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ORCIDDavid Tse
David N. C. Tse
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- affiliation: Stanford University, Department of Electrical Engineering, CA, USA
- affiliation: University of California, Berkeley, CA, USA
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2020 – today
- 2024
[j99]Gorkem Can Ates
, Caglar Coskunpinar, David Tse, Daniel Pelaez, Emrah Celik:
Robust residual convolutional neural network based pupil tracking for low-computational power applications. Eng. Appl. Artif. Intell. 133: 108235 (2024)- [c132]Ertem Nusret Tas, David Tse, Yifei Wang:
A Circuit Approach to Constructing Blockchains on Blockchains. AFT 2024: 8:1-8:25 - [c131]Lucianna Kiffer, Joachim Neu, Srivatsan Sridhar, Aviv Zohar, David Tse:
Nakamoto Consensus under Bounded Processing Capacity. CCS 2024: 363-377 - [c130]Joachim Neu, Srivatsan Sridhar, Lei Yang, David Tse:
Optimal Flexible Consensus and its Application to Ethereum. SP 2024: 3885-3903 - [i134]Ertem Nusret Tas, David Tse, Yifei Wang:
A Circuit Approach to Constructing Blockchains on Blockchains. CoRR abs/2402.00220 (2024) - [i133]Xinshu Dong, Orfeas Stefanos Thyfronitis Litos, Ertem Nusret Tas, David Tse, Robin Linus Woll, Lei Yang, Mingchao Yu:
Remote Staking with Economic Safety. CoRR abs/2408.01896 (2024) - [i132]Srivatsan Sridhar, Ertem Nusret Tas, Joachim Neu, Dionysis Zindros, David Tse:
Consensus Under Adversary Majority Done Right. CoRR abs/2411.01689 (2024) - [i131]Dionysis Zindros, Apostolos Tzinas, David Tse:
Rollerblade: Replicated Distributed Protocol Emulation on Top of Ledgers. IACR Cryptol. ePrint Arch. 2024: 210 (2024) - [i130]Srivatsan Sridhar, Ertem Nusret Tas, Joachim Neu, Dionysis Zindros, David Tse:
Consensus Under Adversary Majority Done Right. IACR Cryptol. ePrint Arch. 2024: 1799 (2024) - 2023
- [c129]Ertem Nusret Tas, Runchao Han, David Tse, Mingchao Yu:
Interchain Timestamping for Mesh Security. CCS 2023: 1585-1599 - [c128]Ertem Nusret Tas, David Tse, Fangyu Gai, Sreeram Kannan, Mohammad Ali Maddah-Ali, Fisher Yu:
Bitcoin-Enhanced Proof-of-Stake Security: Possibilities and Impossibilities. SP 2023: 126-145 - [i129]Lucianna Kiffer, Joachim Neu, Srivatsan Sridhar, Aviv Zohar, David Tse:
Security of Blockchains at Capacity. CoRR abs/2303.09113 (2023) - [i128]Ertem Nusret Tas, Runchao Han, David Tse, Fisher Yu, Kamilla Nazirkhanova:
Interchain Timestamping for Mesh Security. CoRR abs/2305.07830 (2023) - [i127]Joachim Neu, Srivatsan Sridhar, Lei Yang, David Tse:
Optimal Flexible Consensus and its Application to Ethereum. CoRR abs/2308.05096 (2023) - [i126]Joachim Neu, Ertem Nusret Tas, David Tse:
Accountable Safety Implies Finality. CoRR abs/2308.16902 (2023) - [i125]Srivatsan Sridhar, Dionysis Zindros, David Tse:
Better Safe than Sorry: Recovering after Adversarial Majority. CoRR abs/2310.06338 (2023) - [i124]Lucianna Kiffer, Joachim Neu, Srivatsan Sridhar, Aviv Zohar, David Tse:
Security of Blockchains at Capacity. IACR Cryptol. ePrint Arch. 2023: 381 (2023) - [i123]Joachim Neu, Srivatsan Sridhar, Lei Yang, David Tse:
Optimal Flexible Consensus and its Application to Ethereum. IACR Cryptol. ePrint Arch. 2023: 1211 (2023) - [i122]Joachim Neu, Ertem Nusret Tas, David Tse:
Accountable Safety Implies Finality. IACR Cryptol. ePrint Arch. 2023: 1301 (2023) - [i121]Srivatsan Sridhar, Dionysis Zindros, David Tse:
Better Safe than Sorry: Recovering after Adversarial Majority. IACR Cryptol. ePrint Arch. 2023: 1556 (2023) - 2022
- [j98]Ranvir Rana, Sreeram Kannan, David Tse, Pramod Viswanath:
Free2Shard: Adversary-resistant Distributed Resource Allocation for Blockchains. Proc. ACM Meas. Anal. Comput. Syst. 6(1): 11:1-11:38 (2022) - [c127]Joachim Neu, Srivatsan Sridhar, Lei Yang, David Tse, Mohammad Alizadeh:
Longest Chain Consensus Under Bandwidth Constraint. AFT 2022: 126-147 - [c126]Kamilla Nazirkhanova, Joachim Neu, David Tse:
Information Dispersal with Provable Retrievability for Rollups. AFT 2022: 180-197 - [c125]Tavor Z. Baharav, Gary Cheng, Mert Pilanci, David Tse:
Approximate Function Evaluation via Multi-Armed Bandits. AISTATS 2022: 108-135 - [c124]Vivek Kumar Bagaria, Amir Dembo, Sreeram Kannan, Sewoong Oh, David Tse, Pramod Viswanath, Xuechao Wang, Ofer Zeitouni:
Proof-of-Stake Longest Chain Protocols: Security vs Predictability. ConsensusDay@CCS 2022: 29-42 - [c123]Joachim Neu, Ertem Nusret Tas, David Tse:
Two More Attacks on Proof-of-Stake GHOST/Ethereum. ConsensusDay@CCS 2022: 43-52 - [c122]Joachim Neu, Ertem Nusret Tas, David Tse:
The Availability-Accountability Dilemma and Its Resolution via Accountability Gadgets. Financial Cryptography 2022: 541-559 - [c121]Caspar Schwarz-Schilling, Joachim Neu, Barnabé Monnot, Aditya Asgaonkar, Ertem Nusret Tas, David Tse:
Three Attacks on Proof-of-Stake Ethereum. Financial Cryptography 2022: 560-576 - [c120]Yifei Wang, Tavor Z. Baharav, Yanjun Han, Jiantao Jiao, David Tse:
Beyond the Best: Distribution Functional Estimation in Infinite-Armed Bandits. NeurIPS 2022 - [c119]Lei Yang, Seo Jin Park, Mohammad Alizadeh, Sreeram Kannan, David Tse:
DispersedLedger: High-Throughput Byzantine Consensus on Variable Bandwidth Networks. NSDI 2022: 493-512 - [c118]Sina Baharlouei, Meisam Razaviyayn, Elizabeth Tseng, David Tse:
I-CONVEX: Fast and Accurate de Novo Transcriptome Recovery from Long Reads. PKDD/ECML Workshops (2) 2022: 339-363 - [c117]Ranvir Rana, Sreeram Kannan, David Tse, Pramod Viswanath:
Free2Shard: Adversary-resistant Distributed Resource Allocation for Blockchains. SIGMETRICS (Abstracts) 2022: 113-114 - [i120]Ertem Nusret Tas, David Tse, Fisher Yu, Sreeram Kannan:
Babylon: Reusing Bitcoin Mining to Enhance Proof-of-Stake Security. CoRR abs/2201.07946 (2022) - [i119]Joachim Neu, Ertem Nusret Tas, David Tse:
Two Attacks On Proof-of-Stake GHOST/Ethereum. CoRR abs/2203.01315 (2022) - [i118]Tavor Z. Baharav, Gary Cheng, Mert Pilanci, David Tse:
Approximate Function Evaluation via Multi-Armed Bandits. CoRR abs/2203.10124 (2022) - [i117]Ertem Nusret Tas, Dionysis Zindros, Lei Yang, David Tse:
Light Clients for Lazy Blockchains. CoRR abs/2203.15968 (2022) - [i116]Ertem Nusret Tas, David Tse, Fisher Yu, Sreeram Kannan, Mohammad Ali Maddah-Ali:
Bitcoin-Enhanced Proof-of-Stake Security: Possibilities and Impossibilities. CoRR abs/2207.08392 (2022) - [i115]Francesco D'Amato, Joachim Neu, Ertem Nusret Tas, David Tse:
No More Attacks on Proof-of-Stake Ethereum? CoRR abs/2209.03255 (2022) - [i114]Ertem Nusret Tas, John Adler, Mustafa Al-Bassam, Ismail Khoffi, David Tse, Nima Vaziri:
Accountable Safety for Rollups. CoRR abs/2210.15017 (2022) - [i113]Yifei Wang, Tavor Z. Baharav, Yanjun Han, Jiantao Jiao, David Tse:
Beyond the Best: Estimating Distribution Functionals in Infinite-Armed Bandits. CoRR abs/2211.01743 (2022) - [i112]Ertem Nusret Tas, David Tse, Fisher Yu, Sreeram Kannan:
Babylon: Reusing Bitcoin Mining to Enhance Proof-of-Stake Security. IACR Cryptol. ePrint Arch. 2022: 76 (2022) - [i111]Joachim Neu, Ertem Nusret Tas, David Tse:
Two Attacks On Proof-of-Stake GHOST/Ethereum. IACR Cryptol. ePrint Arch. 2022: 289 (2022) - [i110]Ertem Nusret Tas, Dionysis Zindros, Lei Yang, David Tse:
Light Clients for Lazy Blockchains. IACR Cryptol. ePrint Arch. 2022: 384 (2022) - [i109]Ertem Nusret Tas, David Tse, Fangyu Gai, Sreeram Kannan, Mohammad Ali Maddah-Ali, Fisher Yu:
Bitcoin-Enhanced Proof-of-Stake Security: Possibilities and Impossibilities. IACR Cryptol. ePrint Arch. 2022: 932 (2022) - [i108]Francesco D'Amato, Joachim Neu, Ertem Nusret Tas, David Tse:
No More Attacks on Proof-of-Stake Ethereum? IACR Cryptol. ePrint Arch. 2022: 1171 (2022) - 2021
- [j97]Vivek Kumar Bagaria, Tavor Z. Baharav, Govinda M. Kamath, David N. C. Tse:
Bandit-Based Monte Carlo Optimization for Nearest Neighbors. IEEE J. Sel. Areas Inf. Theory 2(2): 599-610 (2021) - [c116]Soubhik Deb, Sreeram Kannan, David Tse:
PoSAT: Proof-of-Work Availability and Unpredictability, Without the Work. Financial Cryptography (2) 2021: 104-128 - [c115]Joachim Neu, Ertem Nusret Tas, David Tse:
Ebb-and-Flow Protocols: A Resolution of the Availability-Finality Dilemma. SP 2021: 446-465 - [i107]Joachim Neu, Ertem Nusret Tas, David Tse:
The Availability-Accountability Dilemma and its Resolution via Accountability Gadgets. CoRR abs/2105.06075 (2021) - [i106]Farzan Farnia, Amirali Aghazadeh, James Zou, David Tse:
Group-Structured Adversarial Training. CoRR abs/2106.10324 (2021) - [i105]Lei Yang, Seo Jin Park, Mohammad Alizadeh, Sreeram Kannan, David Tse:
DispersedLedger: High-Throughput Byzantine Consensus on Variable Bandwidth Networks. CoRR abs/2110.04371 (2021) - [i104]Caspar Schwarz-Schilling, Joachim Neu, Barnabé Monnot, Aditya Asgaonkar, Ertem Nusret Tas, David Tse:
Three Attacks on Proof-of-Stake Ethereum. CoRR abs/2110.10086 (2021) - [i103]Kamilla Nazirkhanova, Joachim Neu, David Tse:
Information Dispersal with Provable Retrievability for Rollups. CoRR abs/2111.12323 (2021) - [i102]Joachim Neu, Srivatsan Sridhar, Lei Yang, David Tse, Mohammad Alizadeh:
Securing Proof-of-Stake Nakamoto Consensus Under Bandwidth Constraint. CoRR abs/2111.12332 (2021) - [i101]Joachim Neu, Ertem Nusret Tas, David Tse:
The Availability-Accountability Dilemma and its Resolution via Accountability Gadgets. IACR Cryptol. ePrint Arch. 2021: 628 (2021) - [i100]Caspar Schwarz-Schilling, Joachim Neu, Barnabé Monnot, Aditya Asgaonkar, Ertem Nusret Tas, David Tse:
Three Attacks on Proof-of-Stake Ethereum. IACR Cryptol. ePrint Arch. 2021: 1413 (2021) - [i99]Kamilla Nazirkhanova, Joachim Neu, David Tse:
Information Dispersal with Provable Retrievability for Rollups. IACR Cryptol. ePrint Arch. 2021: 1544 (2021) - [i98]Joachim Neu, Srivatsan Sridhar, Lei Yang, David Tse, Mohammad Alizadeh:
Securing Proof-of-Stake Nakamoto Consensus Under Bandwidth Constraint. IACR Cryptol. ePrint Arch. 2021: 1545 (2021) - 2020
- [j96]Vivek Kumar Bagaria, Jian Ding, David Tse, Yihong Wu, Jiaming Xu:
Hidden Hamiltonian Cycle Recovery via Linear Programming. Oper. Res. 68(1): 53-70 (2020) - [j95]Farzan Farnia, Jesse M. Zhang, David N. C. Tse:
A Fourier-Based Approach to Generalization and Optimization in Deep Learning. IEEE J. Sel. Areas Inf. Theory 1(1): 145-156 (2020) - [j94]Soheil Feizi, Farzan Farnia, Tony Ginart, David Tse:
Understanding GANs in the LQG Setting: Formulation, Generalization and Stability. IEEE J. Sel. Areas Inf. Theory 1(1): 304-311 (2020) - [j93]Tavor Z. Baharav, Govinda M. Kamath, David N. C. Tse, Ilan Shomorony:
Spectral Jaccard Similarity: A New Approach to Estimating Pairwise Sequence Alignments. Patterns 1(6): 100081 (2020) - [j92]Banghua Zhu, Jiantao Jiao, David Tse:
Deconstructing Generative Adversarial Networks. IEEE Trans. Inf. Theory 66(11): 7155-7179 (2020) - [c114]Amir Dembo, Sreeram Kannan, Ertem Nusret Tas, David Tse, Pramod Viswanath, Xuechao Wang, Ofer Zeitouni:
Everything is a Race and Nakamoto Always Wins. CCS 2020: 859-878 - [c113]Gerui Wang, Shuo Wang, Vivek Kumar Bagaria, David Tse, Pramod Viswanath:
Prism Removes Consensus Bottleneck for Smart Contracts. CVCBT 2020: 68-77 - [c112]Vivek Kumar Bagaria, Joachim Neu, David Tse:
Boomerang: Redundancy Improves Latency and Throughput in Payment-Channel Networks. Financial Cryptography 2020: 304-324 - [c111]Tavor Z. Baharav, Govinda M. Kamath, David N. C. Tse, Ilan Shomorony:
Spectral Jaccard Similarity: A New Approach to Estimating Pairwise Sequence Alignments. RECOMB 2020: 223-225 - [i97]Gerui Wang, Shuo Wang, Vivek Kumar Bagaria, David Tse, Pramod Viswanath:
Prism Removes Consensus Bottleneck for Smart Contracts. CoRR abs/2004.08776 (2020) - [i96]Ranvir Rana, Sreeram Kannan, David Tse, Pramod Viswanath:
Free2Shard: Adaptive-adversary-resistant sharding via Dynamic Self Allocation. CoRR abs/2005.09610 (2020) - [i95]Amir Dembo, Sreeram Kannan, Ertem Nusret Tas, David Tse, Pramod Viswanath, Xuechao Wang, Ofer Zeitouni:
Everything is a Race and Nakamoto Always Wins. CoRR abs/2005.10484 (2020) - [i94]Joachim Neu, Ertem Nusret Tas, David Tse:
Ebb-and-Flow Protocols: A Resolution of the Availability-Finality Dilemma. CoRR abs/2009.04987 (2020) - [i93]Soubhik Deb, Sreeram Kannan, David Tse:
PoSAT: Proof-of-Work Availability andUnpredictability, without the Work. CoRR abs/2010.08154 (2020) - [i92]Joachim Neu, Ertem Nusret Tas, David Tse:
Snap-and-Chat Protocols: System Aspects. CoRR abs/2010.10447 (2020) - [i91]Songze Li, David Tse:
TaiJi: Longest Chain Availability with BFT Fast Confirmation. CoRR abs/2011.11097 (2020) - [i90]Amir Dembo, Sreeram Kannan, Ertem Nusret Tas, David Tse, Pramod Viswanath, Xuechao Wang, Ofer Zeitouni:
Everything is a Race and Nakamoto Always Wins. IACR Cryptol. ePrint Arch. 2020: 601 (2020) - [i89]Joachim Neu, Ertem Nusret Tas, David Tse:
Ebb-and-Flow Protocols: A Resolution of the Availability-Finality Dilemma. IACR Cryptol. ePrint Arch. 2020: 1091 (2020) - [i88]Songze Li, David Tse:
TaiJi: Longest Chain Availability with BFT Fast Confirmation. IACR Cryptol. ePrint Arch. 2020: 1470 (2020)
2010 – 2019
- 2019
- [c110]Vivek Kumar Bagaria, Sreeram Kannan, David Tse, Giulia Fanti, Pramod Viswanath:
Prism: Deconstructing the Blockchain to Approach Physical Limits. CCS 2019: 585-602 - [c109]Farzan Farnia, Jesse M. Zhang, David Tse:
Generalizable Adversarial Training via Spectral Normalization. ICLR (Poster) 2019 - [c108]Martin J. Zhang, James Zou, David Tse:
Adaptive Monte Carlo Multiple Testing via Multi-Armed Bandits. ICML 2019: 7512-7522 - [c107]David Tse, Bin Li, Kai Chen, Ling Liu, Jiaqi Gu:
Polar Coding for Parallel Gaussian Channels. ISIT 2019: 1407-1411 - [c106]Tavor Z. Baharav, David Tse:
Ultra Fast Medoid Identification via Correlated Sequential Halving. NeurIPS 2019: 3650-3659 - [c105]Jesse M. Zhang, Govinda M. Kamath, David N. C. Tse:
Towards a Post-clustering Test for Differential Expression. RECOMB 2019: 328-329 - [i87]Banghua Zhu, Jiantao Jiao, David Tse:
Deconstructing Generative Adversarial Networks. CoRR abs/1901.09465 (2019) - [i86]Martin J. Zhang, James Zou, David Tse:
