Ambient Intelligence Could Transform Embedded World, Researcher Says - InformationWeek

InformationWeek is part of the Informa Tech Division of Informa PLC

This site is operated by a business or businesses owned by Informa PLC and all copyright resides with them.Informa PLC's registered office is 5 Howick Place, London SW1P 1WG. Registered in England and Wales. Number 8860726.

IoT
IoT
Other

Ambient Intelligence Could Transform Embedded World, Researcher Says

Ambient intelligence could represent the next wave of information technology, according to a researcher at the International Solid State Circuits Conference.

SAN FRANCISCO — Ambient intelligence is the next wave of information technology, driven by software and both enabled and constrained by nanoscale physics, according to a researcher speaking at the International Solid State Circuits Conference here.

Hugo De Man, senior research fellow at the Interuniversity Microelectronics Center (IMEC, Leuven, Belgium), said the emergence of ambient intelligence will not require devices based solely on CMOS technologies. Instead, technologies emerging around CMOS, such as 3D packaging, microelectromechanical systems (MEMS) and polymer displays will also play key roles. Nanoscale biosensors could also connect electronics to biotechnology via IPv6, the next generation Internet protocol that enables every object on earth to have its own unique IP address.

In his ISSCC keynote address, De Man said Moore's Law scaling can only go so far. He called for a "more-than-Moore" strategy, the cost-effective integration of CMOS with MEMS, optical and passive components, new materials, biosilicon interfaces, autonomous energy sources and grain-size 3D packaging.

Complexity rests not in the number of transistors but in combining technologies with networking architectures to obtain simple sensor nodes. These microwatt devices are low-duty-cycle, low-throughput microsystems that unify a design into a single package: sensor, signal conditioning, A/D conversion, signal processing, a power-aware MAC layer, antennas, energy management and energy scavenging.

IMEC has developed a 1.4-cm3 2.4GHz sensor based on laminate packaging of bare dies, a solar-cell battery charger and an integrated antenna, De Man said. The system consumes 500 microwatts at 400 bits/s and has a 1 percent duty cycle. For true energy scavenging, only solar cells, piezoelectric MEMS and thermal generators have proven successful, but their average power capacity is limited to 100 microWatts/cm3.

Massive sensor deployment will require cost reductions down to the single-cent range. That not a problem with standard CMOS, but will be with non-CMOS devices such as passive components and MEMS.

The goal is to move ambient intelligence from the laboratory into the market. Ambient intelligence seeks to surround the environment with enabling technologies in a nonintrusive way by conspicuously hiding the technology behind its own "intelligence."

Healthcare could be an important application for ambient intelligence, providing the interface between electronics and biotissues. Other progress in this area was reported at the ISSCC.

Peter Fromherz at the Max Planck Institute for Biochemistry (Munich, Germany) is attempting to use neural circuits for technological applications. Since computers and the human brain use different charge carriers, the challenge for neuroelectronics is finding interfaces that are noninvasive for cells and noncorrosive for chips.

Meanwhile, a hybrid IC/microfluidic system developed at Harvard Univeristy's medical school could provide precise spatial control of individual biological cells using programmable magnetic fields. The system IC was made with SiGe, but it can be fabricated using CMOS technology, according the research team. A full CMOS/microfluidic hybrid system could serve as a single-use disposable device for performing biological experiments.

The IC produces spatially patterned magnetic fields created by an integrated microelectromagnet array. The magnetic fields can manipulate individual cells that are tagged by magnetic beads suspended in the microfluidic system.

De Man said IMEC is collaborating with Philips and Bosch on developing a technique to make integrated poly-SiGe gyroscopes. The fabrication technique is based on larger CMOS wafers and uses three extra mask steps. The 0.35-micron CMOS process includes five metal layers and standard passivation.

The process has the potential to become a generic technology in which different MEMS devices such as resonators and accelerometers can be processed together on top of standard CMOS, De Man said.

We welcome your comments on this topic on our social media channels, or [contact us directly] with questions about the site.
Comment  | 
Print  | 
More Insights
State of the Cloud
State of the Cloud
Cloud has drastically changed how IT organizations consume and deploy services in the digital age. This research report will delve into public, private and hybrid cloud adoption trends, with a special focus on infrastructure as a service and its role in the enterprise. Find out the challenges organizations are experiencing, and the technologies and strategies they are using to manage and mitigate those challenges today.
Commentary
Augmented Analytics Drives Next Wave of AI, Machine Learning, BI
Jessica Davis, Senior Editor, Enterprise Apps,  3/19/2020
Slideshows
How Startup Innovation Can Help Enterprises Face COVID-19
Joao-Pierre S. Ruth, Senior Writer,  3/24/2020
Commentary
Enterprise Guide to Robotic Process Automation
Cathleen Gagne, Managing Editor, InformationWeek,  3/23/2020
Register for InformationWeek Newsletters
Video
Current Issue
IT Careers: Tech Drives Constant Change
Advances in information technology and management concepts mean that IT professionals must update their skill sets, even their career goals on an almost yearly basis. In this IT Trend Report, experts share advice on how IT pros can keep up with this every-changing job market. Read it today!
White Papers
Slideshows
Twitter Feed
Sponsored Live Streaming Video
Everything You've Been Told About Mobility Is Wrong
Attend this video symposium with Sean Wisdom, Global Director of Mobility Solutions, and learn about how you can harness powerful new products to mobilize your business potential.
Sponsored Video
Flash Poll