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Gerhard Fohler
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- affiliation: University of Kaiserslautern
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2020 – today
- 2024
- [c94]Antonio Savino, Gautam Gala, Marcello Cinque, Gerhard Fohler:
Multicore DRAM Bank-& Row-Conflict Bomb for Timing Attacks in Mixed-Criticality Systems. ISORC 2024: 1-10 - [i9]Antonio Savino, Gautam Gala, Marcello Cinque, Gerhard Fohler:
Multicore DRAM Bank-& Row-Conflict Bomb for Timing Attacks in Mixed-Criticality Systems. CoRR abs/2404.01910 (2024) - [i8]Gautam Gala, Tilmann Unte, Luiz Maia, Johannes Kühbacher, Isser Kadusale, Mohammad Ibrahim Alkoudsi, Gerhard Fohler, Sebastian Altmeyer:
Safety-Critical Edge Robotics Architecture with Bounded End-to-End Latency. CoRR abs/2406.14391 (2024) - 2023
- [j17]Giorgio Farina, Gautam Gala, Marcello Cinque, Gerhard Fohler:
Enabling memory access isolation in real-time cloud systems using Intel's detection/regulation capabilities. J. Syst. Archit. 137: 102848 (2023) - [c93]Jan Ruh, Wilfried Steiner, Gerhard Fohler:
IEEE 802.1AS Multi-Domain Aggregation for Virtualized Distributed Real-Time Systems. DSN-S 2023: 70-76 - [c92]Gabriele Monaco, Gautam Gala, Gerhard Fohler:
Shared Resource Orchestration Extensions for Kubernetes to Support Real-Time Cloud Containers. ISORC 2023: 97-106 - [c91]Mohammad Ibrahim Alkoudsi, Gerhard Fohler, Marcus Völp:
A Network-Agnostic Approach to Enforcing Collision-Free Time-Triggered Communication. PRDC 2023: 71-77 - [i7]Gabriele Monaco, Gautam Gala, Gerhard Fohler:
Extensions for Shared Resource Orchestration in Kubernetes to Support RT-Cloud Containers. CoRR abs/2301.07479 (2023) - [i6]Luiz Maia, Gerhard Fohler:
Reducing End-to-End Latencies of Multi-Rate Cause-Effect Chains for the LET Model. CoRR abs/2305.02121 (2023) - [i5]Gautam Gala, Isser Kadusale, Gerhard Fohler:
Joint Time-and Event-Triggered Scheduling in the Linux Kernel. CoRR abs/2306.16271 (2023) - [i4]Isser Kadusale, Gautam Gala, Gerhard Fohler:
Energy-aware Time- and Event-triggered KVM Nodes. CoRR abs/2307.00950 (2023) - 2022
- [c90]Gautam Gala, Carlos Rodriguez, Veaceslav Monaco, Javier Castillo, Gerhard Fohler, Veaceslav Falico, Sergey Tverdyshev:
Monitoring Framework to Support Mixed-Criticality Applications on Multicore Platforms. DSD 2022: 649-656 - [c89]Giorgio Farina, Gautam Gala, Marcello Cinque, Gerhard Fohler:
Assessing Intel's Memory Bandwidth Allocation for resource limitation in real-time systems. ISORC 2022: 1-8 - [c88]Mohammad Ibrahim Alkoudsi, Gerhard Fohler, Marcus Völp:
Tolerating Resource Exhaustion Attacks in the Time-Triggered Architecture. SBESC 2022: 1-8 - [i3]Giorgio Farina, Gautam Gala, Marcello Cinque, Gerhard Fohler:
Assessing Intel's Memory Bandwidth Allocation for resource limitation in real-time systems. CoRR abs/2206.14637 (2022) - 2021
- [j16]Jan Ruh, Wilfried Steiner, Gerhard Fohler:
Clock Synchronization in Virtualized Distributed Real-Time Systems Using IEEE 802.1AS and ACRN. IEEE Access 9: 126075-126094 (2021) - [j15]Kristin Krüger, Nils Vreman, Richard Pates, Martina Maggio, Marcus Völp, Gerhard Fohler:
