Sensor networksNew sensor array transforms data collection

Published 18 March 2015

As urban populations increase, so too does the complexity involved in maintaining basic services like clean water and emergency services. One of the biggest barriers to making cities “smarter” — for example, comprehensively monitoring sources of waterway pollutants in real time — is quick and easy access to data. Future scenarios like these depend on technology not yet widely available. Future “smart” cities would have to feature hundreds, maybe thousands, of strategically placed sensors. These devices would record everything from air pressure and temperature to microbial content, and the data would be relayed instantly to the laptops of people who can make decisions based on what they are seeing. Researchers have developed the Waggle platform to outfit researchers with a next-generation data collection capabilities.

As urban populations increase, so too does the complexity involved in maintaining basic services like clean water and emergency services. One of the biggest barriers to making cities “smarter” — for example, comprehensively monitoring sources of waterway pollutants in real time — is quick and easy access to data.

Future scenarios like these depend on technology not yet widely available. Future “smart” cities would have to feature hundreds, maybe thousands, of strategically placed sensors. These devices would record everything from air pressure and temperature to microbial content, and the data would be relayed instantly to the laptops of people who can make decisions based on what they are seeing.

An ANL release reports that researchers at the U.S. Department of Energy’s Argonne National Laboratory are laying the groundwork for that future now. Their newly developed Waggle platform outfits researchers with a next-generation data collection experience. Featuring the same type of circuit board and real-time processing speeds inside your smartphone, “Wagglers” can add their own mix of sensors, specific to what they’re researching, and install programs onto a single low-power “system on a chip” computer board, complete with a Linux-based operating system to control them.

Waggle can gather the data, send it up to the cloud and get a really fantastic picture of whatever physical processes the researcher wants, whether it’s city or climate data or even hyperspectral data from plants,” said Argonne senior computer scientist and project leader Pete Beckman. “This is the equivalent of a microscope looking at a cell, except we’re using sensors, turning them towards the environment and getting the most comprehensive picture yet of what is actually happening.”

Waggle began as a small project characterizing heat and temperature fluctuations inside a supercomputer’s machine room. Simple devices lined the computer racks, recording and transmitting data from air flow and temperature. Soon, though, researchers realized that what they really needed was a computing platform for sensors to process the data they were receiving.

Once a sensor is placed in its environment, “the data just sits there isolated,” said Argonne materials scientist and 1851 Royal Commission Design Fellow Jacqueline Cole.” If anything goes wrong during this period of testing, then you’ve got nothing to come back to. With Waggle, you can monitor the project website, and if something looks kind of screwy you can go in and correct it.”