CMU Research Builds on Pittsburgh’s Energy Legacy To Advance Microreactor Innovation
<p> <img loading="lazy" src="https://www.cmu.edu/news/sites/default/files/styles/listings_desktop_1x_/public/2026-03/Westinghouse%20visit%20July%202025.jpeg.webp?itok=C2F--CIz" width="900" height="508" alt="people standing in front of microreactor"> </p> CMU researchers are directly advancing the next generation of energy innovation by helping to design resilient, transportable microreactors, building on the Pittsburgh region's century-long legacy as a leader in energy.
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Containing the Reproducibility Gap: Automated Repository-Level Containerization for Scholarly Jupyter Notebooks
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CRLB Minimization for ISAC Systems with Segmented Waveguide-Enabled Pinching Antenna
arXiv:2604.00572v1 Announce Type: new Abstract: Pinching-antenna (PA) has recently attracted considerable research attention in wireless systems, realized by attaching small dielectric particles along a waveguide. Building upon which, the segmented waveguide-enabled pinching-antenna system (SWAN) has been proposed to mitigate the inter-antenna radiation problem in uplink transmissions of conventional PA systems. In this work, SWAN-assisted integrated sensing and communication (ISAC) is investigated, where a base station (BS) equipped with SWAN provides downlink communications for multiple communication users (CUs) and performs sensing for multiple targets. The dual-functional signals transmitted by the BS are radiated by the SWAN, and the echo signals reflected by the targets are captured
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Single-Waveguide Multiple-Pinching-Antenna Systems: OMA versus NOMA
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