Showing total 202 results

1. Computing Maximum Likelihood Estimates of Loglinear Models from Marginal Sums with Special Attention to Loglinear Item Response Theory. [Project Psychometric Aspects of Item Banking No. 53.] Research Report 91-1.

Author

Twente Univ., Enschede (Netherlands). Dept. of Education. and Kelderman, Henk

Abstract

In this paper, algorithms are described for obtaining the maximum likelihood estimates of the parameters in log-linear models. Modified versions of the iterative proportional fitting and Newton-Raphson algorithms are described that work on the minimal sufficient statistics rather than on the usual counts in the full contingency table. This is desirable if the contingency table becomes too large to store. Special attention is given to log-linear Item Response Theory (IRT) models that are used for the analysis of educational and psychological test data. To calculate the necessary expected sufficient statistics and other marginal sums of the table, a method is described that avoids summing large numbers of elementary cell frequencies by writing them out in terms of multiplicative model parameters and applying the distributive law of multiplication over summation. These algorithms are used in the computer program LOGIMO, and are illustrated with simulated data for 10,000 cases. Two tables, 3 graphs, and a 34-item list of references are included. (Author/SLD)

Published

1991

2. Adaptive Optical Closed-Loop Control Based on the Single-Dimensional Perturbation Descent Algorithm.

Author

Chen, Bo, Zhou, Yilin, Li, Zhaoyi, Jia, Jingjing, and Zhang, Yirui

Subjects

OPTIMIZATION algorithms, OPTICAL control, ADAPTIVE optics, MATHEMATICAL models, ALGORITHMS, WAVEFRONTS (Optics), COMPUTER simulation

Abstract

Modal-free optimization algorithms do not require specific mathematical models, and they, along with their other benefits, have great application potential in adaptive optics. In this study, two different algorithms, the single-dimensional perturbation descent algorithm (SDPD) and the second-order stochastic parallel gradient descent algorithm (2SPGD), are proposed for wavefront sensorless adaptive optics, and a theoretical analysis of the algorithms' convergence rates is presented. The results demonstrate that the single-dimensional perturbation descent algorithm outperforms the stochastic parallel gradient descent (SPGD) and 2SPGD algorithms in terms of convergence speed. Then, a 32-unit deformable mirror is constructed as the wavefront corrector, and the SPGD, single-dimensional perturbation descent, and 2SPSA algorithms are used in an adaptive optics numerical simulation model of the wavefront controller. Similarly, a 39-unit deformable mirror is constructed as the wavefront controller, and the SPGD and single-dimensional perturbation descent algorithms are used in an adaptive optics experimental verification device of the wavefront controller. The outcomes demonstrate that the convergence speed of the algorithm developed in this paper is more than twice as fast as that of the SPGD and 2SPGD algorithms, and the convergence accuracy of the algorithm is 4% better than that of the SPGD algorithm. [ABSTRACT FROM AUTHOR]

Published

2023

3. Stability Analysis of Selected Speed Estimators for Induction Motor Drive in Regenerating Mode?A Comparative Study.

Author

Orlowska-Kowalska, Teresa, Korzonek, Mateusz, and Tarchala, Grzegorz

Subjects

MOTOR drives (Electric motors), THYRISTOR motor drives, ALGORITHMS, COMPUTER simulation, MATHEMATICAL models

Abstract

This paper deals with the stability problem of selected induction motor speed estimators in the case of the regenerating mode operation. Two effective solutions are taken into consideration: adaptive full-order observer and model reference adaptive system-type estimator based on the current flux model and stator current estimation. The two estimation algorithms are compared in detail, namely their mathematical models, theoretical stability analysis, unstable operation areas, and stability improvement methods. The speed adaptation mechanism is extended with an additional shift angle in both cases. The theoretical analysis and simulation test results are validated by wide experimental tests. [ABSTRACT FROM PUBLISHER]

Published

2017

4. Nested Adaptation of MCMC Algorithms.

Author

Dao Nguyen, de Valpine, Perry, Atchade, Yves, Turek, Daniel, Michaud, Nicholas, and Paciorek, Christopher

