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Navid Azizan
Person information
- affiliation: Massachusetts Institute of Technology (MIT), MA, USA
- affiliation (former): California Institute of Technology, CA, USA
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2020 – today
- 2024
- [c22]Namhoon Cho, Youngjae Min, Hyo-Sang Shin, Navid Azizan:
Π-ORFit: One-Pass Learning with Bregman Projection. ACC 2024: 4345-4352 - [i34]Kaveh Alimohammadi, Hao Wang, Ojas Gulati, Akash Srivastava, Navid Azizan:
Adapting Differentially Private Synthetic Data to Relational Databases. CoRR abs/2405.18670 (2024) - [i33]Sunbochen Tang, Haoyuan Sun, Navid Azizan:
Meta-Learning for Adaptive Control with Automated Mirror Descent. CoRR abs/2407.20165 (2024) - [i32]Sunbochen Tang, Themistoklis Sapsis, Navid Azizan:
Learning Chaotic Dynamics with Embedded Dissipativity. CoRR abs/2410.00976 (2024) - [i31]Youngjae Min, Anoopkumar Sonar, Navid Azizan:
Hard-Constrained Neural Networks with Universal Approximation Guarantees. CoRR abs/2410.10807 (2024) - [i30]Aaron Alvarado Kristanto Julistiono, Davoud Ataee Tarzanagh, Navid Azizan:
Optimizing Attention with Mirror Descent: Generalized Max-Margin Token Selection. CoRR abs/2410.14581 (2024) - 2023
- [j8]Spencer M. Richards, Navid Azizan, Jean-Jacques E. Slotine, Marco Pavone:
Control-oriented meta-learning. Int. J. Robotics Res. 42(10): 777-797 (2023) - [j7]Haoyuan Sun, Khashayar Gatmiry, Kwangjun Ahn, Navid Azizan:
A Unified Approach to Controlling Implicit Regularization via Mirror Descent. J. Mach. Learn. Res. 24: 393:1-393:58 (2023) - [c21]Devansh Jalota, Karthik Gopalakrishnan, Navid Azizan, Ramesh Johari, Marco Pavone:
Online Learning for Traffic Routing under Unknown Preferences. AISTATS 2023: 3210-3229 - [c20]Devansh Jalota, Haoyuan Sun, Navid Azizan:
Online Learning for Equilibrium Pricing in Markets under Incomplete Information. CDC 2023: 4996-5001 - [c19]Youngjae Min, Spencer M. Richards, Navid Azizan:
Data-Driven Control with Inherent Lyapunov Stability. CDC 2023: 6032-6037 - [c18]Boris Velasevic, Rohit Parasnis, Christopher G. Brinton, Navid Azizan:
On the Effects of Data Heterogeneity on the Convergence Rates of Distributed Linear System Solvers. CDC 2023: 8394-8399 - [c17]Spencer M. Richards, Jean-Jacques E. Slotine, Navid Azizan, Marco Pavone:
Learning Control-Oriented Dynamical Structure from Data. ICML 2023: 29051-29062 - [i29]Spencer M. Richards, Jean-Jacques E. Slotine, Navid Azizan, Marco Pavone:
Learning Control-Oriented Dynamical Structure from Data. CoRR abs/2302.02529 (2023) - [i28]Youngjae Min, Spencer M. Richards, Navid Azizan:
Data-Driven Control with Inherent Lyapunov Stability. CoRR abs/2303.03157 (2023) - [i27]Devansh Jalota, Haoyuan Sun, Navid Azizan:
Online Learning for Equilibrium Pricing in Markets under Incomplete Information. CoRR abs/2303.11522 (2023) - [i26]Jeremy Bernstein, Chris Mingard, Kevin Huang, Navid Azizan, Yisong Yue:
Automatic Gradient Descent: Deep Learning without Hyperparameters. CoRR abs/2304.05187 (2023) - [i25]Boris Velasevic, Rohit Parasnis, Christopher G. Brinton, Navid Azizan:
On the Effects of Data Heterogeneity on the Convergence Rates of Distributed Linear System Solvers. CoRR abs/2304.10640 (2023) - [i24]Benjamin Wright, Youngjae Min, Jeremy Bernstein, Navid Azizan:
SketchOGD: Memory-Efficient Continual Learning. CoRR abs/2305.16424 (2023) - [i23]Young-Jin Park, Hao Wang, Shervin Ardeshir, Navid Azizan:
Representation Reliability and Its Impact on Downstream Tasks. CoRR abs/2306.00206 (2023) - [i22]Haoyuan Sun, Khashayar Gatmiry, Kwangjun Ahn, Navid Azizan:
A Unified Approach to Controlling Implicit Regularization via Mirror Descent. CoRR abs/2306.13853 (2023) - [i21]Haoyuan Sun, Navid Azizan, Akash Srivastava, Hao Wang:
Private Synthetic Data Meets Ensemble Learning. CoRR abs/2310.09729 (2023) - 2022
- [j6]Navid Azizan, Sahin Lale, Babak Hassibi:
Stochastic Mirror Descent on Overparameterized Nonlinear Models. IEEE Trans. Neural Networks Learn. Syst. 33(12): 7717-7727 (2022) - [c16]Robin A. Brown, Edward Schmerling, Navid Azizan, Marco Pavone:
A Unified View of SDP-based Neural Network Verification through Completely Positive Programming. AISTATS 2022: 9334-9355 - [c15]Youngjae Min, Kwangjun Ahn, Navid Azizan:
One-Pass Learning via Bridging Orthogonal Gradient Descent and Recursive Least-Squares. CDC 2022: 4720-4725 - [c14]Haoyuan Sun, Kwangjun Ahn, Christos Thrampoulidis, Navid Azizan:
Mirror Descent Maximizes Generalized Margin and Can Be Implemented Efficiently. NeurIPS 2022 - [i20]Navid Azizan, Sahin Lale, Babak Hassibi:
Explicit Regularization via Regularizer Mirror Descent. CoRR abs/2202.10788 (2022) - [i19]Robin A. Brown, Edward Schmerling, Navid Azizan, Marco Pavone:
A Unified View of SDP-based Neural Network Verification through Completely Positive Programming. CoRR abs/2203.03034 (2022) - [i18]Devansh Jalota, Karthik Gopalakrishnan, Navid Azizan, Ramesh Johari, Marco Pavone:
Online Learning for Traffic Routing under Unknown Preferences. CoRR abs/2203.17150 (2022) - [i17]Spencer M. Richards, Navid Azizan, Jean-Jacques E. Slotine, Marco Pavone:
Control-oriented meta-learning. CoRR abs/2204.06716 (2022) - [i16]Haoyuan Sun, Kwangjun Ahn, Christos Thrampoulidis, Navid Azizan:
Mirror Descent Maximizes Generalized Margin and Can Be Implemented Efficiently. CoRR abs/2205.12808 (2022) - [i15]Shervin Ardeshir, Navid Azizan:
Uncertainty in Contrastive Learning: On the Predictability of Downstream Performance. CoRR abs/2207.09336 (2022) - [i14]Youngjae Min, Kwangjun Ahn, Navid Azizan:
One-Pass Learning via Bridging Orthogonal Gradient Descent and Recursive Least-Squares. CoRR abs/2207.13853 (2022) - [i13]Cesar Almecija, Apoorva Sharma, Navid Azizan:
Uncertainty-Aware Meta-Learning for Multimodal Task Distributions. CoRR abs/2210.01881 (2022) - 2021
- [c13]Spencer M. Richards, Navid Azizan, Jean-Jacques E. Slotine, Marco Pavone:
Adaptive-Control-Oriented Meta-Learning for Nonlinear Systems. Robotics: Science and Systems 2021 - [c12]Apoorva Sharma, Navid Azizan, Marco Pavone:
Sketching curvature for efficient out-of-distribution detection for deep neural networks. UAI 2021: 1958-1967 - [i12]Apoorva Sharma, Navid Azizan, Marco Pavone:
Sketching Curvature for Efficient Out-of-Distribution Detection for Deep Neural Networks. CoRR abs/2102.12567 (2021) - [i11]Spencer M. Richards, Navid Azizan, Jean-Jacques E. Slotine, Marco Pavone:
Adaptive-Control-Oriented Meta-Learning for Nonlinear Systems. CoRR abs/2103.04490 (2021) - 2020
- [j5]Navid Azizan, Yu Su, Krishnamurthy Dvijotham, Adam Wierman:
Optimal Pricing in Markets with Nonconvex Costs. Oper. Res. 68(2): 480-496 (2020) - [c11]Mehrdad Farajtabar, Navid Azizan, Alex Mott, Ang Li:
Orthogonal Gradient Descent for Continual Learning. AISTATS 2020: 3762-3773 - [c10]Navid Azizan, Sahin Lale, Babak Hassibi:
A Study of Generalization of Stochastic Mirror Descent Algorithms on Overparameterized Nonlinear Models. ICASSP 2020: 3132-3136
2010 – 2019
- 2019
- [j4]Navid Azizan:
Optimization Algorithms for Large-Scale Systems: From Deep Learning to Energy Markets. SIGMETRICS Perform. Evaluation Rev. 47(3): 2-5 (2019) - [j3]Navid Azizan Ruhi, Farshad Lahouti, Amir Salman Avestimehr, Babak Hassibi:
Distributed Solution of Large-Scale Linear Systems via Accelerated Projection-Based Consensus. IEEE Trans. Signal Process. 67(14): 3806-3817 (2019) - [c9]Navid Azizan, Babak Hassibi:
