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911 results on '"Wan, Neng"'

1. Layer-by-layer connection for large area single crystal boron nitride multilayer films

Author

Shi, Hui, Wang, Mingyuan, Chen, Hongying, Rousseau, Adrien, Shu, Junpeng, Tian, Ming, Chen, Ruowang, Plo, Juliette, Valvin, Pierre, Gil, Bernard, Qi, Jiajie, Wang, Qinghe, Liu, Kaihui, Zhang, Mingliang, Cassabois, Guillaume, Wu, Di, and Wan, Neng

Subjects
Condensed Matter - Materials Science
Abstract

Boron nitride (BN) is today considered as one of the most promising materials for many novel applications including bright single photon emission, deep UV opto-electronics, small sized solid-state neutron detector, and high-performance two-dimensional materials, etc. Despite the recent successful fabrication of large-area BN single-crystals (typically <= 5 atomic layers), the scalable growth of thicker single-crystalline BN films still constitutes a great challenge. In this work, we demonstrate an approach to grow large-area multilayer single-crystal BN films by chemical vapor deposition on face-centered cubic Fe-Ni (111) single crystal alloy thin films with different stoichiometric phases. We show that the BN growth is greatly tunable and improved by increasing the Fe content in single-crystal Fe-Ni (111). The formation of pyramid-shaped multilayer BN domains with aligned orientation enables a continuous connection following a layer-by-layer, 'first-meet-first-connect', mosaic stitching mechanism. By means of selected area electron diffraction, micro-photoluminescence spectroscopy in the deep UV and high-resolution transmission electron microscopy, the layer-by-layer connection mechanism is unambiguously evidenced, and the stacking order has been verified to occur as unidirectional AB and ABC stackings, i.e., in the Bernal and rhombohedral BN phase.

Published
2024

4. An Information-Theoretic Analysis of Discrete-Time Control and Filtering Limitations by the I-MMSE Relationships

Author

Wan, Neng, Li, Dapeng, Hovakimyan, Naira, and Voulgaris, Petros G.

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Information Theory, Mathematics - Optimization and Control
Abstract

Fundamental limitations or performance trade-offs/limits are important properties and constraints of control and filtering systems. Among various trade-off metrics, total information rate, which characterizes the sensitivity trade-offs and average performance of control and filtering systems, is conventionally studied by using the (differential) entropy rate and Kolmogorov-Bode formula. In this paper, by extending the famous I-MMSE (mutual information -- minimum mean-square error) relationship to the discrete-time additive white Gaussian channels with and without feedback, a new paradigm is introduced to estimate and analyze total information rate as a control and filtering trade-off metric. Under this framework, we enrich the trade-off properties of total information rate for a variety of discrete-time control and filtering systems, e.g., LTI, LTV, and nonlinear, and also provide an alternative approach to investigate total information rate via optimal estimation., Comment: Neng Wan and Dapeng Li contributed equally to this paper

Published
2023

5. Safety Embedded Stochastic Optimal Control of Networked Multi-Agent Systems via Barrier States

Author

Song, Lin, Zhao, Pan, Wan, Neng, and Hovakimyan, Naira

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Multiagent Systems, Mathematics - Optimization and Control
Abstract

This paper presents a novel approach for achieving safe stochastic optimal control in networked multi-agent systems (MASs). The proposed method incorporates barrier states (BaSs) into the system dynamics to embed safety constraints. To accomplish this, the networked MAS is factorized into multiple subsystems, and each one is augmented with BaSs for the central agent. The optimal control law is obtained by solving the joint Hamilton-Jacobi-Bellman (HJB) equation on the augmented subsystem, which guarantees safety via the boundedness of the BaSs. The BaS-based optimal control technique yields safe control actions while maintaining optimality. The safe optimal control solution is approximated using path integrals. To validate the effectiveness of the proposed approach, numerical simulations are conducted on a cooperative UAV team in two different scenarios.