Subjects

ALGORITHMS, MARKOV chain Monte Carlo, MATHEMATICS education, MATHEMATICAL models, COMPUTER simulation

Abstract

Markov chain Monte Carlo (MCMC) methods are ubiquitous tools for simulation-based inference in many fields but designing and identifying good MCMC samplers is still an open question. This paper introduces a novel MCMC algorithm, namely, Nested Adaptation MCMC. For sampling variables or blocks of variables, we use two levels of adaptation where the inner adaptation optimizes the MCMC performance within each sampler, while the outer adaptation explores the space of valid kernels to find the optimal samplers. We provide a theoretical foundation for our approach. To show the generality and usefulness of the approach, we describe a framework using only standard MCMC samplers as candidate samplers and some adaptation schemes for both inner and outer iterations. In several benchmark problems, we show that our proposed approach substantially outperforms other approaches, including an automatic blocking algorithm, in terms of MCMC efficiency and computational time. [ABSTRACT FROM AUTHOR]

Published

2020

5. Effective multiobjective EDA for bi-criteria stochastic job-shop scheduling problem.

Author

Hao, Xinchang, Gen, Mitsuo, Lin, Lin, and Suer, Gursel

Subjects

PRODUCTION scheduling, MATHEMATICAL models, MONTE Carlo method, ALGORITHMS, COMPUTER simulation, TARDINESS, TIME management

Abstract

This paper proposes an effective multiobjective estimation of distribution algorithm (MoEDA) which solves the bi-criteria stochastic job-shop scheduling problem with the uncertainty of processing time. The MoEDA proposal minimizes the expected average makespan and the expected total tardiness within a reasonable amount of computational time. With the framework of proposed MoEDA, the probability model of the operation sequence is estimated firstly. For sampling the processing time of each operation with the Monte Carlo methods, allocation method is used to decide the operation sequence, and then the expected makespan and total tardiness of each sampling are evaluated. Subsequently, updating mechanism of the probability models is proposed according to the best solutions to obtain. Finally, for comparing with some existing algorithms by numerical experiments on the benchmark problems, we demonstrate the proposed effective estimation of distribution algorithm can obtain an acceptable solution in the aspects of schedule quality and computational efficiency. [ABSTRACT FROM AUTHOR]

Published

2017

6. Multidimensional Multiple-Order Complex Parametric Model Identification.

Author

Kouamé, Denis and Girault, Jean-Marc

Subjects

MATHEMATICAL models, MATRIX analytic methods, FACTORIZATION, ANALYSIS of covariance, COMPLEX numbers, MATRIX derivatives, ALGORITHMS, PARAMETERS (Statistics), COMPUTER simulation

Abstract

This paper presents a way to access both the multiple-order and parameters of a multidimensional complex number autoregressive (AR) model through matrix factorization. The principle of this technique consists of the transformation of the multidimensional model to a pseudo simple-input simple-output AR model, then performing factorization of the covariance matrix of the data. This factorization then leads- to a recursive form of the parameter and order estimation. This paper makes two principal contributions. The first is a generalization of one dimensional factored form algorithm, and the second is that it makes it possible to access all the possible different orders and parameters of a multidimensional complex number AR model of any dimension, whereas classical approaches are limited to at most four-dimensional models. Computer simulation results are provided to illustrate the behavior of this method. [ABSTRACT FROM AUTHOR]

Published

2008

7. 6-D Magnetic Localization and Orientation Method for an Annular Magnet Based on a Closed-Form Analytical Model.

Author

Song, Shuang, Li, Baopu, Qiao, Wan, Hu, Chao, Ren, Hongliang, Yu, Haoyong, Zhang, Qi, Meng, Max Q.-H., and Xu, Guoqing

Subjects

PERMANENT magnets, PARTICLE swarm optimization, ALGORITHMS, MAGNETIC dipoles, COMPUTER simulation, MATHEMATICAL models

