Abstract
This paper presents a new task model where jobs are divided into segments A, B and C. Segment B has a specific time-interval where it should execute to fulfill some application constraints. We consider the execution of B as valid if performed inside that time-interval, otherwise, its contribution may be valueless to its task. We adapt some scheduling approaches from the literature and present a feasibility test in terms of expected QoS for our scheduling problem.
This research was supported by CNPq and CAPES.
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Leung, J.Y.T., Whitehead, J.: On the Complexity of Fixed-Priority Scheduling of Periodic, Real-Time Tasks. Performance Evaluation 2, 237–250 (1982)
Layland, J., Liu, C.: Scheduling Algorithms for Multiprogramming in a Hard-Real-Time Environment. Journal of the ACM 20(1), 46–61 (1973)
Ravindran, B., Jensen, E.D., Li, P.: On Recent Advances In Time/Utility Function Real-Time Scheduling And Resource Management. In: 8th IEEE International Symposium on Object-Oriented Real-Time Distributed Computing (2005)
Locke, C.D.: Software Architecture for Hard Real-Time Applications: Cyclic Executives vs. Fixed Priority Executives. Real-Time Systems 4, 37–53 (1992)
Tokuda, H., Wendorf, J.W., Wan, H.: Implementation of a Time-Driven Scheduler for Real-Time Operating Systems. In: 8th RTSS, pp. 271–280 (1987)
Burns, A., Prasad, D., Bondavalli, A., Giandomenico, F.D., Ramamritham, K., Stankovic, J., Strigini, L.: The Meaning and Role of Value in Scheduling Flexible Real-Time Systems. Journal of Systems Architecture 46, 305–325 (2000)
Buttazzo, G.C., Spuri, M., Sensini, F.: Value vs. Deadline Scheduling in Overload Conditions. In: 16th IEEE Real-Time Systems Symposium, pp. 90–99 (1995)
Liu, J., Shih, W.K., Lin, K.J., Bettati, R., Chung, J.Y.: Imprecise Computations. In: Proceeding of the IEEE (1994)
Jensen, E., Locke, C., Tokuda, H.: A Time-Driven Scheduling Model for Real-Time Operating Systems. In: Real-Time Sytems Symposium (1985)
Wu, H., Ravindran, B., Jensen, E.D., Balli, U.: Utility Accrual Scheduling under Arbitrary Time/Utility Functions and Multi-unit Resource Constraints. In: Proceedings of the 10th RTCSA (2004)
Lipton, R.J., Tomkins, A.: Online Interval Scheduling. In: 5th annual ACM-SIAM Symposium on Discrete Algorithms, Philadelphia, PA, USA, pp. 302–311 (1994)
Hassin, R., Shani, M.: Machine Scheduling with Earliness, Tardiness and Non-Execution Penalties. Computers and Operations Research 32, 683–705 (2005)
Velasco, M., Martí, P., Fuertes, J.M.: The Self Triggered Task Model for Real-Time Control Systems. In: 24th RTSS (WiP) (2003)
de la Rocha, F.R., de Oliveira, R.S.: Time-Interval Scheduling and its Applications to Real-Time Systems. In: 27th Real-Time Systems Symposium (WiP) (2006)
Gutierrez, J.P., Harbour, M.G.: Offset-Based Response Time Analysis of Distributed Systems Scheduled under EDF. In: 15th ECRTS (2003)
Jeffay, K., Stone, D.L.: Accounting for Interrupt Handling Costs in Dynamic Priority Task Systems. In: 14th RTSS (1993)
k.Baruah, S., Howell, R.R., Rosier, L.E.: Algorithms and Complexity Concerning the Preemptive Scheduling of Periodic, Real-Time Tasks on One Processor. Real-Time Systems 2, 301–324 (1990)
Leung, J., Merill, M.: A Note on the Preemptive Scheduling of Periodic, Real-Time Tasks. Information Processing Letters 11, 115–118 (1980)
Goossens, J.: Scheduling of Hard Real-Time Periodic Systems with Various Kinds of Deadline and Offset Constraints. PhD thesis, Université Libre de Bruxelles (1999)
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de la Rocha, F.R., de Oliveira, R.S. (2007). Real-Time Scheduling Under Time-Interval Constraints. In: Kuo, TW., Sha, E., Guo, M., Yang, L.T., Shao, Z. (eds) Embedded and Ubiquitous Computing. EUC 2007. Lecture Notes in Computer Science, vol 4808. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-77092-3_15
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DOI: https://doi.org/10.1007/978-3-540-77092-3_15
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