Randomization as Mitigation of Directed Timing Inference Based Attacks on Time-Triggered Real-Time Systems with Task Replication. Leibniz Trans. Embed. Syst. 7(1): 01:1-01:29 (2021) - [c87]Gautam Gala, Gerhard Fohler, Peter Tummeltshammer, Stefan Resch, Reinhard Hametner:
RT-Cloud: Virtualization Technologies and Cloud Computing for Railway Use-Case. ISORC 2021: 105-113 - [c86]Marine Kadar, Gerhard Fohler, Don Kuzhiyelil, Philipp Gorski:
Safety-Aware Integration of Hardware-Assisted Program Tracing in Mixed-Criticality Systems for Security Monitoring. RTAS 2021: 292-305 - [c85]Gautam Gala, Javier Castillo Rivera, Gerhard Fohler:
Work-in-Progress: Cloud Computing for Time-Triggered Safety-Critical Systems. RTSS 2021: 516-519 - [i2]Jan Ruh, Wilfried Steiner, Gerhard Fohler:
Clock Synchronization in Virtualized Distributed Real-Time Systems using IEEE 802.1AS and ACRN. CoRR abs/2105.03374 (2021) - 2020
- [c84]Marine Kadar, Sergey Tverdyshev, Gerhard Fohler:
Towards Host Intrusion Detection for Embedded Industrial Systems. DSN (Supplements) 2020: 5-8 - [c83]Gautam Gala, Gerhard Fohler:
Distributed Decision-making for Safe and Secure Global Resource Management via Blockchain: Work-in-Progress. EMSOFT 2020: 28-30 - [c82]Shaik Mohammed Salman, Václav Struhár, Zeinab Bakhshi, Van-Lan Dao, Nitin Desai, Alessandro V. Papadopoulos, Thomas Nolte, Vasileios Karagiannis, Stefan Schulte, Alexandre Venito, Gerhard Fohler:
Enabling Fog-based Industrial Robotics Systems. ETFA 2020: 61-68 - [c81]Don Kuzhiyelil, Philipp Zieris, Marine Kadar, Sergey Tverdyshev, Gerhard Fohler:
Towards Transparent Control-Flow Integrity in Safety-Critical Systems. ISC 2020: 290-311
2010 – 2019
- 2019
- [j14]Ali Syed, Gerhard Fohler:
Efficient offline scheduling of task-sets with complex constraints on large distributed time-triggered systems. Real Time Syst. 55(2): 209-247 (2019) - [j13]Florian Heilmann, Gerhard Fohler:
Size-based queuing: an approach to improve bandwidth utilization in TSN networks. SIGBED Rev. 16(1): 9-14 (2019) - [c80]Nils Vreman, Richard Pates, Kristin Krüger, Gerhard Fohler, Martina Maggio:
Minimizing Side-Channel Attack Vulnerability via Schedule Randomization. CDC 2019: 2928-2933 - [c79]Marine Kadar, Sergey Tverdyshev, Gerhard Fohler:
System Calls Instrumentation for Intrusion Detection in Embedded Mixed-Criticality Systems. CERTS 2019: 2:1-2:13 - [c78]Vasileios Karagiannis, Alexandre Venito, Rodrigo Coelho, Michael Borkowski, Gerhard Fohler:
Edge computing with peer to peer interactions: use cases and impact. IoT-Fog@IoTDI 2019: 46-50 - 2018
- [j12]Ali Syed, Daniel Gracia Pérez, Gerhard Fohler:
Job-shifting: An algorithm for online admission of non-preemptive aperiodic tasks in safety critical systems. J. Syst. Archit. 85-86: 14-27 (2018) - [j11]Steven Dietrich, Gunther May, Johannes von Hoyningen-Huene, Andreas Müller, Gerhard Fohler:
Frame Conversion Schemes for Cascaded Wired / Wireless Communication Networks of Factory Automation. Mob. Networks Appl. 23(4): 817-827 (2018) - [j10]Florian Heilmann, Gerhard Fohler:
Impact of time-triggered transmission window placement on rate-constrained traffic in TTEthernet networks. SIGBED Rev. 15(3): 7-12 (2018) - [c77]Kristin Krüger, Marcus Völp, Gerhard Fohler:
Vulnerability Analysis and Mitigation of Directed Timing Inference Based Attacks on Time-Triggered Systems. ECRTS 2018: 22:1-22:17 - [c76]Steven Dietrich, Gunther May, Lisa Underberg, Ruediger Kays, Gerhard Fohler:
Optimized resource allocation for cascaded communication networks in factory automation. ICIT 2018: 1616-1621 - [c75]Lisa Underberg, Rüdiger Kays, Steven Dietrich, Gerhard Fohler:
Towards hybrid wired-wireless networks in industrial applications. ICPS 2018: 768-773 - [c74]Ana Guasque, Patricia Balbastre, Alfons Crespo, Gerhard Fohler:
Energy Characterization of Real-Time Partitioned Systems. RTCSA 2018: 118-124 - [c73]Kristin Krüger, Gerhard Fohler, Marcus Völp, Paulo Jorge Esteves Veríssimo:
Improving Security for Time-Triggered Real-Time Systems with Task Replication. RTCSA 2018: 232-233 - [c72]Ankit Agrawal, Renato Mancuso, Rodolfo Pellizzoni, Gerhard Fohler:
Analysis of Dynamic Memory Bandwidth Regulation in Multi-core Real-Time Systems. RTSS 2018: 230-241 - [i1]Ankit Agrawal, Renato Mancuso, Rodolfo Pellizzoni, Gerhard Fohler:
Analysis of Dynamic Memory Bandwidth Regulation in Multi-core Real-Time Systems. CoRR abs/1809.05921 (2018) - 2017
- [c71]Ankit Agrawal, Gerhard Fohler, Johannes Freitag, Jan Nowotsch, Sascha Uhrig, Michael Paulitsch:
Contention-Aware Dynamic Memory Bandwidth Isolation with Predictability in COTS Multicores: An Avionics Case Study. ECRTS 2017: 2:1-2:22 - [c70]Steven Dietrich, Gunther May, Oliver Wetter, Holger Heeren, Gerhard Fohler:
Performance indicators and use case analysis for wireless networks in factory automation. ETFA 2017: 1-8 - [c69]Steven Dietrich, Gunther May, Johannes von Hoyningen-Huene, Andreas Müller, Gerhard Fohler:
Modeling offset adaptations for latency minimization in cascaded communication networks for factory automation. ICAT 2017: 1-8 - [c68]Ankit Agrawal, Gerhard Fohler:
DRAM-related challenges in task scheduling with timing predictability on COTS multi-cores for safety-critical systems. MEMSYS 2017: 265-267 - [c67]Simon Barner, Alexander Diewald, Jörn Migge, Ali Syed, Gerhard Fohler, Madeleine Faugère, Daniel Gracia Pérez:
DREAMS Toolchain: Model-Driven Engineering of Mixed-Criticality Systems. MoDELS 2017: 259-269 - [c66]Ali Syed, Gerhard Fohler, Daniel Gracia Pérez:
Online admission of non-preemptive aperiodic mixed-critical tasks in hierarchic schedules. RTCSA 2017: 1-10 - [c65]Rodrigo Coelho, Gerhard Fohler, Jean-Luc Scharbarg:
Upper bound computation for buffer backlog on AFDX networks with multiple priority virtual links. SAC 2017: 586-593 - 2016
- [j9]Florian Heilmann, Ali Syed, Gerhard Fohler:
Mode-changes in COTS time-triggered network hardware without online reconfiguration. SIGBED Rev. 13(4): 55-60 (2016) - [c64]Mitra Nasri, Geoffrey Nelissen, Gerhard Fohler:
A New Approach for Limited Preemptive Scheduling in Systems with Preemption Overhead. ECRTS 2016: 25-35 - [c63]Mitra Nasri, Gerhard Fohler:
Non-work-conserving Non-preemptive Scheduling: Motivations, Challenges, and Potential Solutions. ECRTS 2016: 165-175 - [c62]Steven Dietrich, Gunther May, Johannes von Hoyningen-Huene, Andreas Müller, Gerhard Fohler:
Latency in Cascaded Wired/Wireless Communication Networks for Factory Automation. INISCOM 2016: 50-61 - [c61]Ankit Agrawal, Gerhard Fohler, Jan Nowotsch, Sascha Uhrig, Michael Paulitsch:
Poster Abstract: Slot-Level Time-Triggered Scheduling on COTS Multicore Platform with Resource Contentions. RTAS 2016: 53 - [c60]Mitra Nasri, Morteza Mohaqeqi, Gerhard Fohler:
Quantifying the Effect of Period Ratios on Schedulability of Rate Monotonic. RTNS 2016: 161-170 - 2015
- [c59]Mitra Nasri, Gerhard Fohler:
An Efficient Method for Assigning Harmonic Periods to Hard Real-Time Tasks with Period Ranges. ECRTS 2015: 149-159 - [c58]Mitra Nasri, Gerhard Fohler:
Non-work-conserving scheduling of non-preemptive hard real-time tasks based on fixed priorities. RTNS 2015: 309-318 - 2014
- [c57]Mitra Nasri, Gerhard Fohler, Mehdi Kargahi:
A Framework to Construct Customized Harmonic Periods for Real-Time Systems. ECRTS 2014: 211-220 - [c56]Mitra Nasri, Sanjoy K. Baruah, Gerhard Fohler, Mehdi Kargahi:
On the Optimality of RM and EDF for Non-Preemptive Real-Time Harmonic Tasks. RTNS 2014: 331 - 2013
- [c55]Stefan Schorr, Gerhard Fohler:
Integrated time- and event-triggered scheduling - An overhead analysis on the ARM architecture. RTCSA 2013: 165-174 - 2012
- [c54]Gerhard Fohler:
Predictably Flexible Real-Time Scheduling. Advances in Real-Time Systems 2012: 207-221 - [c53]Raphael Guerra, Gerhard Fohler:
On-line scheduling of target sensitive periodic tasks with the gravitational task model. DATE 2012: 578-581 - 2011
- [j8]Enrico Bini, Giorgio C. Buttazzo, Johan Eker, Stefan Schorr, Raphael Guerra, Gerhard Fohler, Karl-Erik Årzén, Vanessa Romero, Claudio Scordino:
Resource Management on Multicore Systems: The ACTORS Approach. IEEE Micro 31(3): 72-81 (2011) - [c52]Marcel Steine, Cuong Viet Ngo, Ramon Serna Oliver, Marc Geilen, Twan Basten, Gerhard Fohler, Jean-Dominique Decotignie:
Proactive reconfiguration of wireless sensor networks. MSWiM 2011: 31-40 - [c51]Jens Theis, Gerhard Fohler:
Transformation of Sporadic Tasks for Off-line Scheduling with Utilization and Response Time Trade-offs. RTNS 2011: 119-128 - [c50]Sanjoy K. Baruah, Gerhard Fohler:
Certification-Cognizant Time-Triggered Scheduling of Mixed-Criticality Systems. RTSS 2011: 3-12 - [c49]Raphael Guerra, Gerhard Fohler:
Handling overload of target sensitive real-time applications for increased system utility and improved resource usage. SAC 2011: 742-747 - [c48]Raphael Guerra, Gerhard Fohler:
Gravitational Task Model Based Bandwidth Compression Algorithm for Adaptive Resource Management. SBESC 2011: 133-138 - [c47]Anand Kotra, Gerhard Fohler:
Resource aware real-time stream adaptation of MPEG-4 video in constrained bandwidth networks. VCIP 2011: 1-4 - 2010
- [c46]Anand Kotra, Gerhard Fohler:
Resource aware real-time stream adaptation for MPEG-2 transport streams in constrained bandwidth networks. ICME 2010: 729-730 - [c45]Ramon Serna Oliver, Ivan Shcherbakov, Gerhard Fohler:
An operating system abstraction layer for portable applications in wireless sensor networks. SAC 2010: 742-748 - [c44]Andreas Eckel, Paul Milbredt, Zaid Al-Ars, Stefan Schneele, Bart Vermeulen, György Csertán, Christoph Scheerer, Neeraj Suri, Abdelmajid Khelil, Gerhard Fohler:
INDEXYS, a Logical Step beyond GENESYS. SAFECOMP 2010: 431-451
2000 – 2009
- 2009
- [j7]Raphael Guerra, Gerhard Fohler:
A gravitational task model with arbitrary anchor points for target sensitive real-time applications. Real Time Syst. 43(1): 93-115 (2009) - [j6]Damir Isovic, Gerhard Fohler:
Handling mixed sets of tasks in combined offline and online scheduled real-time systems. Real Time Syst. 43(3): 296-325 (2009) - [c43]Raphael Guerra, Gerhard Fohler:
On-Line Scheduling Algorithm for the Gravitational Task Model. ECRTS 2009: 97-106 - [c42]Jérôme Rousselot, Jean-Dominique Decotignie, Marc Aoun, Peter van der Stok, Ramon Serna Oliver, Gerhard Fohler:
Accurate Timeliness Simulations for Real-Time Wireless Sensor Networks. EMS 2009: 476-481 - [c41]Ramon Serna Oliver, Gerhard Fohler:
Probabilistic Estimation of End-to-End Path Latency in Wireless Sensor Networks. MASS 2009: 423-431 - [c40]Anthony Schoofs, Marc Aoun, Peter van der Stok, Julien Catalano, Ramon Serna Oliver, Gerhard Fohler:
A Framework for Time-Controlled and Portable WSN Applications. SENSAPPEAL 2009: 126-144 - [c39]Ramon Serna Oliver, Ivan Shcherbakov, Gerhard Fohler:
An efficient operating system abstraction layer for portable applications in the domain of wireless sensor networks. SenSys 2009: 379-380 - 2008
- [c38]Raphael Guerra, Gerhard Fohler:
A Gravitational Task Model for Target Sensitive Real-Time Applications. ECRTS 2008: 309-317 - [c37]Raphael Guerra, Julius C. B. Leite, Gerhard Fohler:
Attaining soft real-time constraint and energy-efficiency in web servers. SAC 2008: 2085-2089 - 2007
- [c36]Larisa Rizvanovic, Damir Isovic, Gerhard Fohler:
Integrated Global and Local Quality-of-Service Adaptation in Distributed, Heterogeneous Systems. EUC 2007: 219-233 - 2006
- [c35]Pengpeng Ni, Damir Isovic, Gerhard Fohler:
User-friendly H.264/AVC for remote browsing. ACM Multimedia 2006: 643-646 - [c34]Mario Aldea Rivas, Guillem Bernat, Ian Broster, Alan Burns, Radu Dobrin, José M. Drake, Gerhard Fohler, Paolo Gai, Michael González Harbour, Giacomo Guidi, J. Javier Gutiérrez, Tomas Lennvall, Giuseppe Lipari, José María Martínez, Julio L. Medina, José C. Palencia Gutiérrez, Michael Trimarchi:
FSF: A Real-Time Scheduling Architecture Framework. IEEE Real Time Technology and Applications Symposium 2006: 113-124 - 2005
- [j5]Damir Isovic, Gerhard Fohler, Liesbeth Steffens:
Real-time issues of MPEG-2 playout in resource constrained systems. J. Embed. Comput. 1(2): 239-256 (2005) - [j4]Weirong Wang, Aloysius K. Mok, Gerhard Fohler:
Pre-Scheduling. Real Time Syst. 30(1-2): 83-103 (2005) - [j3]Paul Caspi, Alberto L. Sangiovanni-Vincentelli, Luís Almeida, Albert Benveniste, Bruno Bouyssounouse, Giorgio C. Buttazzo, Ivica Crnkovic, Werner Damm, Jakob Engblom, Gerhard Fohler, Marisol García-Valls, Hermann Kopetz, Yassine Lakhnech, François Laroussinie, Luciano Lavagno, Giuseppe Lipari, Florence Maraninchi, Philipp Peti, Juan Antonio de la Puente, Norman Scaife, Joseph Sifakis, Robert de Simone, Martin Törngren, Paulo Veríssimo, Andy J. Wellings, Reinhard Wilhelm, Tim A. C. Willemse, Wang Yi:
Guidelines for a graduate curriculum on embedded software and systems. ACM Trans. Embed. Comput. Syst. 4(3): 587-611 (2005) - [p1]Pau Martí, Ricard Villà, Josep M. Fuertes, Gerhard Fohler:
Networked Control Systems Overview. The Industrial Information Technology Handbook 2005: 1-16 - 2004
- [c33]Damir Isovic, Gerhard Fohler:
Quality Aware MPEG-2 Stream Adaptation in Resource Constrained Systems. ECRTS 2004: 23-32 - [c32]Giorgio C. Buttazzo, Manel Velasco, Pau Martí, Gerhard Fohler:
Managing Quality-of-Control Performance Under Overload Conditions. ECRTS 2004: 53-60 - [c31]Weirong Wang, Aloysius K. Mok, Gerhard Fohler:
Generalized Pre-Scheduler. ECRTS 2004: 127-134 - [c30]Radu Dobrin, Gerhard Fohler:
Reducing the Number of Preemptions in Fixed Priority Scheduling. ECRTS 2004: 144-152 - [c29]Peter van der Stok, Jan Jelle Boomgaardt, Helmut Burklin, Gabriele Cecchetti, Jean-Dominique Decotignie, Hermann de Meer, Gerhard Fohler, Johan J. Lukkien, Gerardo Rubino:
The FABRIC Project. EWSA 2004: 272-278 - [c28]Weirong Wang, Aloysius K. Mok, Gerhard Fohler:
Pre-Scheduling on the Domain of Integers. RTSS 2004: 68-77 - [c27]Krithi Ramamritham, Kavi Arya, Gerhard Fohler:
System Software for Embedded Applications. VLSI Design 2004: 12-14 - 2003
- [c26]Damir Isovic, Gerhard Fohler, Liesbeth Steffens:
Timing Constraints of MPEG-2 Decoding for High Quality Video: Misconceptions and Realistic Assumptions. ECRTS 2003: 73-82 - [c25]Weirong Wang, Aloysius K. Mok, Gerhard Fohler:
Pre-Scheduling: Integrating Offline and Online Scheduling Techniques. EMSOFT 2003: 356-372 - [c24]Jan Carlson, Tomas Lennvall, Gerhard Fohler:
Enhancing Time Triggered Scheduling with Value Based Overload Handling and Task Migration. ISORC 2003: 121-130 - [c23]Giuseppe Lipari, Enrico Bini, Gerhard Fohler:
A Framework for Composing Real-Time Schedulers. TACoS 2003: 133-146 - [e1]Gerhard Fohler, Radu Marculescu:
First Workshop on Embedded Systems for Real-Time Multimedia, ESTIMedia 2003, October 3-4, 2003, Newport Beach, California, USA, co-located with CODES-ISSS 2003, Proceedings. 2003 [contents] - 2002
- [j2]Gerhard Fohler, Giorgio C. Buttazzo:
Introduction to the Special Issue on Flexible Scheduling. Real Time Syst. 22(1-2): 5-7 (2002) - [c22]Gerhard Fohler, Tomas Lennvall, Radu Dobrin:
A Component Based Real-Time Scheduling Architecture. WADS 2002: 110-125 - [c21]Tomas Lennvall, Gerhard Fohler, Björn Lindberg:
Handling Aperiodic Tasks in Diverse Real-Time Systems via Plug-Ins. Symposium on Object-Oriented Real-Time Distributed Computing 2002: 137-144 - [c20]Gerhard Fohler, Damir Isovic, Tomas Lennvall, Roger Vuolle:
SALSART - A Web Based Cooperative Environment for Offline Real-time Schedule Design. PDP 2002: 63-70 - [c19]Pau Martí, Josep M. Fuertes, Gerhard Fohler, Krithi Ramamritham:
Improving Quality-of-Control Using Flexible Timing Constraints: Metric and Scheduling Issues. RTSS 2002: 91-100 - 2001
- [c18]Gerhard Fohler, Tomas Lennvall, Giorgio C. Buttazzo:
Improved handling of soft aperiodic tasks in offline scheduled real-time systems using total bandwidth server. ETFA (1) 2001: 151-157 - [c17]Pau Martí, Josep M. Fuertes, Gerhard Fohler:
An integrated approach to real-time distributed control systems over fieldbuses. ETFA (1) 2001: 177-182 - [c16]Radu Dobrin, Gerhard Fohler:
Implementing off-line message scheduling on controller area network (CAN). ETFA (1) 2001: 241-245 - [c15]Pau Martí, Ricard Villà, Josep M. Fuertes, Gerhard Fohler:
On real-time control tasks schedulability. ECC 2001: 2227-2232 - [c14]Pau Martí, Josep M. Fuertes, Krithi Ramamritham, Gerhard Fohler:
Jitter Compensation for Real-Time Control Systems. RTSS 2001: 39-48 - [c13]Radu Dobrin, Gerhard Fohler, Peter P. Puschner:
Translating Off-Line Schedules into Task Attributes for Fixed Priority Scheduling. RTSS 2001: 225-234 - 2000
- [c12]Radu Dobrin, Yusuf Özdemir, Gerhard Fohler:
Task attribute assignment of fixed priority scheduled tasks to reenact off-line schedules. RTCSA 2000: 150-154 - [c11]Damir Isovic, Gerhard Fohler:
Efficient Scheduling of Sporadic, Aperiodic, and Periodic Tasks with Complex Constraints. RTSS 2000: 207-216
1990 – 1999
- 1999
- [c10]Damir Isovic, Gerhard Fohler:
Handling sporadic tasks in off-line scheduled distributed real-time systems. ECRTS 1999: 60-67 - 1998
- [c9]Kristian Sandström, Christer Eriksson, Gerhard Fohler:
Handling Interrupts with Static Scheduling in an Automotive Vehicle Control System. RTCSA 1998: 158-165 - 1997
- [c8]Gerhard Fohler, Krithi Ramamritham:
Static scheduling of pipelined periodic tasks in distributed real-time systems. RTS 1997: 128-135 - [c7]Gerhard Fohler:
Adaptive fault-tolerance with statically scheduled real-time systems. RTS 1997: 161-167 - [c6]Andreas Polze, Gerhard Fohler, Matthias Werner:
Predictable Network Computing. ICDCS 1997: 423-431 - 1995
- [c5]Gerhard Fohler:
Joint Scheduling of Distributed Complex Periodic and Hard Aperiodic Tasks in Statically Scheduled Systems. RTSS 1995: 152-161 - 1994
- [c4]Gerhard Fohler, Christian Huber:
Integration of RTL and precedence graphs with a static scheduler as verifier. RTS 1994: 22-25 - 1993
- [c3]Hermann Kopetz, Gerhard Fohler, Günter Grünsteidl, Heinz Kantz, Gustav Pospischil, Peter P. Puschner, Johannes Reisinger, Ralf Schlatterbeck, Werner Schütz, Alexander Vrchoticky, Ralph Zainlinger:
Real-time system development: The programming model of MARS. ISADS 1993: 290-299 - 1992
- [c2]Hermann Kopetz, Gerhard Fohler, Günter Grünsteidl, Heinz Kantz, Gustav Pospischil, Peter P. Puschner, Johannes Reisinger, Ralf Schlatterbeck, Werner Schütz, Alexander Vrchoticky, Ralph Zainlinger:
The programmer's view of MARS. RTSS 1992: 223-226 - 1991
- [j1]Hermann Kopetz, Ralph Zainlinger, Gerhard Fohler, Heinz Kantz, Peter P. Puschner, Werner Schütz:
The design of real-time systems: from specification to implementation and verification. Softw. Eng. J. 6(3): 72-82 (1991) - [c1]Hermann Kopetz, Ralph Zainlinger, Gerhard Fohler, Heinz Kantz, Peter P. Puschner, Werner Schütz:
An Engineering Approach to Hard Real-Time System Design. ESEC 1991: 166-188
Coauthor Index
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