Published
2022

7. Simplified Analysis on Filtering Sensitivity Trade-offs in Continuous- and Discrete-Time Systems

Author

Wan, Neng, Li, Dapeng, Song, Lin, and Hovakimyan, Naira

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

A simplified analysis is performed on the Bode-type filtering sensitivity trade-off integrals, which capture the sensitivity characteristics of the estimate and estimation error with respect to the process input and estimated signal in continuous- and discrete-time linear time-invariant filtering systems. Compared with the previous analyses based on complex analysis and Cauchy's residue theorem, the analysis results derived from the simplified method are more explicit, thorough, and require less restrictive assumptions. For continuous-time filtering systems, our simplified analysis reveals that apart from the non-minimum phase zero sets reported in the previous literature, the value and boundedness of filtering sensitivity integrals are also determined by the leading coefficients, relative degrees, minimum phase zeros, and poles of plants and filters. By invoking the simplified method, a comprehensive analysis on the discrete-time filtering sensitivity integrals is conducted for the first time. Numerical examples are provided to verify the validity and correctness of the simplified analysis.

Published
2022

8. Fundamental Limitations of Control and Filtering in Continuous-Time Systems: An Information-Theoretic Analysis

Author

Wan, Neng, Li, Dapeng, and Hovakimyan, Naira

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Systems and Control, Mathematics - Optimization and Control, Mathematics - Probability
Abstract

While information theory has been introduced to investigate and characterize the control and filtering limitations for a few decades, the existing information-theoretic methods are indirect and cumbersome for analyzing the fundamental limitations of continuous-time systems. To answer this challenge, we lift the information-theoretic analysis to continuous function spaces of infinite dimensions by using Duncan's theorem or the I-MMSE relationships. Continuous-time control and filtering systems are modeled as an additive Gaussian channel with or without feedback, and total information rate is identified as a control and filtering trade-off metric and directly computed from the estimation error of channel input. Inequality constraints for the trade-off metric are derived in a general setting and then applied to capture the fundamental limitations of various control and filtering systems subject to linear and nonlinear plants. For the linear systems, we show that total information rate has similar properties as some established trade-offs, e.g., Bode-type integrals and minimum estimation error. For the nonlinear systems, we provide a direct method to compute the total information rate and its lower bound by the Stratonovich-Kushner equation., Comment: Dapeng Li and Neng Wan contributed equally to this paper

Published
2022

9. Transformers for prompt-level EMA non-response prediction

Author

Nagesh, Supriya, Moreno, Alexander, Carpenter, Stephanie M., Yap, Jamie, Chatterjee, Soujanya, Lizotte, Steven Lloyd, Wan, Neng, Kumar, Santosh, Lam, Cho, Wetter, David W., Nahum-Shani, Inbal, and Rehg, James M.

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Ecological Momentary Assessments (EMAs) are an important psychological data source for measuring current cognitive states, affect, behavior, and environmental factors from participants in mobile health (mHealth) studies and treatment programs. Non-response, in which participants fail to respond to EMA prompts, is an endemic problem. The ability to accurately predict non-response could be utilized to improve EMA delivery and develop compliance interventions. Prior work has explored classical machine learning models for predicting non-response. However, as increasingly large EMA datasets become available, there is the potential to leverage deep learning models that have been effective in other fields. Recently, transformer models have shown state-of-the-art performance in NLP and other domains. This work is the first to explore the use of transformers for EMA data analysis. We address three key questions in applying transformers to EMA data: 1. Input representation, 2. encoding temporal information, 3. utility of pre-training on improving downstream prediction task performance. The transformer model achieves a non-response prediction AUC of 0.77 and is significantly better than classical ML and LSTM-based deep learning models. We will make our a predictive model trained on a corpus of 40K EMA samples freely-available to the research community, in order to facilitate the development of future transformer-based EMA analysis works.

Published
2021

13. Generalization of Safe Optimal Control Actions on Networked Multi-Agent Systems

Author

Song, Lin, Wan, Neng, Gahlawat, Aditya, Tao, Chuyuan, Hovakimyan, Naira, and Theodorou, Evangelos A.

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Optimization and Control
Abstract

We propose a unified framework to fast generate a safe optimal control action for a new task from existing controllers on Multi-Agent Systems (MASs). The control action composition is achieved by taking a weighted mixture of the existing controllers according to the contribution of each component task. Instead of sophisticatedly tuning the cost parameters and other hyper-parameters for safe and reliable behavior in the optimal control framework, the safety of each single task solution is guaranteed using the control barrier functions (CBFs) for high-degree stochastic systems, which constrains the system state within a known safe operation region where it originates from. Linearity of CBF constraints in control enables the control action composition. The discussed framework can immediately provide reliable solutions to new tasks by taking a weighted mixture of solved component-task actions and filtering on some CBF constraints, instead of performing an extensive sampling to achieve a new controller. Our results are verified and demonstrated on both a single UAV and two cooperative UAV teams in an environment with obstacles., Comment: 10 pages, 9 figures

Published
2021

15. Distributed Algorithms for Linearly-Solvable Optimal Control in Networked Multi-Agent Systems

Author

Wan, Neng, Gahlawat, Aditya, Hovakimyan, Naira, Theodorou, Evangelos A., and Voulgaris, Petros G.

