The widespread diffusion of wireless sensor net- works and wearable devices, together with the emergence of energy harvesting techniques, has motivated the development of ultra-low-power micro controller units (MCUs) which are highly energy efficient in active mode and provide a wide range of sleep states to be possibly exploited to save power during idle periods. In spite of their energy efficiency, state-of-the- art MCUs exhibit 16-bit RISC architectures clocked at up to tens of MHz and equipped with at least 16kbytes of main memory and 64kbytes of flash. This makes them suitable to run a virtual machine, bringing the benefits of a virtual runtime environment to power-constrained embedded systems. Virtual machines, however, im...
In spite of the availability of ultra-low-power microcontrollers and radio transceivers, the power ...
Abstract. An system-level power management technique for massively distributed wireless microsensor ...
The IoT is changing the way we live. However, challenges remain for a sustainable deployment of hund...
The widespread diffusion of wireless sensor net- works and wearable devices, together with the emer...
Idleness has to be carefully exploited in wireless sensor networks (WSNs) to save power and to accum...
The availability of off-the-shelf micro controller units based on energy efficient 16-bit RISC proce...
This paper presents a prototype hardware/software architecture for minimizing energy consumption on ...
International audienceWireless Sensor Network (WSN) technology is now emerging with appli- cations i...
In this paper the capabilities of ultra low power FPGAs to implement Wake-up Radios (WuR) for ultra ...
International audienceLow-power operating system runtimes used on IoT microcontrollers typically pro...
Due to the recent popularity of context-sensitive applications, there is a growing need for reliable...
The Internet-of-Things (IoT) paradigm continues to drive the research and development of energy-harv...
International audienceEngineering a hardware platform for a Wireless Sensor Network (WSN) node is kn...
In spite of the availability of ultra-low-power microcontrollers and radio transceivers, the power ...
Abstract. An system-level power management technique for massively distributed wireless microsensor ...
The IoT is changing the way we live. However, challenges remain for a sustainable deployment of hund...
The widespread diffusion of wireless sensor net- works and wearable devices, together with the emer...
Idleness has to be carefully exploited in wireless sensor networks (WSNs) to save power and to accum...
The availability of off-the-shelf micro controller units based on energy efficient 16-bit RISC proce...
This paper presents a prototype hardware/software architecture for minimizing energy consumption on ...
International audienceWireless Sensor Network (WSN) technology is now emerging with appli- cations i...
In this paper the capabilities of ultra low power FPGAs to implement Wake-up Radios (WuR) for ultra ...
International audienceLow-power operating system runtimes used on IoT microcontrollers typically pro...
Due to the recent popularity of context-sensitive applications, there is a growing need for reliable...
The Internet-of-Things (IoT) paradigm continues to drive the research and development of energy-harv...
International audienceEngineering a hardware platform for a Wireless Sensor Network (WSN) node is kn...
In spite of the availability of ultra-low-power microcontrollers and radio transceivers, the power ...
Abstract. An system-level power management technique for massively distributed wireless microsensor ...
The IoT is changing the way we live. However, challenges remain for a sustainable deployment of hund...