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research [2020/11/25 15:09] lingjialiu [Completed Research Projects] |
research [2023/07/20 14:33] lingjialiu |
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Lingjia Liu has opportunities to work on both fundamental research through [[http://nsf.gov|National Science Foundation]], [[http://www.wpafb.af.mil/afrl/afosr/|U.S. Air Force Office of Scientific Research]], and [[http://www.wpafb.af.mil/AFRL/|U.S. Air Force Research Laboratory]] funded projects and applied research through making contributions to **4G** cellular standards (3GPP LTE/LTE-Advanced and //IEEE 802.16m//). This unique experience allows him to be able to identify and solve problems that have both theoretical significance and practical importance.\\ | Lingjia Liu has opportunities to work on both fundamental research through [[http://nsf.gov|National Science Foundation]], [[http://www.wpafb.af.mil/afrl/afosr/|U.S. Air Force Office of Scientific Research]], and [[http://www.wpafb.af.mil/AFRL/|U.S. Air Force Research Laboratory]] funded projects and applied research through making contributions to **4G** cellular standards (3GPP LTE/LTE-Advanced and //IEEE 802.16m//). This unique experience allows him to be able to identify and solve problems that have both theoretical significance and practical importance.\\ | ||
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- | In general, Lingjia Liu conducts research in probability theory, queueing theory, information theory, signal processing, and in their applications to wireless communication systems and networks. His current research focuses on inter-cell interference management, delay-sensitive communications over wireless networks, energy-efficient wireless communication, and enabling technologies for **5G**/**6G** networks. Currently, his research is sponsored by [[http://www.wpafb.af.mil/afrl/afosr/|Air Force Office of Scientific Research]], [[http://www.wpafb.af.mil/afrl/ri/|Air Force Research Laboratory]], [[http://nsf.gov|National Science Foundation]], [[https://www.nationalspectrumconsortium.org/|National Spectrum Consortium]], [[http://www.interdigital.com/|InterDigital]], and [[http://www.sra.samsung.com/research/standards-and-5g-mobility|Samsung Research America]]. His research efforts have been supported in part by over **$50 M** in research funding, with Lingjia Liu serving as the **principal investigator (PI)** on over **$6 M** federal grants. | + | In general, Lingjia Liu conducts research in probability theory, queueing theory, information theory, signal processing, and in their applications to wireless communication systems and networks. His current research focuses on inter-cell interference management, delay-sensitive communications over wireless networks, energy-efficient wireless communication, and enabling technologies for **5G**/**6G** networks. Currently, his research is sponsored by [[http://www.wpafb.af.mil/afrl/afosr/|Air Force Office of Scientific Research]], [[http://www.wpafb.af.mil/afrl/ri/|Air Force Research Laboratory]], [[http://nsf.gov|National Science Foundation]], [[https://www.nationalspectrumconsortium.org/|National Spectrum Consortium]], [[http://www.interdigital.com/|InterDigital]], and [[http://www.sra.samsung.com/research/standards-and-5g-mobility|Samsung Research America]]. His research efforts have been supported in part by over **$70 M** in research funding, with Lingjia Liu serving as the **principal investigator (PI)** on over **$8 M** federal grants. |
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* [[Hybrid|NSF/ECCS-1802710: Delay-Sensitive Hybrid Broadcast/Unicast Traffic over Heterogeneous Cellular Networks]], **Sole PI** from the leading institution, 08/10/2017-05/31/2021. | * [[Hybrid|NSF/ECCS-1802710: Delay-Sensitive Hybrid Broadcast/Unicast Traffic over Heterogeneous Cellular Networks]], **Sole PI** from the leading institution, 08/10/2017-05/31/2021. | ||
- | * [[SpecEES|NSF/ECCS-1811497: Enabling Spectrum and Energy-Efficient Dynamic Spectrum Access Wireless Networks using Neuromorphic Computing]], **PI** from the leading institution, 08/10/2017-07/31/2020. | + | * [[SpecEES|NSF/ECCS-1811497: Enabling Spectrum and Energy-Efficient Dynamic Spectrum Access Wireless Networks using Neuromorphic Computing]], **PI** from the leading institution, 08/10/2017-07/31/2023. |
- | * [[SSS|NSF/CNS-1811720: Spatial Spectrum Sensing-Based Device-to-Device (D2D) Networks]], **Sole PI**, 08/10/2017-08/31/2020. | + | * [[SSS|NSF/CNS-1811720: Spatial Spectrum Sensing-Based Device-to-Device (D2D) Networks]], **Sole PI**, 08/10/2017-08/31/2023. |
- | * [[RTML|NSF/CCF-1937487: RTML: Small: Achieving Real-Time and Energy-efficient Computing for 5G Networks (ARTEN): A Deep Reservoir Computing Approach]], **Co-PI**, 10/01/2019-09/30/2022. | + | * [[RTML|NSF/CCF-1937487: RTML: Small: Achieving Real-Time and Energy-efficient Computing for 5G Networks (ARTEN): A Deep Reservoir Computing Approach]], **Co-PI**, 10/01/2019-09/30/2024. |
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+ | * [[SWIFT|NSF/ECCS-2128594: Collaborative Research: SWIFT: Intelligent Dynamic Spectrum Access (IDEA): An Efficient Learning Approach to Enhancing Spectrum Utilization and Coexistence]], **PI** from the leading institution, 09/2022 - 08/2025 | ||
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+ | *[[RINGS|NSF/CNS-2148212:]], **PI** from the leading institution, 08/2022 - 07/2025 | ||
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===== University of Kansas Center for Research ===== | ===== University of Kansas Center for Research ===== | ||
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{{:ku.png?200|}} | {{:ku.png?200|}} | ||