Abstract

Magnetic tracking technology is emerging to provide an occlusion-free tracking scheme for the estimation of full pose (position and orientation) of various instruments. This brings substantial benefits for intracorporeal applications, such as for tracking of flexible or wireless endoscopic devices, and thus is significant for further computer-assisted diagnosis, interventions, and surgeries. Toward efficient magnetic tracking, a 6-D magnetic localization and orientation method is proposed in this paper. An annular permanent magnet is mounted on the exterior surface of a capsule. With a magnetic sensor array, the magnetic field can be measured and the capsule’s 3-D location and 3-D orientation information can be estimated based on proposed closed-form analytical model of annular magnet and particle swarm optimization algorithm. Magnetic dipole model and Levenberg–Marquardt algorithm are used to improve the speed and accuracy of estimation. Extensive simulation experiments show that the localization and orientation method works well with good position and orientation accuracy. [ABSTRACT FROM AUTHOR]

Published

2014

8. A New Algorithm for Solving Hemodynamic Models in fMRI under Low Frequency Interference.

Author

Lu, Mingzhi, Wu, Haifeng, and Zeng, Yu

Subjects

HEMODYNAMICS, ALGORITHMS, FUNCTIONAL magnetic resonance imaging, PARAMETER estimation, COMPUTER simulation, SIGNAL-to-noise ratio, MATHEMATICAL models

Abstract

In order to solve the problem of estimating the model parameters of hemodynamic model under low frequency interference, a new model parameter estimation algorithm (CSCKS) is proposed in this paper for the hemodynamic model with low frequency interference. The algorithm is based on SCKS algorithm to improve, its estimation effect is obviously better than the existing SCKS algorithm and DEM algorithm. We simulate the proposed algorithm and some other traditional algorithms to evaluate the estimation performance of CSCKS proposed in this paper under different Signal to Interference Ratio (SIR) and different integration steps, and through the simulation results, the estimated results of the algorithm were analyzed and compared. [ABSTRACT FROM AUTHOR]

Published

2018

9. The Choice of Reference Points in Best-Match File Searching.

Author

Shapiro, Marvin

Subjects

ALGORITHMS, COMPUTER simulation, ELECTROMECHANICAL analogies, MATHEMATICAL models, SIMULATION methods & models, ARITHMETIC, MODELS & modelmaking, ENGINEERING models, MECHANICS (Physics)

Abstract

Improvements to the exhaustive search method of best-match file searching have previously been achieved by doing a preprocessing step involving the calculation of distances from a reference point. This paper discusses the proper choice of reference points and extends the previous algorithm to use more than one reference point. It is shown that reference points should be located outside of data clusters. The results of computer simulations are presented which show that large improvements can be achieved by the proper choice and location of multiple reference points. [ABSTRACT FROM AUTHOR]

Published

1977

10. Whole-heart electromechanical simulations using Latent Neural Ordinary Differential Equations.

Author

Salvador, Matteo, Strocchi, Marina, Regazzoni, Francesco, Augustin, Christoph M., Dede', Luca, Niederer, Steven A., and Quarteroni, Alfio

Subjects

HEART physiology, COMPUTER simulation, BIOLOGICAL models, CARDIOVASCULAR diseases, ARTIFICIAL intelligence, HEART failure, HEMODYNAMICS, ARTIFICIAL neural networks, MATHEMATICAL models, THEORY, CARDIAC pacing, ELECTROPHYSIOLOGY, ALGORITHMS, HEART ventricles

Abstract

Cardiac digital twins provide a physics and physiology informed framework to deliver personalized medicine. However, high-fidelity multi-scale cardiac models remain a barrier to adoption due to their extensive computational costs. Artificial Intelligence-based methods can make the creation of fast and accurate whole-heart digital twins feasible. We use Latent Neural Ordinary Differential Equations (LNODEs) to learn the pressure-volume dynamics of a heart failure patient. Our surrogate model is trained from 400 simulations while accounting for 43 parameters describing cell-to-organ cardiac electromechanics and cardiovascular hemodynamics. LNODEs provide a compact representation of the 3D-0D model in a latent space by means of an Artificial Neural Network that retains only 3 hidden layers with 13 neurons per layer and allows for numerical simulations of cardiac function on a single processor. We employ LNODEs to perform global sensitivity analysis and parameter estimation with uncertainty quantification in 3 hours of computations, still on a single processor. [ABSTRACT FROM AUTHOR]

Published

2024

11. Consistent Modeling of Periodic Metasurfaces With Bianisotropic Scatterers for Oblique TE-Polarized Plane Wave Excitation.

