Add to ORKGPortable systems require long battery lifetime while still delivering high performance. Dynamic power management (DPM) policies trade o the performance for the power con-sumption at the system level in portable devices. In this work we present the time-indexed SMDP model (TISMDP) that we use to derive optimal policy for DPM in portable systems. TISMDP model is needed to handle the non-exponential user request interarrival times we observed in practice. We use our policy to control power consumption on three dierent devices: the SmartBadge portable device [18], the Sony Vaio laptop hard disk and WLAN card. Simula-tion results show large savings for all three devices when using our algorithm. In addition, we measured the power consumption an...
Power management techniques for mobile appliances put the components of the systems into low power s...
Dynamic power management schemes (also called policies) reduce the power consumption of complex elec...
Energy reduction is critical to increase the mobility and battery life for today’s pervasive computi...
Portable systems require long battery lifetime while still delivering high performance. Dynamic powe...
Portable wireless systems require long battery lifetime while still delivering high performance. The...
Battery life-time extension is a primary design objective for portable systems. Traditionally, batte...
Dynamic Power Management (DPM) is an important technique to reduce power consumption in embedded and...
Dynamic power management saves power by shutting down idle devices. Several management algorithms h...
Dynamic power management saves power by shutting down idle devices. Several management algorithms ha...
Dynamic power management (DPM) is a design methodology aimed at reducing power consumption of electr...
Dynamic power management is a design methodology aiming at controlling perfor-mance and power levels...
Rapid advances in technology have resulted in laptop (mobile) computers with performance and feature...
In this paper we provide an incremental methodology to as-sess the effect of the introduction of a d...
Abstract—A crucial objective in battery operated embedded systems is to work under the minimal power...
A multitude of different hard disk power management algorithms exists—applied to real systems or pro...
Power management techniques for mobile appliances put the components of the systems into low power s...
Dynamic power management schemes (also called policies) reduce the power consumption of complex elec...
Energy reduction is critical to increase the mobility and battery life for today’s pervasive computi...
Portable systems require long battery lifetime while still delivering high performance. Dynamic powe...
Portable wireless systems require long battery lifetime while still delivering high performance. The...
Battery life-time extension is a primary design objective for portable systems. Traditionally, batte...
Dynamic Power Management (DPM) is an important technique to reduce power consumption in embedded and...
Dynamic power management saves power by shutting down idle devices. Several management algorithms h...
Dynamic power management saves power by shutting down idle devices. Several management algorithms ha...
Dynamic power management (DPM) is a design methodology aimed at reducing power consumption of electr...
Dynamic power management is a design methodology aiming at controlling perfor-mance and power levels...
Rapid advances in technology have resulted in laptop (mobile) computers with performance and feature...
In this paper we provide an incremental methodology to as-sess the effect of the introduction of a d...
Abstract—A crucial objective in battery operated embedded systems is to work under the minimal power...
A multitude of different hard disk power management algorithms exists—applied to real systems or pro...
Power management techniques for mobile appliances put the components of the systems into low power s...
Dynamic power management schemes (also called policies) reduce the power consumption of complex elec...
Energy reduction is critical to increase the mobility and battery life for today’s pervasive computi...