 2011: 19-23 - [c46]Daniel Lohn, Mathias Pacher, Uwe Brinkschulte:
A Generalized Model to Control the Throughput in a Processor for Real-Time Applications. ISORC 2011: 83-88 - [c45]Mathias Pacher, Uwe Brinkschulte:
Ordering of Time-Dependent Tasks for Self-Organized Resource Scheduling. ISORC Workshops 2011: 172-180 - [c44]Alexander von Renteln, Uwe Brinkschulte, David Kramer, Wolfgang Karl, Christian Schuck, Jürgen Becker:
Digital On-demand Computing Organism - Interaction between Monitoring and Middleware. ISORC 2011: 189-196 - [p3]Thomas Ebi, David Kramer, Christian Schuck, Alexander von Renteln, Jürgen Becker, Uwe Brinkschulte, Jörg Henkel, Wolfgang Karl:
DodOrg - A Self-adaptive Organic Many-core Architecture. Organic Computing 2011: 353-368 - [p2]Alexander von Renteln, Uwe Brinkschulte, Mathias Pacher:
The Artificial Hormone System - An Organic Middleware for Self-organising Real-Time Task Allocation. Organic Computing 2011: 369-384 - [e5]Mladen Berekovic, William Fornaciari, Uwe Brinkschulte, Cristina Silvano:
Architecture of Computing Systems - ARCS 2011 - 24th International Conference, Como, Italy, February 24-25, 2011. Proceedings. Lecture Notes in Computer Science 6566, Springer 2011, ISBN 978-3-642-19136-7 [contents] - 2010
- [b4]Uwe Brinkschulte, Theo Ungerer:
Mikrocontroller und Mikroprozessoren, 3rd Edition. eXamen.press, Springer 2010, ISBN 978-3-642-05397-9, pp. I-XVII, 1-461 - [j8]Uwe Brinkschulte:
The Grand Challenges in Computer Engineering - Facing the Future (Die großen Herausforderungen der Technischen Informatik). it Inf. Technol. 52(3): 131-134 (2010) - [c43]Mathias Pacher, Uwe Brinkschulte:
Real-Time Distribution of Time-Dependant Tasks in Heterogeneous Environments. ISORC Workshops 2010: 21-28 - [c42]Alexander von Renteln, Uwe Brinkschulte:
Implementing and Evaluating the AHS Organic Middleware - A First Approach. ISORC 2010: 163-169 - [c41]Simone Meixler, Uwe Brinkschulte:
Test Case Generation for Non-functional and Functional Testing of Services. ISORC 2010: 245-249 - [c40]Michael Bauer, Mathias Pacher, Uwe Brinkschulte:
Chip-Size Evaluation of a Multithreaded Processor Enhanced with a PID Controller. SEUS 2010: 3-12
2000 – 2009
- 2009
- [j7]Uwe Brinkschulte, Marcello Cinque, Tony Givargis, Stefano Russo:
Guest Editorial. J. Softw. 4(7): 631-633 (2009) - [j6]Manuel Nickschas, Uwe Brinkschulte:
CARISMA - A Service-Oriented, Real-Time Organic Middleware Architecture. J. Softw. 4(7): 654-663 (2009) - [c39]Uwe Brinkschulte, Alexander von Renteln:
Analyzing the Behavior of an Artificial Hormone System for Task Allocation. ATC 2009: 47-61 - [c38]Uwe Brinkschulte:
Vorwort zum Workshop - Grand Challenges der technischen Informatik. GI Jahrestagung 2009: 270-271 - [c37]Uwe Brinkschulte:
Model-Driven Design and Organic Computing - Contradictory or Synergetic Approaches to Overcome the Embedded Software Crisis. ISORC 2009: 91-92 - [c36]Uwe Brinkschulte, Mathias Pacher:
A Theoretical Examination of a Self-Adaptation Approach to Improve the Real-Time Capabilities in Multi-Threaded Microprocessors. SASO 2009: 136-143 - [c35]Uwe Brinkschulte, Daniel Lohn, Mathias Pacher:
Towards a Statistical Model of a Microprocessor's Throughput by Analyzing Pipeline Stalls. SEUS 2009: 82-90 - 2008
- [c34]Uwe Brinkschulte, Alexander von Renteln, Mathias Pacher:
Measuring the quality of an artificial hormone system based task mapping. Autonomics 2008: 32 - [c33]Alexander von Renteln, Uwe Brinkschulte, Michael Weiss:
Examinating Task Distribution by an Artificial Hormone System Based Middleware. ISORC 2008: 119-123 - [c32]Uwe Brinkschulte, Mathias Pacher:
A Control Theory Approach to Improve the Real-Time Capability of Multi-Threaded Microprocessors. ISORC 2008: 399-404 - [c31]Manuel Nickschas, Uwe Brinkschulte:
Guiding Organic Management in a Service-Oriented Real-Time Middleware Architecture. SEUS 2008: 90-101 - [p1]Uwe Brinkschulte, Mathias Pacher, Alexander von Renteln:
An Artificial Hormone System for Self-Organizing Real-Time Task Allocation in Organic Middleware. Organic Computing 2008: 261-283 - [e4]Uwe Brinkschulte, Theo Ungerer, Christian Hochberger, Rainer G. Spallek:
Architecture of Computing Systems - ARCS 2008, 21st International Conference, Dresden, Germany, February 25-28, 2008, Proceedings. Lecture Notes in Computer Science 4934, Springer 2008, ISBN 978-3-540-78152-3 [contents] - [e3]Uwe Brinkschulte, Tony Givargis, Stefano Russo:
Software Technologies for Embedded and Ubiquitous Systems, 6th IFIP WG 10.2 International Workshop, SEUS 2008, Anacarpi, Capri Island, Italy, October 1-3, 2008, Proceedings. Lecture Notes in Computer Science 5287, Springer 2008, ISBN 978-3-540-87784-4 [contents] - 2007
- [j5]Uwe Brinkschulte, Sunggu Lee:
Editorial. Real Time Syst. 36(1-2): 1-2 (2007) - [c30]Manuel Nickschas, Uwe Brinkschulte:
Using Multi-Agent Principles for Implementing an Organic Real-Time Middleware. ISORC 2007: 189-195 - [c29]Uwe Brinkschulte, Mathias Pacher, Alexander von Renteln:
Towards an Artificial Hormone System for Self-organizing Real-Time Task Allocation. SEUS 2007: 339-347 - [c28]Sebastian Schuster, Uwe Brinkschulte:
Model-Driven Development of Ubiquitous Applications for Sensor-Actuator-Networks with Abstract State Machines. SEUS 2007: 527-536 - 2006
- [j4]Uwe Brinkschulte:
Scalable Online Feasibility Tests for Admission Control in a Java Real-Time System. Real Time Syst. 32(3): 175-195 (2006) - [c27]Jürgen Becker, Kurt Brändle, Uwe Brinkschulte, Jörg Henkel, Wolfgang Karl, Thorsten Köster, Michael Wenz, Heinz Wörn:
Digital On-Demand Computing Organism for Real-Time Systems. ARCS Workshops 2006: 230-245 - [c26]Mathias Pacher, Alexander von Renteln, Uwe Brinkschulte:
Towards an Organic Middleware for Real-Time Applications. ISORC 2006: 400-407 - [c25]Uwe Brinkschulte, Mathias Pacher, Florentin Picioroaga, Stefan Gaa:
Evaluation of the Komodo Microcontroller and the OSA+ Middleware Using an Autonomous Guided Vehicle. ISORC 2006: 550-557 - [c24]Florentin Picioroaga, Uwe Brinkschulte:
Flexible QoS management and real-time in OSA+ middleware. PDPTA 2006: 984-990 - [c23]Uwe Brinkschulte, Alexander von Renteln, Mathias Pacher:
A Scheduling Strategy for a Real-Time Dependable Organic Middleware. SAMOS 2006: 339-348 - 2005
- [b3]Heinz Wörn, Uwe Brinkschulte:
Echtzeitsysteme - Grundlagen, Funktionsweisen, Anwendungen. eXamen.press, Springer 2005, ISBN 978-3-540-20588-3, pp. I-XIII, 1-556 - [j3]Uwe Brinkschulte, Sascha Uhrig, Theo Ungerer:
Der mehrfädige Komodo-Mikrocontroller (The Multithreaded Komodo Microcontroller). it Inf. Technol. 47(3): 117-122 (2005) - [c22]Uwe Brinkschulte, Mathias Pacher:
Implementing Control Algorithms Within a Multithreaded Java Microcontroller. ARCS 2005: 33-49 - [c21]Uwe Brinkschulte, Etienne Schneider, Florentin Picioroaga:
Dynamic Real-time Reconfiguration in Distributed Systems: Timing Issues and Solutions. ISORC 2005: 174-181 - [c20]Uwe Brinkschulte, Mathias Pacher:
Improving the Real-time Behaviour of a Multithreaded Java Microcontroller by Control Theory and Model Based Latency Prediction. WORDS 2005: 82-96 - [e2]Uwe Brinkschulte, Jürgen Becker, Dietmar Fey, Christian Hochberger, Thomas Martinetz, Christian Müller-Schloer, Hartmut Schmeck, Theo Ungerer, Rolf P. Würtz:
18th International Conference on Architecture of Computing Systems, Workshops, Innsbruck, Austria, March 2005. VDE Verlag 2005, ISBN 3-8007-2880-X [contents] - 2004
- [j2]Matthias Pfeffer, Theo Ungerer, Stephan Fuhrmann, Jochen Kreuzinger, Uwe Brinkschulte:
Real-Time Garbage Collection for a Multithreaded Java Microcontroller. Real Time Syst. 26(1): 89-106 (2004) - [c19]Uwe Brinkschulte, Jürgen Becker, Klaus Dorfmüller-Ulhaas, Ralf König, Sascha Uhrig, Theo Ungerer:
CARUSO - Project Goals and Principal Approach. GI Jahrestagung (2) 2004: 616-620 - [c18]Uwe Brinkschulte, Jürgen Becker, Theo Ungerer:
CARUSO - An Approach Towards a Network of Low Power Autonomic Systems on Chips for Embedded Real-time Application. IPDPS 2004 - [c17]Florentin Picioroaga, Aurelie Bechina, Uwe Brinkschulte, Etienne Schneider:
OSA+ Real-Time Middleware, Results and Perspectives. ISORC 2004: 147-154 - [c16]Etienne Schneider, Florentin Picioroaga, Uwe Brinkschulte:
Dynamic reconfiguration through OSA+, a real-time middleware. Doctoral Symposium on Middleware 2004: 319-323 - [e1]Uwe Brinkschulte, Jürgen Becker, Dietmar Fey, Karl-Erwin Großpietsch, Christian Hochberger, Erik Maehle, Thomas A. Runkler:
ARCS 2004 - Organic and Pervasive Computing, Workshops Proceedings, March 26, 2004, Augsburg, Germany. LNI P-41, GI 2004, ISBN 3-88579-370-9 [contents] - 2003
- [j1]Jochen Kreuzinger, Uwe Brinkschulte, Matthias Pfeffer, Sascha Uhrig, Theo Ungerer:
Real-time event-handling and scheduling on a multithreaded Java microcontroller. Microprocess. Microsystems 27(1): 19-31 (2003) - [c15]Uwe Brinkschulte:
Scalable Online Feasibility Tests for Admission Control in a Java Real-Time System. WORDS Fall 2003: 45-52 - 2002
