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ORCIDAlexander Medvedev
Alexander V. Medvedev
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2020 – today
- 2024
[j34]Alexander Medvedev:
Closed-form expressions for the pure time delay in terms of the input and output Laguerre spectra. Autom. 159: 111366 (2024)- [j33]Anton V. Proskurnikov
, Håkan Runvik, Alexander Medvedev:
Cycles in Impulsive Goodwin's Oscillators of arbitrary order. Autom. 159: 111379 (2024) - [c91]Anna Franziska Frigge, Alexander Medvedev, Elena Jiltsova, Dag Nyholm:
Neural Fiber Activation in Unipolar vs Bipolar Deep Brain Stimulation. ACC 2024: 4530-4535 - [c90]Alexander Medvedev, Anton V. Proskumikov, Zhanybai T. Zhusubaliyev:
Output Corridor Control via Design of Impulsive Goodwin's Oscillator. ACC 2024: 5419-5424 - [c89]Alexander Medvedev, Anton V. Proskurnikov, Zhanybai T. Zhusubaliyev:
Impulsive Feedback Control for Dosing Applications. ECC 2024: 1258-1263 - [c88]Alexander Medvedev, Anton V. Proskurnikov, Zhanybai T. Zhusubaliyev:
Design of Impulsive Feedback Controller for Dosing. MED 2024: 227-232 - [i12]Anton V. Proskurnikov, Alexander Medvedev:
Stability Properties of the Impulsive Goodwin's Oscillator in 1-cycle. CoRR abs/2403.18557 (2024) - 2023
- [j32]Manuel Arana-Jiménez, Alexander V. Medvedev, Ekaterina Chzhan:
A Nonparametric Dual Control Algorithm of Multidimensional Objects with Interval-Valued Observations. Axioms 12(2): 193 (2023) - [j31]Viktor Bro, Alexander Medvedev:
Continuous and Discrete Volterra-Laguerre Models With Delay for Modeling of Smooth Pursuit Eye Movements. IEEE Trans. Biomed. Eng. 70(1): 97-104 (2023) - [c87]Alexander Medvedev, Anton V. Proskurnikov, Zhanybai T. Zhusubaliyev:
Design of the Impulsive Goodwin's Oscillator: A Case Study. ACC 2023: 3572-3577 - [i11]Anton V. Proskurnikov, Håkan Runvik, Alexander Medvedev:
Cycles in Impulsive Goodwin's Oscillators of Arbitrary Order. CoRR abs/2302.01364 (2023) - [i10]Anh Tung Nguyen, Sribalaji Coimbatore Anand, André M. H. Teixeira, Alexander Medvedev:
Optimal Detector Placement in Networked Control Systems under Cyber-attacks with Applications to Power Networks. CoRR abs/2304.05710 (2023) - [i9]Håkan Runvik, Alexander Medvedev:
Robust One-Step Estimation of Impulsive Time Series. CoRR abs/2304.13394 (2023) - [i8]Alexander Medvedev, Anton V. Proskurnikov, Zhanybai T. Zhusubaliyev:
Design of the Impulsive Goodwin's Oscillator: A Case Study. CoRR abs/2305.11136 (2023) - [i7]Anh Tung Nguyen, André M. H. Teixeira, Alexander Medvedev:
Security Allocation in Networked Control Systems under Stealthy Attacks. CoRR abs/2308.16639 (2023) - [i6]Anna Franziska Frigge, Alexander Medvedev, Elena Jiltsova, Dag Nyholm:
Neural Fiber Activation in Unipolar vs Bipolar Deep Brain Stimulation. CoRR abs/2310.01156 (2023) - 2022
- [j30]Alexander V. Medvedev, Viktor Bro, Rosane Ushirobira:
Linear Time-Invariant Discrete Delay Systems in Laguerre Domain. IEEE Trans. Autom. Control. 67(5): 2677-2683 (2022) - [c86]Mohamed Abdalmoaty, Alexander Medvedev:
Noise reduction in Laguerre-domain discrete delay estimation. CDC 2022: 6254-6259 - [c85]Håkan Runvik, Alexander Medvedev:
Input Sequence and Parameter Estimation in Impulsive Biomedical Models. ECC 2022: 253-258 - [c84]Alexander Medvedev:
Time-delay estimation with non-persistent input *. MED 2022: 251-256 - [i5]Anh Tung Nguyen, André M. H. Teixeira, Alexander Medvedev:
A Single-Adversary-Single-Detector Zero-Sum Game in Networked Control Systems. CoRR abs/2205.14001 (2022) - [i4]Håkan Runvik, Alexander Medvedev:
Input Sequence and Parameter Estimation in Impulsive Biomedical Models. CoRR abs/2207.01325 (2022) - [i3]Mohamed Abdalmoaty, Alexander Medvedev:
Noise reduction in Laguerre-domain discrete delay estimation. CoRR abs/2207.12973 (2022) - [i2]Mohamed Abdalmoaty, Alexander Medvedev:
Continuous Time-Delay Estimation From Sampled Measurements. CoRR abs/2211.11053 (2022) - 2021
- [c83]Zhanybai T. Zhusubaliyev, Alexander Medvedev, Anton V. Proskurnikov:
Impulsive Goodwin's Oscillator Model of Endocrine Regulation: Local Feedback Leads to Multistability. EBCCSP 2021: 1-8 - [c82]Oleg Y. Abramov, Alexander Medvedev, Natalia Tomashevskaya:
Main Parameters of Value (MPV) Analysis: Where MPV Candidates Come From. TFC 2021: 391-400 - [c81]Vladimir Timokhin, Anna Kolomytseva, Alexander Medvedev, Daria Guskova, Artur Nechaev:
System-dynamic Model for Managing Financial and Intellectual Resources of a Digital Project. IVUS 2021: 175-180 - 2020
- [j29]Somayeh Aghanavesi, Jerker Westin, Filip Bergquist, Dag Nyholm, Håkan Askmark, Sten Magnus Aquilonius, Radu Constantinescu, Alexander Medvedev, Jack Spira, Fredrik Ohlsson, Ilias Thomas, Anders Ericsson, Dongni Johansson Buvarp, Mevludin Memedi:
A multiple motion sensors index for motor state quantification in Parkinson's disease. Comput. Methods Programs Biomed. 189: 105309 (2020) - [j28]Guillaume Mercère, Alexander Medvedev, Daniel E. Rivera, Caterina M. Scoglio, Bayu Jayawardhana:
Foreword Identification and Control in Biomedical Applications. IEEE Trans. Control. Syst. Technol. 28(1): 1-2 (2020) - [j27]Fredrik Olsson, Alexander Medvedev:
Nonparametric Time-Domain Tremor Quantification With Smart Phone for Therapy Individualization. IEEE Trans. Control. Syst. Technol. 28(1): 118-129 (2020) - [j26]Ruben Cubo, Alexander Medvedev:
Online Tissue Conductivity Estimation in Deep Brain Stimulation. IEEE Trans. Control. Syst. Technol. 28(1): 149-162 (2020) - [c80]Adnan Albaba, Alexander Medvedev:
Online Model-Based Beat-by-beat Heart Rate Estimation. ACC 2020: 539-544 - [c79]Håkan Runvik, Alexander Medvedev, Maria C. Kjellsson:
Impulsive Feedback Modeling of Levodopa Pharmacokinetics Subject to Intermittently Interrupted Gastric Emptying. ACC 2020: 1323-1328 - [c78]Håkan Runvik, Alexander Medvedev:
Laguerre Domain Estimation of an Input Impulse Train to a Continuous Linear Time-invariant System. CDC 2020: 4622-4627 - [c77]Adnan Albaba, Alexander Medvedev:
Patient-Specific Electrocardiogram Monitoring by Model-Based Stochastic Anomaly Detection. ECC 2020: 735-740 - [i1]Håkan Runvik, Alexander Medvedev, Robin Eriksson, Stefan Engblom:
Initialization of a Disease Transmission Model. CoRR abs/2007.08925 (2020)
2010 – 2019
- 2019
- [j25]Alexander Medvedev, Zhanybai T. Zhusubaliyev, Olov Rosen, Margarida M. Silva:
Oscillations-free PID control of anesthetic drug delivery in neuromuscular blockade. Comput. Methods Programs Biomed. 171: 119-131 (2019) - [c76]Alexander Medvedev, Ruben Cubo, Fredrik Olsson, Viktor Bro, Helena Andersson:
Control-Engineering Perspective on Deep Brain Stimulation: Revisited. ACC 2019: 860-865 - [c75]Diana Yamalova, Alexander Medvedev:
Attractivity of the synchronous mode in hybrid observers for the impulsive Goodwin's oscillator subject to harmonic exogenous excitation. ACC 2019: 2334-2339 - [c74]Diana Yamalova, Alexander Medvedev, Zhanybai T. Zhusubaliyev, Anton V. Proskurnikov:
Nonlinear dynamics of a positive hybrid observer for the impulsive Goodwin's oscillator: a design study. CDC 2019: 1893-1898 - [c73]Viktor Bro, Alexander Medvedev:
Identification of Continuous Volterra Models with Explicit Time Delay through Series of Laguerre Functions. CDC 2019: 5641-5646 - [c72]Anton V. Proskurnikov, Alexander Medvedev:
A simple positive state observer for multidimensional Goodwin's oscillator. ECC 2019: 1671-1676 - [c71]Oleg Y. Abramov, Alexander V. Medvedev, Vladimir Y. Rychagov:
Evaluation of the Effectiveness of Modern TRIZ Based on Practical Results in New Product Development. TFC 2019: 36-44 - 2018
- [j24]Alexander Medvedev, Anton V. Proskurnikov, Zhanybai T. Zhusubaliyev:
Mathematical modeling of endocrine regulation subject to circadian rhythm. Annu. Rev. Control. 46: 148-164 (2018) - [c70]Diana Yamalova, Alexander Medvedev:
Robustification of the Synchronous Mode in a Hybrid Observer for a Continuous System under an Intrinsic Pulse-modulated Feedback. ECC 2018: 1-6 - [c69]Helena Andersson, Alexander Medvedev, Ruben Cubo:
The Impact of Deep Brain Stimulation on a Simulated Neuron: Inhibition, Excitation, and Partial Recovery. ECC 2018: 2034-2039 - [c68]Alexander Medvedev, Anton V. Proskurnikov, Zhanybai T. Zhusubaliyev:
Entrainment in harmonically forced continuous and impulsive Goodwin's oscillators: a comparison study. ECC 2018: 2046-2051 - 2017
- [j23]Alexander N. Churilov, Alexander Medvedev, Zhanybai T. Zhusubaliyev:
Discrete-Time Mapping for an Impulsive Goodwin Oscillator with Three Delays. Int. J. Bifurc. Chaos 27(12): 1750182:1-1750182:17 (2017) - [c67]Ruben Cubo, Alexander Medvedev, Helena Andersson:
Deep Brain Stimulation therapies: A control-engineering perspective. ACC 2017: 104-109 - [c66]Diana Yamalova, Alexander Medvedev:
Design of a hybrid observer for an oscillator with an intrinsic pulse-modulated feedback. ACC 2017: 1175-1180 - [c65]Viktor Bro, Alexander V. Medvedev:
Constrained SPICE in Volterra-Laguerre modeling of human smooth pursuit. CCTA 2017: 13-18 - [c64]Ruben Cubo, Markus Fahlstrcom, Elena Jiltsova, Helena Andersson, Alexander Medvedev:
Semi-Individualized electrical models in deep brain stimulation: A variability analysis. CCTA 2017: 517-518 - [c63]Konstantinos Dimitrakopoulos, Christoph Ellmer, Martin Lindstrcom, Alexander Medvedev:
Tremor quantification through event-based movement trajectory modeling. CCTA 2017: 542-547 - [c62]Diana Yamalova, Alexander Medvedev:
Hybrid observers for an impulsive Goodwin's oscillator subject to continuous exogenous signals. CDC 2017: 2396-2401 - [c61]Viktor Bro, Alexander V. Medvedev:
Nonlinear dynamics of the human smooth pursuit system in health and disease: Model structure and parameter estimation. CDC 2017: 4692-4697 - [c60]Ruben Cubo, Alexander Medvedev:
Individualization of a surrounding tissue model in deep brain stimulation. CDC 2017: 5919-5924 - [c59]Alexander Medvedev, Fredrik Olsson, Torbjörn Wigren:
Tremor quantification through data-driven nonlinear system modeling. CDC 2017: 5943-5948 - 2016
- [j22]Ruben Cubo, Alexander Medvedev, Mattias Åström:
Model-Based Optimization of Individualized Deep Brain Stimulation Therapy. IEEE Des. Test 33(4): 74-81 (2016) - [j21]Alexander N. Churilov, Alexander Medvedev:
Discrete-time map for an impulsive Goodwin oscillator with a distributed delay. Math. Control. Signals Syst. 28(1): 9:1-9:22 (2016) - [c58]Alexander Medvedev, Daniel Jansson:
Capturing age-related alternations in the human smooth pursuit mechanism by Volterra models. ACC 2016: 1289-1294 - [c57]Per Mattsson, Alexander Medvedev, Zhanybai T. Zhusubaliyev:
Pulse-modulated model of testosterone regulation subject to exogenous signals. CDC 2016: 5023-5028 - 2015
- [j20]Margarida M. Silva, Alexander Medvedev, Torbjörn Wigren, Teresa Mendonça:
Modeling the Effect of Intravenous Anesthetics: A Path Toward Individualization. IEEE Des. Test 32(5): 17-26 (2015) - [j19]Daniel Jansson, Olov Rosen, Alexander Medvedev:
Parametric and Nonparametric Analysis of Eye-Tracking Data by Anomaly Detection. IEEE Trans. Control. Syst. Technol. 23(4): 1578-1586 (2015) - [c56]Olov Rosen, Alexander Medvedev:
Parallel recursive estimation using Monte Carlo and orthogonal series expansions. ACC 2015: 3905-3910 - [c55]Alexander N. Churilov, Alexander Medvedev, Zhanybai T. Zhusubaliyev:
Delay-induced dynamical phenomena in impulsive Goodwin's oscillator: What we know so far. CDC 2015: 590-595 - [c54]Ruben Cubo, Mattias Åström, Alexander Medvedev:
Electric field modeling and spatial control in Deep Brain Stimulation. CDC 2015: 3846-3851 - [c53]Diana Yamalova, Alexander N. Churilov, Alexander Medvedev:
State estimation in a delayed impulsive model of testosterone regulation by a finite-dimensional hybrid observer. ECC 2015: 1450-1455 - [c52]Daniel Jansson, Alexander Medvedev:
System identification of wiener systems via volterra-laguerre models: Application to human smooth pursuit analysis. ECC 2015: 2700-2705 - [c51]Zhanybai T. Zhusubaliyev, Margarida M. Silva, Alexander Medvedev:
Automatic recovery from nonlinear oscillations in PID-controlled anesthetic drug delivery. ECC 2015: 2725-2730 - 2014
- [j18]Alexander N. Churilov, Alexander Medvedev:
An impulse-to-impulse discrete-time mapping for a time-delay impulsive system. Autom. 50(8): 2187-2190 (2014) - [j17]Alexander N. Churilov, Alexander Medvedev, Per Mattsson:
Periodical Solutions in a Pulse-Modulated Model of Endocrine Regulation With Time-Delay. IEEE Trans. Autom. Control. 59(3): 728-733 (2014) - [c50]Ruben Cubo, Alexander Medvedev:
Accuracy of the Finite Element Method in Deep Brain Stimulation modelling. CCA 2014: 1479-1484 - [c49]Olov Rosen, Alexander Medvedev:
Parallel recursive Bayesian estimation on multicore computational platforms using orthogonal basis functions. ACC 2014: 622-627 - [c48]Zhanybai T. Zhusubaliyev, Alexander Medvedev, Margarida M. Silva:
Nonlinear dynamics in closed-loop anesthesia: Pharmacokinetic/pharmacodynamic model under PID-feedback. ACC 2014: 5496-5501 - [c47]Alexander N. Churilov, Alexander Medvedev, Per Mattsson:
Discrete-time modeling of a hereditary impulsive feedback system. CDC 2014: 765-770 - [c46]Ruben Cubo, Mattias Åström, Alexander Medvedev:
Target coverage and selectivity in field steering brain stimulation. EMBC 2014: 522-525 - [c45]Amir Motevakel, Alexander Medvedev:
Localization of deep brain stimulation electrodes via metal artifacts in CT images. EMBC 2014: 1055-1058 - [c44]Daniel Jansson, Alexander Medvedev:
Volterra modeling of the Smooth Pursuit System with application to motor symptoms characterization in Parkinson's disease. ECC 2014: 1856-1861 - [c43]Zhanybai T. Zhusubaliyev, Alexander N. Churilov, Alexander Medvedev:
Time delay induced multistability and complex dynamics in an impulsive model of endocrine regulation. ECC 2014: 2304-2309 - [c42]Egi Hidayat, Mojtaba Soltanalian, Alexander Medvedev, Karin Nordström:
Stimuli design for identification of spatially distributed motion detectors in biological vision systems. ICARCV 2014: 740-745 - [c41]Egi Hidayat, Alexander Medvedev, Karin Nordström:
Identification of a layer of spatially distributed motion detectors in insect vision. ICUMT 2014: 372-379 - 2013
- [j16]Olov Rosen, Alexander Medvedev:
Efficient Parallel Implementation of State Estimation Algorithms on Multicore Platforms. IEEE Trans. Control. Syst. Technol. 21(1): 107-120 (2013) - [c40]Egi Hidayat, Alexander Medvedev, Karin Nordström:
Laguerre Domain Identification of the Elementary Motion Detector Model in Insect Vision. ALCOSP 2013: 623-628 - [c39]Daniel Jansson, Alexander Medvedev:
Visual stimulus design in parameter estimation of the human smooth pursuit system from eye-tracking data. ACC 2013: 887-892 - [c38]Zhanybai T. Zhusubaliyev, Alexander Medvedev, Margarida M. Silva:
Bifurcation analysis for PID-controller tuning based on a minimal neuromuscular blockade model in closed-loop anesthesia. CDC 2013: 115-120 - [c37]Alexander N. Churilov, Alexander Medvedev, Per Mattsson:
Finite-dimensional reducibility of time-delay systems under pulse-modulated feedback. CDC 2013: 2078-2083 - [c36]Daniel Jansson, Alexander Medvedev:
Parametric and non-parametric stochastic anomaly detection in analysis of eye-tracking data. CDC 2013: 2532-2537 - [c35]Daniel Jansson, Olov Rosen, Alexander Medvedev:
Non-parametric analysis of eye-tracking data by anomaly detection. ECC 2013: 632-637 - [c34]Per Mattsson, Alexander Medvedev:
State estimation in linear time-invariant systems with unknown impulsive inputs. ECC 2013: 1675-1680 - [c33]Alexander N. Churilov, Alexander Medvedev, Zhanybai T. Zhusubaliyev:
State observer for a low-order plant under intrinsic pulse-modulated feedback: A case study. ECC 2013: 2122-2127 - [c32]Margarida M. Silva, Torbjörn Wigren, Alexander V. Medvedev, Teresa Mendonça:
Quantification of the multiplicative uncertainty in the linearized minimally parameterized parsimonious Wiener model for the neuromuscular blockade in closed-loop anesthesia. MED 2013: 703-708 - [c31]Alexander N. Churilov, Alexander Medvedev, Zhanybai T. Zhusubaliyev:
Conditional Stability of a State Observer for a Low-Order Hybrid Plant. PSYCO 2013: 113-118 - [c30]Diana Yamalova, Alexander N. Churilov, Alexander Medvedev:
Hybrid State Observer with Modulated Correction for Periodic Systems under Intrinsic Impulsive Feedback. PSYCO 2013: 119-124 - 2012
- [j15]Alexander N. Churilov, Alexander Medvedev, Alexander Shepeljavyi:
A state observer for continuous oscillating systems under intrinsic pulse-modulated feedback. Autom. 48(6): 1117-1122 (2012) - [j14]Egi Hidayat, Alexander Medvedev:
Laguerre domain identification of continuous linear time-delay systems from impulse response data. Autom. 48(11): 2902-2907 (2012) - [c29]Egi Hidayat, Alexander Medvedev:
Identification of a pulsatile endocrine model from hormone concentration data. CCA 2012: 356-363 - [c28]Olov Rosen, Alexander Medvedev:
An on-line algorithm for anomaly detection in trajectory data. ACC 2012: 1117-1122 - [c27]Zhanybai T. Zhusubaliyev, Alexander N. Churilov, Alexander Medvedev:
Complex dynamics and chaos in a scalar linear continuous system with impulsive feedback. ACC 2012: 2419-2424 - [c26]Per Mattsson, Alexander Medvedev:
Estimation of input impulses by means of continuous finite memory observers. ACC 2012: 6769-6774 - [c25]Alexander N. Churilov, Alexander Medvedev, Per Mattsson:
Analysis of a pulse-modulated model of endocrine regulation with time-delay. CDC 2012: 362-367 - [c24]Olov Rosen, Alexander Medvedev:
Parallelization of the Kalman filter for banded systems on multicore computational platforms. CDC 2012: 2022-2027 - 2011
- [c23]Zhanybai T. Zhusubaliyev, Alexander N. Churilov, Alexander Medvedev:
Complex dynamic phenomena in a low-order model of non-basal testosterone regulation. CDC/ECC 2011: 879-884 - [c22]Daniel Jansson, Alexander Medvedev:
Dynamic smooth pursuit gain estimation from eye tracking data. CDC/ECC 2011: 1698-1703 - [c21]Olov Rosen, Alexander Medvedev:
Efficient parallel implementation of a Kalman filter for single output systems on multicore computational platforms. CDC/ECC 2011: 3178-3183 - [c20]Fredrik Wahlberg, Alexander Medvedev, Olov Rosen:
A LEGO-based mobile robotic platform for evaluation of parallel control and estimation algorithms. CDC/ECC 2011: 4548-4553 - [c19]Alexander N. Churilov, Alexander Medvedev, Alexander Shepeljavyi:
Further results on a state observer for continuous oscillating systems under intrinsic pulsatile feedback. CDC/ECC 2011: 5443-5448 - 2010
- [j13]Alexander Medvedev, Hannu T. Toivonen:
Directional sensitivity of continuous least-squares state estimators. Syst. Control. Lett. 59(9): 571-577 (2010) - [c18]Olov Rosen, Alexander Medvedev, Mats Ekman:
Speedup and Tracking Accuracy Evaluation of Parallel Particle Filter Algorithms Implemented on a Multicore Architecture. CCA 2010: 440-445 - [c17]Daniel Jansson, Alexander Medvedev, Peter Stoica, Hans W. Axelson:
Mathematical Modeling and Grey-box Identification of the Human Smooth Pursuit Mechanism. CCA 2010: 1023-1028 - [c16]Marcus Bjork, Alexander Medvedev, Peter Stoica:
Dynamic Models with Quantized Output for Modeling Patient Response to Pharmacotherapy. CCA 2010: 1029-1034
2000 – 2009
- 2009
- [j12]Alexander N. Churilov, Alexander Medvedev, Alexander Shepeljavyi:
Mathematical model of non-basal testosterone regulation in the male by pulse modulated feedback. Autom. 45(1): 78-85 (2009) - [j11]Alexander Medvedev, Magnus Evestedt:
Elementwise decoupling and convergence of the Riccati equation in the SG algorithm. Autom. 45(6): 1524-1529 (2009) - [c15]Mihails Savrasovs, Alexander Medvedev, Elena Sincova:
Riga Airoport Baggage Handling System Simulation. ECMS 2009: 384-390 - 2008
- [c14]Maria Werlefors, Alexander Medvedev:
Observer-based leakage detection in hydraulic systems with position and velocity feedback. CCA 2008: 948-953 - [c13]Alexander Medvedev, Hannu T. Toivonen:
Directional sensitivity of least-squares state estimators. CDC 2008: 1889-1894 - 2007
- [c12]Mikael Stocks, Alexander Medvedev:
On-Line Estimation of All Electrical Parameters in Induction Machines subject to Stator Fault. CCA 2007: 527-532 - [c11]Alexander N. Churilov, Alexander Medvedev, Alexander Shepeljavyi:
Mathematical model of testosterone regulation by pulse-modulated feedback. CCA 2007: 676-681 - [c10]Alexander N. Churilov, Alexander Medvedev, Alexander Shepeljavyi:
Periodic modes in a mathematical model of testosterone regulation. PSYCO 2007: 234-239 - 2006
- [j10]Magnus Evestedt, Alexander Medvedev:
Stationary behavior of an anti-windup scheme for recursive parameter estimation under lack of excitation. Autom. 42(1): 151-157 (2006) - [c9]Mikael Stocks, Alexander Medvedev:
On observability and controllability of faulty induction machines. ACC 2006: 1-7 - [c8]Mikael Stocks, Fedor Rodyukov, Alexander Medvedev:
Experimental validation of idealized two-axis models of faulty induction machines. ACC 2006: 1-6 - [c7]Mikael Stocks, Alexander Medvedev:
Guaranteed Convergence Rate for Linear-Quadratic Optimal Time-varying Observers. CDC 2006: 1653-1658 - [c6]Magnus Evestedt, Alexander Medvedev:
Model-based cavity shape estimation in a gas-liquid system with nonuniform image sampling. VISAPP (1) 2006: 365-370 - 2004
- [j9]Alexander Medvedev:
Stability of a Riccati equation arising in recursive parameter estimation under lack of excitation. IEEE Trans. Autom. Control. 49(12): 2275-2280 (2004) - 2003
- [j8]Hannu T. Toivonen, Alexander Medvedev:
Damping of harmonic disturbances in sampled-data systems - parameterization of all optimal controllers. Autom. 39(1): 75-80 (2003) - [j7]Andreas Johansson, Alexander Medvedev:
An observer for systems with nonlinear output map. Autom. 39(5): 909-918 (2003) - [c5]Alexander Medvedev:
Stability of an windup prevention scheme in recursive parameter estimation. CDC 2003: 399-404 - [c4]Wolfgang Birk, Alexander Medvedev:
A note on gramian-based interaction measures. ECC 2003: 2625-2630 - 2001
- [c3]Mikael Stocks, Feodor Rodyukov, Alexander Medvedev:
Validation of a model for an induction machine with faulty stator. ECC 2001: 1934-1939 - 2000
- [j6]Wolfgang Birk, Alexander Medvedev:
Pressure and flow control of a pulverized coal injection vessel. IEEE Trans. Control. Syst. Technol. 8(6): 919-929 (2000) - [c2]Andreas Johansson, Alexander Medvedev, Daniel Widlund:
Model-based estimation of metal analysis in steel converters. CDC 2000: 2029-2034 - [c1]Michael Bask, Alexander Medvedev:
Analysis of least-squares state estimators for a harmonic oscillator. CDC 2000: 3819-3824
1990 – 1999
- 1999
- [j5]Andreas Johansson, Alexander Medvedev:
Model-based leakage detection in a pulverized coal injection vessel. IEEE Trans. Control. Syst. Technol. 7(6): 675-682 (1999) - 1997
- [j4]Alexander Medvedev:
Disturbance attenuation in finite-spectrum-assignment controllers. Autom. 33(6): 1163-1168 (1997) - 1996
- [j3]Alexander Medvedev:
Continuous least-squares observers with applications. IEEE Trans. Autom. Control. 41(10): 1530-1537 (1996) - 1995
- [j2]Alexander Medvedev:
Fault detection and isolation by a continuous parity space method. Autom. 31(7): 1039-1044 (1995) - 1994
- [j1]Alexander Medvedev, Hannu T. Toivonen:
Continuous-time deadbeat observation problem with application to predictive control of systems with delay. Kybernetika 30(6): 669-688 (1994)
Coauthor Index
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