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1Dissertation/ Thesis
المؤلفون: 蔡林峻, Tsai, Linjiun
المساهمون: 電機資訊學院: 電機工程學研究所, 指導教授: 廖婉君, 蔡林峻, Tsai, Linjiun
مصطلحات موضوعية: 雲端運算, 巨量資料, 資源最佳化, 記憶體管理, 效能成本權衡, 效能保證, 網路最佳化, Cloud Computing, Big Data, Resource Optimization, Memory Management, Performance-Cost Trade-off, Performance Guarantee, Network Optimization
Time: 89
وصف الملف: 2435601 bytes; application/pdf
Relation: http://ntur.lib.ntu.edu.tw/handle/246246/276379; http://ntur.lib.ntu.edu.tw/bitstream/246246/276379/1/ntu-105-D97921014-1.pdf
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2Dissertation/ Thesis
المؤلفون: 蔡林峻, Tsai, Linjiun
المساهمون: 電機資訊學院: 電機工程學研究所, 指導教授: 廖婉君, 蔡林峻, Tsai, Linjiun
مصطلحات موضوعية: 雲端運算, 巨量資料, 資源最佳化, 記憶體管理, 效能成本權衡, 效能保證, 網路最佳化, Cloud Computing, Big Data, Resource Optimization, Memory Management, Performance-Cost Trade-off, Performance Guarantee, Network Optimization
Time: 89
وصف الملف: 2435601 bytes; application/pdf
Relation: http://ntur.lib.ntu.edu.tw/handle/246246/276378; http://ntur.lib.ntu.edu.tw/bitstream/246246/276378/1/ntu-105-D97921014-1.pdf
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3Dissertation/ Thesis
المؤلفون: 郭錦福, Kuo, Chin-Fu
المساهمون: 郭大維, 臺灣大學:資訊工程學研究所
مصطلحات موضوعية: 相位雷達, 即時工作排程, 機率效能保證, 分散式系統, 即時資源分配, Phased-Array Radar, Real-Time Task Scheduling, Probabilistic Performance Guarantee, Distributed Systems, Real-Time Resource Allocation
وصف الملف: 567204 bytes; application/pdf
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Lipari. Implementing constant-bandwidth servers upon multiprocessor platforms. In the Proceedings of the 8th IEEE Real-Time and Embedded Technology and Applications Symposium, pages 154–163, September 2002. [7] R.A. Baugh. Computer Control of Modern Radars. RCAM&SR-Moorestown Library, 1973. [8] C. Bergenhem, M. Jonsson, B. Gorden, and A. Ahlander. Heterogeneous real-time services in high-performance system area networks - application demands and case study definitions. Technical Report IDE - 0254, School of Information Science, Computer and Electrical Engineering (IDE), Halmstad University, 2002. [9] R. Bettati. End-To-End Scheduling To Meet Deadlines In Distributed Systems. PhD thesis, Department of Computer Science, University of Illinois at Urbana-Champaign, 1994. [10] R. Bettati and J.W.-S. Liu. End-to-end scheduling to meet deadlines in distributed systems. In the Proceedings of the 2th IEEE International Conference on Distributed Computing Systems, pages 452–459, December 1990. [11] W.D. Blair, G.A. Watson, T. Kirubarajan, and Y. Bar-Shalom. Benchmark for radar allocation and tracking in ECM. IEEE Transactions on Aerospace and Electronic Systems, 34(4):1097–1114, October 1998. [12] M. Brahumi and D.J. Worthington. Queueing models for out-patient appointment systems- a case study. Journal of the Operational Research Society, 42:733–746, 1991. [13] C. Chang and T.-C.Wang. Use object-oriented paradigm to design a programmable radar digital signal processor. In the Workshop on Object-Oriented Technology and Applications, 1997. [14] J.P. Chawla, S.I. Marcus, and M.A. Shayman. Stability of wireless networks for mode S radar. In the Proceedings of the 32nd Conference on Information Sciences and Systems, 1998. [15] D. Chen, A.K. Mok, and S.K. Baruah. Scheduling distributed real-time tasks in the DGMF model. In the Proceedings of the IEEE Real Time Technology and Applications Symposium, pages 14–22, March 2000. [16] T.H. Cormen, C.E. Leiserson, and R.L. Rivest. Introduction to Algorithms. McGraw-Hill, second edition, 2001. [17] S.K. Dhall. Scheduling Periodic-Time-Critical Jobs on Single Processor and Multiprocessor Computing Systems. PhD thesis, University of Illinois, Urbana, 1977. [18] S.D. Elton and B.J. Slocumb. Robust parameter estimation for periodic point process signals using circular statistics. In the Proceedings of Signal Processing VIII, Theories and Applications (EUSIPCO-96), 1996. [19] W. Fan, E.A. Fox, P. Pathak, and H. Wu. The effects of fitness functions on genetic programming-based ranking discovery for web search. Journal of the American Society for Information Science and Technology, 55(7):628–636, 2004. [20] M.R. Garey and D.S. Johnson. Computers and Intractability: A guide to the Theory of NP-Completeness. W. H. Freeman & Company, San Francisco, 1979. [21] S. Ghosh, J. Hansen, R. Rajkumar, and J. Lehoczky. Integrated resource management and scheduling with multi-resource constraints. In the Proceedings of the 25th IEEE Real- Time Systems Symposium, pages 12–22, December 2004. [22] S. Gopalakrishnan, M. Caccamo, C.-S. Shih, C.