In this paper, we discuss the different system design approaches used in microsensor systems and introduce a modular, scalable, power-aware microsensor.

Our architecture for a power-aware microsensor node highlights the collaboration between software that is capable of energy-quality tradeoffs and hardware with ...

This tool set allows a designer to develop and optimize protocols and algorithms in simulation, then rapidly transfer the design to the sensor hardware. 15.

This paper discusses the different system design approaches used in micros sensor systems and introduces a modular, scalable, power-aware microsensor ...

In order to break the 100 μW average power barrier of a wireless microsensor node, aggressive design meth- odologies need to be developed.

The nodes' limited energy capacity and extended lifetime requirements demand that all aspects of a microsensor node be designed in a power aware fashion.

An initial design of a sensor node that illustrates power-aware design methodologies is shown in Fig 1. This system, the first prototype of our µAMPS (micro ...

This paper presents insight and simula- tion/experimental results addressing some of the challenges of designing next generation wireless microsensor nodes.

Power Aware Design Methodologies was conceived as an effort to bring all aspects of power-aware design methodologies together in a single document.

Energy usage can be optimized at the chip, board, box, system, and network level. At each of these levels there are major gains that can be achieved. Low-power ...