Subjects
Computer Science - Machine Learning, Computer Science - Multiagent Systems, Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control, Mathematics - Optimization and Control
Abstract

Distributed algorithms for both discrete-time and continuous-time linearly solvable optimal control (LSOC) problems of networked multi-agent systems (MASs) are investigated in this paper. A distributed framework is proposed to partition the optimal control problem of a networked MAS into several local optimal control problems in factorial subsystems, such that each (central) agent behaves optimally to minimize the joint cost function of a subsystem that comprises a central agent and its neighboring agents, and the local control actions (policies) only rely on the knowledge of local observations. Under this framework, we not only preserve the correlations between neighboring agents, but moderate the communication and computational complexities by decentralizing the sampling and computational processes over the network. For discrete-time systems modeled by Markov decision processes, the joint Bellman equation of each subsystem is transformed into a system of linear equations and solved using parallel programming. For continuous-time systems modeled by It\^o diffusion processes, the joint optimality equation of each subsystem is converted into a linear partial differential equation, whose solution is approximated by a path integral formulation and a sample-efficient relative entropy policy search algorithm, respectively. The learned control policies are generalized to solve the unlearned tasks by resorting to the compositionality principle, and illustrative examples of cooperative UAV teams are provided to verify the effectiveness and advantages of these algorithms.

Published
2021

22. Cooperative Path Integral Control for Stochastic Multi-Agent Systems

Author

Wan, Neng, Gahlawat, Aditya, Hovakimyan, Naira, Theodorou, Evangelos A., and Voulgaris, Petros G.

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Machine Learning, Computer Science - Multiagent Systems, Computer Science - Robotics, Mathematics - Optimization and Control
Abstract

A distributed stochastic optimal control solution is presented for cooperative multi-agent systems. The network of agents is partitioned into multiple factorial subsystems, each of which consists of a central agent and neighboring agents. Local control actions that rely only on agents' local observations are designed to optimize the joint cost functions of subsystems. When solving for the local control actions, the joint optimality equation for each subsystem is cast as a linear partial differential equation and solved using the Feynman-Kac formula. The solution and the optimal control action are then formulated as path integrals and approximated by a Monte-Carlo method. Numerical verification is provided through a simulation example consisting of a team of cooperative UAVs., Comment: To appear in American Control Conference 2021, New Orleans, LA, USA

Published
2020

23. f-Divergence Variational Inference

Author

Wan, Neng, Li, Dapeng, and Hovakimyan, Naira

Subjects
Computer Science - Machine Learning, Computer Science - Information Theory, Statistics - Machine Learning
Abstract

This paper introduces the $f$-divergence variational inference ($f$-VI) that generalizes variational inference to all $f$-divergences. Initiated from minimizing a crafty surrogate $f$-divergence that shares the statistical consistency with the $f$-divergence, the $f$-VI framework not only unifies a number of existing VI methods, e.g. Kullback-Leibler VI, R\'{e}nyi's $\alpha$-VI, and $\chi$-VI, but offers a standardized toolkit for VI subject to arbitrary divergences from $f$-divergence family. A general $f$-variational bound is derived and provides a sandwich estimate of marginal likelihood (or evidence). The development of the $f$-VI unfolds with a stochastic optimization scheme that utilizes the reparameterization trick, importance weighting and Monte Carlo approximation; a mean-field approximation scheme that generalizes the well-known coordinate ascent variational inference (CAVI) is also proposed for $f$-VI. Empirical examples, including variational autoencoders and Bayesian neural networks, are provided to demonstrate the effectiveness and the wide applicability of $f$-VI., Comment: Dapeng Li and Neng Wan contributed equally to this paper. Supplementary material is attached. The links to code are provided in the paper, supplementary material and reference list. To appear in Advances in Neural Information Processing Systems 33 (NeurIPS 2020)

Published
2020

24. Compositionality of Linearly Solvable Optimal Control in Networked Multi-Agent Systems

Author

Song, Lin, Wan, Neng, Gahlawat, Aditya, Hovakimyan, Naira, and Theodorou, Evangelos A.

