易胜博官网

鲍狈贬鈥檚 Broadband Center of Excellence (BCoE) has awarded two grants to 易胜博官网 researchers: one to a team that will bring the Internet of Things to water quality monitoring in the city of Nashua, and one to researchers who will create sensors to sample magnetic fields in the Arctic.

Grants to 易胜博官网 researchers will bring broadband technology to water quality monitoring in Nashua and space weather sampling in the Arctic.

The first study, led by Gopal Mulukutla, research scientist at the Earth Systems Research Center within the , will devise, test and implement smart sensor-based wireless broadband networks to conduct water quality monitoring in Nashua, 易胜博官网, and beyond.

After initial testing at two Durham sites 鈥� College Brook and Chesley Brook 鈥� the team will implement a fully functional network at the Mine Falls dam and canal system in Nashua. If successful, 易胜博官网 intends to pursue commercial applications.

鈥淲e hope that this project leads to easy and low-cost methods for detecting water quality problems around the world,鈥� says Jan Nisbet, senior vice provost for research at 易胜博官网.听

鈥淭hat would be a tremendous contribution from our university and from BCoE,鈥� Rouzbeh Yassini, BCoE executive director, adds.

In Nashua, the project will focus on finding the cause of stagnant conditions observed in the pond and canal system near Mine Falls, a city-owned hydropower station. In addition, researchers will test the Nashua River, deemed impaired by the state for chloride pollution, above the Mine Falls. The test results will be shared widely and are anticipated to be part of an upcoming state regulatory process regarding license renewal for Mine Falls to continue operating.

The proposed Internet of Things (IoT)-based water quality work benefits from low-cost sensors and the advance of wireless broadband technology, replacing the hardware and manual maintenance and monitoring that have been used traditionally in this type of effort.

鈥淯sing hardware assembled from off-the-shelf components, we can isolate the timing and location of pollution sources,鈥� the researchers say in their proposal.

In addition to Mulukutla, 易胜博官网 researchers Michael Routhier, manager of the Geographic Information Systems Laboratory within EOS, and Wilfred Wollheim, associate professor of natural resources and the environment, will participate in the work. The team will work closely with Nashua waterways manager Madeleine Mineau, a former researcher within EOS.

The second grant, to 易胜博官网 professor of physics Joachim Raeder and Nicholas Kirsch, associate professor of electrical and computer engineering and founding director of the Connectivity Research Center, aims to build a 鈥渟mart鈥� magnetometer that could measure the effects of space weather in remote Arctic regions.

鈥淏ased on the current structures in the ionosphere, an ideal observing network would have a space of 50 to 100 kilometers between sensors, but today鈥檚 networks are far from this level of density,鈥� the researchers write. 鈥淔urther, the most important regions, the auroral zones and polar caps, are most poorly covered because of how far they are from large populations.鈥�

The team aims to build a low-cost smart magnetometer to sense space weather and transmit data over long distances; ultimately, they hope to deploy hundreds of sensors to create a massive sensor network in the Arctic.

Established in 2013, the BCoE is an unbiased resource for government, universities, communities and corporations, providing factual information about broadband. BCoE coordinates research and consulting on broadband technologies and broadband community development and also makes recommendations to policy makers and practitioners regarding resources that are needed to effect change in their communities and bring broadband everywhere. A gift from the YAS Foundation, the philanthropic arm of the Yassini family, supports BCoE.

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