Author

Dimitriadis, Alexandros I., Kantartzis, Nikolaos V., and Tsiboukis, Theodoros D.

Subjects

PLANE wavefronts, MATHEMATICAL models, ANISOTROPY, COMPUTER simulation, ALGORITHMS, POLARIZABILITY (Electricity), MICROSCOPY

Abstract

In this paper, a new method for the consistent analysis of periodic metasurfaces with bianisotropic particles is introduced. The proposed technique combines a microscopic modeling approach at the level of the constituting meta-atoms with a macroscopic equivalent surface characterization, to unambiguously determine a set of surface susceptibilities that properly predict the reflection and transmission properties of the metasurface. Comparisons with alternative schemes and full-wave simulation results for bianisotropic scatterers, frequently utilized as building blocks of realistic metasurfaces, are provided in order to validate the featured algorithm. [ABSTRACT FROM PUBLISHER]

Published

2013

12. Fuzzy Control for Flux Weakening of Hybrid Exciting Synchronous Motor Based on Particle Swarm Optimization Algorithm.

Author

Huang, Mingming, Lin, Heyun, Yunkai, Huang, Jin, Ping, and Guo, Yujing

Subjects

FUZZY control systems, MAGNETIC flux, PARTICLE swarm optimization, ALGORITHMS, SYNCHRONOUS electric motors, MATHEMATICAL models, COMPUTER simulation, COPPER

Abstract

This paper proposes a fuzzy control method combining with particle swarm optimization (PSO) algorithm for the flux weakening control of hybrid excitation synchronous motor (HESM). A total copper loss minimization model is established to determine the optimal field current, d-axis and q-axis currents in low speed region. In order to improve the dynamic characteristic and decrease the harmful influence of parameters variation on HESM's operation, a fuzzy control method is employed in high speed rang. Meanwhile, to improve the efficiency, the PSO algorithm is applied to current optimization during steady state operation. Simulation results show that higher efficiency HESM system can be implemented by adopting the proposed control method. [ABSTRACT FROM PUBLISHER]

Published

2012

13. Stream-based Biomedical Classification Algorithms for Analyzing Biosignals.

Author

Simon Fong, Yang Hang, Mohammed, Sabah, and Fiaidhi, Jinan

Subjects

DATA mining, ALGORITHMS, DIAGNOSTIC tests (Education), DECISION trees, MATHEMATICAL models, PERFORMANCE evaluation, COMPUTER simulation, SYMPTOMS

Abstract

Classification in biomedical applications is an important task that predicts or classifies an outcome based on a given set of input variables such as diagnostic tests or the symptoms of a patient. Traditionally the classification algorithms would have to digest a stationary set of historical data in order to train up a decision-tree model and the learned model could then be used for testing new samples. However, a new breed of classification called stream-based classification can handle continuous data streams, which are ever evolving, unbound, and unstructured, for instance--biosignal live feeds. These emerging algorithms can potentially be used for real-time classification over biosignal data streams like EEG and ECG, etc. This paper presents a pioneer effort that studies the feasibility of classification algorithms for analyzing biosignals in the forms of infinite data streams. First, a performance comparison is made between traditional and stream-based classification. The results show that accuracy declines intermittently for traditional classification due to the requirement of model re-learning as new data arrives. Second, we show by a simulation that biosignal data streams can be processed with a satisfactory level of performance in terms of accuracy, memory requirement, and speed, by using a collection of stream-mining algorithms called Optimized Very Fast Decision Trees. The algorithms can effectively serve as a corner-stone technology for real-time classification in future biomedical applications. [ABSTRACT FROM AUTHOR]

Published

2011

14. Frequency and Power Components Estimation from Instantaneous Power Signal.

Author

Terzija, Vladimir, Cai, Deyu, Stanojevic, Vladimir, and Strbac, Goran

Subjects

MATHEMATICAL models, RECURSION theory, ALGORITHMS, SENSITIVITY analysis, MEASUREMENT, PARAMETER estimation, NONLINEAR theories, COMPUTER simulation