Adaptive Monte Carlo Multiple Testing via Multi-Armed Bandits. CoRR abs/1902.00197 (2019) - [i85]Ehsan Ebrahimzadeh, Maggie Engler, David Tse, Razvan Cristescu, Aslan Tchamkerten:
Somatic mutations render human exome and pathogen DNA more similar. CoRR abs/1905.03138 (2019) - [i84]Tavor Z. Baharav, David N. C. Tse:
Ultra Fast Medoid Identification via Correlated Sequential Halving. CoRR abs/1906.04356 (2019) - [i83]Lei Yang, Vivek Kumar Bagaria, Gerui Wang, Mohammad Alizadeh, David Tse, Giulia Fanti, Pramod Viswanath:
Prism: Scaling Bitcoin by 10, 000x. CoRR abs/1909.11261 (2019) - [i82]Vivek Kumar Bagaria, Joachim Neu, David Tse:
Boomerang: Redundancy Improves Latency and Throughput in Payment Networks. CoRR abs/1910.01834 (2019) - [i81]Xuechao Wang, Govinda M. Kamath, Vivek Kumar Bagaria, Sreeram Kannan, Sewoong Oh, David Tse, Pramod Viswanath:
Proof-of-Stake Longest Chain Protocols Revisited. CoRR abs/1910.02218 (2019) - 2018
- [j91]Jesse M. Zhang, Jue Fan, H. Christina Fan, David Rosenfeld, David N. C. Tse:
An interpretable framework for clustering single-cell RNA-Seq datasets. BMC Bioinform. 19(1): 93:1-93:12 (2018) - [j90]Sudeep Kamath, Venkatachalam Anantharam, David Tse, Chih-Chun Wang:
The Two-Unicast Problem. IEEE Trans. Inf. Theory 64(5): 3865-3882 (2018) - [j89]Changho Suh, Jaewoong Cho, David Tse:
Two-Way Interference Channel Capacity: How to Have the Cake and Eat It Too. IEEE Trans. Inf. Theory 64(6): 4259-4281 (2018) - [c104]Vivek Kumar Bagaria, Govinda M. Kamath, Vasilis Ntranos, Martin J. Zhang, David Tse:
Medoids in Almost-Linear Time via Multi-Armed Bandits. AISTATS 2018: 500-509 - [c103]Soheil Feizi, Hamid Javadi, Jesse M. Zhang, David Tse:
Porcupine Neural Networks: Approximating Neural Network Landscapes. NeurIPS 2018: 4836-4846 - [c102]Farzan Farnia, David Tse:
A Convex Duality Framework for GANs. NeurIPS 2018: 5254-5263 - [i80]Vivek Kumar Bagaria, Jian Ding, David Tse, Yihong Wu, Jiaming Xu:
Hidden Hamiltonian Cycle Recovery via Linear Programming. CoRR abs/1804.05436 (2018) - [i79]Vivek Kumar Bagaria, Govinda M. Kamath, David N. C. Tse:
Adaptive Monte-Carlo Optimization. CoRR abs/1805.08321 (2018) - [i78]Vivek Kumar Bagaria, Sreeram Kannan, David Tse, Giulia Fanti, Pramod Viswanath:
Deconstructing the Blockchain to Approach Physical Limits. CoRR abs/1810.08092 (2018) - [i77]Farzan Farnia, David Tse:
A Convex Duality Framework for GANs. CoRR abs/1810.11740 (2018) - [i76]Farzan Farnia, Jesse M. Zhang, David Tse:
Generalizable Adversarial Training via Spectral Normalization. CoRR abs/1811.07457 (2018) - [i75]Vivek Kumar Bagaria, Sreeram Kannan, David Tse, Giulia Fanti, Pramod Viswanath:
Deconstructing the Blockchain to Approach Physical Limits. IACR Cryptol. ePrint Arch. 2018: 992 (2018) - 2017
- [j88]Anand Bhaskar, Adel Javanmard, Thomas A. Courtade, David Tse:
Novel probabilistic models of spatial genetic ancestry with applications to stratification correction in genome-wide association studies. Bioinform. 33(6): 879-885 (2017) - [c101]Changho Suh, Jaewoong Cho, David Tse:
Two-way interference channel capacity: How to have the cake and eat it too. ISIT 2017: 634-638 - [c100]Reinhard Heckel, Ilan Shomorony, Kannan Ramchandran, David N. C. Tse:
Fundamental limits of DNA storage systems. ISIT 2017: 3130-3134 - [c99]Soheil Feizi, Hamid Javadi, David Tse:
Tensor Biclustering. NIPS 2017: 1311-1320 - [c98]Fei Xia, Martin J. Zhang, James Y. Zou, David Tse:
NeuralFDR: Learning Discovery Thresholds from Hypothesis Features. NIPS 2017: 1541-1550 - [c97]Shunfu Mao, Soheil Mohajer, Kannan Ramchandran, David Tse, Sreeram Kannan:
abSNP: RNA-Seq SNP Calling in Repetitive Regions via Abundance Estimation. WABI 2017: 15:1-15:14 - [i74]Soheil Feizi, David Tse:
Maximally Correlated Principal Component Analysis. CoRR abs/1702.05471 (2017) - [i73]Daniel Russo, David Tse, Benjamin Van Roy:
Time-Sensitive Bandit Learning and Satisficing Thompson Sampling. CoRR abs/1704.09028 (2017) - [i72]Reinhard Heckel, Ilan Shomorony, Kannan Ramchandran, David N. C. Tse:
Fundamental Limits of DNA Storage Systems. CoRR abs/1705.04732 (2017) - [i71]David Tse, Bin Li, Kai Chen:
Polar Coding for Parallel Gaussian Channel. CoRR abs/1705.07275 (2017) - [i70]Changho Suh, Jaewoong Cho, David Tse:
Two-Way Interference Channel Capacity: How to Have the Cake and Eat it Too. CoRR abs/1709.00675 (2017) - [i69]Soheil Feizi, Hamid Javadi, Jesse M. Zhang, David Tse:
Porcupine Neural Networks: (Almost) All Local Optima are Global. CoRR abs/1710.02196 (2017) - [i68]Soheil Feizi, Changho Suh, Fei Xia, David Tse:
Understanding GANs: the LQG Setting. CoRR abs/1710.10793 (2017) - [i67]Vivek Kumar Bagaria, Govinda M. Kamath, Vasilis Ntranos, Martin J. Zhang, David Tse:
Medoids in almost linear time via multi-armed bandits. CoRR abs/1711.00817 (2017) - 2016
- [j87]Ilan Shomorony, Samuel H. Kim, Thomas A. Courtade, David N. C. Tse:
Information-optimal genome assembly via sparse read-overlap graphs. Bioinform. 32(17): 494-502 (2016) - [j86]Kai Chen, Bin Li, Hui Shen, Jie Jin, David Tse:
Reduce the Complexity of List Decoding of Polar Codes by Tree-Pruning. IEEE Commun. Lett. 20(2): 204-207 (2016) - [j85]Ilan Shomorony, Thomas A. Courtade, David Tse:
Fundamental Limits of Genome Assembly Under an Adversarial Erasure Model. IEEE Trans. Mol. Biol. Multi Scale Commun. 2(2): 199-208 (2016) - [c96]Yuxin Chen, Govinda M. Kamath, Changho Suh, David Tse:
Community Recovery in Graphs with Locality. ICML 2016: 689-698 - [c95]Bin Li, David Tse, Kai Chen, Hui Shen:
Capacity-achieving rateless polar codes. ISIT 2016: 46-50 - [c94]Changho Suh, David Tse, Jaewoong Cho:
To feedback or not to feedback. ISIT 2016: 290-294 - [c93]Ilan Shomorony, Govinda M. Kamath, Fei Xia, Thomas A. Courtade, David N. C. Tse:
Partial DNA assembly: A rate-distortion perspective. ISIT 2016: 1799-1803 - [c92]Farzan Farnia, David Tse:
A Minimax Approach to Supervised Learning. NIPS 2016: 4233-4241 - [i66]Yuxin Chen, Govinda M. Kamath, Changho Suh, David N. C. Tse:
Community Recovery in Graphs with Locality. CoRR abs/1602.03828 (2016) - [i65]Ilan Shomorony, Govinda M. Kamath, Fei Xia, Thomas A. Courtade, David N. C. Tse:
Partial DNA Assembly: A Rate-Distortion Perspective. CoRR abs/1605.01941 (2016) - [i64]Farzan Farnia, David Tse:
A Minimax Approach to Supervised Learning. CoRR abs/1606.02206 (2016) - 2015
- [j84]Ka-Kit Lam, Kurt LaButti, Asif Khalak, David N. C. Tse:
FinisherSC: a repeat-aware tool for upgrading de novo assembly using long reads. Bioinform. 31(19): 3207-3209 (2015) - [j83]Amir Salman Avestimehr, Suhas N. Diggavi, Chao Tian, David N. C. Tse:
An Approximation Approach to Network Information Theory. Found. Trends Commun. Inf. Theory 12(1-2): 1-183 (2015) - [c91]Govinda M. Kamath, Eren Sasoglu, David N. C. Tse:
Optimal haplotype assembly from high-throughput mate-pair reads. ISIT 2015: 914-918 - [c90]Ilan Shomorony, Thomas A. Courtade, David N. C. Tse:
Do read errors matter for genome assembly? ISIT 2015: 919-923 - [c89]Ada S. Y. Poon, David N. C. Tse:
Does superdirectivity increase the degrees of freedom in wireless channels? ISIT 2015: 1232-1236 - [c88]Farzan Farnia, Meisam Razaviyayn, Sreeram Kannan, David Tse:
Minimum HGR correlation principle: From marginals to joint distribution. ISIT 2015: 1377-1381 - [c87]Meisam Razaviyayn, Farzan Farnia, David Tse:
Discrete Rényi Classifiers. NIPS 2015: 3276-3284 - [i63]Ilan Shomorony, Thomas A. Courtade, David Tse:
Do Read Errors Matter for Genome Assembly? CoRR abs/1501.06194 (2015) - [i62]Govinda M. Kamath, Eren Sasoglu, David N. C. Tse:
Optimal Haplotype Assembly from High-Throughput Mate-Pair Reads. CoRR abs/1502.01975 (2015) - [i61]Farzan Farnia, Meisam Razaviyayn, Sreeram Kannan, David Tse:
Minimum HGR Correlation Principle: From Marginals to Joint Distribution. CoRR abs/1504.06010 (2015) - [i60]Sudeep Kamath, Venkat Anantharam, David N. C. Tse, Chih-Chun Wang:
The two-unicast problem. CoRR abs/1506.01105 (2015) - [i59]Kai Chen, Bin Li, Hui Shen, Jie Jin, David Tse:
Reduce the Complexity of List Decoding of Polar Codes by Tree-Pruning. CoRR abs/1508.02028 (2015) - [i58]Bin Li, David Tse, Kai Chen, Hui Shen:
Capacity-Achieving Rateless Polar Codes. CoRR abs/1508.03112 (2015) - [i57]Meisam Razaviyayn, Farzan Farnia, David N. C. Tse:
Discrete Rényi Classifiers. CoRR abs/1511.01764 (2015) - 2014
- [j82]Ka-Kit Lam, Asif Khalak, David Tse:
Near-optimal assembly for shotgun sequencing with noisy reads. BMC Bioinform. 15(S-9): S4 (2014) - [j81]Baosen Zhang, Ram Rajagopal, David N. C. Tse:
Network Risk Limiting Dispatch: Optimal Control and Price of Uncertainty. IEEE Trans. Autom. Control. 59(9): 2442-2456 (2014) - [j80]Oliver Kosut, Lang Tong, David N. C. Tse:
Polytope Codes Against Adversaries in Networks. IEEE Trans. Inf. Theory 60(6): 3308-3344 (2014) - [j79]Guy Bresler, Dustin Cartwright, David Tse:
Feasibility of Interference Alignment for the MIMO Interference Channel. IEEE Trans. Inf. Theory 60(9): 5573-5586 (2014) - [c86]Eren Sasoglu, David Tse:
DNA assembly from paired reads as 2-D jigsaw puzzles. ISIT 2014: 1286-1290 - [c85]Sudeep U. Kamath, David N. C. Tse, Chih-Chun Wang:
Two-unicast is hard. ISIT 2014: 2147-2151 - [c84]Bin Li, Hui Shen, David Tse, Wen Tong:
Low-latency polar codes via hybrid decoding. ISTC 2014: 223-227 - [i56]Bin Li, Hui Shen, David Tse:
A RM-Polar Codes. CoRR abs/1407.5483 (2014) - 2013
- [j78]Ayfer Özgür, Olivier Lévêque, David Tse:
Spatial Degrees of Freedom of Large Distributed MIMO Systems and Wireless Ad Hoc Networks. IEEE J. Sel. Areas Commun. 31(2): 202-214 (2013) - [j77]Vinayak Nagpal, I-Hsiang Wang, Milos Jorgovanovic, David Tse, Borivoje Nikolic:
Coding and System Design for Quantize-Map-and-Forward Relaying. IEEE J. Sel. Areas Commun. 31(8): 1423-1435 (2013) - [j76]Venkat Chandar, Aslan Tchamkerten, David Tse:
Asynchronous Capacity per Unit Cost. IEEE Trans. Inf. Theory 59(3): 1213-1226 (2013) - [j75]Abolfazl S. Motahari, Guy Bresler, David N. C. Tse:
Information Theory of DNA Shotgun Sequencing. IEEE Trans. Inf. Theory 59(10): 6273-6289 (2013) - [c83]Baosen Zhang, Ram Rajagopal, David Tse:
Risk Limiting Dispatch in congested networks. CDC 2013: 7568-7575 - [c82]Soheil Mohajer, Abolfazl S. Motahari, David Tse:
Reference-based DNA shotgun sequencing: Information theoretic limits. ISIT 2013: 1635-1639 - [c81]Abolfazl S. Motahari, Kannan Ramchandran, David Tse, Nan Ma:
Optimal DNA shotgun sequencing: Noisy reads are as good as noiseless reads. ISIT 2013: 1640-1644 - [c80]Milos Jorgovanovic, Matthew Weiner, David Tse, Borivoje Nikolic, I-Hsiang Wang, Vinayak Nagpal:
Relay scheduling and interference cancellation for quantize-map-and-forward cooperative relaying. ISIT 2013: 1959-1963 - [c79]Sudeep U. Kamath, David N. C. Tse:
On the Generalized Network Sharing bound and edge-cut bounds for network coding. ISIT 2013: 2735-2739 - [i55]Guy Bresler, Ma'ayan Bresler, David Tse:
Optimal Assembly for High Throughput Shotgun Sequencing. CoRR abs/1301.0068 (2013) - [i54]Guy Bresler, Dustin Cartwright, David Tse:
Interference alignment for the MIMO interference channel. CoRR abs/1303.5678 (2013) - [i53]Abolfazl S. Motahari, Kannan Ramchandran, David Tse, Nan Ma:
Optimal DNA shotgun sequencing: Noisy reads are as good as noiseless reads. CoRR abs/1304.2798 (2013) - [i52]Baosen Zhang, Alejandro D. Domínguez-García, David Tse:
A Local Control Approach to Voltage Regulation in Distribution Networks. CoRR abs/1307.0855 (2013) - [i51]Bin Li, Hui Shen, David Tse:
Parallel Decoders of Polar Codes. CoRR abs/1309.1026 (2013) - 2012
- [j74]Bin Li, Hui Shen, David Tse:
An Adaptive Successive Cancellation List Decoder for Polar Codes with Cyclic Redundancy Check. IEEE Commun. Lett. 16(12): 2044-2047 (2012) - [j73]Paolo Minero, Massimo Franceschetti, David N. C. Tse:
Random Access: An Information-Theoretic Perspective. IEEE Trans. Inf. Theory 58(2): 909-930 (2012) - [j72]David N. C. Tse, Roy D. Yates:
Fading Broadcast Channels With State Information at the Receivers. IEEE Trans. Inf. Theory 58(6): 3453-3471 (2012) - [j71]Mohammad Ali Maddah-Ali, David N. C. Tse:
Completely Stale Transmitter Channel State Information is Still Very Useful. IEEE Trans. Inf. Theory 58(7): 4418-4431 (2012) - [c78]Ram Rajagopal, David Tse, Baosen Zhang:
Risk limiting dispatch in congested networks. Allerton Conference 2012: 1900-1907 - [c77]Albert Y. S. Lam, Baosen Zhang, David N. C. Tse:
Distributed algorithms for optimal power flow problem. CDC 2012: 430-437 - [c76]Nan Ma, Kannan Ramchandran, David N. C. Tse:
A compression algorithm using mis-aligned side-information. ISIT 2012: 16-20 - [c75]Abolfazl S. Motahari, Guy Bresler, David Tse:
Information theory for DNA sequencing: Part I: A basic model. ISIT 2012: 2741-2745 - [c74]Changho Suh, I-Hsiang Wang, David Tse:
Two-way interference channels. ISIT 2012: 2801-2805 - [i50]Nan Ma, Kannan Ramchandran, David Tse:
A Compression Algorithm Using Mis-aligned Side-information. CoRR abs/1202.0865 (2012) - [i49]Changho Suh, I-Hsiang Wang, David Tse:
Two-way Interference Channels. CoRR abs/1202.5014 (2012) - [i48]Abolfazl S. Motahari, Guy Bresler, David Tse:
Information Theory of DNA Sequencing. CoRR abs/1203.6233 (2012) - [i47]Javad Lavaei, David Tse, Baosen Zhang:
Geometry of Power Flows in Tree Networks. CoRR abs/1204.4419 (2012) - [i46]Albert Y. S. Lam, Baosen Zhang, Alejandro D. Domínguez-García, David Tse:
Optimal Distributed Voltage Regulation in Power Distribution Networks. CoRR abs/1204.5226 (2012) - [i45]Bin Li, Hui Shen, David Tse:
An Adaptive Successive Cancellation List Decoder for Polar Codes with Cyclic Redundancy Check. CoRR abs/1208.3091 (2012) - [i44]Vinayak Nagpal, I-Hsiang Wang, Milos Jorgovanovic, David Tse, Borivoje Nikolic:
Coding and System Design for Quantize-Map-and-Forward Relaying. CoRR abs/1209.4679 (2012) - [i43]Ram Rajagopal, Baosen Zhang, David Tse:
Network Risk Limiting Dispatch: Optimal Control and Price of Uncertainty. CoRR abs/1212.4898 (2012) - 2011
- [j70]Ayfer Özgür, Olivier Lévêque, David N. C. Tse:
Operating Regimes of Large Wireless Networks. Found. Trends Netw. 5(1): 1-107 (2011) - [j69]Changho Suh, Minnie Ho, David N. C. Tse:
Downlink Interference Alignment. IEEE Trans. Commun. 59(9): 2616-2626 (2011) - [j68]Amir Salman Avestimehr, Suhas N. Diggavi, David N. C. Tse:
Wireless Network Information Flow: A Deterministic Approach. IEEE Trans. Inf. Theory 57(4): 1872-1905 (2011) - [j67]François Baccelli, Abbas El Gamal, David Tse:
Interference Networks With Point-to-Point Codes. IEEE Trans. Inf. Theory 57(5): 2582-2596 (2011) - [j66]Changho Suh, David Tse:
Feedback Capacity of the Gaussian Interference Channel to Within 2 Bits. IEEE Trans. Inf. Theory 57(5): 2667-2685 (2011) - [j65]Randall A. Berry, David N. C. Tse:
Shannon Meets Nash on the Interference Channel. IEEE Trans. Inf. Theory 57(5): 2821-2836 (2011) - [j64]Soheil Mohajer, Suhas N. Diggavi, Christina Fragouli, David N. C. Tse:
Approximate Capacity of a Class of Gaussian Interference-Relay Networks. IEEE Trans. Inf. Theory 57(5): 2837-2864 (2011) - [j63]I-Hsiang Wang, David N. C. Tse:
Interference Mitigation Through Limited Receiver Cooperation. IEEE Trans. Inf. Theory 57(5): 2913-2940 (2011) - [j62]I-Hsiang Wang, David N. C. Tse:
Interference Mitigation Through Limited Transmitter Cooperation. IEEE Trans. Inf. Theory 57(5): 2941-2965 (2011) - [j61]Ada S. Y. Poon, David N. C. Tse:
Degree-of-Freedom Gain From Using Polarimetric Antenna Elements. IEEE Trans. Inf. Theory 57(9): 5695-5709 (2011) - [j60]Leonard H. Grokop, David N. C. Tse, Roy D. Yates:
Interference Alignment for Line-of-Sight Channels. IEEE Trans. Inf. Theory 57(9): 5820-5839 (2011) - [j59]Devavrat Shah, David N. C. Tse, John N. Tsitsiklis:
Hardness of Low Delay Network Scheduling. IEEE Trans. Inf. Theory 57(12): 7810-7817 (2011) - [c73]Guy Bresler, Dustin Cartwright, David Tse:
Geometry of the 3-user MIMO interference channel. Allerton 2011: 1264-1271 - [c72]Yashodhan Kanoria, Andrea Montanari, David Tse, Baosen Zhang:
Distributed storage for intermittent energy sources: Control design and performance limits. Allerton 2011: 1310-1317 - [c71]Baosen Zhang, David Tse:
Geometry of feasible injection region of power networks. Allerton 2011: 1508-1515 - [c70]François Baccelli, Abbas El Gamal, David Tse:
Interference networks with point-to-point codes. ISIT 2011: 435-439 - [c69]Nan Ma, Kannan Ramchandran, David Tse:
Efficient file synchronization: A distributed source coding approach. ISIT 2011: 583-587 - [c68]I-Hsiang Wang, Sudeep U. Kamath, David N. C. Tse:
Two unicast information flows over linear deterministic networks. ISIT 2011: 2462-2466 - [c67]Roy D. Yates, David Tse:
K user fading broadcast channels with CSI at the receivers. ITA 2011: 480-485 - [c66]Guy Bresler, Dustin Cartwright, David N. C. Tse:
Feasibility of interference alignment for the MIMO interference channel: The symmetric square case. ITW 2011: 447-451 - [i42]François Baccelli, Abbas El Gamal, David Tse:
Interference Networks with Point-to-Point Codes. CoRR abs/1102.2868 (2011) - [i41]Nan Ma, Kannan Ramchandran, David Tse:
On Minimum-rate Synchronization Based on Bursty Deletion Side-information. CoRR abs/1102.3669 (2011) - [i40]Guy Bresler, Dustin Cartwright, David Tse:
Settling the feasibility of interference alignment for the MIMO interference channel: the symmetric square case. CoRR abs/1104.0888 (2011) - [i39]I-Hsiang Wang, Sudeep U. Kamath, David N. C. Tse:
Two Unicast Information Flows over Linear Deterministic Networks. CoRR abs/1105.6326 (2011) - [i38]Baosen Zhang, David Tse:
Geometry of Feasible Injection Region of Power Networks. CoRR abs/1107.1467 (2011) - [i37]Albert Y. S. Lam, Baosen Zhang, David Tse:
Distributed Algorithms for Optimal Power Flow Problem. CoRR abs/1109.5229 (2011) - [i36]Yashodhan Kanoria, Andrea Montanari, David Tse, Baosen Zhang:
Distributed Storage for Intermittent Energy Sources: Control Design and Performance Limits. CoRR abs/1110.4441 (2011) - [i35]Guy Bresler, Dustin Cartwright, David Tse:
Geometry of the 3-user MIMO interference channel. CoRR abs/1110.5092 (2011) - [i34]Oliver Kosut, Lang Tong, David Tse:
Polytope Codes Against Adversaries in Networks. CoRR abs/1112.3307 (2011) - 2010
- [j58]Amir Salman Avestimehr, Aydin Sezgin, David N. C. Tse:
Information Theory Capacity of the two-way relay channel within a constant gap. Eur. Trans. Telecommun. 21(4): 363-374 (2010) - [j57]Ayfer Özgür, Ramesh Johari, David N. C. Tse, Olivier Lévêque:
Information-theoretic operating regimes of large wireless networks. IEEE Trans. Inf. Theory 56(1): 427-437 (2010) - [j56]Guy Bresler, Abhay Parekh, David N. C. Tse:
The approximate capacity of the many-to-one and one-to-many Gaussian interference channels. IEEE Trans. Inf. Theory 56(9): 4566-4592 (2010) - [j55]Leonard H. Grokop, David N. C. Tse:
Spectrum Sharing Between Wireless Networks. IEEE/ACM Trans. Netw. 18(5): 1401-1412 (2010) - [c65]Vinayak Nagpal, I-Hsiang Wang, Milos Jorgovanovic, David Tse, Borivoje Nikolic:
Quantize-map-and-forward relaying: Coding and system design. Allerton 2010: 443-450 - [c64]Mohammad Ali Maddah-Ali, David Tse:
Completely stale transmitter channel state information is still very useful. Allerton 2010: 1188-1195 - [c63]Urs Niesen, Piyush Gupta, David Tse:
A communication architecture for large heterogeneous wireless networks. Allerton 2010: 1280-1287 - [c62]Changho Suh, Minnie Ho, David Tse:
Downlink Interference Alignment. GLOBECOM 2010: 1-5 - [c61]Ayfer Özgür Aydin, Olivier Lévêque, David Tse:
Beyond Multi-Hop: Optimal Cooperation in Large Wireless Networks. ICCCN 2010: 1-6 - [c60]Mohammad Ali Maddah-Ali, David Tse:
Interference neutralization in distributed lossy source coding. ISIT 2010: 166-170 - [c59]Venkat Chandar, Aslan Tchamkerten, David Tse:
Asynchronous capacity per unit cost. ISIT 2010: 280-284 - [c58]I-Hsiang Wang, David N. C. Tse:
Interference mitigation through limited transmitter cooperation. ISIT 2010: 380-384 - [c57]Urs Niesen, Piyush Gupta, David Tse:
On the optimality of multi-hop communication in large wireless networks. ISIT 2010: 505-509 - [c56]Oliver Kosut, Lang Tong, David N. C. Tse:
Polytope codes against adversaries in networks. ISIT 2010: 2423-2427 - [c55]Ayfer Özgür, Olivier Lévêque, David Tse:
Linear capacity scaling in wireless networks: Beyond physical limits? ITA 2010: 259-268 - [i33]Ayfer Özgür, Olivier Lévêque, David N. C. Tse:
Linear Capacity Scaling in Wireless Networks: Beyond Physical Limits? CoRR abs/1002.3065 (2010) - [i32]Changho Suh, Minnie Ho, David Tse:
Downlink Interference Alignment. CoRR abs/1003.3707 (2010) - [i31]I-Hsiang Wang, David N. C. Tse:
Interference Mitigation through Limited Transmitter Cooperation. CoRR abs/1004.5421 (2010) - [i30]Soheil Mohajer, Suhas N. Diggavi, Christina Fragouli, David N. C. Tse:
Approximate Capacity of Gaussian Interference-Relay Networks with Weak Cross Links. CoRR abs/1005.0404 (2010) - [i29]Changho Suh, David Tse:
Feedback Capacity of the Gaussian Interference Channel to within 2 Bits. CoRR abs/1005.3338 (2010) - [i28]Randall A. Berry, David N. C. Tse:
Shannon Meets Nash on the Interference Channel. CoRR abs/1007.1756 (2010) - [i27]Venkat Chandar, Aslan Tchamkerten, David Tse:
Asynchronous Capacity per Unit Cost. CoRR abs/1007.4872 (2010) - [i26]Mohammad Ali Maddah-Ali, David Tse:
Completely Stale Transmitter Channel State Information is Still Very Useful. CoRR abs/1010.1499 (2010)
2000 – 2009
- 2009
- [j54]Leonard H. Grokop, David N. C. Tse:
Diversity-Multiplexing Tradeoff in ISI Channels. IEEE Trans. Inf. Theory 55(1): 109-135 (2009) - [j53]David N. C. Tse, Pramod Viswanath:
Fundamentals of Wireless Communication (Tse, D. and Viswanath, P.) [Book review]. IEEE Trans. Inf. Theory 55(2): 919-920 (2009) - [c54]Guy Bresler, David N. C. Tse:
3 User interference channel: Degrees of freedom as a function of channel diversity. Allerton 2009: 265-271 - [c53]Oliver Kosut, Lang Tong, David Tse:
Nonlinear network coding is necessary to combat general Byzantine attacks. Allerton 2009: 593-599 - [c52]Soheil Mohajer, David N. C. Tse, Suhas N. Diggavi:
Approximate capacity of a class of Gaussian relay-interference networks. ISIT 2009: 31-35 - [c51]Vinayak Nagpal, Sameer Pawar, David Tse, Borivoje Nikolic:
Cooperative multiplexing in the multiple antenna half duplex relay channel. ISIT 2009: 1438-1442 - [c50]Mohammad Ali Maddah-Ali, David N. C. Tse:
Approximating the rate-distortion region of the distributed source coding for three jointly Gaussian tree-structured sources. ISIT 2009: 1468-1472 - [c49]Changho Suh, David Tse:
Symmetric feedback capacity of the Gaussian interference channel to within one bit. ISIT 2009: 1609-1613 - [c48]Ayfer Özgür, David Tse:
Achieving linear scaling with interference alignment. ISIT 2009: 1754-1758 - [c47]Randall A. Berry, David N. C. Tse:
Information theory meets game theory on the interference channel. ITW 2009: 140-144 - [c46]Soheil Mohajer, Suhas N. Diggavi, Christina Fragouli, David N. C. Tse:
Capacity of deterministic Z-chain relay-interference network. ITW 2009: 331-335 - [i25]Vinayak Nagpal, Sameer Pawar, David Tse, Borivoje Nikolic:
Cooperative Multiplexing in the Multiple Antenna Half Duplex Relay Channel. CoRR abs/0901.2164 (2009) - [i24]Changho Suh, David Tse:
Feedback Capacity of the Gaussian Interference Channel to Within 1.7075 Bits: the Symmetric Case. CoRR abs/0901.3580 (2009) - [i23]David N. C. Tse, Roy D. Yates:
Fading Broadcast Channels with State Information at the Receivers. CoRR abs/0904.3165 (2009) - [i22]Amir Salman Avestimehr, Suhas N. Diggavi, David N. C. Tse:
Wireless Network Information Flow: A Deterministic Approach. CoRR abs/0906.5394 (2009) - [i21]I-Hsiang Wang, David N. C. Tse:
Interference Mitigation Through Limited Receiver Cooperation: Symmetric Case. CoRR abs/0908.1948 (2009) - [i20]I-Hsiang Wang, David N. C. Tse:
Interference Mitigation Through Limited Receiver Cooperation. CoRR abs/0911.2053 (2009) - [i19]Paolo Minero, Massimo Franceschetti, David N. C. Tse:
Random Access: An Information-Theoretic Perspective. CoRR abs/0912.3264 (2009) - 2008
- [j52]Sheng Jing, David N. C. Tse, Joseph B. Soriaga, Jilei Hou, John E. Smee, Roberto Padovani:
Multicell Downlink Capacity with Coordinated Processing. EURASIP J. Wirel. Commun. Netw. 2008 (2008) - [j51]Guy Bresler, David Tse:
The two-user Gaussian interference channel: a deterministic view. Eur. Trans. Telecommun. 19(4): 333-354 (2008) - [j50]Ye Xia, David N. C. Tse:
On the Large Deviations of Resequencing Queue Size: 2-M/M/1 Case. IEEE Trans. Inf. Theory 54(9): 4107-4118 (2008) - [j49]Raúl H. Etkin, David N. C. Tse, Hua Wang:
Gaussian Interference Channel Capacity to Within One Bit. IEEE Trans. Inf. Theory 54(12): 5534-5562 (2008) - [c45]Sameer Pawar, Amir Salman Avestimehr, David N. C. Tse:
Diversity-multiplexing tradeoff of the half-duplex relay channel. Allerton 2008: 27-33 - [c44]David Tse, Roy D. Yates, Zang Li:
Fading broadcast channels with state information at the receivers. Allerton 2008: 221-227 - [c43]Soheil Mohajer, Suhas N. Diggavi, Christina Fragouli, David Tse:
Transmission techniques for relay-interference networks. Allerton 2008: 467-474 - [c42]I-Hsiang Wang, David N. C. Tse:
Gaussian interference channels with multiple receive antennas: Capacity and generalized degrees of freedom. Allerton 2008: 715-722 - [c41]Changho Suh, David Tse:
Interference Alignment for Cellular Networks. Allerton 2008: 1037-1044 - [c40]Amir Salman Avestimehr, Aydin Sezgin, David N. C. Tse:
Approximate capacity of the two-way relay channel: A deterministic approach. Allerton 2008: 1582-1589 - [c39]David Tse:
Information theory of wireless networks. CISS 2008 - [c38]Leonard H. Grokop, David N. C. Tse:
Spectrum Sharing Between Wireless Networks. INFOCOM 2008: 201-205 - [c37]Ayfer Özgür, Ramesh Johari, David Tse, Olivier Lévêque:
Information theoretic operating regimes of large wireless networks. ISIT 2008: 186-190 - [c36]Roy D. Yates, David Tse, Zang Li:
Secret communication on interference channels. ISIT 2008: 374-378 - [c35]Amir Salman Avestimehr, Suhas N. Diggavi, David Tse:
Approximate capacity of Gaussian relay networks. ISIT 2008: 474-478 - [c34]Ada S. Y. Poon, David N. C. Tse:
Polarization degrees of freedom. ISIT 2008: 1587-1591 - [c33]Randall Berry, David Tse:
Information theoretic games on interference channels. ISIT 2008: 2518-2522 - [i18]Amir Salman Avestimehr, Suhas N. Diggavi, David N. C. Tse:
Approximate Capacity of Gaussian Relay Networks. CoRR abs/0802.3535 (2008) - [i17]Ayfer Özgür, Ramesh Johari, David N. C. Tse, Olivier Lévêque:
Information Theoretic Operating Regimes of Large Wireless Networks. CoRR abs/0804.3271 (2008) - [i16]Guy Bresler, David Tse:
The two-user Gaussian interference channel: a deterministic view. CoRR abs/0807.3222 (2008) - [i15]Amir Salman Avestimehr, Aydin Sezgin, David N. C. Tse:
Approximate capacity of the two-way relay channel: A deterministic approach. CoRR abs/0808.3145 (2008) - [i14]Leonard H. Grokop, David N. C. Tse:
Fundamental Constraints on Multicast Capacity Regions. CoRR abs/0809.2835 (2008) - [i13]Leonard H. Grokop, David N. C. Tse:
Spectrum Sharing between Wireless Networks. CoRR abs/0809.2840 (2008) - [i12]Leonard H. Grokop, David N. C. Tse, Roy D. Yates:
Interference Alignment for Line-of-Sight Channels. CoRR abs/0809.3035 (2008) - [i11]Guy Bresler, Abhay Parekh, David Tse:
The Approximate Capacity of the Many-to-One and One-to-Many Gaussian Interference Channels. CoRR abs/0809.3554 (2008) - [i10]Sameer Pawar, Amir Salman Avestimehr, David N. C. Tse:
Diversity-Multiplexing Tradeoff of the Half-Duplex Relay Channel. CoRR abs/0810.2133 (2008) - [i9]Soheil Mohajer, Suhas N. Diggavi, Christina Fragouli, David N. C. Tse:
Transmission Techniques for Relay-Interference Networks. CoRR abs/0812.1597 (2008) - 2007
- [j48]Raúl H. Etkin, Abhay Parekh, David Tse:
Spectrum sharing for unlicensed bands. IEEE J. Sel. Areas Commun. 25(3): 517-528 (2007) - [j47]Jonathan Tsao, Dana Porrat, David Tse:
Prediction and Modeling for the Time-Evolving Ultra-Wideband Channel. J. Sel. Topics Signal Processing 1(3): 340-356 (2007) - [j46]Robert D. Wilson, David Tse, Robert A. Scholtz:
Channel Identification: Secret Sharing Using Reciprocity in Ultrawideband Channels. IEEE Trans. Inf. Forensics Secur. 2(3-1): 364-375 (2007) - [j45]Dana Porrat, David N. C. Tse, Serban Nacu:
Channel Uncertainty in Ultra-Wideband Communication Systems. IEEE Trans. Inf. Theory 53(1): 194-208 (2007) - [j44]Lizhong Zheng, David N. C. Tse, Muriel Médard:
Channel Coherence in the Low-SNR Regime. IEEE Trans. Inf. Theory 53(3): 976-997 (2007) - [j43]Massimo Franceschetti, Olivier Dousse, David N. C. Tse, Patrick Thiran:
Closing the Gap in the Capacity of Wireless Networks Via Percolation Theory. IEEE Trans. Inf. Theory 53(3): 1009-1018 (2007) - [j42]Amir Salman Avestimehr, David N. C. Tse:
Outage Capacity of the Fading Relay Channel in the Low-SNR Regime. IEEE Trans. Inf. Theory 53(4): 1401-1415 (2007) - [j41]Ayfer Özgür, Olivier Lévêque, David N. C. Tse:
Hierarchical Cooperation Achieves Optimal Capacity Scaling in Ad Hoc Networks. IEEE Trans. Inf. Theory 53(10): 3549-3572 (2007) - [c32]Jing Yang, Robert W. Brodersen, David Tse:
Addressing the Dynamic Range Problem in Cognitive Radios. ICC 2007: 5183-5188 - [c31]Ayfer Özgür, Olivier Lévêque, David N. C. Tse:
Hierarchical Cooperation Achieves Linear Capacity Scaling in Ad Hoc Networks. INFOCOM 2007: 382-390 - [c30]Sheng Jing, David N. C. Tse, Joseph B. Soriaga, Jilei Hou, John E. Smee, Roberto Padovani:
Downlink Macro-Diversity in Cellular Networks. ISIT 2007: 1-5 - [c29]Vinod M. Prabhakaran, David Tse, Kannan Ramchandran:
Channel coding with strictly casual colored side-information at transmitter. ISIT 2007: 371-375 - [c28]Ayfer Özgür, Olivier Lévêque, David Tse:
Exact Capacity Scaling of Extended Wireless Networks. ISIT 2007: 1441-1445 - [c27]Raúl H. Etkin, David N. C. Tse, Hua Wang:
Gaussian Interference Channel Capacity to Within One Bit: the General Case. ISIT 2007: 2181-2185 - [c26]Paolo Minero, David N. C. Tse:
A Broadcast Approach to Multiple Access with Random States. ISIT 2007: 2566-2570 - [c25]Emre Telatar, David Tse:
Bounds on the capacity region of a class of interference channels. ISIT 2007: 2871-2874 - [c24]Amir Salman Avestimehr, Suhas N. Diggavi, David N. C. Tse:
A Deterministic Model for Wreless Relay Networks an its Capacity. ITW 2007: 1-6 - [i8]Amir Salman Avestimehr, Suhas N. Diggavi, David N. C. Tse:
A Deterministic Approach to Wireless Relay Networks. CoRR abs/0710.3777 (2007) - [i7]Amir Salman Avestimehr, Suhas N. Diggavi, David N. C. Tse:
Wireless Network Information Flow. CoRR abs/0710.3781 (2007) - [i6]Raúl H. Etkin, David Tse, Hua Wang:
Gaussian Interference Channel Capacity to Within One Bit. CoRR abs/cs/0702045 (2007) - 2006
- [j40]Minghua Chen, David N. C. Tse:
An upper bound on the convergence rate of uplink power control in DS-CDMA systems. IEEE Commun. Lett. 10(4): 231-233 (2006) - [j39]Ye Xia, David N. C. Tse:
Inference of Link Delay in Communication Networks. IEEE J. Sel. Areas Commun. 24(12): 2235-2248 (2006) - [j38]Ada S. Y. Poon, David N. C. Tse, Robert W. Brodersen:
Impact of scattering on the capacity, diversity, and propagation range of multiple-antenna channels. IEEE Trans. Inf. Theory 52(3): 1087-1100 (2006) - [j37]Raúl H. Etkin, David N. C. Tse:
Degrees of freedom in some underspread MIMO fading channels. IEEE Trans. Inf. Theory 52(4): 1576-1608 (2006) - [c23]Andrea Montanari, David Tse:
Analysis of Belief Propagation for Non-Linear Problems: The Example of CDMA (or: How to Prove Tanaka's Formula). ITW 2006: 160-164 - [c22]Suhas N. Diggavi, David N. C. Tse:
On opportunistic codes and broadcast codes with degraded message sets. ITW 2006: 227-231 - [i5]Andrea Montanari, David Tse:
Analysis of Belief Propagation for Non-Linear Problems: The Example of CDMA (or: How to Prove Tanaka's Formula). CoRR abs/cs/0602028 (2006) - [i4]Amir Salman Avestimehr, David N. C. Tse:
Outage Capacity of the Fading Relay Channel in the Low SNR Regime. CoRR abs/cs/0602050 (2006) - [i3]Ayfer Özgür, Olivier Lévêque, David N. C. Tse:
Hierarchical Cooperation Achieves Optimal Capacity Scaling in Ad Hoc Networks. CoRR abs/cs/0611070 (2006) - 2005
- [b2]David Tse, Pramod Viswanath:
Fundamentals of Wireless Communication. Cambridge University Press 2005, ISBN 9780511807213 - [j36]Ye Xia, David N. C. Tse:
Analysis on packet resequencing for reliable network protocols. Perform. Evaluation 61(4): 299-328 (2005) - [j35]Ada S. Y. Poon, Robert W. Brodersen, David N. C. Tse:
Degrees of freedom in multiple-antenna channels: a signal space approach. IEEE Trans. Inf. Theory 51(2): 523-536 (2005) - [j34]Suhas N. Diggavi, Matthias Grossglauser, David N. C. Tse:
Even One-Dimensional Mobility Increases the Capacity of Wireless Networks. IEEE Trans. Inf. Theory 51(11): 3947-3954 (2005) - [c21]Suhas N. Diggavi, David N. C. Tse:
Fundamental limits of diversity-embedded codes over fading channels. ISIT 2005: 510-514 - [c20]Amir Salman Avestimehr, David N. C. Tse:
Outage-optimal relaying in the low SNR regime. ISIT 2005: 941-945 - [i2]Dana Porrat, David N. C. Tse, Serban Nacu:
Channel Uncertainty in Ultra Wideband Communication Systems. CoRR abs/cs/0509068 (2005) - [i1]Andrea Montanari, Balaji Prabhakar, David Tse:
Belief Propagation Based Multi--User Detection. CoRR abs/cs/0510044 (2005) - 2004
- [j33]David N. C. Tse, Pramod Viswanath, Lizhong Zheng:
Diversity-Multiplexing Tradeoff in Multiple-Access Channels. IEEE Trans. Inf. Theory 50(9): 1859-1874 (2004) - [j32]J. Nicholas Laneman, David N. C. Tse, Gregory W. Wornell:
Cooperative diversity in wireless networks: Efficient protocols and outage behavior. IEEE Trans. Inf. Theory 50(12): 3062-3080 (2004) - [c19]Leonard H. Grokop, David N. C. Tse:
Diversity/multiplexing tradeoff in ISI channels. ISIT 2004: 97 - [c18]Vinod M. Prabhakaran, David N. C. Tse, Kannan Ramchandran:
Rate region of the quadratic Gaussian CEO problem. ISIT 2004: 119 - [c17]Lizhong Zheng, David N. C. Tse, Muriel Médard:
Channel coherence in the low SNR regime. ISIT 2004: 416 - [c16]Massimo Franceschetti, Olivier Dousse, David N. C. Tse, Patrick Thiran:
Closing the gap in the capacity of random wireless networks. ISIT 2004: 438 - [c15]Lizhong Zheng, David Tse, Muriel Médard:
On the costs of channel state information. ITW 2004: 423-427 - 2003
- [j31]Ada S. Y. Poon, David N. C. Tse, Robert W. Brodersen:
An adaptive multiantenna transceiver for slowly flat fading channels. IEEE Trans. Commun. 51(11): 1820-1827 (2003) - [j30]Lizhong Zheng, David N. C. Tse:
Diversity and multiplexing: a fundamental tradeoff in multiple-antenna channels. IEEE Trans. Inf. Theory 49(5): 1073-1096 (2003) - [j29]Pramod Viswanath, David N. C. Tse:
Sum capacity of the vector Gaussian broadcast channel and uplink-downlink duality. IEEE Trans. Inf. Theory 49(8): 1912-1921 (2003) - [j28]Matthias Grossglauser, David N. C. Tse:
A time-scale decomposition approach to measurement-based admission control. IEEE/ACM Trans. Netw. 11(4): 550-563 (2003) - [c14]David N. C. Tse, Pramod Viswanath:
