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ORCIDWei Yang 0001
Person information
- affiliation: Qualcomm Technologies, Inc., San Diego, CA, USA
- affiliation (2015 - 2017): Princeton University, Department of Electrical Engineering, NJ, USA
- affiliation (PhD 2015): Chalmers University of Technology, Gothenburg, Sweden
- affiliation (former): Beijing University of Posts and Telecommunications, Beijing, China
Other persons with the same name
- Wei Yang — disambiguation page
- Wei Yang 0002 — Chinese Academy of Sciences, Beijing, China
- Wei Yang 0003
![[0000-0002-4597-877X]](https://dblp.org/img/orcid-mark.12x12.png "0000-0002-4597-877X")
— Chiba University, Center for Environmental Remote Sensing, Chiba, Japan (and 2 more) - Wei Yang 0004 — Beihang University, School of Electronic and Information Engineering, Beijing, China
- Wei Yang 0005 — University of Pennsylvania, School of Medicine, Philadelphia, PA, USA
- Wei Yang 0006 — Southern Medical University, Key Lab for Medical Image Processing, TongHe, Guangzhou, China
- Wei Yang 0007 — Wuhan University, International School of Software, China
- Wei Yang 0008 — Chinese Academy of Sciences, State Key Laboratory of Information Security, Beijing, China
- Wei Yang 0009 — University of Electronic Science and Technology of China, School of Electronic Engineering, Chengdu, China
- Wei Yang 0010 — Fudan University, Shanghai Center for Mathematical Sciences, China
- Wei Yang 0011 — University of Science and Technology of China, School of Computer Science and Technology, Hefei, China (and 1 more)
- Wei Yang 0012 — Xi'an University of Architecture and Technology, School of Science, Department of Mathematics, China
- Wei Yang 0013 — University of Texas at Dallas, TX, USA (and 1 more)
- Wei Yang 0014 — Beijing University of Posts and Telecommunications, School of Information and Communication Engineering, China
- Wei Yang 0015 — Jiangxi Normal University, School of Software, Nanchang, China
- Wei Yang 0016 — City University of Hong Kong, Hong Kong
- Wei Yang 0017 — University of Waterloo, Borealis AI, ON, Canada
- Wei Yang 0018 — Xiangtan University, Hunan Key Laboratory for Computation and Simulation in Science and Engineering, China
- Wei Yang 0019 — NVIDIA, USA (and 2 more)
- Wei Yang 0020 — Harbin Institute of Technology, State Key Laboratory of Robotics and System, China
- Wei Yang 0021 — Chongqing University, College of Automotive Engineering, State Key Laboratory of Mechanical Transmission, China
- Wei Yang 0022 — China Agricultural University, Key Laboratory of Modern Precision Agriculture System Integration Research, Beijing, China
- Wei Yang 0023 — China Agricultural University, College of Water Resources and Civil Engineering, Beijing, China
- Wei Yang 0024 — Chongqing University, State Key Lab of Mechanical Transmissions, China
- Wei Yang 0025 — Shenzhen University, College of Management, China
- Wei Yang 0026 — North University of China, MoE Key Laboratory of Instrumentation Science and Dynamic Measurement / National Key Laboratory for Electronic Measurement Technology, Taiyuan, China
- Wei Yang 0027 — Chang'an University, School of Automobile, Xi'an, China