Abstract

In this paper, the problem of the simultaneous estimation of frequency and power components is investigated. It is solved through a new recursive estimator capable of estimating the unknown model parameters during severe dynamic changes in the system. By this, a simple nonlinear parameter model for the instantaneous power, taking into account the fundamental components of voltage and current, is used as a starting point for the power components and frequency estimation. In the model, the system frequency is considered as an unknown model parameter, and it is simultaneously estimated with other unknown parameters. This resulted in an efficient numerical algorithm for the measurement of power components, which is not sensitive to variations of the system frequency. This is an important achievement, which improves the accuracy of the method during network transients. The new estimator has been improved by the strategy for tuning its forgetting factor according to the system dynamics, and it is tested through computer simulations and by using data records obtained under laboratory conditions. The algorithm was developed for a single-phase system, and the approach might be easily extended to multiphase systems. [ABSTRACT FROM AUTHOR]

Published

2011

15. Burst Mode Synchronization of QPSK on AWGN Channels Using Kurtosis.

Author

Gunther, Jake and Moon, Todd

Subjects

SYNCHRONIZATION, PHASE shift keying, TELECOMMUNICATION transmitters & transmission, ALGORITHMS, NUMERICAL analysis, MATHEMATICAL models, COMPUTER simulation

Abstract

This paper explores the use of kurtosis in synchronizing with a QPSK burst transmission. The start and end of the burst are a priori unknown and are detected without the use of pilot signals. After frame level synchronization, signal level synchronization is performed. The symbol timing, carrier frequency and carrier phase are recovered without the assistance of known symbols or synchronization words in the data stream, i.e. totally blind synchronization. The performance of frame, symbol and carrier synchronization algorithms is evaluated through computer simulations. [ABSTRACT FROM AUTHOR]

Published

2009

16. Segmentation of Tracking Sequences Using Dynamically Updated Adaptive Learning.

Author

Michailovich, Oleg and Tannenbaum, Allen

Subjects

KALMAN filtering, STOCHASTIC processes, METHODOLOGY, ALGORITHMS, MATHEMATICAL models, GAUSSIAN processes, COMPUTER simulation

Abstract

The problem of segmentation of tracking sequences is of central importance in a multitude of applications. In the current paper, a different approach to the problem is discussed. Specifically, the proposed segmentation algorithm is implemented in conjunction with estimation of the dynamic parameters of moving objects represented by the tracking sequence. While the information on objects' motion allows one to transfer some valuable segmentation priors along the tracking sequence, the segmentation allows substantially reducing the complexity of motion estimation, thereby facilitating the computation. Thus, in the proposed methodology, the processes of segmentation and motion estimation work simultaneously, in a sort of "collaborative" manner. The Bayesian estimation framework is used here to perform the segmentation, while Kalman filtering is used to estimate the motion and to convey useful segmentation information along the image sequence. The proposed method is demonstrated on a number of both computed-simulated and real-life examples, and the obtained results indicate its advantages over some alternative approaches. [ABSTRACT FROM AUTHOR]

Published

2008

17. Video Summarization and Scene Detection by Graph Modeling.

Author

Chong-Wah Ngo, Yu-Fei Ma, and Hong-Jiang Zhang

Subjects

DIGITAL video, COMPUTER simulation, GRAPH algorithms, ALGORITHMS, MATHEMATICAL models, ENCODING

Abstract

In this paper, we propose a unified approach for video summarization based on the analysis of video structures, and video highlights. Two major components in our approach are scene modeling and highlight detection. Scene modeling Is achieved by normalized cut algorithm and temporal graph analysis, while high-light detection is accomplished by motion attention modeling. In our proposed approach, a video is represented as a complete undirected graph and the normalized cut algorithm is carried out to globally and optimally partition the graph into video clusters. The resulting clusters form a directed temporal graph and a Shortest path algorithm is proposed to efficiently detect video scenes. The attention values are then computed and attached to the scenes, clusters, shots, and subshots in a temporal graph. As a result, the temporal graph can inherently describe the evolution and perceptual importance of a video. In our application, video summaries that emphasize both content balance and perceptual quality can be generated directly from a temporal graph that embeds both the structure and attention information. [ABSTRACT FROM AUTHOR]

