Aydin H, Melhem R, Moss D. Dynamic and aggressive scheduling techniques for power-aware real-time systems[C]∥Proceedings of the 22th Real-Time Systems Symposium, London, 2001: 192-211.
[2]
Aydin H, Devadas V, Zhu D. System-level energy management for periodic real time tasks[C]∥Proceedings of the 27th IEEE international Real-Time Systems Symposium, Riode Janeiro, 2006: 313-322.
[3]
Jejurikar R, Pereira C, Gupta R. Dynamic slack reclamation with procrastination scheduling in real-time embedded systems[C]∥Proceedings of the 42th Design Automation Conference, San Diego, 2005: 111-116.
[4]
Zhong X, Xu C. Energy-aware modeling and scheduling for dynamic voltage scaling with statistical real-time guarantee[J]. IEEE Transactions on Computers, 2007, 56 (3):358-372.
[5]
Devadas V, Aydin H. On the interplay of voltage/frequency scaling and device power management for frame based real-time embedded applications[J]. IEEE Transactions on Computers, 2012, 61(1):31-44.
[6]
Zhu D, Aydin H. Reliability-aware energy manage-ment for periodic real-time tasks[J]. IEEE Transactions on Computers, 2009, 58(10): 1382-1396.
[7]
Wang W, Ranka S, Mishra P. Energy-aware dynamic slack allocation for real time multitasking systems[J]. Sustainable Computing: Informatics and Systems,2012, 2:128-137.
[8]
Lee C H, Shin K G. On-line dynamic voltage scaling for hard real time systems using the EDF algorithm[C]∥Proceedings of the 25th IEEE International Real Time Systems Symposium (RTSS 04), Lisbon, 2004: 319 -327.
[9]
Gong M, Seong Y, Lee C. On-line dynamic voltage scaling on processor with discrete frequency and voltage levels[C]∥Proceedings of International Conference on Convergence Information Technology, Gyeongju, 2007: 1824-1831.
[10]
张冬松, 金士尧, 吴彤.硬实时混合任务在线节能调度技术分析[J].计算机应用,2008(1): 236-239.Zhang Dong-song, Jin Shi-yao, Wu Tong. Online energy-efficient scheduling technique analysis for hard real-time mixed tasks[J]. Computer Applications,2008(1):236-239.
[11]
Shin D, Kim J. Dynamic voltage scaling of mixed task sets in priority-driven systems[J]. IEEE Transactions on Computer-aided Design of Integrated Circuits and Systems, 2006, 25(3): 438-453.
[12]
Aydin H, Yang Q. Energy-responsiveness tradeoffs for real-time systems with mixed workload[C]∥Real-Time and Embedded Technology and Applications Symposium,Toronto, 2004: 74-83.
[13]
Jejurikar R, Pereira C, Gupta R. Leakage aware dynamic voltage scaling for real time embedded systems[C]∥Proceedings of the 41th Design Automation Conference, San Diego, 2004:275-280.
[14]
Spuri M, Buttazzo G. Scheduling aperiodic tasks in dynamic priority systems[J]. Real-Time Systems, 1996, 10(2):179-210.
[15]
Niu L, Li W. Energy-efficient fixed-priority scheduling for real-time systems based on threshold work-demand analysis[C]∥Proceedings of the 9th International Hardware/Software Codesign and System Synthesis, 2011.
[16]
Chen J J, Kuo T W. Procrastination determination for periodic real-time tasks in leakage-aware dynamic voltage scaling systems[C]∥ICCAD, 2007:289-294.
[17]
Nasro M, Asad-Raza K, Ishtiaq A, et al. Minimizing response time implication in DVS scheduling for low power embedded systems[C]∥Innovations in Information Technology, 2008: 347-351.
