Materials - NSF SWIFT & NewSpectrum PI Meeting 2025

Keynote Speech

Bridging the Gap: Translating Academic Spectrum Research into National Impact

Andrew Clegg (Valo Analytica LLC)

Panel Discussion

Advancing Spectrum Science: Rely on Domain Knowledge or Handoff to Machine Learning Models?

Moderator:

Kaushik Chowdhury, UT Austin

Panelists:

Neal Patwari, Univ. of Utah (presentation)
Fatemeh Afghah, Clemson Univ. (presentation)
Curtis Watson, The MITRE Corp. (presentation)
Shiwen Mao, Auburn Univ. (presentation)
Cong Shen, Univ. of Virginia (presentation)

Breakout Discussion

TBA

Oral and Poster Session Materials

Oral Session 1 (OS-1)

No.	Presenter	Project Title
1	Narayan Mandayam (Rutgers Univ.)	SWIFT: Enabling Spectrum Coexistence of 5G mmWave and Passive Weather Sensing
2	Tingjun Chen (Duke Univ.)	Collaborative Research: SWIFT: SHIELD: A Software-Hardware Approach for Spectrum Coexistence with Rapid Interferer Learning, Detection, and Mitigation
3	Charles Baylis (Baylor Univ.)	Collaborative Research: SWIFT: LARGE: Broker-Controlled Coexistence of 5G Wireless Artificially Intelligent Power Amplifier Array (AIPAA) with Passive Weather Radiometers
4	Aveek Dutta (U. at Albany SUNY)	Collaborative Research: SWIFT: Collaborative Interference Cancellation for Radio Astronomy
5	Michele Polese (Northeastern U.)	Collaborative Research: SWIFT-SAT: DASS: Dynamically Adjustable Spectrum Sharing between Ground Communication Networks and Earth Exploration Satellite Systems Above 100 GHz
6	Ali Gurbuz (NC State Univ.)	Collaborative Research: SWIFT-SAT: INtegrated Testbed Ensuring Resilient Active/Passive CoexisTence (INTERACT): End-to-End Learning-Based Interference Mitigation for Radiometers
7	Hongbin Li (Stevens Ins. of Tech.)	SWIFT-SAT: Unlimited Radio Interferometry: A Hardware-Algorithm Co-Design Approach to RAS-Satellite Coexistence
8	John Volakis (Florida International U.)	Collaborative Research:SWIFT:Ultra Wideband Flexible MIMO Radios for Energy Efficient Secure Spectrum Sharing
9	Cong Shen (Univ. of Virginia)	Collaborative Research: SWIFT: SMALL: Learning-Efficient Spectrum Access for No-Sensing Devices in Shared Spectrum
10	Arjuna Madanayake (Florida International U.)	Collaborative Research: SWIFT: AI-based Sensing for Improved Resiliency via Spectral Adaptation with Lifelong Learning
11	Hun-Seok Kim (U. of Michigan)	SWIFT: Instantaneous Feedback-based Adaptive Communications and Networks
12	Joel Johnson (The Ohio State Univ.)	Collaborative Research: SWIFT: Facilitating Novel Modalities for Spectrum Sharing between Earth-Observing Microwave Radiometers and Commercial Users
13	Miguel Morales (U. of Washington)	Collaborative Research: SWIFT-SAT: RFI Detection Across Six Orders of Magnitude in Intensity: A Unifying Framework with Weakly Supervised Machine Learning
14	Bang Nhan (NRAO)	SWIFT-SAT: Observational Data Sharing

Poster Session 1 (PS-1)