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Machine Learning, Computer Science - Multiagent Systems, Mathematics - Optimization and Control
Abstract

In this paper, we discuss the methodology of generalizing the optimal control law from learned component tasks to unlearned composite tasks on Multi-Agent Systems (MASs), by using the linearity composition principle of linearly solvable optimal control (LSOC) problems. The proposed approach achieves both the compositionality and optimality of control actions simultaneously within the cooperative MAS framework in both discrete- and continuous-time in a sample-efficient manner, which reduces the burden of re-computation of the optimal control solutions for the new task on the MASs. We investigate the application of the proposed approach on the MAS with coordination between agents. The experiments show feasible results in investigated scenarios, including both discrete and continuous dynamical systems for task generalization without resampling., Comment: Accepted to the 2021 American Control Conference (ACC)

Published
2020

37. A Simplified Approach to Analyze Complementary Sensitivity Trade-offs in Continuous-Time and Discrete-Time Systems

Author

Wan, Neng, Li, Dapeng, and Hovakimyan, Naira

Subjects
Computer Science - Systems and Control, Mathematics - Optimization and Control
Abstract

A simplified approach is proposed to investigate the continuous-time and discrete-time complementary sensitivity Bode integrals (CSBIs) in this note. For continuous-time feedback systems with unbounded frequency domain, the CSBI weighted by $1/\omega^2$ is considered, where this simplified method reveals a more explicit relationship between the value of CSBI and the structure of the open-loop transfer function. With a minor modification of this method, the CSBI of discrete-time system is derived, and illustrative examples are provided. Compared with the existing results on CSBI, neither Cauchy integral theorem nor Poisson integral formula are used throughout the analysis, and the analytic constraint on the integrand is removed., Comment: 15 pages, 1 figure

Published
2018

38. Sensitivity Analysis of Continuous-Time Linear Control Systems subject to Control and Measurement Noise: An Information-Theoretic Approach

Author

Wan, Neng, Li, Dapeng, and Hovakimyan, Naira

Subjects
Computer Science - Systems and Control, Mathematics - Optimization and Control
Abstract

Sensitivity of linear continuous-time control systems, subject to control and measurement noise, is analyzed by deriving the lower bounds of Bode-like integrals via an information-theoretic approach. Bode integrals of four different sensitivity-like functions are employed to gauge the control trade-offs. When the signals of the control system are stationary Gaussian, these four different Bode-like integrals can be represented as differences between mutual information rates. These mutual information rates and hence the corresponding Bode-like integrals are proven to be bounded below by the unstable poles and zeros of the plant model, if the signals of the control system are wide-sense stationary., Comment: 19 pages, 4 figures

Published
2018

49. Synchronization of Singularly Perturbed Systems with Time Scales

Author

Wan, Neng and Naidu, Desineni S.

Subjects
Computer Science - Systems and Control
Abstract

Synchronization problems of continuous and discrete singularly perturbed systems are studied in this paper with singular perturbations and time scales (SPaTS) technique. The dynamics of leader and followers are decomposed into pure-slow and pure-fast subsystems. Locally optimal decentralized tracking sub-controllers are synthesized respectively to asymptotically synchronize each subsystem of follower. A composite control protocol is proposed to synchronize the original dynamics of each follower with the leader's dynamics. Both analogous and digital flight control systems for aircraft formation flying are utilized to verify the effectiveness of the control schemes., Comment: Accepted for publication in Proceedings of the 21st Conference on Circuits, Systems, Communications and Computers, Crete Island, Greece, 2017

Published
2018

50. Sensitivity Analysis of Continuous-Time Systems based on Power Spectral Density

Author

Wan, Neng, Li, Dapeng, and Hovakimyan, Naira

Subjects
Computer Science - Systems and Control
Abstract

Bode integrals of sensitivity and sensitivity-like functions along with complementary sensitivity and complementary sensitivity-like functions are conventionally used for describing performance limitations of a feedback control system. In this paper, we show that in the case when the disturbance is a wide sense stationary process the (complementary) sensitivity Bode integral and the (complementary) sensitivity-like Bode integral are identical. A lower bound of the continuous-time complementary sensitivity-like Bode integral is also derived and examined with the linearized flight-path angle tracking control problem of an F-16 aircraft., Comment: 15 pages, 4 figures, 57th IEEE Conference on Decision and Control (CDC 2018), Miami Beach, FL, USA, December 17-19, 2018

Published
2018

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