- [b2]Uwe Brinkschulte, Theo Ungerer:
Mikrocontroller und Mikroprozessoren. Springer-Lehrbuch, Springer 2002, ISBN 978-3-540-43095-7, pp. I-XIII, 1-415 - [c14]Matthias Pfeffer, Sascha Uhrig, Theo Ungerer, Uwe Brinkschulte:
A Real-Time Java System on a Multithreaded Java Microcontroller. Symposium on Object-Oriented Real-Time Distributed Computing 2002: 34-44 - [c13]Uwe Brinkschulte, Aurelie Bechina, Florentin Picioroaga, Etienne Schneider:
Distributed Real-Time Computing for Microcontrollers-The OSA+ Approach. Symposium on Object-Oriented Real-Time Distributed Computing 2002: 169-172 - [c12]Uwe Brinkschulte, Jochen Kreuzinger, Matthias Pfeffer, Theo Ungerer:
A Scheduling Technique Providing a Strict Isolation of Real-time Threads. WORDS 2002: 334-342 - 2001
- [c11]Stephan Fuhrmann, Matthias Pfeffer, Jochen Kreuzinger, Theo Ungerer, Uwe Brinkschulte:
Real-Time Garbage Collection for a Multithreaded Java Microcontroller. ISORC 2001: 69-76 - [c10]Bran Selic, Uwe Brinkschulte, P. Emanuelson, Carlos O'Ryan:
Real-Time Standards in CORBA, Java, and UML. ISORC 2001: 315 - [c9]Uwe Brinkschulte, Aurelie Bechina, Florentin Picioroaga, Etienne Schneider, Theo Ungerer, Jochen Kreuzinger, Matthias Pfeffer:
A Microkernel Middleware Architecture for Distributed Embedded Real-Time Systems. SRDS 2001: 218-226 - 2000
- [c8]Jochen Kreuzinger, Matthias Pfeffer, A. Schulz, Theo Ungerer, Uwe Brinkschulte, C. Krakowski:
Performance Evaluations of a Multithreaded Java Microcontroller. PDPTA 2000 - [c7]Jochen Kreuzinger, A. Schulz, Matthias Pfeffer, Theo Ungerer, Uwe Brinkschulte, C. Krakowski:
Real-time scheduling on multithreaded processors. RTCSA 2000: 155-159
1990 – 1999
- 1999
- [c6]Uwe Brinkschulte, C. Krakowski, Jochen Kreuzinger, Theo Ungerer:
A Multithreaded Java Microcontroller for Thread-Oriented Real-Time Event Handling. IEEE PACT 1999: 34-39 - [c5]Uwe Brinkschulte, C. Krakowski, Jochen Kreuzinger, Theo Ungerer:
Ein mehrfädiger Java-Mikrocontroller für eingebettete Systeme. ARCS Workshops 1999: 35-42 - [c4]Jochen Kreuzinger, R. Marston, Theo Ungerer, Uwe Brinkschulte, C. Krakowski:
The Komodo Project: Thread-based Event Handling Supported by a Multithreaded Java Microcontroller. EUROMICRO 1999: 2122-2128 - 1997
- [c3]Uwe Brinkschulte:
Tree-Based Buffer Management in Real-Time Database Systems. DEXA Workshop 1997: 260-264 - 1996
- [c2]Holger Vogelsang, Uwe Brinkschulte, Marios Siormanolakis:
Archiving System States by Persistent Objects. ECBS 1996: 292- - [c1]T. Kessel, Michael Schlick, H.-M. Speiser, Uwe Brinkschulte, Holger Vogelsang:
C3L+++: Implementing a Description Logics System on Top of an Object-Oriented Database System. KRDB 1996 - 1990
- [b1]Uwe Brinkschulte:
Ein Spezialprozessor zur Leistungssteigerung einer operationalen Datenhaltungsschnittstelle für die Prozessautomation. Karlsruhe Institute of Technology, Germany, 1990
Coauthor Index
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