Published

2005

18. ESPRIT-Like Estimation of Real-Valued Sinusoidal Frequencies.

Author

Mahata, Kaushik and Söderstrom, Torsten

Subjects

ALGORITHMS, ESTIMATION theory, COMPLEX numbers, COMPUTER simulation, NUMERICAL analysis, MATHEMATICAL models

Abstract

Abstract-Subspace-based estimation of multiple real-valued sine wave frequencies is considered in this paper. A novel data covariance model is proposed. In the proposed model, the dimension of the signal subspace equals the number of frequencies present in the data, which is half of the signal. subspace dimension for the conventional model. Consequently, an ESPRIT-like algorithm using the proposed data model is presented. The proposed algorithm is then extended for the case of complex-valued sine waves. Performance analysis of the proposed algorithms are also carried out. The algorithms are tested in numerical simulations. When compared with ESPRIT, the newly proposed algorithm results in a significant reduction in computational burden without any compromise in the accuracy. [ABSTRACT FROM AUTHOR]

Published

2004

19. A multi-domain trust management model for supporting RFID applications of IoT.

Author

Wu, Xu and Li, Feng

Subjects

RADIO frequency identification systems, INTERNET of things, COMPUTER simulation, MATHEMATICAL models, HIERARCHICAL clustering (Cluster analysis)

Abstract

The use of RFID technology in complex and distributed environments often leads to a multi-domain RFID system, in which trust establishment among entities from heterogeneous domains without past interaction or prior agreed policy, is a challenge. The current trust management mechanisms in the literature do not meet the specific requirements in multi-domain RFID systems. Therefore, this paper analyzes the special challenges on trust management in multi-domain RFID systems, and identifies the implications and the requirements of the challenges on the solutions to the trust management of multi-domain RFID systems. A multi-domain trust management model is proposed, which provides a hierarchical trust management framework include a diversity of trust evaluation and establishment approaches. The simulation results and analysis show that the proposed method has excellent ability to deal with the trust relationships, better security, and higher accuracy rate. [ABSTRACT FROM AUTHOR]

Published

2017

20. A double SIMEX approach for bivariate random-effects meta-analysis of diagnostic accuracy studies.

Author

Guolo, Annamaria

Subjects

META-analysis, ECHOCARDIOGRAPHY, TRANSESOPHAGEAL echocardiography, MAXIMUM likelihood statistics, ATHEROSCLEROSIS, ALGORITHMS, COMPUTER simulation, MATHEMATICAL models, PROBABILITY theory, RESEARCH evaluation, THEORY, ROUTINE diagnostic tests

Abstract

Background: Bivariate random-effects models represent a widely accepted and recommended approach for meta-analysis of test accuracy studies. Standard likelihood methods routinely used for inference are prone to several drawbacks. Small sample size can give rise to unreliable inferential conclusions and convergence issues make the approach unappealing. This paper suggests a different methodology to address such difficulties.Methods: A SIMEX methodology is proposed. The method is a simulation-based technique originally developed as a correction strategy within the measurement error literature. It suits the meta-analysis framework as the diagnostic accuracy measures provided by each study are prone to measurement error. SIMEX can be straightforwardly adapted to cover different measurement error structures and to deal with covariates. The effortless implementation with standard software is an interesting feature of the method.Results: Extensive simulation studies highlight the improvement provided by SIMEX over likelihood approach in terms of empirical coverage probabilities of confidence intervals under different scenarios, independently of the sample size and the values of the correlation between sensitivity and specificity. A remarkable amelioration is obtained in case of deviations from the normality assumption for the random-effects distribution. From a computational point of view, the application of SIMEX is shown to be neither involved nor subject to the convergence issues affecting likelihood-based alternatives. Application of the method to a diagnostic review of the performance of transesophageal echocardiography for assessing ascending aorta atherosclerosis enables overcoming limitations of the likelihood procedure.Conclusions: The SIMEX methodology represents an interesting alternative to likelihood-based procedures for inference in meta-analysis of diagnostic accuracy studies. The approach can provide more accurate inferential conclusions, while avoiding convergence failure and numerical instabilities. The application of the method in the R programming language is possible through the code which is made available and illustrated using the real data example. [ABSTRACT FROM AUTHOR]

