For decades, the design of untethered devices has been focused on delivering a fixed quality of service with minimum power consumption, to enable battery-powered devices with reasonably long deployment lifetime. However, to realize the promised tens of billions of connected devices in the Internet of Things, computers must operate autonomously and harvest ambient energy to avoid the cost and maintenance requirements imposed by mains- or battery-powered operation. But harvested power typically fluctuates, often unpredictably, and with large temporal and spatial variability. Energy-driven computers are designed to treat energy-availability as a first-class citizen, in order to gracefully adapt to the dynamics of energy harvesting. They may sl...
Energy-neutral Internet of Things requires freeing embedded devices from batteries and powering them...
Intermittent computing is a new paradigm enabling battery-less computing devices to be powered direc...
Emerging applications for Internet of Things devices demand smaller mass, size and cost whilst incre...
An energy harvester is a small part of a larger embedded system. Historically, such systems have typ...
Intermittently-powered energy-harvesting systems offer the potential to form a long-lasting and envi...
There has been increasing interest over the last decade in the powering of embedded systems from ‘ha...
Energy harvesting computing has been gaining increasing traction over the past decade, fueled by tec...
Battery-free energy-harvesting devices have the potential to operate for decades, since they draw po...
Energy harvesting has become a promising power solution for the Internet of Things, liberating numer...
Energy harvesting and battery-free sensing devices show great promise for revolutionizing computing ...
Embedded systems powered from time-varying energy harvesting sources traditionally operate using the...
The maturation of energy-harvesting technology and ultra-low-power computer systems has led to the a...
There has been a dramatic increase in recent years in the number of battery-powered embedded electro...
The advent of ultra-low-power computer systems has enabled intermittently powered, battery-free devi...
Various industry forecasts project that, by 2020, there will be around 50 billion devices connected ...
Energy-neutral Internet of Things requires freeing embedded devices from batteries and powering them...
Intermittent computing is a new paradigm enabling battery-less computing devices to be powered direc...
Emerging applications for Internet of Things devices demand smaller mass, size and cost whilst incre...
An energy harvester is a small part of a larger embedded system. Historically, such systems have typ...
Intermittently-powered energy-harvesting systems offer the potential to form a long-lasting and envi...
There has been increasing interest over the last decade in the powering of embedded systems from ‘ha...
Energy harvesting computing has been gaining increasing traction over the past decade, fueled by tec...
Battery-free energy-harvesting devices have the potential to operate for decades, since they draw po...
Energy harvesting has become a promising power solution for the Internet of Things, liberating numer...
Energy harvesting and battery-free sensing devices show great promise for revolutionizing computing ...
Embedded systems powered from time-varying energy harvesting sources traditionally operate using the...
The maturation of energy-harvesting technology and ultra-low-power computer systems has led to the a...
There has been a dramatic increase in recent years in the number of battery-powered embedded electro...
The advent of ultra-low-power computer systems has enabled intermittently powered, battery-free devi...
Various industry forecasts project that, by 2020, there will be around 50 billion devices connected ...
Energy-neutral Internet of Things requires freeing embedded devices from batteries and powering them...
Intermittent computing is a new paradigm enabling battery-less computing devices to be powered direc...
Emerging applications for Internet of Things devices demand smaller mass, size and cost whilst incre...