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Daniel J. Jakubisin
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- affiliation: Virginia Tech, Blacksburg, Bradley Department of Electrical and Computer Engineering
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2020 – today
- 2025
- [c35]Kumar Sai Bondada, Usama Saeed, Yibin Liang, Daniel J. Jakubisin, Lingjia Liu, R. Michael Buehrer:
Distributed Uplink Joint Transmission for 6G Communication. EuCNC/6G Summit 2025: 554-559 - [c34]Kumar Sai Bondada, Daniel J. Jakubisin, R. Michael Buehrer:
Impact of Synchronization Offsets and CSI Feedback Delay in Distributed MIMO Systems. ICC Workshops 2025: 2132-2137 - [c33]Paul Broome, Daniel J. Jakubisin, Alan J. Michaels
, Harpreet S. Dhillon:
Sub-band Stitching of Zadoff-Chu Waveforms for Sub-THz Channel Sounding. MILCOM 2025: 299-304 - [c32]Jamie Sloop, Evan Allen, Evar Jones, Charles E. Thornton, Lingjia Liu, Fred Templin, Daniel J. Jakubisin:
Federated Learning for MCS Selection in 5G Sidelink MANETs. MILCOM 2025: 612-617 - [c31]Kumar Sai Bondada, Hiten Kothari, Yibin Liang, Daniel J. Jakubisin, R. Michael Buehrer:
Experimental Demonstration of Robust Distributed Wireless Clock Synchronization. MILCOM 2025: 919-920 - [c30]Badhrinarayan Malolan, Daniel J. Jakubisin, Jeffrey H. Reed:
Deep Learning Interference Suppression for Cyclostationary Signals. MILCOM 2025: 1321-1326 - 2024
- [c29]Hanchao Yang, Michel Kulhandjian, Hovannes Kulhandjian
ML-Based Low-Density Spreading Code Design. IEEECONF 2024: 754-758 - [c28]Samantha Frietchen, Daniel J. Jakubisin, Alan J. Michaels
Semi-Automation of Wideband Channel Sounding Transmitter. DySPAN 2024: 145-150 - [c27]Zachary Schutz, Daniel J. Jakubisin, Charles E. Thornton
Linear Jamming Bandits: Learning to Jam OFDM-Modulated Signals. ICC 2024: 2567-2572 - [c26]Kumar Sai Bondada, Daniel J. Jakubisin, Nishith D. Tripathi, Jeffrey H. Reed:
Bit Error Rate Analysis for 5G New Radio Interface Augmented by a Spread Spectrum Underlay. ICC 2024: 5299-5304 - [c25]Xiang Cheng, Daniel J. Jakubisin, Hanchao Yang, Kumar Sai Bondada, Nishith D. Tripathi, Yaling Yang, Gustave Anderson
Constellation-Based Detection for Frequency Spread OFDM Underlay. MILCOM 2024: 1-6 - [c24]Hanchao Yang, Connor McPeak, Rakesh Nagampally, Nishith D. Tripathi, Gustave Anderson
Agile 5G Networks: Advance Traffic Steering xAPP for Interference Mitigation. MILCOM 2024: 300-305 - [c23]Samuel B. Brown, Stephen Young, Adam Wagenknecht, Daniel J. Jakubisin, Charles E. Thornton
Aircraft Radar Altimeter Interference Mitigation Through a CNN-Layer Only Denoising Autoencoder Architecture. MILCOM 2024: 306-311 - [c22]Jamie Sloop, Evan Allen, Charles E. Thornton
A Demonstration of 5G Sidelink-Enabled MANETs Within CORE/EMANE Framework. MILCOM 2024: 657-658 - [c21]Connor McPeak, Kumar Sai Bondada, Nishith D. Tripathi, Gus Anderson
Demonstration of 5G DCI Obfuscation with a Spread Underlay. MILCOM 2024: 672-673 - [c20]Connor McPeak, Rakesh Reddy Nagampally, Hanchao Yang, Nishith D. Tripathi, Gus Anderson
Enhancing 5G Spectrum Agility Through O-RAN xApp Initiated Handovers. MILCOM 2024: 674-675 - [c19]Zachary Schutz, Daniel J. Jakubisin, Charles E. Thornton
Linear Jamming Bandits: Learning to Jam 5G-based Coded Communications Systems. MILCOM 2024: 795-800 - [c18]Kumar Sai Bondada, Daniel J. Jakubisin, Karim A. Said
Wireless Mobile Distributed-MIMO for 6G. VTC Fall 2024: 1-7 - [c17]Jamie Sloop, Evan Allen, Charles E. Thornton
System-Level Emulation of 5G Sidelink MANETs. VTC Fall 2024: 1-6 - [i6]Samuel B. Brown, Stephen Young, Adam Wagenknecht, Daniel J. Jakubisin, Charles E. Thornton
Aircraft Radar Altimeter Interference Mitigation Through a CNN-Layer Only Denoising Autoencoder Architecture. CoRR abs/2410.03423 (2024) - 2023
- [c16]Zachary Schutz, Daniel J. Jakubisin:
Contextual Bandits: Band of Operation Selection in Underwater Acoustic Communications. ICC Workshops 2023: 697-702 - [c15]Taiwo Oyedare, Vijay K. Shah, Daniel J. Jakubisin, Jeffrey H. Reed:
Keep It Simple: CNN Model Complexity Studies for Interference Classification Tasks. INFOCOM Workshops 2023: 1-6 - [c14]Kumar Sai Bondada, Xiang Cheng, Hanchao Yang, Daniel J. Jakubisin, Nishith D. Tripathi, Gus Anderson
Demonstration of 5G-Underlay Signal Co-existence. MILCOM 2023: 227-232 - [c13]Kumar Sai Bondada, Hanchao Yang, Xiang Cheng, Daniel J. Jakubisin, Nishith D. Tripathi, Gus Anderson
Enhanced Non-preemptive Support of URLLC using Spread Spectrum Underlay Signalling. MILCOM 2023: 298-303 - [c12]Hanchao Yang, Kumar Sai Bondada, Xiang Cheng, Daniel J. Jakubisin, Nishith D. Tripathi, Yaling Yang, Gustave Anderson
Underlay-based 5G Sidelink with Co-channel Interference Cancellation. MILCOM 2023: 304-310 - [c11]Anders M. Buvarp
Probability-Reduction of Geolocation using Reconfigurable Intelligent Surface Reflections. WCNC 2023: 1-6 - [i5]Taiwo Oyedare, Vijay K. Shah
Keep It Simple: CNN Model Complexity Studies for Interference Classification Tasks. CoRR abs/2303.03326 (2023) - [i4]Charles E. Thornton
On the Role of 5G and Beyond Sidelink Communication in Multi-Hop Tactical Networks. CoRR abs/2309.16628 (2023) - 2022
- [j3]Taiwo Oyedare
Interference Suppression Using Deep Learning: Current Approaches and Open Challenges. IEEE Access 10: 66238-66266 (2022) - [c10]Xiang Cheng, Hanchao Yang, Daniel J. Jakubisin, Nishith D. Tripathi, Gus Anderson
5G Physical Layer Resiliency Enhancements with NB-IoT Use Case Study. MILCOM 2022: 379-384 - 2021
- [c9]M. R. Williamson, William C. Headley
Multi-Antenna Pre-processing for Improved RFML in Congested Spectral Environments. DySPAN 2021: 288-295 - [i3]Taiwo Oyedare, Vijay K. Shah, Daniel J. Jakubisin, Jeffrey H. Reed:
Interference Suppression Using Deep Learning: Current Approaches and Open Challenges. CoRR abs/2112.08988 (2021)
2010 – 2019
- 2016
- [j2]Daniel J. Jakubisin
Approximate Joint MAP Detection of Co-Channel Signals in Non-Gaussian Noise. IEEE Trans. Commun. 64(10): 4224-4237 (2016) - [c8]Daniel J. Jakubisin, R. Michael Buehrer, Claudio R. C. M. da Silva:
BP, MF, and EP for Joint Channel Estimation and Detection of MIMO-OFDM Signals. GLOBECOM 2016: 1-6 - [c7]Reza Monir Vaghefi, SaiDhiraj Amuru, Daniel J. Jakubisin, Javier Schloemann, R. Michael Buehrer:
MIMO-radar-based indoor passive geolocation and tracking. PLANS 2016: 622-629 - [i2]Daniel J. Jakubisin, R. Michael Buehrer, Claudio R. C. M. da Silva:
Probabilistic Receiver Architecture Combining BP, MF, and EP for Multi-Signal Detection. CoRR abs/1604.04834 (2016) - 2015
- [j1]Daniel J. Jakubisin, R. Michael Buehrer:
Performance, Complexity, and Receiver Design for Code-Aided Frame Synchronization in Multipath Channels. IEEE Trans. Commun. 63(9): 3363-3376 (2015) - [c6]Daniel J. Jakubisin, R. Michael Buehrer:
Approximate joint MAP detection of co-channel signals. MILCOM 2015: 1530-1535 - [i1]Daniel J. Jakubisin, R. Michael Buehrer:
Approximate Joint MAP Detection of Co-Channel Signals. CoRR abs/1503.06751 (2015) - 2014
- [c5]Daniel J. Jakubisin, R. Michael Buehrer:
On the complexity-performance trade-off in code-aided frame synchronization. SPAWC 2014: 364-368 - [c4]Daniel J. Jakubisin, Christopher Ian Phelps, R. Michael Buehrer:
Iterative joint detection, decoding, and synchronization with a focus on frame timing. WCNC 2014: 446-451 - 2013
- [c3]SaiDhiraj Amuru, Daniel J. Jakubisin, R. Michael Buehrer, Claudio R. C. M. da Silva:
Asynchronous signal detection in frequency-selective non-Gaussian channels. ACSSC 2013: 2103-2107 - [c2]Daniel J. Jakubisin, Claudio R. C. M. da Silva:
Feasibility Study of Outdoor Wireless Communication in the 60 GHz Band. MILCOM 2013: 1244-1249 - 2012
- [c1]Daniel J. Jakubisin, R. Michael Buehrer:
Improved modulation classification using a factor-graph-based iterative receiver. MILCOM 2012: 1-6
Coauthor Index
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