Published

2017

21. EBKCCA: A Novel Energy Balanced k-Coverage Control Algorithm Based on Probability Model in Wireless Sensor Networks.

Author

Zeyu Sun, Yongsheng Zhang, Xiaofei Xing, Houbing Song, Huihui Wang, and Yangjie Cao

Subjects

WIRELESS sensor networks, ENERGY consumption, ALGORITHMS, COMPUTER simulation, PROBABILITY theory, MATHEMATICAL models

Abstract

In the process of k-coverage of the target node, there will be a lot of data redundancy forcing the phenomenon of congestion which reduces network communication capability and coverage, and accelerates network energy consumption. Therefore, this paper proposes a novel energy balanced k-coverage control algorithm based on probability model (EBKCCA). The algorithm constructs the coverage network model by using the positional relationship between the nodes. By analyzing the network model, the coverage expected value of nodes and the minimum number of nodes in the monitoring area are given. In terms of energy consumption, this paper gives the proportion of energy conversion functions between working nodes and neighboring nodes. By using the function proportional to schedule low energy nodes, we achieve the energy balance of the whole network and optimizing network resources. The last simulation experiments indicate that this algorithm can not only improve the quality of network coverage, but also completely inhibit the rapid energy consumption of node, and extend the network lifetime. [ABSTRACT FROM AUTHOR]

Published

2016

22. Comparison of Dynamic Games in Application to Safe Ship Control.

Author

Lisowski, Józef

Subjects

COLLISIONS at sea, GAME theory, MATHEMATICAL models, ALGORITHMS, OPTIMAL control theory, COMPUTER simulation, MARITIME shipping

Abstract

The paper introduces methods of dynamic games for automation of ship control in the collision situation, the game control processes in marine navigation and the fundamental mathematical model of the game ship control. First, state equations, control and state constraints and then control goal function in the form of payments: the integral payment and the final one, have been defined. Multi-stage positional, and multi-step matrix, non-cooperative and cooperative, game and optimum control algorithms for a collision situation, have been presented. Te considerations have been illustrated with an exemplary computer simulation of algorithms to determine a safe own ship's trajectory in the process of passing the ships encountered in Kattegat Strait. [ABSTRACT FROM AUTHOR]

Published

2014

23. Intercell Interference Coordination for LTE Systems.

Author

Lee, Daewon, Li, Geoffrey Ye, and Tang, Suwen

Subjects

WIRELESS communications, CELL phone systems, ALGORITHMS, COMPUTER simulation, MATHEMATICAL models

Abstract

Intercell interference coordination (ICIC) techniques not only help improve cellular data coverage but allow more efficient use of a valuable wireless spectrum as well. This paper investigates soft frequency reuse (SFR), which is a form of ICIC, for long-term evolution (LTE) systems. By analyzing the throughput of the SFR scheme, we find that classifying cell-edge users and cell-center users is critical. Thus, we develop low-complexity decentralized SFR scheduling algorithms that include optimal user classification and balance throughput and fairness among multiusers. We also propose suboptimal methods to reduce computational complexity. Computer simulation demonstrates that gains of the proposed SFR algorithm can improve the fifth percentile user throughput by 26% while maintaining the same cell average throughput, compared with a non-ICIC system. [ABSTRACT FROM PUBLISHER]

Published

2013

24. BIFURCATION CONTROL OF A CONGESTION CONTROL MODEL VIA STATE FEEDBACK.

Author

XIAO, MIN, ZHENG, WEI XING, and CAO, JINDE

Subjects

HOPF bifurcations, MATHEMATICAL models, STATE feedback (Feedback control systems), ALGORITHMS, PARAMETER estimation, STABILITY theory, COMPUTER simulation

