A Cal Poly electrical engineering professor has obtained a $496,000 grant to handle energy grid challenges utilizing edge computing

A Cal Poly electrical engineering professor has obtained a $496,000 grant to handle energy grid challenges utilizing edge computing

Contact: Emily Slater
805-756-6593, 805-266-0208; (e mail protected)

SAN LUIS OBISPO — With a mission to rework vitality grids, Cal Poly Assistant Professor Jason Boone has secured $496,000 in funding to develop revolutionary computational strategies for managing vitality methods.

The award from the Nationwide Science Basis is a collaborative grant sending $267,000 to Cal Poly and $229,000 to the College of Minnesota for a three-year undertaking titled “Analog and Hybrid Digital Computing for Energy and Power Programs.”

“Grid administration has grow to be extra advanced within the final 10 to twenty years,” mentioned Boone, who started educating electrical engineering at Cal Poly in 2022. Present computing instruments restrict our potential to make the grid extra sustainable, dependable and environment friendly. efficient.”

Cal Poly Assistant Professor Jason Boone has obtained a $496,000 grant in funding to develop revolutionary computational strategies for managing vitality methods.Picture courtesy of Jason Boone

This improvement will be attributed to the fast adoption of distributed vitality assets, equivalent to photo voltaic and wind, which might result in fast fluctuations in energy technology attributable to elements equivalent to climate circumstances, together with the growing reliance on electrical car (EV) charging, which might contribute Will increase demand for electrical energy, particularly throughout peak charging instances.

Utilizing new vitality sources and hundreds is important to reaching world sustainability targets, however integrating them into the grid poses challenges in planning, operation and monitoring, Boone mentioned.

The groups at Cal Poly and the College of Minnesota purpose to guage the feasibility of latest radical computing applied sciences which have the potential to be a lot sooner and extra succesful than conventional computing instruments utilized in grid purposes, equivalent to cloud or industrial servers. Embedded processors.

“The event of those new computing applied sciences can allow sooner, real-time decision-making, in addition to assist the adoption of superior management and prediction algorithms, together with synthetic intelligence-based applied sciences,” Boone mentioned.

Boone hopes to draw undergraduate and graduate college students within the fields of laptop engineering, laptop science, software program engineering and electrical engineering — the three departments underneath the umbrella of the newly launched Noyes Faculty of Utilized Computing.

“I consider there’s a variety of alternative right here to assist the targets of the Noyes College, each in analysis and educating, and I’m excited to collaborate with the scholars and school in all three departments,” he mentioned.

The undertaking’s concentrate on sustainability is more likely to appeal to a variety of scholars within the Faculty of Engineering.

“Many college students and younger individuals as we speak are very obsessed with sustainability and tackling local weather change, and I hope this undertaking will present them that having onerous technical expertise in engineering can present them with the flexibility to make a significant influence on this subject,” mentioned Boone.

The computing instruments developed via the undertaking might have purposes past {the electrical} grid.

“Computing — particularly real-time computing — is important in quite a lot of purposes, together with transportation, manufacturing and shopper electronics,” Boone mentioned. “What we’re growing might present transformative advantages to all of those areas.”

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