Millimeter-scale embedded sensing systems have unique advantages over larger devices as they are able to capture, analyze, store, and transmit data at the source while being unobtrusive and covert. However, area-constrained systems pose several challenges, including a tight energy budget and peak power, limited data storage, costly wireless communication, and physical integration at a miniature scale. This paper proposes a novel 6.7$\times$7$\times$5mm imaging system with deep-learning and image processing capabilities for intelligent edge applications, and is demonstrated in a home-surveillance scenario. The system is implemented by vertically stacking custom ultra-low-power (ULP) ICs and uses techniques such as dynamic behavior-specific p...
With a large number of sensors getting connected to the internet, scalability of Internet of Things...
A methodology for designing Wireless Camera Network nodes featuring long lifetime is presented. Wire...
The trend in Internet of Things research points toward performing increasingly compute-intensive dat...
Among thriving cyber physical systems, smart camera applications require to run both image sensors a...
In this paper, we present an ultra-low-power smart visual sensor architecture. A 10.6-μW low-resolut...
We propose an ultra-low-power (ULP) image signal processor (ISP) that performs on-the-fly in-process...
Adding vision capabilities to wireless sensors nodes (WSN) for the Internet-of-Things requires image...
This work presents a fully-programmable Internet of Things (IoT) visual sensing node that targets su...
The IoT is changing the way we live. However, challenges remain for a sustainable deployment of hund...
We propose an ultra-low power (ULP) Image Signal Processor (ISP) that performs on-the-fly in-process...
Data produced by wearable sensors is key in con- texts such as performance enhancement and training ...
There has been a tremendous growth in the number of sensors under the paradigm of the Internet of Th...
Society's increasing use of connected sensing and wearable computing has created robust demand for u...
Custom CMOS vision sensors could offer large opportunities for ultra-low power applications, introdu...
none4noThis paper presents a fully programmable Internet of Things visual sensing node that targets ...
With a large number of sensors getting connected to the internet, scalability of Internet of Things...
A methodology for designing Wireless Camera Network nodes featuring long lifetime is presented. Wire...
The trend in Internet of Things research points toward performing increasingly compute-intensive dat...
Among thriving cyber physical systems, smart camera applications require to run both image sensors a...
In this paper, we present an ultra-low-power smart visual sensor architecture. A 10.6-μW low-resolut...
We propose an ultra-low-power (ULP) image signal processor (ISP) that performs on-the-fly in-process...
Adding vision capabilities to wireless sensors nodes (WSN) for the Internet-of-Things requires image...
This work presents a fully-programmable Internet of Things (IoT) visual sensing node that targets su...
The IoT is changing the way we live. However, challenges remain for a sustainable deployment of hund...
We propose an ultra-low power (ULP) Image Signal Processor (ISP) that performs on-the-fly in-process...
Data produced by wearable sensors is key in con- texts such as performance enhancement and training ...
There has been a tremendous growth in the number of sensors under the paradigm of the Internet of Th...
Society's increasing use of connected sensing and wearable computing has created robust demand for u...
Custom CMOS vision sensors could offer large opportunities for ultra-low power applications, introdu...
none4noThis paper presents a fully programmable Internet of Things visual sensing node that targets ...
With a large number of sensors getting connected to the internet, scalability of Internet of Things...
A methodology for designing Wireless Camera Network nodes featuring long lifetime is presented. Wire...
The trend in Internet of Things research points toward performing increasingly compute-intensive dat...