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101	Sparse Optimal Control for Continuous-Time Dynamical Systems / 連続時間システムに対するスパース最適制御 Ikeda, Takuya 25 March 2019 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(情報学) / 甲第21916号 / 情博第699号 / 新制\|\|情\|\|120(附属図書館) / 京都大学大学院情報学研究科数理工学専攻 / (主査)准教授加嶋健司, 教授太田快人, 教授山下信雄 / 学位規則第4条第1項該当 / Doctor of Informatics / Kyoto University / DFAM sparse modeling sparse control L0 optimization convex optimization optimal control multi-agent system dynamic programming 007
102	Blockchain Supported Demand Response In Smart Grids Sreeharan, Sreelakshmi 15 June 2020 (has links) No description available. Computer Engineering Electrical Engineering Blockchain Smart Grids Convex optimization Demand Response Multisig Wallet
103	Linear Mixed Model Selection via Minimum Approximated Information Criterion Atutey, Olivia Abena 06 August 2020 (has links) No description available. Statistics linear mixed models non-convex optimization approximated information criterion
104	Non-convex Stochastic Optimization With Biased Gradient Estimators Sokolov, Igor 03 1900 (has links) Non-convex optimization problems appear in various applications of machine learning. Because of their practical importance, these problems gained a lot of attention in recent years, leading to the rapid development of new efﬁcient stochastic gradient-type methods. In the quest to improve the generalization performance of modern deep learning models, practitioners are resorting to using larger and larger datasets in the training process, naturally distributed across a number of edge devices. However, with the increase of trainable data, the computational costs of gradient-type methods increase signiﬁcantly. In addition, distributed methods almost invariably suffer from the so-called communication bottleneck: the cost of communication of the information necessary for the workers to jointly solve the problem is often very high, and it can be orders of magnitude higher than the cost of computation. This thesis provides a study of ﬁrst-order stochastic methods addressing these issues. In particular, we structure this study by considering certain classes of methods. That allowed us to understand current theoretical gaps, which we successfully ﬁlled by providing new efﬁcient algorithms. non-convex optimization stochastic gradient methods distributed learning communication compression error feedback variance reduction
105	Estimation and Uncertainty Quantification in Tensor Completion with Side Information Somnooma Hilda Marie Bernadette Ibriga (11206167) 30 July 2021 (has links) <div>This work aims to provide solutions to two significant issues in the effective use and practical application of tensor completion as a machine learning method. The first solution addresses the challenge in designing fast and accurate recovery methods in tensor completion in the presence of highly sparse and highly missing data. The second takes on the need for robust uncertainty quantification methods for the recovered tensor.</div><div><br></div><div><b>Covariate-assisted Sparse Tensor Completion</b></div><div><b><br></b></div><div>In the first part of the dissertation, we aim to provably complete a sparse and highly missing tensor in the presence of covariate information along tensor modes. Our motivation originates from online advertising where users click-through-rates (CTR) on ads over various devices form a CTR tensor that can have up to 96% missing entries and has many zeros on non-missing entries. These features makes the standalone tensor completion method unsatisfactory. However, beside the CTR tensor, additional ad features or user characteristics are often available. We propose Covariate-assisted Sparse Tensor Completion (COSTCO) to incorporate covariate information in the recovery of the sparse tensor. The key idea is to jointly extract latent components from both the tensor and the covariate matrix to learn a synthetic representation. Theoretically, we derive the error bound for the recovered tensor components and explicitly quantify the improvements on both the reveal probability condition and the tensor recovery accuracy due to covariates. Finally, we apply COSTCO to an advertisement dataset from a major internet platform consisting of a CTR tensor and ad covariate matrix, leading to 23% accuracy improvement over the baseline methodology. An important by-product of our method is that clustering analysis on ad latent components from COSTCO reveal interesting and new ad clusters, that link different product industries which are not formed in existing clustering methods. Such findings could be directly useful for better ad planning procedures.</div><div><b><br></b></div><div><b>Uncertainty Quantification in Covariate-assisted Tensor Completion</b></div><div><br></div><div>In the second part of the dissertation, we propose a framework for uncertainty quantification for the imputed tensor factors obtained from completing a tensor with covariate information. We characterize the distribution of the non-convex estimator obtained from using the algorithm COSTCO down to fine scales. This distributional theory in turn allows us to construct proven valid and tight confidence intervals for the unseen tensor factors. The proposed inferential procedure enjoys several important features: (1) it is fully adaptive to noise heteroscedasticity, (2) it is data-driven and automatically adapts to unknown noise distributions and (3) in the high missing data regime, the inclusion of side information in the tensor completion model yields tighter confidence intervals compared to those obtained from standalone tensor completion methods.</div><div><br></div> Statistics Optimisation Applied Statistics Statistical Theory Tensor Analysis Machine Learning Non Convex Optimization
