Academic literature on the topic 'Matrix pseudoinversion'
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Journal articles on the topic "Matrix pseudoinversion"
Kornilova, Mariya, Vladislav Kovalnogov, Ruslan Fedorov, Mansur Zamaleev, Vasilios N. Katsikis, Spyridon D. Mourtas, and Theodore E. Simos. "Zeroing Neural Network for Pseudoinversion of an Arbitrary Time-Varying Matrix Based on Singular Value Decomposition." Mathematics 10, no. 8 (April 7, 2022): 1208. http://dx.doi.org/10.3390/math10081208.
Full textKononov, M. V., O. A. Nagulyak, A. V. Netreba, and A. A. Sudakov. "Reconstruction in NMR by the method of signal matrix pseudoinversion." Radioelectronics and Communications Systems 51, no. 10 (October 2008): 531–33. http://dx.doi.org/10.3103/s0735272708100038.
Full textXiang, Qiuhong, Bolin Liao, Lin Xiao, Long Lin, and Shuai Li. "Discrete-time noise-tolerant Zhang neural network for dynamic matrix pseudoinversion." Soft Computing 23, no. 3 (March 8, 2018): 755–66. http://dx.doi.org/10.1007/s00500-018-3119-8.
Full textStanimirović, Predrag S., Spyridon D. Mourtas, Vasilios N. Katsikis, Lev A. Kazakovtsev, and Vladimir N. Krutikov. "Recurrent Neural Network Models Based on Optimization Methods." Mathematics 10, no. 22 (November 16, 2022): 4292. http://dx.doi.org/10.3390/math10224292.
Full textLiao, Bolin, and Qiuhong Xiang. "Robustness Analyses and Optimal Sampling Gap of Recurrent Neural Network for Dynamic Matrix Pseudoinversion." Journal of Advanced Computational Intelligence and Intelligent Informatics 21, no. 5 (September 20, 2017): 778–84. http://dx.doi.org/10.20965/jaciii.2017.p0778.
Full textAlharbi, Hadeel, Houssem Jerbi, Mourad Kchaou, Rabeh Abbassi, Theodore E. Simos, Spyridon D. Mourtas, and Vasilios N. Katsikis. "Time-Varying Pseudoinversion Based on Full-Rank Decomposition and Zeroing Neural Networks." Mathematics 11, no. 3 (January 24, 2023): 600. http://dx.doi.org/10.3390/math11030600.
Full textHu, Zeshan, Lin Xiao, Kenli Li, Keqin Li, and Jichun Li. "Performance analysis of nonlinear activated zeroing neural networks for time-varying matrix pseudoinversion with application." Applied Soft Computing 98 (January 2021): 106735. http://dx.doi.org/10.1016/j.asoc.2020.106735.
Full textKohno, Kiyotaka, Mitsuru Kawamoto, and Yujiro Inouye. "A Matrix Pseudoinversion Lemma and Its Application to Block-Based Adaptive Blind Deconvolution for MIMO Systems." IEEE Transactions on Circuits and Systems I: Regular Papers 57, no. 7 (July 2010): 1449–62. http://dx.doi.org/10.1109/tcsi.2010.2050222.
Full textJin, Long, Shuai Li, Huanqing Wang, and Zhijun Zhang. "Nonconvex projection activated zeroing neurodynamic models for time-varying matrix pseudoinversion with accelerated finite-time convergence." Applied Soft Computing 62 (January 2018): 840–50. http://dx.doi.org/10.1016/j.asoc.2017.09.016.
Full textSimos, Theodore E., Vasilios N. Katsikis, Spyridon D. Mourtas, Predrag S. Stanimirović, and Dimitris Gerontitis. "A higher-order zeroing neural network for pseudoinversion of an arbitrary time-varying matrix with applications to mobile object localization." Information Sciences 600 (July 2022): 226–38. http://dx.doi.org/10.1016/j.ins.2022.03.094.
Full textDissertations / Theses on the topic "Matrix pseudoinversion"
GALVAN, Stefano. "Perception-motivated parallel algorithms for haptics." Doctoral thesis, Università degli Studi di Verona, 2010. http://hdl.handle.net/11562/343948.
Full textIn the last years the use of haptic feedback has been used in several applications, from mobile phones to rehabilitation, from video games to robotic aided surgery. The haptic devices, that are the interfaces that create the stimulation and reproduce the physical interaction with virtual or remote environments, have been studied, analyzed and developed in many ways. Every innovation in the mechanics, electronics and technical design of the device it is valuable, however it is important to maintain the focus of the haptic interaction on the human being, who is the only user of force feedback. In this thesis we worked on two main topics that are relevant to this aim: a perception based force signal manipulation and the use of modern multicore architectures for the implementation of the haptic controller. With the help of a specific experimental setup and using a 6 dof haptic device we designed a psychophysical experiment aimed at identifying of the force/torque differential thresholds applied to the hand-arm system. On the basis of the results obtained we determined a set of task dependent scaling functions, one for each degree of freedom of the three-dimensional space, that can be used to enhance the human abilities in discriminating different stimuli. The perception based manipulation of the force feedback requires a fast, stable and configurable controller of the haptic interface. Thus a solution is to use new available multicore architectures for the implementation of the controller, but many consolidated algorithms have to be ported to these parallel systems. Focusing on specific problem, i.e. the matrix pseudoinversion, that is part of the robotics dynamic and kinematic computation, we showed that it is possible to migrate code that was already implemented in hardware, and in particular old algorithms that were inherently parallel and thus not competitive on sequential processors. The main question that still lies open is how much effort is required in order to write these algorithms, usually described in VLSI or schematics, in a modern programming language. We show that a careful task decomposition and design permit a mapping of the code on the available cores. In addition, the use of data parallelism on SIMD machines can give good performance when simple vector instructions such as add and shift operations are used. Since these instructions are present also in hardware implementations the migration can be easily performed. We tested our approach on a Sony PlayStation 3 game console equipped with IBM Cell Broadband Engine processor.
Book chapters on the topic "Matrix pseudoinversion"
Cancelliere, Rossella, Mario Gai, Thierry Artières, and Patrick Gallinari. "Matrix Pseudoinversion for Image Neural Processing." In Neural Information Processing, 116–25. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-34500-5_15.
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