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ORCIDAlan Burns
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- affiliation: University of York, UK
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2020 – today
- 2020
[j112]Alan Burns
, Ian J. Hayes, Cliff B. Jones:
Deriving Specifications of Control Programs for Cyber Physical Systems. Comput. J. 63(5): 774-790 (2020)- [j111]Xiaotian Dai, Alan Burns:
Period adaptation of real-time control tasks with fixed-priority scheduling in cyber-physical systems. J. Syst. Archit. 103: 101691 (2020) - [j110]Pan Dong, Zhe Jiang, Alan Burns, Yan Ding, Jun Ma:
Build real-time communication for hybrid dual-OS system. J. Syst. Archit. 107: 101774 (2020) - [j109]Sanjoy Baruah, Alan Burns:
Expressing survivability considerations in mixed-criticality scheduling theory. J. Syst. Archit. 109: 101755 (2020) - [j108]Shuai Zhao, Jorge Garrido, Ran Wei, Alan Burns, Andy J. Wellings, Juan Antonio de la Puente:
A complete run-time overhead-aware schedulability analysis for MrsP under nested resources. J. Syst. Softw. 159 (2020) - [j107]James Harbin, Alan Burns, Robert I. Davis, Leandro Soares Indrusiak, Iain Bate, David Griffin:
The AirTight Protocol for Mixed Criticality Wireless CPS. ACM Trans. Cyber Phys. Syst. 4(2): 19:1-19:28 (2020) - [j106]Wanli Chang, Ran Wei, Shuai Zhao, Andy J. Wellings, Jim Woodcock, Alan Burns:
Development Automation of Real-Time Java: Model-Driven Transformation and Synthesis. ACM Trans. Embed. Comput. Syst. 19(5): 31:1-31:26 (2020) - [c151]Kunal Agrawal, Alan Burns, Abhishek Singh, Sanjoy Baruah:
Minimizing Execution Duration in the Presence of Learning-Enabled Components. DATE 2020: 1644-1649 - [c150]Kunal Agrawal, Sanjoy Baruah, Alan Burns:
The Safe and Effective Use of Learning-Enabled Components in Safety-Critical Systems. ECRTS 2020: 7:1-7:20 - [c149]Alan Burns, Leandro Soares Indrusiak, N. Smirnov, J. Harrison:
A Novel Flow Control Mechanism to Avoid Multi-Point Progressive Blocking in Hard Real-Time Priority-Preemptive NoCs. RTAS 2020: 137-147 - [i2]Cliff B. Jones, Alan Burns:
A Rely-Guarantee Specification of Mixed-Criticality Scheduling. CoRR abs/2012.01493 (2020)
2010 – 2019
- 2019
- [j105]Hao Xu, Alan Burns:
A semi-partitioned model for mixed criticality systems. J. Syst. Softw. 150: 51-63 (2019) - [j104]Borislav Nikolic, Sebastian Tobuschat, Leandro Soares Indrusiak, Rolf Ernst, Alan Burns:
Real-time analysis of priority-preemptive NoCs with arbitrary buffer sizes and router delays. Real Time Syst. 55(1): 63-105 (2019) - [j103]Calvin Deutschbein, Tom Fleming, Alan Burns, Sanjoy Baruah:
Multi-core cyclic executives for safety-critical systems. Sci. Comput. Program. 172: 102-116 (2019) - [j102]Xiaotian Dai, Wanli Chang, Shuai Zhao, Alan Burns:
A Dual-Mode Strategy for Performance-Maximisation and Resource-Efficient CPS Design. ACM Trans. Embed. Comput. Syst. 18(5s): 85:1-85:20 (2019) - [c148]Sanjoy Baruah, Alan Burns:
Incorporating Robustness and Resilience into Mixed-Criticality Scheduling Theory. ISORC 2019: 155-162 - [c147]Wanli Chang, Shuai Zhao, Ran Wei, Andy J. Wellings, Alan Burns:
From Java to real-time Java: a model-driven methodology with automated toolchain (invited paper). LCTES 2019: 123-134 - [c146]David Griffin, James Harbin, Alan Burns, Iain Bate, Robert I. Davis, Leandro Soares Indrusiak:
Validating high level simulation results against experimental data and low level simulation: a case study. RTNS 2019: 30-40 - [c145]Kunal Agrawal, Sanjoy Baruah, Alan Burns:
Fault-tolerant transmission of messages of differing criticalities across a shared communication medium. RTNS 2019: 41-49 - [c144]Kunal Agrawal, Sanjoy Baruah, Alan Burns:
Semi-Clairvoyance in Mixed-Criticality Scheduling. RTSS 2019: 458-468 - [c143]Pan Dong, Zhe Jiang, Alan Burns, Yan Ding, Jun Ma:
Work-in-Progress: Real-Time RPC for Hybrid Dual-OS System. RTSS 2019: 532-535 - 2018
- [j101]Alan Burns, Robert I. Davis:
A Survey of Research into Mixed Criticality Systems. ACM Comput. Surv. 50(6): 82:1-82:37 (2018) - [d1]Alessandro Vittorio Papadopoulos, Enrico Bini, Sanjoy Baruah, Alan Burns:
AdaptMC: A Control-Theoretic Approach for Achieving Resilience in Mixed-Criticality Systems (Artifact). Dagstuhl Artifacts Ser. 4(2): 01:1-01:3 (2018) - [j100]Alan Burns, Robert I. Davis, Sanjoy Baruah, Iain Bate:
Robust Mixed-Criticality Systems. IEEE Trans. Computers 67(10): 1478-1491 (2018) - [c142]Leandro Soares Indrusiak, Alan Burns, Borislav Nikolic:
Buffer-aware bounds to multi-point progressive blocking in priority-preemptive NoCs. DATE 2018: 219-224 - [c141]Robert I. Davis, Iain Bate, Guillem Bernat, Ian Broster, Alan Burns, Antoine Colin, Stuart Hutchesson, Nigel Tracey:
Transferring Real-Time Systems Research into Industrial Practice: Four Impact Case Studies. ECRTS 2018: 7:1-7:24 - [c140]Alessandro Vittorio Papadopoulos, Enrico Bini, Sanjoy Baruah, Alan Burns:
AdaptMC: A Control-Theoretic Approach for Achieving Resilience in Mixed-Criticality Systems. ECRTS 2018: 14:1-14:22 - [c139]Robert I. Davis, Sebastian Altmeyer, Alan Burns:
Mixed Criticality Systems with Varying Context Switch Costs. RTAS 2018: 140-151 - [c138]Pan Dong, Alan Burns, Zhe Jiang, Xiangke Liao:
TZDKS: A New TrustZone-Based Dual-Criticality System with Balanced Performance. RTCSA 2018: 59-64 - [c137]Alan Burns, James Harbin, Leandro Soares Indrusiak, Iain Bate, Robert I. Davis, David Griffin:
AirTight: A Resilient Wireless Communication Protocol for Mixed-Criticality Systems. RTCSA 2018: 65-75 - 2017
- [j99]Tom Fleming, Huang-Ming Huang, Alan Burns, Christopher D. Gill, Sanjoy Baruah, Chenyang Lu:
Corrections to and Discussion of "Implementation and Evaluation of Mixed-criticality Scheduling Approaches for Sporadic Tasks". ACM Trans. Embed. Comput. Syst. 16(3): 77:1-77:4 (2017) - [j98]Iain Bate, Alan Burns, Robert I. Davis:
An Enhanced Bailout Protocol for Mixed Criticality Embedded Software. IEEE Trans. Software Eng. 43(4): 298-320 (2017) - [c136]Jorge Garrido, Shuai Zhao, Alan Burns, Andy J. Wellings:
Supporting Nested Resources in MrsP. Ada-Europe 2017: 73-86 - [c135]Xiaotian Dai, Alan Burns:
Predicting Worst-Case Execution Time Trends in Long-Lived Real-Time Systems. Ada-Europe 2017: 87-101 - [c134]Alan Burns, Sanjoy Baruah:
Migrating Mixed Criticality Tasks Within a Cyclic Executive Framework. Ada-Europe 2017: 203-216 - [c133]Shuai Zhao, Jorge Garrido, Alan Burns, Andy J. Wellings:
New schedulability analysis for MrsP. RTCSA 2017: 1-10 - [c132]Calvin Deutschbein, Tom Fleming, Alan Burns, Sanjoy Baruah:
Multi-core Cyclic Executives for Safety-Critical Systems. SETTA 2017: 94-109 - 2016