106	Energy Production Cost and PAR Minimization in Multi-Source Power Networks Ghebremariam, Samuel 17 May 2012 (has links) No description available. Electrical Engineering Multi-Source power network Cost Minimization PAR minimization Convex Optimization
107	Asynchronous Algorithms for Large-Scale Optimization : Analysis and Implementation Aytekin, Arda January 2017 (has links) This thesis proposes and analyzes several first-order methods for convex optimization, designed for parallel implementation in shared and distributed memory architectures. The theoretical focus is on designing algorithms that can run asynchronously, allowing computing nodes to execute their tasks with stale information without jeopardizing convergence to the optimal solution. The first part of the thesis focuses on shared memory architectures. We propose and analyze a family of algorithms to solve an unconstrained, smooth optimization problem consisting of a large number of component functions. Specifically, we investigate the effect of information delay, inherent in asynchronous implementations, on the convergence properties of the incremental prox-gradient descent method. Contrary to related proposals in the literature, we establish delay-insensitive convergence results: the proposed algorithms converge under any bounded information delay, and their constant step-size can be selected independently of the delay bound. Then, we shift focus to solving constrained, possibly non-smooth, optimization problems in a distributed memory architecture. This time, we propose and analyze two important families of gradient descent algorithms: asynchronous mini-batching and incremental aggregated gradient descent. In particular, for asynchronous mini-batching, we show that, by suitably choosing the algorithm parameters, one can recover the best-known convergence rates established for delay-free implementations, and expect a near-linear speedup with the number of computing nodes. Similarly, for incremental aggregated gradient descent, we establish global linear convergence rates for any bounded information delay. Extensive simulations and actual implementations of the algorithms in different platforms on representative real-world problems validate our theoretical results. / <p>QC 20170317</p> convex optimization optimization asynchronous algorithms algorithms parallel algorithms large-scale big data Control Engineering Reglerteknik
108	Guidance strategies for the boosted landing of reusable launch vehicles / Strategier för motor-reglerad landning av återanvändbara bärraketer Carpentier, Agathe January 2019 (has links) This document presents the results of the master thesis conducted from April 2019 to October 2019 under the direction of CNES engineer Eric Bourgeois, as part of the KTH Master of Science in Aerospace Engineering curriculum. Within the framework of development studies for the Callisto demonstrator, this master thesis aims at studying and developing possible guidance strategies for the boosted landing. Two main approaches are described in this document : • Adaptive pseudo-spectral interpolation • Convex optimization The satisfying results yielded give strong arguments for choosing the latter as part of the Callisto GNC systems and describe possible implementation strategies as well as complementary analyses that could be conducted. / Denna rapport presenterar resultaten av ett examensarbete som genomfördes från april till oktober 2019 under ledning av CNES-ingenjören Eric Bourgeois, som en del av en masterexamen i flyg- och rymdteknik från KTH, Kungliga tekniska högskolan. Inom ramen för utvecklingsstudier för bärraketen Callisto syftar detta arbete att studera och utveckla möjliga reglerstrategier för Callistos landing som kontrolleras med raketer. Två huvudsakliga metoder beskrivs: • Adaptiv pseudospektral interpolering • Konvex optimering Resultaten ger starka argument för att välja den senare av dessa två metoder för Callistos reglersystem och beskriver möjliga implementeringsstrategier samt vilka kompletterande analyser som bör genomföras guidance Callisto convex optimization adaptative pseudo-spectral interpolation GNC thesis Aerospace Engineering Rymd- och flygteknik
109	PSG Data Compression And Decompression Based On Compressed Sensing ChangHyun, Lee 19 September 2011 (has links) No description available. Electrical Engineering Health Care PSG Sparse Representation Compressed Sensing Data Compression Convex Optimization
110	Sparse Signal Reconstruction Modeling for MEG Source Localization Using Non-convex Regularizers Samarasinghe, Kasun M. 19 October 2015 (has links) No description available. Engineering MEG Source Localization Non-convex optimization l0 norm group sparsity duality information criteria

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