A Stochastic Interpretation of Stochastic Mirror Descent: Risk-Sensitive Optimality. CDC 2019: 3960-3965 - [c8]Navid Azizan Ruhi, Yu Su, Krishnamurthy Dvijotham, Adam Wierman:
Optimal Pricing in Markets with Non-Convex Costs. EC 2019: 595 - [c7]Navid Azizan Ruhi, Babak Hassibi:
A Characterization of Stochastic Mirror Descent Algorithms and Their Convergence Properties. ICASSP 2019: 5167-5171 - [c6]Navid Azizan Ruhi, Babak Hassibi:
Stochastic Gradient/Mirror Descent: Minimax Optimality and Implicit Regularization. ICLR (Poster) 2019 - [i10]Navid Azizan Ruhi, Babak Hassibi:
A Stochastic Interpretation of Stochastic Mirror Descent: Risk-Sensitive Optimality. CoRR abs/1904.01855 (2019) - [i9]Navid Azizan Ruhi, Sahin Lale, Babak Hassibi:
Stochastic Mirror Descent on Overparameterized Nonlinear Models: Convergence, Implicit Regularization, and Generalization. CoRR abs/1906.03830 (2019) - [i8]Mehrdad Farajtabar, Navid Azizan, Alex Mott, Ang Li:
Orthogonal Gradient Descent for Continual Learning. CoRR abs/1910.07104 (2019) - 2018
- [j2]Navid Azizan Ruhi, Krishnamurthy Dvijotham, Niangjun Chen, Adam Wierman:
Opportunities for Price Manipulation by Aggregators in Electricity Markets. IEEE Trans. Smart Grid 9(6): 5687-5698 (2018) - [c5]Navid Azizan Ruhi, Farshad Lahouti, Salman Avestimehr, Babak Hassibi:
Distributed Solution of Large-Scale Linear Systems Via Accelerated Projection-Based Consensus. ICASSP 2018: 6358-6362 - [c4]Wael Halbawi, Navid Azizan Ruhi, Fariborz Salehi, Babak Hassibi:
Improving Distributed Gradient Descent Using Reed-Solomon Codes. ISIT 2018: 2027-2031 - [i7]Navid Azizan Ruhi, Babak Hassibi:
Stochastic Gradient/Mirror Descent: Minimax Optimality and Implicit Regularization. CoRR abs/1806.00952 (2018) - 2017
- [i6]Wael Halbawi, Navid Azizan Ruhi, Fariborz Salehi, Babak Hassibi:
Improving Distributed Gradient Descent Using Reed-Solomon Codes. CoRR abs/1706.05436 (2017) - [i5]Navid Azizan Ruhi, Farshad Lahouti, Salman Avestimehr, Babak Hassibi:
Distributed Solution of Large-Scale Linear Systems via Accelerated Projection-Based Consensus. CoRR abs/1708.01413 (2017) - 2016
- [j1]Navid Azizan Ruhi, Niangjun Chen, Krishnamurthy Dvijotham, Adam Wierman:
Opportunities for Price Manipulation by Aggregators in Electricity Markets. SIGMETRICS Perform. Evaluation Rev. 44(2): 49-51 (2016) - [c3]Navid Azizan Ruhi, Christos Thrampoulidis, Babak Hassibi:
Improved bounds on the epidemic threshold of exact SIS models on complex networks. CDC 2016: 3560-3565 - [i4]Navid Azizan Ruhi, Christos Thrampoulidis, Babak Hassibi:
Improved Bounds on the Epidemic Threshold of Exact SIS Models on Complex Networks. CoRR abs/1603.05095 (2016) - [i3]Navid Azizan Ruhi, Krishnamurthy Dvijotham, Niangjun Chen, Adam Wierman:
Opportunities for Price Manipulation by Aggregators in Electricity Markets. CoRR abs/1606.06510 (2016) - [i2]Navid Azizan Ruhi, Hyoung Jun Ahn, Babak Hassibi:
Analysis of Exact and Approximated Epidemic Models over Complex Networks. CoRR abs/1609.09565 (2016) - 2015
- [c2]Navid Azizan Ruhi, Babak Hassibi:
SIRS epidemics on complex networks: Concurrence of exact Markov chain and approximated models. CDC 2015: 2919-2926 - [c1]Navid Azizan Ruhi, Paul Bogdan:
Multiscale modeling of biological communication. ICC 2015: 1140-1145 - [i1]Navid Azizan Ruhi, Babak Hassibi:
SIRS Epidemics on Complex Networks: Concurrence of Exact Markov Chain and Approximated Models. CoRR abs/1503.07576 (2015)
Coauthor Index
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last updated on 2024-11-28 21:27 CET by the dblp team
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