- [j97]Jeff Gostick, Mahmoudreza Aghighi, James Hinebaugh, Tom Tranter, Michael A. Hoeh, Harold Day, Brennan Spellacy, Mostafa H. Sharqawy, Aimy Bazylak, Alan Burns, Werner Lehnert, Andreas Putz:
OpenPNM: A Pore Network Modeling Package. Comput. Sci. Eng. 18(4): 60-74 (2016) - [j96]Robert I. Davis, Liliana Cucu-Grosjean, Marko Bertogna, Alan Burns:
A review of priority assignment in real-time systems. J. Syst. Archit. 65: 64-82 (2016) - [c131]Alan Burns:
Why the Expressive Power of Programming Languages Such as Ada Is Needed for Future Cyber Physical Systems. Ada-Europe 2016: 3-11 - [c130]Sanjoy K. Baruah, Alan Burns, Zhishan Guo:
Scheduling Mixed-Criticality Systems to Guarantee Some Service under All Non-erroneous Behaviors. ECRTS 2016: 131-138 - [c129]Tom Fleming, Sanjoy Baruah, Alan Burns:
Improving the Schedulability of Mixed Criticality Cyclic Executives via Limited Task Splitting. RTNS 2016: 277-286 - [i1]Leandro Soares Indrusiak, Alan Burns, Borislav Nikolic:
Analysis of buffering effects on hard real-time priority-preemptive wormhole networks. CoRR abs/1606.02942 (2016) - 2015
- [j95]Robert I. Davis, Alan Burns, Sanjoy Baruah, Thomas Rothvoß, Laurent George, Oliver Gettings:
Exact comparison of fixed priority and EDF scheduling based on speedup factors for both pre-emptive and non-pre-emptive paradigms. Real Time Syst. 51(5): 566-601 (2015) - [j94]Alan Burns, Marina Gutiérrez, Mario Aldea Rivas, Michael González Harbour:
A Deadline-Floor Inheritance Protocol for EDF Scheduled Embedded Real-Time Systems with Resource Sharing. IEEE Trans. Computers 64(5): 1241-1253 (2015) - [j93]Robert I. Davis, Alan Burns, José Marinho, Vincent Nélis, Stefan M. Petters, Marko Bertogna:
Global and Partitioned Multiprocessor Fixed Priority Scheduling with Deferred Preemption. ACM Trans. Embed. Comput. Syst. 14(3): 47:1-47:28 (2015) - [c128]Alan Burns, Tom Fleming, Sanjoy K. Baruah:
Cyclic Executives, Multi-core Platforms and Mixed Criticality Applications. ECRTS 2015: 3-12 - [c127]Leandro Soares Indrusiak, James Harbin, Alan Burns:
Average and Worst-Case Latency Improvements in Mixed-Criticality Wormhole Networks-on-Chip. ECRTS 2015: 47-56 - [c126]Iain Bate, Alan Burns, Robert I. Davis:
A Bailout Protocol for Mixed Criticality Systems. ECRTS 2015: 259-268 - [c125]H. C. Wong, Alan Burns:
Priority-Based Functional Reactive Programming (P-FRP) Using Deferred Abort. RTCSA 2015: 227-236 - [c124]Hao Xu, Alan Burns:
Semi-partitioned model for dual-core mixed criticality system. RTNS 2015: 257-266 - [c123]Robert I. Davis, Alan Burns, Victor Pollex, Frank Slomka:
On priority assignment for controller area network when some message identifiers are fixed. RTNS 2015: 279-288 - [c122]H. Almatary, Neil C. Audsley, Alan Burns:
Reducing the Implementation Overheads of IPCP and DFP. RTSS 2015: 295-304 - [c121]Dirk Müller, Alan Burns:
Deriving period restrictions from a given utilization bound under RMS. SIES 2015: 178-184 - 2014
- [j92]Alan Burns:
Foreword. Leibniz Trans. Embed. Syst. 1(1): 00:1-00:2 (2014) - [c120]Alan Burns, Andy J. Wellings:
Deadline-Aware Programming and Scheduling. Ada-Europe 2014: 107-118 - [c119]H. C. Wong, Alan Burns:
Schedulability Analysis for the Abort-and-Restart (AR) Model. RTNS 2014: 119 - [c118]David Griffin, Benjamin Lesage, Alan Burns, Robert I. Davis:
Lossy Compression for Worst-Case Execution Time Analysis of PLRU Caches. RTNS 2014: 203 - [c117]David Griffin, Benjamin Lesage, Alan Burns, Robert I. Davis:
Static Probabilistic Timing Analysis of Random Replacement Caches using Lossy Compression. RTNS 2014: 289 - [c116]Alan Burns, Robert I. Davis:
Adaptive Mixed Criticality Scheduling with Deferred Preemption. RTSS 2014: 21-30 - [c115]Alan Burns, James Harbin, Leandro Soares Indrusiak:
A Wormhole NoC Protocol for Mixed Criticality Systems. RTSS 2014: 184-195 - 2013
- [j91]Ian J. Hayes, Alan Burns, Brijesh Dongol, Cliff B. Jones:
Comparing Degrees of Non-Determinism in Expression Evaluation. Comput. J. 56(6): 741-755 (2013) - [j90]Shiyao Lin, Andy J. Wellings, Alan Burns:
Supporting lock-based multiprocessor resource sharing protocols in real-time programming languages. Concurr. Comput. Pract. Exp. 25(16): 2227-2251 (2013) - [j89]Kun Wei, Jim Woodcock, Alan Burns:
Modelling temporal behaviour in complex systems with Timebands. Formal Methods Syst. Des. 43(3): 520-551 (2013) - [j88]Alan Burns, Laurent George:
Guest editorial: multiprocessor scheduling. Real Time Syst. 49(2): 137-139 (2013) - [j87]Fengxiang Zhang, Alan Burns:
Schedulability analysis of EDF-scheduled embedded real-time systems with resource sharing. ACM Trans. Embed. Comput. Syst. 12(3): 67:1-67:19 (2013) - [c114]Alan Burns, Robert I. Davis:
Mixed Criticality on Controller Area Network. ECRTS 2013: 125-134 - [c113]Alan Burns, Andy J. Wellings:
A Schedulability Compatible Multiprocessor Resource Sharing Protocol - MrsP. ECRTS 2013: 282-291 - [c112]Alan Burns:
Predictability and Mixed Criticality. PECCS 2013 - [c111]Robert I. Davis, Alan Burns, José Marinho, Vincent Nélis, Stefan M. Petters, Marko Bertogna:
Global fixed priority scheduling with deferred pre-emption. RTCSA 2013: 1-11 - [c110]Sanjoy K. Baruah, Alan Burns:
Fixed-priority scheduling of dual-criticality systems. RTNS 2013: 173-181 - 2012
- [j86]Alan Burns, Robert I. Davis, P. Wang, Fengxiang Zhang:
Partitioned EDF scheduling for multiprocessors using a C=D task splitting scheme. Real Time Syst. 48(1): 3-33 (2012) - [c109]Mark Louis Fairbairn, Alan Burns:
Implementing and Verifying EDF Preemption-Level Resource Control. Ada-Europe 2012: 193-206 - [c108]Abbas Eslami Kiasari, Axel Jantsch, Marco Bekooij, Alan Burns, Zhonghai Lu:
Analytical approaches for performance evaluation of networks-on-chip. CASES 2012: 211-212 - [c107]Rolf Ernst, Alan Burns, Lothar Thiele, Jimmy Le Rhun:
Mixed critical system design and analysis. EMSOFT 2012: 247-248 - [p2]Kun Wei, Jim Woodcock, Alan Burns:
Modelling Temporal Behaviour in Complex Systems with Timebands. Conquering Complexity 2012: 277-307 - 2011
- [j85]Robert I. Davis, Alan Burns:
A survey of hard real-time scheduling for multiprocessor systems. ACM Comput. Surv. 43(4): 35:1-35:44 (2011) - [j84]Robert I. Davis, Alan Burns:
Improved priority assignment for global fixed priority pre-emptive scheduling in multiprocessor real-time systems. Real Time Syst. 47(1): 1-40 (2011) - [j83]Fengxiang Zhang, Alan Burns, Sanjoy K. Baruah:
Sensitivity analysis of arbitrary deadline real-time systems with EDF scheduling. Real Time Syst. 47(3): 224-252 (2011) - [c106]Sanjoy K. Baruah, Alan Burns:
Implementing Mixed Criticality Systems in Ada. Ada-Europe 2011: 174-188 - [c105]Alan Burns:
Programming Languages for Real-Time Applications Executing on Parallel Hardware. Ada-Europe 2011: 193-195 - [c104]Alan Burns, Sanjoy K. Baruah:
Timing Faults and Mixed Criticality Systems. Dependable and Historic Computing 2011: 147-166 - [c103]Kun Wei, Jim Woodcock, Alan Burns:
Timed Circus: Timed CSP with the Miracle. ICECCS 2011: 55-64 - [c102]Andy J. Wellings, Shiyao Lin, Alan Burns:
Resource sharing in RTSJ and SCJ systems. JTRES 2011: 11-19 - [c101]Robert I. Davis, Alan Burns:
FPZL Schedulability Analysis. IEEE Real-Time and Embedded Technology and Applications Symposium 2011: 245-256 - [c100]Sanjoy K. Baruah, Alan Burns, Robert I. Davis:
Response-Time Analysis for Mixed Criticality Systems. RTSS 2011: 34-43 - [e1]Sébastien Faucou, Alan Burns, Laurent George:
19th International Conference on Real-Time and Network Systems, RTNS '11, Nantes, France, September 29-30, 2011. Proceedings. 2011 [contents] - 2010
- [j82]Zheng Shi, Alan Burns, Leandro Soares Indrusiak:
Schedulability Analysis for Real Time On-Chip Communication with Wormhole Switching. Int. J. Embed. Real Time Commun. Syst. 1(2): 1-22 (2010) - [j81]Alan Burns, Ian J. Hayes:
A timeband framework for modelling real-time systems. Real Time Syst. 45(1-2): 106-142 (2010) - [j80]Zheng Shi, Alan Burns:
Schedulability analysis and task mapping for real-time on-chip communication. Real Time Syst. 46(3): 360-385 (2010) - [c99]Alan Burns, Andy J. Wellings:
Dispatching Domains for Multiprocessor Platforms and Their Representation in Ada. Ada-Europe 2010: 41-53 - [c98]Andy J. Wellings, Alan Burns:
The Evolution of Real-Time Programming Revisited: Programming the Giotto Model in Ada 2005. Ada-Europe 2010: 196-207 - [c97]Fengxiang Zhang, Alan Burns, Sanjoy K. Baruah:
Sensitivity Analysis of the Minimum Task Period for Arbitrary Deadline Real-Time Systems. PRDC 2010: 101-108 - [c96]Fengxiang Zhang, Alan Burns, Sanjoy K. Baruah:
Sensitivity Analysis for EDF Scheduled Arbitrary Deadline Real-Time Systems. RTCSA 2010: 61-70 - [c95]Alan Burns, Bev Littlewood:
Reasoning About the Reliability of Multi-version, Diverse Real-Time Systems. RTSS 2010: 73-81 - [c94]Kun Wei, Jim Woodcock, Alan Burns:
A Timed Model of Circus with the Reactive Design Miracle. SEFM 2010: 315-319 - [c93]Jim Woodcock, Marcel Oliveira, Alan Burns, Kun Wei:
Modelling and Implementing Complex Systems with Timebands. SSIRI 2010: 1-13 - [c92]David Griffin, Alan Burns:
Realism in Statistical Analysis of Worst Case Execution Times. WCET 2010: 44-53
2000 – 2009
- 2009
- [b6]Alan Burns, Andrew J. Wellings:
Real-Time Systems and Programming Languages - Ada, Real-Time Java and C / Real-Time POSIX, Fourth Edition. International computer science series, Addison-Wesley 2009, ISBN 978-0-321-41745-9, pp. I-XVIII, 1-602 - [j79]Robert I. Davis, Alan Burns:
Robust priority assignment for messages on Controller Area Network (CAN). Real Time Syst. 41(2): 152-180 (2009) - [j78]Alan Burns:
Guest editorial: Special issue on ECRTS 2008. Real Time Syst. 43(1): 1-2 (2009) - [j77]Areej Zuhily, Alan Burns:
Exact scheduling analysis of non-accumulatively monotonic multiframe tasks. Real Time Syst. 43(2): 119-146 (2009) - [j76]Robert I. Davis, Thomas Rothvoß, Sanjoy K. Baruah, Alan Burns:
Exact quantification of the sub-optimality of uniprocessor fixed priority pre-emptive scheduling. Real Time Syst. 43(3): 211-258 (2009) - [j75]Fengxiang Zhang, Alan Burns:
Schedulability Analysis for Real-Time Systems with EDF Scheduling. IEEE Trans. Computers 58(9): 1250-1258 (2009) - [c91]Alan Burns, Andy J. Wellings, Fengxiang Zhang:
Combining EDF and FP Scheduling: Analysis and Implementation in Ada 2005. Ada-Europe 2009: 119-133 - [c90]Zheng Shi, Alan Burns:
Real-Time Communication Analysis with a Priority Share Policy in On-Chip Networks. ECRTS 2009: 3-12 - [c89]Fengxiang Zhang, Alan Burns:
Improvement to Quick Processor-Demand Analysis for EDF-Scheduled Real-Time Systems. ECRTS 2009: 76-86 - [c88]Robert I. Davis, Alan Burns:
Priority Assignment for Global Fixed Priority Pre-Emptive Scheduling in Multiprocessor Real-Time Systems. RTSS 2009: 398-409 - 2008
- [j74]Alan Burns, Sanjoy K. Baruah:
Sustainability in Real-time Scheduling. J. Comput. Sci. Eng. 2(1): 74-97 (2008) - [j73]Yanching Chu, Alan Burns:
Flexible hard real-time scheduling for deliberative AI systems. Real Time Syst. 40(3): 241-263 (2008) - [j72]Robert I. Davis, A. Zabos, Alan Burns:
Efficient Exact Schedulability Tests for Fixed Priority Real-Time Systems. IEEE Trans. Computers 57(9): 1261-1276 (2008) - [c87]Areej Zuhily, Alan Burns:
Exact scheduling analysis of accumulatively monotonic multiframe tasks subjected to release jitter and arbitrary deadlines. ETFA 2008: 600-607 - [c86]Areej Zuhily, Alan Burns:
Exact Response Time Scheduling Analysis of Accumulatively Monotonic Multiframe Real Time Tasks. ICTAC 2008: 410-424 - [c85]Zheng Shi, Alan Burns:
Real-Time Communication Analysis for On-Chip Networks with Wormhole Switching. NOCS 2008: 161-170 - [c84]Robert I. Davis, Alan Burns:
Response Time Upper Bounds for Fixed Priority Real-Time Systems. RTSS 2008: 407-418 - [c83]Zheng Shi, Alan Burns:
Priority Assignment for Real-Time Wormhole Communication in On-Chip Networks. RTSS 2008: 421-430 - [c82]Paulo Martins, Alan Burns:
On the meaning of modes in uniprocessor real-time systems. SAC 2008: 324-325 - 2007
- [b5]Alan Burns, Andy J. Wellings:
Concurrent and real-time programming in Ada. Cambridge University Press 2007, pp. I-XIV, 1-461 - [j71]Alan Burns, Tse-Min Lin:
An engineering process for the verification of real-time systems. Formal Aspects Comput. 19(1): 111-136 (2007) - [j70]Areej Zuhily, Alan Burns:
Optimal (D-J)-monotonic priority assignment. Inf. Process. Lett. 103(6): 247-250 (2007) - [j69]Robert I. Davis, Alan Burns, Reinder J. Bril, Johan J. Lukkien:
Controller Area Network (CAN) schedulability analysis: Refuted, revisited and revised. Real Time Syst. 35(3): 239-272 (2007) - [c81]Alan Burns, Andy J. Wellings:
Delivering Real-Time Behaviour. Domain Modeling and the Duration Calculus 2007: 1-50 - [c80]Andy J. Wellings, Alan Burns:
Real-Time Utilities for Ada 2005. Ada-Europe 2007: 1-14 - [c79]Yanching Chu, Alan Burns:
Supporting Deliberative Real-Time AI Systems: A Fixed Priority Scheduling Approach. ECRTS 2007: 259-268 - [c78]Andy J. Wellings, Alan Burns, Osmar Marchi dos Santos, Benjamin M. Brosgol:
Integrating Priority Inheritance Algorithms in the Real-Time Specification for Java. ISORC 2007: 115-123 - [c77]Robert I. Davis, Alan Burns:
Robust Priority Assignment for Fixed Priority Real-Time Systems. RTSS 2007: 3-14 - [c76]Fengxiang Zhang, Alan Burns:
Analysis of Hierarchical EDF Pre-emptive Scheduling. RTSS 2007: 423-434 - [r2]