No.	Presenter	Project Title
1	Narayan Mandayam (Rutgers Univ.)	SWIFT: Intelligent Spatio-Temporal Metamaterial Massive MIMO Aperture Arrays with Hybrid Learning-based Channel Classifiers for Spectrum-Efficient Secured Wireless Communication
2	Chee Wei Wong (UCLA)	SWIFT: Coexisting spectrally-dense communications and passive sensing in directed multi-hop sub-millimeter-wave networks
3	Amir Mortazawi (U. of Michigan)	SWIFT: Electric Field Controlled Integrated Multiferroic Radio Frequency Devices for Interference Immune Broadband Wireless Systems
4	Fatemeh Afghah (Clemson Univ.)	Collaborative Research: SWIFT: LARGE: AI-Enabled Spectrum Coexistence between Active Communications and Passive Radio Services: Fundamentals, Testbed and Data
5	Vinay Chenna (USC)	SWIFT: Opportunistic mm-Wave Receivers
6	Marvin Onabajo (Northeastern U.)	SWIFT: Advancing Coexistence through a Cross-Layer Design Platform with an Adaptive Frequency-Selective Radio Front-End and Digital Algorithms
7	Zhi Ding (UC Davis)	SWIFT-SAT: Network Adaptation Based on Physics-Inspired Learning Framework for Radio Coexistence of Terrestrial and Satellite Information Systems
8	Marwan Krunz (U. of Arizona)	Collaborative Research: SWIFT: Coexistence and Interference Mitigation in the Mid-Band Spectrum: Analysis, Protocol Design, and Experimentation
9	Yue Wang (Georgia State U.)	Collaborative Research: SWIFT: Intelligent Dynamic Spectrum Access (IDEA): An Efficient Learning Approach to Enhancing Spectrum Utilization and Coexistence
10	Lingjia Liu (Virginia Tech)	Collaborative Research: SWIFT: Intelligent Dynamic Spectrum Access (IDEA): An Efficient Learning Approach to Enhancing Spectrum Utilization and Coexistence
11	Hamid Jafarkhani (UCI)	Collaborative Research: SWIFT: Dynamic Spectrum Sharing via Stochastic Optimization
12	Vijay Shah (North Carolina State U.)	Collaborative Research: SWIFT: Context-aware Spectrum Coexistence dEsign aNd implemenTation in satellite bands (ASCENT)
13	Cosmin Deaconu (Univ. of Chicago)	Collaborative Research: SWIFT-SAT: Coexistence of Remote Astronomical Instruments Susceptible to Interference with Large Communication Satellite Constellations
14	Connie Walker (NSF NOIRLab)	Collaborative Research: SWIFT-SAT: Minimizing Science Impact on LSST and Observatories Worldwide through Accurate Predictions of Satellite Position and Optical Brightness
15	Monisha Ghosh (U. of Notre Dame)	Collaborative Research: SWIFT: Coexistence and Interference Mitigation in the Mid-Band Spectrum: Analysis, Protocol Design, and Experimentation
16	Mai Vu (Tufts Univ.)	SWIFT: Transceiver and algorithms for multiband mobile communications in co-existence with passive uses at millimeter wave spectra
17	Jon Peha (CMU)	SWIFT: Resilient Spectrum-Sharing among Non-Geosynchronous Satellites

Oral Session 2 (OS-2)