-G. Lee, and L. Sha. Finite-horizon scheduling of radar dwells with online template construction. In the Proceedings of the 25th IEEE Real-Time Systems Symposium, pages 23–33, December 2004. [23] C.C. Han and K.J. Lin. Scheduling distance-constrained real-time tasks. In the Proceedings of the 13th IEEE Real-Time Systems Symposium, pages 300–308, December 1992. [24] R.V. Hogg and E.A. Tanis. Probability and Statistical Inference. Prentice Hall, 2001. [25] J.A. Hoogeveen, J.K. Lenstra, and B. Veltman. Preemptive scheduling in a two-stage multiprocessor flow shop is NP-hard. European Journal of Operational Research, 89(1):172– 175, 1996. [26] A.G. Huizing and A.A.F. Bloemen. An efficient scheduling algorithm for a multifunction radar. In IEEE International Radar Conference, pages 359–364, 1996. [27] A. Izquierdo-Fuente and J.R. Casar-Corredera. Approach to multifunction radar scheduling simulation. In IEEE Telesystems Conference, pages 67–70, 1994. [28] K. Jeffay and S. Goddard. A theory of rate-based execution. In the Proceedings of the 20th IEEE Real-Time Systems Symposium, pages 304–314, December 1999. [29] B. Kao and H. Garcia-Molina. Deadline assignment in a distributed soft real-time system. IEEE Transactions on Parallel and Distributed Systems, 8(12):1268–1274, 1997. [30] S. Khan. Quality Adaptation in a Multi-Session Adaptive Multimedia System: Model and Architecture. PhD thesis, Department of Electrical and Computer Engineering, University of Victoria, 1998. [31] L. Kleinrock. Queueing Systems Volume II: Computer Applications. Wiley-Interscience Publication, 1976. [32] J.W. Layland. Real-Time System. Prentice Hall, 2000. [33] C. Lee, J. Lehoczky, D. Siewiorek, R. Rajkumar, and J. Hansen. A scalable solution to the multi-resource QoS problem. In the Proceedings of the 20th IEEE Real-Time Systems Symposium, pages 315–326, December 1999. [34] C.-G. Lee, P.-S. Kang, C.-S. Shih, and L. Sha. Radar dwell scheduling considering physical characteristics of phased array antenna. In the Proceedings of The IEEE 24th Real- Time Systems Symposium, pages 14–24, December 2003. [35] C.G. Lee, C.S. Shih, and L. Sha. Service class-based online QoS management in surveillance radar systems. In the Proceedings of the 22nd IEEE Real-Time Systems Symposium, pages 139–150, December 2001. [36] K.J. Lin, S. Natarajan, and J.W.-S. Liu. Imprecise results: Utilizing partial computations in real-time systems. In the Proceedings of the 8th IEEE Real-Time Systems Symposium, pages 210–217, December 1987. [37] C.L. Liu and J.W. Layland. Scheduling algorithms for multiprogramming in a hard realtime environment. Journal of the ACM, 20(1):46–61, 1973. [38] X. Liu and S. Goddard. Resource sharing in an enhanced rate-based execution model. 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[45] Rapid prototyping of Application Specific Signal Processors (RASSP). http://eto.sysplan.com/eto/rassp. 2000. [46] R. Rajkumar, C. Lee, J. Lehoczky, and D. Siewiorek. A resource allocation model for QoS management. In the Proceedings of the 18th IEEE Real-Time Systems Symposium, pages 298–307, December 1997. [47] D. Rosu, K. Schwan, and S. Yalamanchili. FARA - a framework for adaptive resource allocation in complex real-time systems. In the Proceedings of the 4th IEEE Real Time Technology and Applications Symposium, pages 79–84, June 1998. [48] L. Sha, R. Rajkumar, and J.P. Lehoczky. Priority inheritance protocols: An approach to real-time synchronization. IEEE Transactions on Computers, 39(9):1175–1185, September 1990. [49] C.-S. Shih, S. Gopalakrishnan, P. Ganti, M. Caccamo, and L. Sha. Template-based realtime dwell scheduling with energy constraint. In the Proceedings of the 9th IEEE Real- Time and Embedded Technology and Applications Symposium, May 2003. [50] C.-S. Shih, S. Gopalakrishnan, P. Ganti, M. Caccamo, and L. Sha. Schedulability and fairness for computation tasks in surveillance radar systems. In the Proceedings of the 10th Real-time and Embedded Computing Systems and Applications Conference, 2004. [51] J.F. Shortle, P.H. Brill, M.J. Fischer, D. Gross, and D.M.B. Masi. An algorithm to compute the waiting time distribution for the M/G/1 queue. INFORMS Journal on Computing, 16(2):152–161, 2004. [52] B. Sprunt, L. Sha, and J. Lehoczky. Aperiodic task scheduling for hard-real-time systems. Real-Time Systems, 1(1):27–60, July 1989. [53] M. Spuri, G. Buttazzo, and F. Sensini. Scheduling aperiodic tasks in dynamic scheduling environment. In the Proceedings of the 16th IEEE Real-Time Systems Symposium, 1995. [54] L.H. Su. A hybrid two-stage flowshop with limited waiting time constraints. Computers and Industrial Engineering, 44(3):409–424, 2003. [55] J. Sun. Fixed-Priority End-to-End Scheduling in Distributed Real-time Systems. 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4
المؤلفون: 張正尚
المساهمون: 張正尚
مصطلحات موضوعية: 通訊網路, 效能保證, Communication network, Performance guarantee
Time: 45
وصف الملف: 50394 bytes; application/pdf