On the capacity of the multiple antenna broadcast channel. Multiantenna Channels: Capacity, Coding and Signal Processing 2003: 87-105 - [c13]Sibi Raj, I. Emre Telatar, David N. C. Tse:
Job Scheduling and Multiple Access. Advances in Network Information Theory 2003: 127-137 - [c12]Ada S. Y. Poon, Robert W. Brodersen, David N. C. Tse:
The signal dimensions in multiple-antenna channels. GLOBECOM 2003: 1247-1251 - [c11]Ye Xia, David N. C. Tse:
Analysis on Packet Resequencing for Reliable Network Protocols. INFOCOM 2003: 990-1000 - 2002
- [j27]Lizhong Zheng, David N. C. Tse:
Communication on the Grassmann manifold: A geometric approach to the noncoherent multiple-antenna channel. IEEE Trans. Inf. Theory 48(2): 359-383 (2002) - [j26]Chen-Nee Chuah, David N. C. Tse, Joseph M. Kahn, Reinaldo A. Valenzuela:
Capacity scaling in MIMO Wireless systems under correlated fading. IEEE Trans. Inf. Theory 48(3): 637-650 (2002) - [j25]Pramod Viswanath, David N. C. Tse, Rajiv Laroia:
Opportunistic beamforming using dumb antennas. IEEE Trans. Inf. Theory 48(6): 1277-1294 (2002) - [j24]Matthias Grossglauser, David N. C. Tse:
Mobility increases the capacity of ad hoc wireless networks. IEEE/ACM Trans. Netw. 10(4): 477-486 (2002) - 2001
- [j23]David Starobinski, David N. C. Tse:
Probabilistic methods for web caching. Perform. Evaluation 46(2-3): 125-137 (2001) - [j22]Pramod Viswanath, David N. C. Tse, Venkat Anantharam:
Asymptotically optimal water-filling in vector multiple-access channels. IEEE Trans. Inf. Theory 47(1): 241-267 (2001) - [j21]Junshan Zhang, Edwin K. P. Chong, David N. C. Tse:
Output MAI distributions of linear MMSE multiuser receivers in DS-CDMA systems. IEEE Trans. Inf. Theory 47(3): 1128-1144 (2001) - [j20]Stephen V. Hanly, David N. C. Tse:
Resource pooling and effective bandwidths in CDMA networks with multiuser receivers and spatial diversity. IEEE Trans. Inf. Theory 47(4): 1328-1351 (2001) - [j19]Kiran Tse, David N. C. Tse:
Correction to "Effective interference and effective bandwidth of linear multiuser receivers in asynchronous CDMA systems". IEEE Trans. Inf. Theory 47(6): 2666 (2001) - [c10]Matthias Grossglauser, David N. C. Tse:
Mobility Increases the Capacity of Ad-hoc Wireless Networks. INFOCOM 2001: 1360-1369 - 2000
- [j18]David N. C. Tse, Ofer Zeitouni:
Linear multiuser receivers in random environments. IEEE Trans. Inf. Theory 46(1): 171-205 (2000) - [j17]I. Emre Telatar, David N. C. Tse:
Capacity and mutual information of wideband multipath fading channels. IEEE Trans. Inf. Theory 46(4): 1384-1400 (2000) - [j16]Kiran, David N. C. Tse:
Effective interference and effective bandwidth of linear multiuser receivers in asynchronous CDMA systems. IEEE Trans. Inf. Theory 46(4): 1426-1447 (2000) - [j15]Jamie S. Evans, David N. C. Tse:
Large system performance of linear multiuser receivers in multipath fading channels. IEEE Trans. Inf. Theory 46(6): 2059-2078 (2000) - [j14]David N. C. Tse, Sergio Verdú:
Optimum asymptotic multiuser efficiency of randomly spread CDMA. IEEE Trans. Inf. Theory 46(7): 2718-2722 (2000) - [c9]Lizhong Zheng, David N. C. Tse:
Information theoretic limits for non-coherent multi-antenna communications. WCNC 2000: 18-22 - [c8]David N. C. Tse, Chen-Nee Chuah, Joseph M. Kahn:
Capacity scaling in dual-antenna-array wireless systems. WCNC 2000: 25-29
1990 – 1999
- 1999
- [j13]Stephen V. Hanly, David N. C. Tse:
Power control and capacity of spread spectrum wireless networks. Autom. 35(12): 1987-2012 (1999) - [j12]David N. C. Tse, Stephen V. Hanly:
Linear Multiuser Receivers: Effective Interference, Effective Bandwidth and User Capacity. IEEE Trans. Inf. Theory 45(2): 641-657 (1999) - [j11]Hamid Krim, Walter Willinger, Anatoli B. Juditsky, David N. C. Tse:
Introduction to Special Issue on Mutliscale Statistical Signal Analysis and Its Application. IEEE Trans. Inf. Theory 45(3): 825-827 (1999) - [j10]Pramod Viswanath, Venkat Anantharam, David N. C. Tse:
Optimal sequences, power control, and user capacity of synchronous CDMA systems with linear MMSE multiuser receivers. IEEE Trans. Inf. Theory 45(6): 1968-1983 (1999) - [j9]Matthias Grossglauser, David N. C. Tse:
A framework for robust measurement-based admission control. IEEE/ACM Trans. Netw. 7(3): 293-309 (1999) - [c7]Yuan-Chi Chang, David Tse, David G. Messerschmitt:
Multimedia CDMA wireless network design: the link layer perspective. ICC 1999: 1421-1425 - [c6]Matthias Grossglauser, David N. C. Tse:
A Time-Scale Decomposition Approach to Measurement-Based Admission Control. INFOCOM 1999: 1539-1547 - [c5]Ning Zhang, Ada S. Y. Poon, David Tse, Robert W. Brodersen, Sergio Verdú:
Trade-offs of performance and single chip implementation of indoor wireless multi-access receivers. WCNC 1999: 226-230 - 1998
- [j8]David N. C. Tse, Stephen V. Hanly:
Multiaccess Fading Channels-Part I: Polymatroid Structure, Optimal Resource Allocation and Throughput Capacities. IEEE Trans. Inf. Theory 44(7): 2796-2815 (1998) - [j7]Stephen V. Hanly, David N. C. Tse:
Multiaccess Fading Channels-Part II: Delay-Limited Capacities. IEEE Trans. Inf. Theory 44(7): 2816-2831 (1998) - [c4]David N. C. Tse, Stephen V. Hanly:
Effective Bandwidths in Wireless Networks with Multiuser Receivers. INFOCOM 1998: 35-42 - 1997
- [j6]Anwar Elwalid, Glen G. Freundlich, Paul M. Gerhardt, Hassan Hagirahim, K. G. Ramakrishnan, David Tse:
An overview of the multimedia communications exchange (MMCX) and its performance characterization. Bell Labs Tech. J. 2(2): 15-35 (1997) - [j5]Matthias Grossglauser, Srinivasan Keshav, David N. C. Tse:
RCBR: a simple and efficient service for multiple time-scale traffic. IEEE/ACM Trans. Netw. 5(6): 741-755 (1997) - [c3]David N. C. Tse, Matthias Grossglauser:
Measurement-Based Call Admission Control: Analysis and Simulation. INFOCOM 1997: 981-989 - [c2]Matthias Grossglauser, David N. C. Tse:
A Framework for Robust Measurement-Based Admission Control. SIGCOMM 1997: 237-248 - 1995
- [b1]David N. C. Tse:
Variable-rate lossy compression and its effects on communication networks. Massachusetts Institute of Technology, Cambridge, MA, USA, 1995 - [j4]Munther A. Dahleh, Eduardo D. Sontag, David N. C. Tse, John N. Tsitsiklis:
Worst-case identification of nonlinear fading memory systems. Autom. 31(3): 503-508 (1995) - [j3]David N. C. Tse, Robert G. Gallager, John N. Tsitsiklis:
Statistical Multiplexing of Multiple Time-Scale Markov Streams. IEEE J. Sel. Areas Commun. 13(6): 1028-1038 (1995) - [c1]Matthias Grossglauser, Srinivasan Keshav, David N. C. Tse:
RCBR: A Simple and Efficient Service for Multiple Time-Scale Traffic. SIGCOMM 1995: 219-230 - 1994
- [j2]Sanjeev R. Kulkarni, David N. C. Tse:
A paradigm for class identification problems. IEEE Trans. Inf. Theory 40(3): 696-705 (1994) - 1993
- [j1]David N. C. Tse, Munther A. Dahleh, John N. Tsitsiklis:
Optimal asymptotic identification under bounded disturbances. IEEE Trans. Autom. Control. 38(8): 1176-1190 (1993)
Coauthor Index
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