default search action
Sheng Yang 0001
Person information
- affiliation: Université Paris-Saclay, Gif-sur-Yvette, France
- affiliation: CentraleSupélec, Gif-sur-Yvette, France
- affiliation (PhD 2007): Université Pierre et Marie Curie, Paris, France
Other persons with the same name
- Sheng Yang — disambiguation page
- Sheng Yang 0002 — University of Texas at Dallas, Richardson, TX, USA
- Sheng Yang 0003 — University of Southampton, Department of Electronics and Computer Science, UK (and 1 more)
- Sheng Yang 0004 — Harvard University, Cambridge, MA, USA
- Sheng Yang 0005 — Northwestern University, Evanston, IL, USA (and 1 more)
- Sheng Yang 0006 — Nanyang Technological University, School of Computer Science and Engineering, Singapore
- Sheng Yang 0007 — Alibaba DAMO Academy, Hangzhou, China (and 1 more)
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
- [j35]Khodor Safa, Richard Combes, Raul de Lacerda, Sheng Yang:
Data Detection in 1-bit Quantized MIMO Systems. IEEE Trans. Commun. 72(9): 5396-5410 (2024) - [c58]Henrique K. Miyamoto, Sheng Yang:
On Universal Decoding over Memoryless Channels with the Krichevsky-Trofimov Estimator. ISIT 2024: 1498-1503 - 2023
- [j34]Andreas Nicolaides, Constantinos Psomas, Ghassan M. Kraidy, Sheng Yang, Ioannis Krikidis:
Outage and DMT Analysis of Partition-Based Schemes for RIS-Aided MIMO Fading Channels. IEEE J. Sel. Areas Commun. 41(8): 2336-2349 (2023) - [j33]Lingzhi Zhao, Ying Cui, Sheng Yang, Shlomo Shamai Shitz:
An Optimization Framework for General Rate Splitting for General Multicast. IEEE Trans. Wirel. Commun. 22(3): 1573-1587 (2023) - [c57]Andreas Nicolaides, Constantinos Psomas, Sheng Yang, Ioannis Krikidis:
A Hybrid Scheme for Reconfigurable Intelligent Surfaces: How Many Elements Should be Estimated? GLOBECOM 2023: 1549-1554 - [i44]Andreas Nicolaides, Constantinos Psomas, Ghassan M. Kraidy, Sheng Yang, Ioannis Krikidis:
Outage and DMT Analysis of Partition-based Schemes for RIS-aided MIMO Fading Channels. CoRR abs/2305.04313 (2023) - 2022
- [j32]Henrique K. Miyamoto, Sheng Yang:
Context-Tree-Based Lossy Compression and Its Application to CSI Representation. IEEE Trans. Commun. 70(7): 4417-4428 (2022) - [j31]Fan Zhang, Khac-Hoang Ngo, Sheng Yang, Aria Nosratinia:
Transmit Correlation Diversity: Generalization, New Techniques, and Improved Bounds. IEEE Trans. Inf. Theory 68(6): 3841-3869 (2022) - [j30]Qifa Yan, Sheng Yang, Michèle A. Wigger:
Storage-Computation-Communication Tradeoff in Distributed Computing: Fundamental Limits and Complexity. IEEE Trans. Inf. Theory 68(8): 5496-5512 (2022) - [j29]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud, Alexis Decurninge:
Joint Constellation Design for Noncoherent MIMO Multiple-Access Channels. IEEE Trans. Inf. Theory 68(11): 7281-7305 (2022) - [c56]Lingzhi Zhao, Ying Cui, Sheng Yang, Shlomo Shamai Shitz, Yunbo Han, Yunfei Zhang:
Rate Splitting for General Multicast. ICC 2022: 3936-3941 - [i43]Lingzhi Zhao, Ying Cui, Sheng Yang, Shlomo Shamai:
An Optimization Framework for General Rate Splitting for General Multicast. CoRR abs/2201.07386 (2022) - [i42]Lingzhi Zhao, Ying Cui, Sheng Yang, Shlomo Shamai, Yunbo Han, Yunfei Zhang:
Rate Splitting for General Multicast. CoRR abs/2201.07795 (2022) - 2021
- [j28]Lingzhi Zhao, Ying Cui, Zhi Liu, Yunfei Zhang, Sheng Yang:
Adaptive Streaming of 360 Videos With Perfect, Imperfect, and Unknown FoV Viewing Probabilities in Wireless Networks. IEEE Trans. Image Process. 30: 7744-7759 (2021) - [j27]Zheng Li, Sheng Yang, Shlomo Shamai:
On Linearly Precoded Rate Splitting for Gaussian MIMO Broadcast Channels. IEEE Trans. Inf. Theory 67(7): 4693-4709 (2021) - [c55]Khac-Hoang Ngo, Sheng Yang:
A Generalized Gaussian Model for Wireless Communications. ISIT 2021: 3237-3242 - [c54]Khac-Hoang Ngo, Fan Zhang, Sheng Yang, Aria Nosratinia:
Two-User MIMO Broadcast Channel with Transmit Correlation Diversity: Achievable Rate Regions. ITW 2021: 1-6 - [c53]Khac-Hoang Ngo, Sheng Yang:
A Riemannian Metric for Noncoherent Constellation Design and Its Application to Multiple Access Channel. WSA 2021: 1-6 - [i41]Fan Zhang, Khac-Hoang Ngo, Sheng Yang, Aria Nosratinia:
Transmit Correlation Diversity: Generalization, New Techniques, and Improved Bounds. CoRR abs/2104.09711 (2021) - [i40]Lingzhi Zhao, Ying Cui, Zhi Liu, Yunfei Zhang, Sheng Yang:
Adaptive Streaming of 360 Videos with Perfect, Imperfect, and Unknown FoV Viewing Probabilities in Wireless Networks. CoRR abs/2107.09491 (2021) - [i39]Henrique K. Miyamoto, Sheng Yang:
Context-Tree-Based Lossy Compression and Its Application to CSI Representation. CoRR abs/2110.14748 (2021) - 2020
- [j26]Zheng Li, Chencheng Ye, Ying Cui, Sheng Yang, Shlomo Shamai:
Rate Splitting for Multi-Antenna Downlink: Precoder Design and Practical Implementation. IEEE J. Sel. Areas Commun. 38(8): 1910-1924 (2020) - [j25]Qifa Yan, Michèle A. Wigger, Sheng Yang, Xiaohu Tang:
A Fundamental Storage-Communication Tradeoff for Distributed Computing With Straggling Nodes. IEEE Trans. Commun. 68(12): 7311-7327 (2020) - [j24]Yuqing Du, Sheng Yang, Kaibin Huang:
High-Dimensional Stochastic Gradient Quantization for Communication-Efficient Edge Learning. IEEE Trans. Signal Process. 68: 2128-2142 (2020) - [j23]Khac-Hoang Ngo, Alexis Decurninge, Maxime Guillaud, Sheng Yang:
Cube-Split: A Structured Grassmannian Constellation for Non-Coherent SIMO Communications. IEEE Trans. Wirel. Commun. 19(3): 1948-1964 (2020) - [j22]Khac-Hoang Ngo, Maxime Guillaud, Alexis Decurninge, Sheng Yang, Philip Schniter:
Multi-User Detection Based on Expectation Propagation for the Non-Coherent SIMO Multiple Access Channel. IEEE Trans. Wirel. Commun. 19(9): 6145-6161 (2020) - [c52]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud:
The Optimal DoF for the Noncoherent MIMO Channel with Generic Block Fading. ITW 2020: 1-5 - [c51]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud, Alexis Decurninge:
Noncoherent MIMO Multiple-Access Channels: A Joint Constellation Design. ITW 2020: 1-5 - [i38]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud, Alexis Decurninge:
Joint Constellation Design for the Two-User Non-Coherent Multiple-Access Channel. CoRR abs/2001.04970 (2020) - [i37]Zheng Li, Chencheng Ye, Ying Cui, Sheng Yang, Shlomo Shamai:
Rate Splitting for Multi-Antenna Downlink: Precoder Design and Practical Implementation. CoRR abs/2002.07225 (2020) - [i36]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud, Alexis Decurninge:
Joint Constellation Design for Noncoherent MIMO Multiple-Access Channels. CoRR abs/2009.11548 (2020) - [i35]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud:
The Optimal DoF for the Noncoherent MIMO Channel with Generic Block Fading. CoRR abs/2009.11556 (2020)
2010 – 2019
- 2019
- [c50]Khac-Hoang Ngo, Maxime Guillaud, Alexis Decurninge, Sheng Yang, Subrata Sarkar, Philip Schniter:
Non-Coherent Multi-User Detection Based on Expectation Propagation. ACSSC 2019: 2092-2096 - [c49]Qifa Yan, Michèle A. Wigger, Sheng Yang, Xiaohu Tang:
A Fundamental Storage-Communication Tradeoff in Distributed Computing with Straggling Nodes. ISIT 2019: 2803-2807 - [i34]Qifa Yan, Michèle A. Wigger, Sheng Yang, Xiaohu Tang:
A Fundamental Storage-Communication Tradeoff in Distributed Computing with Straggling Nodes. CoRR abs/1901.07793 (2019) - [i33]Khac-Hoang Ngo, Alexis Decurninge, Maxime Guillaud, Sheng Yang:
Cube-Split: A Structured Grassmannian Constellation for Non-Coherent SIMO Communications. CoRR abs/1905.08745 (2019) - [i32]Khac-Hoang Ngo, Maxime Guillaud, Alexis Decurninge, Sheng Yang, Subrata Sarkar, Philip Schniter:
Multi-User Detection Based on Expectation Propagation for the Non-Coherent SIMO Multiple Access Channel. CoRR abs/1905.11152 (2019) - 2018
- [j21]Richard Combes, Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Utility Optimal Scheduling for Coded Caching in General Topologies. IEEE J. Sel. Areas Commun. 36(8): 1692-1705 (2018) - [j20]Richard Combes, Sheng Yang:
An Approximate ML Detector for MIMO Channels Corrupted by Phase Noise. IEEE Trans. Commun. 66(3): 1176-1189 (2018) - [j19]Chao He, Sheng Yang, Pablo Piantanida:
A Novel Transmission Scheme for the K-User Broadcast Channel With Delayed CSIT. IEEE Trans. Wirel. Commun. 17(1): 386-399 (2018) - [j18]Khac-Hoang Ngo, Sheng Yang, Mari Kobayashi:
Scalable Content Delivery With Coded Caching in Multi-Antenna Fading Channels. IEEE Trans. Wirel. Commun. 17(1): 548-562 (2018) - [j17]Victor Exposito, Sheng Yang, Nicolas Gresset:
An Information-Theoretic Analysis of the Gaussian Multicast Channel With Interactive User Cooperation. IEEE Trans. Wirel. Commun. 17(2): 899-913 (2018) - [c48]Khac-Hoang Ngo, Alexis Decurninge, Maxime Guillaud, Sheng Yang:
A Multiple Access Scheme for Non-Coherent SIMO Communications. ACSSC 2018: 1846-1850 - [c47]Qifa Yan, Michèle A. Wigger, Sheng Yang:
Placement Delivery Array Design for Combination Networks with Edge Caching. ISIT 2018: 1555-1559 - [c46]Richard Combes, Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Utility Optimal Scheduling for Coded Caching in General Topologies. ISIT 2018: 1919-1923 - [c45]Qifa Yan, Sheng Yang, Michèle A. Wigger:
A Storage-Computation-Communication Tradeoff for Distributed Computing. ISWCS 2018: 1-5 - [c44]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud:
The Optimal DoF Region for the Two-User Non-Coherent SIMO Multiple-Access Channel. ITW 2018: 1-5 - [c43]Qifa Yan, Sheng Yang, Michèle A. Wigger:
Storage, Computation, and Communication: A Fundamental Tradeoff in Distributed Computing. ITW 2018: 1-5 - [i31]Richard Combes, Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Utility Optimal Scheduling for Coded Caching in General Topologies. CoRR abs/1801.02594 (2018) - [i30]Qifa Yan, Michèle A. Wigger, Sheng Yang:
Placement Delivery Array Design for Combination Networks with Edge Caching. CoRR abs/1801.03048 (2018) - [i29]Qifa Yan, Sheng Yang, Michèle A. Wigger:
A Storage-Computation-Communication Tradeoff for Distributed Computing. CoRR abs/1805.10462 (2018) - [i28]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud:
The Optimal DoF Region for the Two-User Non-Coherent SIMO Multiple-Access Channel. CoRR abs/1806.04102 (2018) - [i27]Qifa Yan, Sheng Yang, Michèle A. Wigger:
Storage, Computation, and Communication: A Fundamental Tradeoff in Distributed Computing. CoRR abs/1806.07565 (2018) - [i26]Zheng Li, Sheng Yang, Shlomo Shamai:
Linearly Precoded Rate Splitting: Optimality and Non-Optimality for MIMO Broadcast Channels. CoRR abs/1808.01810 (2018) - 2017
- [j16]Sheng Yang, Shlomo Shamai Shitz:
On the Multiplexing Gain of Discrete-Time MIMO Phase Noise Channels. IEEE Trans. Inf. Theory 63(4): 2394-2408 (2017) - [c42]Khac-Hoang Ngo, Alexis Decurninge, Maxime Guillaud, Sheng Yang:
Design and analysis of a practical codebook for non-coherent communications. ACSSC 2017: 1237-1241 - [c41]Asma Ghorbel, Khac-Hoang Ngo, Richard Combes, Mari Kobayashi, Sheng Yang:
Opportunistic Content Delivery in Fading Broadcast Channels. GLOBECOM 2017: 1-6 - [c40]Victor Exposito, Sheng Yang, Nicolas Gresset:
Multicast channel communication with interactive receiver cooperation over orthogonal links. ICC 2017: 1-6 - [c39]Chao He, Sheng Yang:
On the two-user erasure broadcast channel with one-sided feedback. ITW 2017: 494-498 - [c38]Zheng Li, Chao He, Sheng Yang:
On the capacity of the two-user erasure broadcast channel with mixed CSIT. ITW 2017: 499-503 - [c37]Khac-Hoang Ngo, Sheng Yang, Maxime Guillaud:
An achievable DoF region for the two-user non-coherent MIMO broadcast channel with statistical CSI. ITW 2017: 604-608 - [i25]Asma Ghorbel, Khac-Hoang Ngo, Richard Combes, Mari Kobayashi, Sheng Yang:
Opportunistic Content Delivery in Fading Broadcast Channels. CoRR abs/1702.02179 (2017) - [i24]Victor Exposito, Sheng Yang, Nicolas Gresset:
An Information-Theoretic Analysis of the Gaussian Multicast Channel with Interactive User Cooperation. CoRR abs/1702.05248 (2017) - [i23]Khac-Hoang Ngo, Sheng Yang, Mari Kobayashi:
Scalable Content Delivery with Coded Caching in Multi-Antenna Fading Channels. CoRR abs/1703.06538 (2017) - [i22]Chao He, Sheng Yang, Pablo Piantanida:
A Novel Transmission Scheme for the $K$-user Broadcast Channel with Delayed CSIT. CoRR abs/1705.05255 (2017) - [i21]Richard Combes, Sheng Yang:
An Approximate ML Detector for MIMO Channels Corrupted by Phase Noise. CoRR abs/1708.02321 (2017) - 2016
- [j15]Chao He, Sheng Yang, Pablo Piantanida:
On the Gaussian Fading Broadcast Relay Channel With Causal State Feedback. IEEE Trans. Commun. 64(7): 2797-2807 (2016) - [j14]Jinyuan Chen, Sheng Yang, Ayfer Özgür, Andrea J. Goldsmith:
Achieving Full DoF in Heterogeneous Parallel Broadcast Channels With Outdated CSIT. IEEE Trans. Inf. Theory 62(7): 4154-4171 (2016) - [j13]Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Content Delivery in Erasure Broadcast Channels With Cache and Feedback. IEEE Trans. Inf. Theory 62(11): 6407-6422 (2016) - [c36]Khac-Hoang Ngo, Sheng Yang, Mari Kobayashi:
Cache-aided content delivery in MIMO channels. Allerton 2016: 93-100 - [c35]Victor Exposito, Sheng Yang, Nicolas Gresset:
A two-round interactive receiver cooperation scheme for multicast channels. Allerton 2016: 695-702 - [c34]Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Content delivery in erasure broadcast channels with cache and feedback. ISIT 2016: 835-839 - [c33]Chao He, Sheng Yang, Pablo Piantanida:
A non-linear transmission scheme for the K-user broadcast channel with state feedback. ISITA 2016: 101-105 - [c32]Sheng Yang, Khac-Hoang Ngo, Mari Kobayashi:
Content delivery with coded caching and massive MIMO in 5G. ISTC 2016: 370-374 - [c31]Mari Kobayashi, Sheng Yang:
Secured erasure broadcast channels with state feedback: An arbitrarily number of colluding receivers. ISTC 2016: 390-394 - [c30]Sheng Yang, Shlomo Shamai:
On MIMO phase noise channels at high SNR. ITW 2016: 305-309 - [i20]Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Content Delivery in Erasure Broadcast Channels with Cache and Feedback. CoRR abs/1602.04630 (2016) - [i19]Sheng Yang, Shlomo Shamai:
On the Multiplexing Gain of MIMO Phase Noise Channels. CoRR abs/1603.05584 (2016) - 2015
- [j12]Germán Bassi, Pablo Piantanida, Sheng Yang:
Capacity Bounds for a Class of Interference Relay Channels. IEEE Trans. Inf. Theory 61(7): 3698-3721 (2015) - [j11]Ramtin Pedarsani, Olivier Lévêque, Sheng Yang:
On the DMT Optimality of Time-Varying Distributed Rotation Over Slow Fading Relay Channels. IEEE Trans. Wirel. Commun. 14(1): 421-434 (2015) - [c29]Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Cache-enabled broadcast packet erasure channels with state feedback. Allerton 2015: 1446-1453 - [c28]Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Cache-enabled erasure broadcast channels with feedback: asymmetric user memory case. CCDWN@CoNEXT 2015: 2:1-2:8 - [c27]Chao He, Sheng Yang, Pablo Piantanida:
An achievable rate region of broadcast relay channel with state feedback. ICC 2015: 4193-4198 - [c26]Jinyuan Chen, Andrea Goldsmith, Ayfer Özgür, Sheng Yang:
Degrees of freedom of the MIMO interference channel with parallel multicasting. ISIT 2015: 1069-1073 - [c25]Sheng Yang, Mari Kobayashi:
Secure communication in K-user multi-antenna broadcast channel with state feedback. ISIT 2015: 1976-1980 - [i18]Asma Ghorbel, Mari Kobayashi, Sheng Yang:
Cache-Enabled Broadcast Packet Erasure Channels with State Feedback. CoRR abs/1509.02074 (2015) - 2014
- [j10]Xinping Yi, Sheng Yang, David Gesbert, Mari Kobayashi:
The Degrees of Freedom Region of Temporally Correlated MIMO Networks With Delayed CSIT. IEEE Trans. Inf. Theory 60(1): 494-514 (2014) - [c24]Chao He, Sheng Yang, Pablo Piantanida:
On the capacity of the fading broadcast channel with state feedback. ISCCSP 2014: 182-185 - [c23]Germán Bassi, Pablo Piantanida, Sheng Yang:
Constant-gap results and cooperative strategies for a class of Interference Relay Channels. ISIT 2014: 1421-1425 - [c22]Jinyuan Chen, Sheng Yang, Ayfer Özgür, Andrea J. Goldsmith:
Outdated CSIT can achieve full DoF in heterogeneous parallel channels. ISIT 2014: 2564-2568 - [i17]Germán Bassi, Pablo Piantanida, Sheng Yang:
Capacity Bounds for a Class of Interference Relay Channels. CoRR abs/1403.3036 (2014) - [i16]Jinyuan Chen, Sheng Yang, Ayfer Özgür, Andrea Goldsmith:
Achieving Full DoF in Heterogeneous Parallel Broadcast Channels with Outdated CSIT. CoRR abs/1409.6808 (2014) - 2013
- [j9]Sheng Yang, Mari Kobayashi, David Gesbert, Xinping Yi:
Degrees of Freedom of Time Correlated MISO Broadcast Channel With Delayed CSIT. IEEE Trans. Inf. Theory 59(1): 315-328 (2013) - [j8]Sheng Yang, Mari Kobayashi, Pablo Piantanida, Shlomo Shamai:
Secrecy Degrees of Freedom of MIMO Broadcast Channels With Delayed CSIT. IEEE Trans. Inf. Theory 59(9): 5244-5256 (2013) - [c21]Germán Bassi, Pablo Piantanida, Sheng Yang:
Capacity to within a constant gap for a class of Interference Relay Channels. Allerton 2013: 1300-1306 - [c20]Xinping Yi, David Gesbert, Sheng Yang, Mari Kobayashi:
Degrees of freedom of time-correlated broadcast channels with delayed CSIT: The MIMO case. ISIT 2013: 987-991 - [c19]Jinyuan Chen, Sheng Yang, Petros Elia:
On the fundamental feedback-vs-performance tradeoff over the MISO-BC with imperfect and delayed CSIT. ISIT 2013: 997-1001 - [c18]Mari Kobayashi, Sheng Yang, Giovanni Geraci:
Time-correlated MISO wiretap channel with delayed CSIT. SPAWC 2013: 200-204 - [i15]Jinyuan Chen, Sheng Yang, Petros Elia:
On the Fundamental Feedback-vs-Performance Tradeoff over the MISO-BC with Imperfect and Delayed CSIT. CoRR abs/1302.0806 (2013) - 2012
- [j7]Ioannis Krikidis, Himal A. Suraweera, Sheng Yang, Kostas Berberidis:
Full-Duplex Relaying over Block Fading Channel: A Diversity Perspective. IEEE Trans. Wirel. Commun. 11(12): 4524-4535 (2012) - [j6]Zhiguo Ding, Ioannis Krikidis, Beiyu Rong, John S. Thompson, Chao Wang, Sheng Yang:
On combating the half-duplex constraint in modern cooperative networks: protocols and techniques. IEEE Wirel. Commun. 19(6): 20-27 (2012) - [c17]Xinping Yi, David Gesbert, Sheng Yang, Mari Kobayashi:
On the DoF of the multiple-antenna time correlated interference channel with delayed CSIT. ACSCC 2012: 1566-1570 - [c16]Mari Kobayashi, Sheng Yang, David Gesbert, Xinping Yi:
On the degrees of freedom of time correlated MISO broadcast channel with delayed CSIT. ISIT 2012: 2501-2505 - [c15]Sheng Yang, Mari Kobayashi, David Gesbert, Xinping Yi:
Degrees of freedom of MISO broadcast channel with perfect delayed and imperfect current CSIT. ITW 2012: 577-581 - [i14]Mari Kobayashi, Sheng Yang, David Gesbert, Xinping Yi:
On the Degrees of Freedom of time correlated MISO broadcast channel with delayed CSIT. CoRR abs/1202.1909 (2012) - [i13]Sheng Yang, Mari Kobayashi, David Gesbert, Xinping Yi:
Degrees of Freedom of Time Correlated MISO Broadcast Channel with Delayed CSIT. CoRR abs/1203.2550 (2012) - [i12]Xinping Yi, David Gesbert, Sheng Yang, Mari Kobayashi:
The DoF Region of the Multiple-Antenna Time Correlated Interference Channel with Delayed CSIT. CoRR abs/1204.3046 (2012) - [i11]Xinping Yi, Sheng Yang, David Gesbert, Mari Kobayashi:
The Degrees of Freedom Region of Temporally-Correlated MIMO Networks with Delayed CSIT. CoRR abs/1211.3322 (2012) - 2011
- [j5]Mari Kobayashi, Pablo Piantanida, Sheng Yang, Shlomo Shamai:
On the Secrecy Degrees of Freedom of the Multiantenna Block Fading Wiretap Channels. IEEE Trans. Inf. Forensics Secur. 6(3-1): 703-711 (2011) - [j4]Sheng Yang, Jean-Claude Belfiore:
Diversity-Multiplexing Tradeoff of Double Scattering MIMO Channels. IEEE Trans. Inf. Theory 57(4): 2027-2034 (2011) - [j3]Øyvind Ryan, Antonia Masucci, Sheng Yang, Mérouane Debbah:
Finite Dimensional Statistical Inference. IEEE Trans. Inf. Theory 57(4): 2457-2473 (2011) - [c14]Sheng Yang, Pablo Piantanida, Mari Kobayashi, Shlomo Shamai:
On the secrecy degrees of freedom of multi-antenna wiretap channels with delayed CSIT. ISIT 2011: 2866-2870 - [c13]Mari Kobayashi, Pablo Piantanida, Shlomo Shamai, Sheng Yang:
On the multi-antenna wiretap channel with delayed CSI at the transmitter. VALUETOOLS 2011: 636-640 - [i10]Sheng Yang, Pablo Piantanida, Mari Kobayashi, Shlomo Shamai:
On the Secrecy Degrees of Freedom of Multi-Antenna Wiretap Channels with Delayed CSIT. CoRR abs/1108.1421 (2011) - [i9]Sheng Yang, Mari Kobayashi, Pablo Piantanida, Shlomo Shamai:
Secrecy Degrees of Freedom of MIMO Broadcast Channels with Delayed CSIT. CoRR abs/1112.2306 (2011) - 2010
- [c12]Ramtin Pedarsani, Olivier Lévêque, Sheng Yang:
On the DMT optimality of the rotate-and-forward scheme in a two-hop MIMO relay channel. Allerton 2010: 78-85 - [c11]