영문목차
Title page=0,1,4
Contents=i,5,1
Figures=ii,6,1
Tables=iii,7,1
Abstract=iv,8,1
Chapter1. Introduction=1,9,4
Chapter2. An Energy-aware Elevator Group Control System=5,13,1
2.1 Introduction=5,13,3
2.2 System model=7,15,3
2.3 The energy-aware elevator group control scheme=9,17,5
2.4 Performance evaluation=13,21,7
2.5 Summary=19,27,1
Chapter3. Parallelism-aware Request Scheduling for MEMS-based Storage Devices=20,28,1
3.1 Introduction=20,28,6
3.2 Related works=25,33,1
3.2.1 Request Scheduling=25,33,4
3.3 Parallelism-aware request scheduling=28,36,1
3.3.1 Basics of MEMS-based Storage=28,36,3
3.3.2 Parallelism-aware Scheduling=30,38,5
3.3.3 Aging Extension to Parallelism-Aware Scheduling=34,42,2
3.4 Experimental results=36,44,9
3.5 Summary=44,52,2
Chapter4. Conclusions=46,54,2
References=48,56,7
[summary in korean]=55,63,2
Figure2-1. Structure of the elevator group control system=8,16,1
Figure2-2. The principle of elevator movement=10,18,1
Figure2-3. Adaptive tuning of control parameter α=12,20,1
Figure2-4. Change of control parameter α as time progresses=14,22,1
Figure2-5. Average run count(RNC)=17,25,1
Figure2-6. Average waiting time=17,25,1
Figure2-7. Average energy consumption=18,26,1
Figure2-8. Average and Maximum waiting times=18,26,1
Figure3-1. MEMS-based storage and mobile consumer electronics devices=21,29,1
Figure3-2. Physical structure of a MEMS-based storage device=23,31,1
Figure3-3. An example of P-SPTF request scheduling=32,40,1
Figure3-4. Data organization of MEMS-based storage in our experiments=37,45,1
Figure3-5. Average response time increases with synthetic trace=40,48,1
Figure3-6. Average response time with Cello99 trace=41,49,1
Figure3-7. Squared coefficient of variation with synthetic trace=42,50,1
Figure3-8. Squared coefficient of variation with Cello99 trace=43,51,1
Table2-1 Experimental Conditions=13,21,1
Table2-2 Types of the Systems=15,23,1
Table3-1 Enqueue times of pending requests=32,40,1
Table3-2 Experimental parameters of the MEMS-based storage device=36,44,1