- Wei Yang 0028 — Southwest Petroleum University, Chengdu, China (and 1 more)
- Wei Yang 0029 — Beijing Jiaotong University, School of Electronic and Information Engineering, China (and 2 more)
- Wei Yang 0030 — Resonant Inc., Goleta, CA, USA (and 1 more)
- Wei Yang 0031 — Suzhou University of Science and Technology, School of Electronic and Information Engineering, China
- Wei Yang 0032 — Tencent AI Lab, Shenzhen, China
- Wei Yang 0033 — Southern Medical University, School of Biomedical Engineering, Guangzhou, China (and 1 more)
- Wei Yang 0034 — Huazhong University of Science and Technology, School of Computer Science and Technology, China (and 2 more)
- Wei Yang 0036 — Linyi University, School of Mathematics and Statistics, China (and 1 more)
- Wei Yang 0037 — National University of Defense Technology, School of Computer Science, Changsha, Hunan, China (and 1 more)
- Wei Yang 0038 — Henan University, Kaifeng, Henan Key Laboratory of Big Data Analysis and Processing, School of Computer and Information Engineering, China (and 1 more)
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2020 – today
- 2024
[c24]Junyuan Gao, Yongpeng Wu, Giuseppe Caire, Wei Yang, Wenjun Zhang:
Unsourced Random Access in MIMO Quasi-Static Rayleigh Fading Channels with Finite Blocklength. ISIT 2024: 3213-3218- [i24]Junyuan Gao, Yongpeng Wu, Giuseppe Caire, Wei Yang, Wenjun Zhang:
Unsourced Random Access in MIMO Quasi-Static Rayleigh Fading Channels with Finite Blocklength. CoRR abs/2404.09198 (2024) - 2023
- [j16]Yongpeng Wu, Erik G. Larsson, Jing Li, Angel Lozano, Luce Morin, Mai Xu, Chengshan Xiao, Wei Yang:
Guest Editorial Signal Processing for XR Communications and Systems. IEEE J. Sel. Top. Signal Process. 17(5): 913-918 (2023) - [j15]Junyuan Gao, Yongpeng Wu, Shuo Shao, Wei Yang, H. Vincent Poor:
Energy Efficiency of Massive Random Access in MIMO Quasi-Static Rayleigh Fading Channels With Finite Blocklength. IEEE Trans. Inf. Theory 69(3): 1618-1657 (2023) - 2022
- [i23]Junyuan Gao, Yongpeng Wu, Shuo Shao, Wei Yang, H. Vincent Poor:
Energy Efficiency of Massive Random Access in MIMO Quasi-Static Rayleigh Fading Channels with Finite Blocklength. CoRR abs/2210.11970 (2022) - 2020
- [j14]Yongpeng Wu, Xiqi Gao, Shidong Zhou, Wei Yang, Yury Polyanskiy, Giuseppe Caire:
Massive Access for Future Wireless Communication Systems. IEEE Wirel. Commun. 27(4): 148-156 (2020)
2010 – 2019
- 2019
- [j13]Wei Yang, Rafael F. Schaefer, H. Vincent Poor:
Wiretap Channels: Nonasymptotic Fundamental Limits. IEEE Trans. Inf. Theory 65(7): 4069-4093 (2019) - [c23]Fan Wei, Yongpeng Wu, Wen Chen, Wei Yang, Giuseppe Caire:
On the Fundamental Limits of MIMO Massive Multiple Access Channels. ICC 2019: 1-6 - [c22]H. Vincent Poor, Mario Goldenbaum, Wei Yang:
Fundamentals for IoT networks: secure and low-latency communications. ICDCN 2019: 362-364 - [i22]Yongpeng Wu, Xiqi Gao, Shidong Zhou, Wei Yang, Yury Polyanskiy, Giuseppe Caire:
Massive Access for Future Wireless Communication Systems. CoRR abs/1910.12678 (2019) - 2018
- [j12]Wei Yang, Austin Collins, Giuseppe Durisi, Yury Polyanskiy, H. Vincent Poor:
Beta-Beta Bounds: Finite-Blocklength Analog of the Golden Formula. IEEE Trans. Inf. Theory 64(9): 6236-6256 (2018) - [j11]Kasper F. Trillingsgaard, Wei Yang, Giuseppe Durisi, Petar Popovski:
Common-Message Broadcast Channels With Feedback in the Nonasymptotic Regime: Stop Feedback. IEEE Trans. Inf. Theory 64(12): 7686-7718 (2018) - [j10]Kasper F. Trillingsgaard, Wei Yang, Giuseppe Durisi, Petar Popovski:
Common-Message Broadcast Channels With Feedback in the Nonasymptotic Regime: Full Feedback. IEEE Trans. Inf. Theory 64(12): 7719-7741 (2018) - [j9]Wei Yang, Yingbin Liang, Shlomo Shamai Shitz, H. Vincent Poor:
State-Dependent Gaussian Multiple Access Channels: New Outer Bounds and Capacity Results. IEEE Trans. Inf. Theory 64(12): 7866-7882 (2018) - [c21]Wei Yang, Rafael F. Schaefer, H. Vincent Poor:
Privacy Amplification: Recent Developments and Applications. ISITA 2018: 120-124 - [i21]Fan Wei, Yongpeng Wu, Wen Chen, Wei Yang, Giuseppe Caire:
On the Fundamental Limits of MIMO Massive Multiple Access Channels. CoRR abs/1807.05553 (2018) - 2017
- [c20]Kasper Fløe Trillingsgaard, Wei Yang, Giuseppe Durisi, Petar Popovski:
Feedback halves the dispersion for some two-user broadcast channels with common message. ISIT 2017: 196-200 - [c19]Wei Yang, Yingbin Liang, Shlomo Shamai Shitz, H. Vincent Poor:
Outer bounds for Gaussian multiple access channels with state known at one encoder. ISIT 2017: 869-873 - [c18]Wei Yang, Rafael F. Schaefer, H. Vincent Poor:
Secrecy-reliability tradeoff for semi-deterministic wiretap channels at finite Blocklength. ISIT 2017: 2133-2137 - [i20]Wei Yang, Yingbin Liang, Shlomo Shamai, H. Vincent Poor:
State-Dependent Gaussian Multiple Access Channels: New Outer Bounds and Capacity Results. CoRR abs/1705.01640 (2017) - [i19]Wei Yang, Rafael F. Schaefer, H. Vincent Poor:
Wiretap Channels: Nonasymptotic Fundamental Limits. CoRR abs/1706.03866 (2017) - [i18]Wei Yang, Austin Collins, Giuseppe Durisi, Yury Polyanskiy, H. Vincent Poor:
Beta-Beta Bounds: Finite-Blocklength Analog of the Golden Formula. CoRR abs/1706.05972 (2017) - [i17]Kasper Fløe Trillingsgaard, Wei Yang, Giuseppe Durisi, Petar Popovski:
Common-Message Broadcast Channels with Feedback in the Nonasymptotic Regime: Full Feedback. CoRR abs/1706.07731 (2017) - 2016
- [j8]Giuseppe Durisi, Tobias Koch, Johan Östman, Yury Polyanskiy, Wei Yang:
Short-Packet Communications Over Multiple-Antenna Rayleigh-Fading Channels. IEEE Trans. Commun. 64(2): 618-629 (2016) - [j7]Wei Yang, Giuseppe Durisi, Yury Polyanskiy:
Minimum Energy to Send $k$ Bits Over Multiple-Antenna Fading Channels. IEEE Trans. Inf. Theory 62(12): 6831-6853 (2016) - [c17]Wei Yang, Austin Collins, Giuseppe Durisi, Yury Polyanskiy, H. Vincent Poor:
A beta-beta achievability bound with applications. ISIT 2016: 2669-2673 - [c16]Kasper Fløe Trillingsgaard, Wei Yang, Giuseppe Durisi, Petar Popovski:
Variable-length coding with stop-feedback for the common-message broadcast channel. ISIT 2016: 2674-2678 - [c15]Wei Yang, Rafael F. Schaefer, H. Vincent Poor:
Finite-blocklength bounds for wiretap channels. ISIT 2016: 3087-3091 - [c14]Rahul Devassy, Giuseppe Durisi, Benjamin Lindqvist, Wei Yang, Marco Dalai:
Nonasymptotic coding-rate bounds for binary erasure channels with feedback. ITW 2016: 86-90 - [i16]Wei Yang, Austin Collins, Giuseppe Durisi, Yury Polyanskiy, H. Vincent Poor:
A Beta-Beta Achievability Bound with Applications. CoRR abs/1601.05880 (2016) - [i15]Wei Yang, Rafael F. Schaefer, H. Vincent Poor:
Finite-Blocklength Bounds for Wiretap Channels. CoRR abs/1601.06055 (2016) - [i14]Kasper Fløe Trillingsgaard, Wei Yang, Giuseppe Durisi, Petar Popovski:
Variable-Length Coding with Stop-Feedback for the Common-Message Broadcast Channel in the Nonasymptotic Regime. CoRR abs/1607.03519 (2016) - [i13]Rahul Devassy, Giuseppe Durisi, Benjamin Lindqvist, Wei Yang, Marco Dalai:
Nonasymptotic coding-rate bounds for binary erasure channels with feedback. CoRR abs/1607.06837 (2016) - 2015
- [b1]Wei Yang:
Fading Channels: Capacity and Channel Coding Rate in the Finite-Blocklength Regime. Chalmers University of Technology, Gothenburg, Sweden, 2015 - [j6]Rahul Devassy, Giuseppe Durisi, Johan Östman, Wei Yang, Tome Eftimov, Zoran Utkovski:
Finite-SNR Bounds on the Sum-Rate Capacity of Rayleigh Block-Fading Multiple-Access Channels With No A Priori CSI. IEEE Trans. Commun. 63(10): 3621-3632 (2015) - [j5]Wei Yang, Giuseppe Caire, Giuseppe Durisi, Yury Polyanskiy:
Optimum Power Control at Finite Blocklength. IEEE Trans. Inf. Theory 61(9): 4598-4615 (2015) - [c13]Kasper Fløe Trillingsgaard, Wei Yang, Giuseppe Durisi, Petar Popovski:
Broadcasting a common message with variable-length stop-feedback codes. ISIT 2015: 2505-2509 - [c12]Wei Yang, Giuseppe Durisi, Yury Polyanskiy:
Minimum energy to send k bits over Rayleigh-fading channels. ISIT 2015: 2959-2963 - [i12]Rahul Devassy, Giuseppe Durisi, Johan Östman, Wei Yang, Tome Eftimov, Zoran Utkovski:
Finite-SNR Bounds on the Sum-Rate Capacity of Rayleigh Block-Fading Multiple-Access Channels with no a Priori CSI. CoRR abs/1501.01957 (2015) - [i11]Kasper Fløe Trillingsgaard, Wei Yang, Giuseppe Durisi, Petar Popovski:
Broadcasting a Common Message with Variable-Length Stop-Feedback Codes. CoRR abs/1504.05940 (2015) - [i10]Wei Yang, Giuseppe Durisi, Yury Polyanskiy:
Minimum Energy to Send k Bits Over Multiple-Antenna Fading Channels. CoRR abs/1507.03843 (2015) - 2014
- [j4]Wei Yang, Giuseppe Durisi, Tobias Koch, Yury Polyanskiy:
Quasi-Static Multiple-Antenna Fading Channels at Finite Blocklength. IEEE Trans. Inf. Theory 60(7): 4232-4265 (2014) - [c11]Wei Yang, Giuseppe Caire, Giuseppe Durisi, Yury Polyanskiy:
Finite-blocklength channel coding rate under a long-term power constraint. ISIT 2014: 2067-2071 - [c10]Wei Yang, Giuseppe Durisi, Tobias Koch, Yury Polyanskiy:
Dispersion of quasi-static MIMO fading channels via Stokes' theorem. ISIT 2014: 2072-2076 - [c9]Johan Östman, Wei Yang, Giuseppe Durisi, Tobias Koch:
Diversity versus multiplexing at finite blocklength. ISWCS 2014: 702-706 - [i9]Wei Yang, Giuseppe Caire, Giuseppe Durisi, Yury Polyanskiy:
Optimum Power Control at Finite Blocklength. CoRR abs/1406.5422 (2014) - [i8]Johan Östman, Wei Yang, Giuseppe Durisi, Tobias Koch:
Diversity versus Multiplexing at Finite Blocklength. CoRR abs/1406.7315 (2014) - [i7]Giuseppe Durisi, Tobias Koch, Johan Östman, Yury Polyanskiy, Wei Yang:
Short-Packet Communications with Multiple Antennas: Transmit Diversity, Spatial Multiplexing, and Channel Estimation Overhead. CoRR abs/1412.7512 (2014) - 2013
- [j3]Yutao Sui, Jaakko Vihriälä, Agisilaos Papadogiannis, Mikael Sternad, Wei Yang, Tommy Svensson:
Moving cells: a promising solution to boost performance for vehicular users. IEEE Commun. Mag. 51(6) (2013) - [j2]Wei Yang, Giuseppe Durisi, Erwin Riegler:
On the Capacity of Large-MIMO Block-Fading Channels. IEEE J. Sel. Areas Commun. 31(2): 117-132 (2013) - [j1]Veniamin I. Morgenshtern, Erwin Riegler, Wei Yang, Giuseppe Durisi, Shaowei Lin, Bernd Sturmfels, Helmut Bölcskei:
Capacity Pre-Log of Noncoherent SIMO Channels Via Hironaka's Theorem. IEEE Trans. Inf. Theory 59(7): 4213-4229 (2013) - [c8]Erwin Riegler, Günther Koliander, Wei Yang, Giuseppe Durisi:
How costly is it to learn fading channels? BlackSeaCom 2013: 18-22 - [c7]Wei Yang, Giuseppe Durisi, Tobias Koch, Yury Polyanskiy:
Quasi-static SIMO fading channels at finite blocklength. ISIT 2013: 1531-1535 - [c6]Wei Yang, Giuseppe Durisi, Tobias Koch, Yury Polyanskiy:
Block-Fading Channels at Finite Blocklength. ISWCS 2013: 1-4 - [c5]Yutao Sui, Agisilaos Papadogiannis, Wei Yang, Tommy Svensson:
The Energy Efficiency Potential of Moving and Fixed Relays for Vehicular Users. VTC Fall 2013: 1-7 - [i6]Wei Yang, Giuseppe Durisi, Tobias Koch, Yury Polyanskiy:
Quasi-Static SIMO Fading Channels at Finite Blocklength. CoRR abs/1302.1302 (2013) - [i5]Wei Yang, Giuseppe Durisi, Tobias Koch, Yury Polyanskiy:
Quasi-Static MIMO Fading Channels at Finite Blocklength. CoRR abs/1311.2012 (2013) - 2012
- [c4]Yutao Sui, Agisilaos Papadogiannis, Wei Yang, Tommy Svensson:
Performance comparison of fixed and moving relays under co-channel interference. GLOBECOM Workshops 2012: 574-579 - [c3]Wei Yang, Giuseppe Durisi, Erwin Riegler:
Unitary isotropically distributed inputs are not capacity-achieving for large-MIMO fading channels. ISIT 2012: 1717-1721 - [c2]Wei Yang, Giuseppe Durisi, Tobias Koch, Yury Polyanskiy:
Diversity versus channel knowledge at finite block-length. ITW 2012: 572-576 - [i4]Wei Yang, Giuseppe Durisi, Erwin Riegler:
On the Capacity of Large-MIMO Block-Fading Channels. CoRR abs/1202.0168 (2012) - [i3]Veniamin I. Morgenshtern, Erwin Riegler, Wei Yang, Giuseppe Durisi, Shaowei Lin, Bernd Sturmfels, Helmut Bölcskei:
Capacity Pre-Log of Noncoherent SIMO Channels via Hironaka's Theorem. CoRR abs/1204.2775 (2012) - [i2]Wei Yang, Giuseppe Durisi, Tobias Koch, Yury Polyanskiy:
Diversity versus Channel Knowledge at Finite Block-Length. CoRR abs/1204.2927 (2012) - 2011
- [c1]Wei Yang, Giuseppe Durisi, Veniamin I. Morgenshtern, Erwin Riegler:
Capacity pre-log of SIMO correlated block-fading channels. ISWCS 2011: 869-873 - [i1]Wei Yang, Giuseppe Durisi, Veniamin I. Morgenshtern, Erwin Riegler:
Capacity Pre-Log of SIMO Correlated Block-Fading Channels. CoRR abs/1109.2720 (2011)
Coauthor Index
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