This paper discusses network-wide energy optimization of embedded systems which can adapt by switching configurations. We model applications and their task chains in a network of embedded devices, including sleep modes and change of configuration, which provides a basic adaptation mechanism. We present a formal model of the energy consumption for such systems and apply it to automotive embedded systems. In particular, we develop new potential for network-wide energy savings as well as optimizations for adaptive systems. For instance, we show that non-optimal configurations may lead to a globally optimal system setup, if a system adapts regularly
Discovering the most appropriate reconfiguration instants for improving performance and lowering pow...
The first part of this thesis addresses dynamic power minimisation for data and control dominated em...
The recent advances in technologies including wireless communications, VLSI design, and multimedia p...
This paper discusses network-wide energy optimization of embedded systems which can adapt by switchi...
This paper discusses the next steps towards how system developers can easily and accurately evaluate...
This paper presents and evaluates a new approach of modeling energy consumption of communication wit...
Embedded systems execute applications with different performance requirements. These applications ex...
Minimizing energy consumption is a key issue in designing real-time applications on wireless embedde...
[[abstract]]The trend towards distributed, networked embedded systems is changing the way power shou...
Increases in computing capabilities of mobile devices have led to the use of multimedia applications...
[[abstract]]New embedded systems offer rich power management features in the form of multiple operat...
New embedded systems offer rich power management features in the form of multiple operational and no...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
The widespread use of battery-operated embedded systems with wireless communication capabilities (e....
Energy management is a critical concern in the design of embedded systems to prolong the lifetime or...
Discovering the most appropriate reconfiguration instants for improving performance and lowering pow...
The first part of this thesis addresses dynamic power minimisation for data and control dominated em...
The recent advances in technologies including wireless communications, VLSI design, and multimedia p...
This paper discusses network-wide energy optimization of embedded systems which can adapt by switchi...
This paper discusses the next steps towards how system developers can easily and accurately evaluate...
This paper presents and evaluates a new approach of modeling energy consumption of communication wit...
Embedded systems execute applications with different performance requirements. These applications ex...
Minimizing energy consumption is a key issue in designing real-time applications on wireless embedde...
[[abstract]]The trend towards distributed, networked embedded systems is changing the way power shou...
Increases in computing capabilities of mobile devices have led to the use of multimedia applications...
[[abstract]]New embedded systems offer rich power management features in the form of multiple operat...
New embedded systems offer rich power management features in the form of multiple operational and no...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
The widespread use of battery-operated embedded systems with wireless communication capabilities (e....
Energy management is a critical concern in the design of embedded systems to prolong the lifetime or...
Discovering the most appropriate reconfiguration instants for improving performance and lowering pow...
The first part of this thesis addresses dynamic power minimisation for data and control dominated em...
The recent advances in technologies including wireless communications, VLSI design, and multimedia p...