No.	Presenter	Project Title
1	Gregory Hellbourg (Caltech)	Collaborative Research: SWIFT: Closing the Loop for Accountable Interference-free Spectrum Sharing with Passive Radio Receivers
2	Ting Zhu (The Ohio State U.)	Collaborative Research : SWIFT : Effective Spectrum Utilization for Coexisting Active, Semi-passive, and Passive IoT Systems
3	Jie Luo (Colorado State Univ.)	Collaborative Research: SWIFT: Enabling Intelligent Pinpoint Space-Spectrum Utilization and Sharing
4	Ken Duffy (Northeastern U.)	Collaborative Research: Interferers in Our Midst
5	Ben Wu (Rowan Univ.)	Collaborative Research: SWIFT: Wideband Spectrum Coexistence Enabled by Photonic Circuits: Cross-Layer Design and Implementation
6	Eylem Ekici (The Ohio State U.)	Collaborative Research: SWIFT: LARGE: DYNAmmWIC: Dynamic mmWave Spectrum Sharing Techniques for Public Safety Communications
7	Huacheng Zeng (Michigan State U.)	Collaborative Research: Breaking Information Sharing Barrier at Signal Level: A Learning-based Interference Mitigation for Pay-As-You-Go Spectrum Sharing
8	Kaushik Chowdhury (UT Austin)	Collaborative Research: SWIFT: MEDUSA: Mid-band Environmental Sensing Capability for Detecting Incumbents during Spectrum Sharing
9	Mingyue Ji (U. of Florida)	Collaborative Research: SWIFT: Decentralized Intelligent Spectrum Sharing in UAV Networks (DISH-uNET) via Hardware-software Co-design
10	George Trichopoulos (Arizona State U.)	SWIFT: Synergy and Coexistence of Millimeter Wave Wireless Communications, Imaging, and Localization
11	Longfei Shangguan (U. of Pittsburgh)	Collaborative Research: Enhancing Managed Spectrum Sharing with FR3-Cognizant Digital Twins
12	Ruozhou Yu (NC State U.)	Robustifying Predictive Intelligence for A New Spectrum Market
13	Carlos Caicedo Bastidas (Syracuse Univ.)	Collaborative Research: NewSpectrum: Track 1: Distributed Data-Driven Spectrum Management Architecture for the Next Era of Wireless
14	Negar Reiskarimian (MIT)	High Dynamic-Range Software-Defined Radio Front-Ends for Interference Mitigation in Future RF to mm-Wave Wireless Networks

Poster Session 2 (PS-2)

No.	Presenter	Project Title
1	Narayan Mandayam (Rutgers Univ.)	SWIFT-SAT: Software Defined Radio based Emulation of SAT-Terrestrial Network Coexistence in "FR3" Bands
2	Tingjun Chen (Duke Univ.)	Collaborative Research: NewSpectrum: Enabling Dense and In-Situ Spectrum Monitoring via Analog Correlators and Circuits-System Co-Design
3	Charles Baylis (Baylor Univ.)	Collaborative Research: NewSpectrum: Semiconductor Plasma Phased Arrays with Integrated System Performance-to-Radiator Mapping
4	Aveek Dutta (U. at Albany SUNY)	Collaborative Research: SWIFT: SCISRS: Signal Cancellation using Intelligent Surfaces for Radio Astronomy Services
5	Michele Polese (Northeastern U.)	From Open RAN to Open Spectrum - Sharing Spectrum, Services, and Infrastructure in Spectrum Era 4
6	Ali Gurbuz (North Carolina State University)	Collaborative Research: SWIFT: LARGE: AI-Enabled Spectrum Coexistence between Active Communications and Passive Radio Services: Fundamentals, Testbed and Data
7	Mingzhe Chen (Univ. of Miami)	Collaborative Research: NewSpectrum: Toward Untethered Extended Reality Through Wireless Sensing and Communications Co-design
8	Daniel Mittleman (Brown Univ.)	Collaborative Research: Multi-User Access to Sub-THz Spectrum
9	Aggelos Bletsas (Rutgers Univ.)	Track 1: EFFICIENT: BackscattEr Fabric For MultidImensional SpeCtrum SItuational AwarENess and ProTection
10	Nikolaos Sidiropoulos (Univ. of Virginia)	Agile Signal Alignment for Congested and Contested Spectrum Access
11	Yi Shi (Virginia Tech)	SWIFT-SAT: Efficient and On-Demand Spectrum Coexistence for Satellite-Terrestrial Systems
12	Morteza Hashemi (Univ. of Kansas)	AeroSpec: An Adaptive Spectrum Framework for Autonomous Aerial Systems: Optimization, Decentralized Markets, and Deployment
13	Ali Niknejad (UC Berkeley)	Wideband Ultra Linear Transceiver Circuits (WULT-C) for New Spectrum
14	Hao Xu (Univ. of Nevada, Reno)	Collaborative Research: SWIFT: Data Driven Learning and Optimization in Reconfigurable Intelligent Surface Enabled Industrial Wireless Network for Advanced Manufacturing
15	Husheng Li (Purdue Univ.)	Collaborative Research: SWIFT: Nonlinear and Inseparable Radar And Data (NIRAD) Transmission Framework for Pareto Efficient Spectrum Access in Future Wireless Networks