This paper presents an energy-efficient processing platform for wearable sensor nodes,
designed to support diverse biological signals and algorithms. The platform features a 0.5 V …

Sensor technology is becoming pervasive in our everyday lives, measuring the real world
around us. The Internet of Things enables sensor devices to become active citizens of the …

Personalized healthcare devices enable low-cost, unobtrusive and long-term acquisition of
clinically relevant biosignals. These appliances, termed wireless body sensor nodes …

Transport Triggered Architectures (TTAs) possess many advantageous, such as modularity,
flexibility, and scalability. As an exposed datapath architecture, TTAs can effectively reduce …

Considering the variety of studies that have been reported in low‐power designing era, the
subthreshold design trend in Very Large Scale Integrated (VLSI) circuits has experienced a …

Many of us in the field of ultra-low-V dd processors experience difficulty in assessing the
sub/near threshold circuit techniques proposed by earlier papers. This paper investigates …

In the last decade, improvements on technology scaling have enabled the design of a novel
generation of wearable biosensing monitors. These smart Wireless Body Sensor Nodes …

Energy efficiency has become one of the most important topics in computing. To meet the
ever increasing demands of the mobile market, the next generation of processors will have …

In the Internet-of-Things (IoT) era, there is an increasing trend to enable intelligent behavior
in edge computing sensors. Thus, a new generation of smart wearable devices for health …

This paper introduces a novel computing architecture devoted to the ultra-low power
analysis of multiple bio-signals. Its structure comprises several processors interfaced with a …