Abstract

This paper proposes to use a state feedback method to control the Hopf bifurcation for a novel congestion control model, i.e. the exponential random early detection (RED) algorithm with a single link and a single source. The gain parameter of the congestion control model is chosen as the bifurcation parameter. The analysis shows that in the absence of the state feedback controller, the model loses stability via the Hopf bifurcation early, and can maintain a stationary sending rate only in a certain domain of the gain parameter. When applying the state feedback controller to the model, the onset of the undesirable Hopf bifurcation is postponed. Thus, the stability domain is extended, and the model possesses a stable sending rate in a larger parameter range. Furthermore, explicit formulae to determine the properties of the Hopf bifurcation are obtained. Numerical simulations are given to justify the validity of the state feedback controller in bifurcation control. [ABSTRACT FROM AUTHOR]

Published

2013

25. Investigation on the effect of trailing edge ejection on a turbine cascade

Author

Wang, Yangang and Zhao, Longbo

Subjects

*TRAILING edges (Aerodynamics), *TURBINE aerodynamics, *CASCADES (Fluid dynamics), *NAVIER-Stokes equations, *COMPUTER simulation, *TURBULENCE, *MATHEMATICAL models, *ALGORITHMS

Abstract

Abstract: This paper presents a detailed experimental and numerical investigation for a turbine cascade with different trailing edge ejection. The numerical simulation is based on Three-Dimensional Navier–Stokes equations coupled with an effective ejection model, where a high resolution non-oscillatory scheme, LU-SGS implicit algorithm and Baldwin-Lomax turbulence model are employed. The experiments presented in this paper focused on a transonic turbine cascade performance with different ejection to validate the numerical simulation results. The results show that the blowing ratio has a small effect on the Mach number distribution and exit flow angle with two slot types. However the energy loss coefficient increases initially, and subsequently has a decrease tendency with the increasing of blowing ratio. The ejection from the symmetry slot blows away the vortex at the blade trailing edge and strengthens the mixing between the wake and main flow. The ejection from the pressure side cutback only clears up the vortex near the slot surface, and has small effect on the flow field near the trailing edge. [Copyright &y& Elsevier]

Published

2013

26. A refined numerical solution to the inclusion problem.

Author

Spinu, S.

Subjects

MATHEMATICAL convolutions, COMPUTER simulation, STATISTICAL correlation, ALGORITHMS, MATHEMATICAL models, APPLIED mathematics, DIMENSIONAL analysis

Abstract

Copyright of Mechanika is the property of Mechanika and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2013

27. Foot Placement Indicator for Balance of Planar Bipeds with Point Feet.

Author

van Zutven, Pieter and Nijmeijer, Henk

Subjects

HUMANOID robots, BIPEDALISM, ALGORITHMS, MATHEMATICAL models, COMPUTER simulation, STABILITY theory

Abstract

If humanoid robots are to be used in society, they should be able to maintain their balance. Knowing where to step is crucially important. In this paper we contribute an algorithm that can compute the foot step location such that bipedal balance is maintained for planar bipeds with point feet and an arbitrary number of non-massless links on a horizontal and flat ground. The algorithm is called the foot placement indicator (FPI) and it extends the foot placement estimator (FPE). The FPE uses an inverted pendulum model to capture the dynamics of a humanoid robot, whereas the FPI deals with multi-body models with distributed masses. This paper analyses equilibrium sets and the stability of planar bipeds with point feet. The algorithm uses conservation of energy throughout the step, taking into account the instantaneous impact dynamics at foot strike. A simulation case study on a five-link planar biped shows the effectiveness of the FPI. [ABSTRACT FROM AUTHOR]

Published

2013

28. A heuristic for the inventory management of smart vending machine systems.

Author

Yang-Byung Park and Jun-Su Yoo

Subjects

HEURISTIC, INVENTORY control, VENDING machines, MATHEMATICAL models, ALGORITHMS, MATHEMATICAL optimization, CUSTOMER services, COMPUTER simulation

Abstract

Purpose: The purpose of this paper is to propose a heuristic for the inventory management of smart vending machine systems with product substitution under the replenishment point, order-up-to level policy and to evaluate its performance. Design/methodology/approach: The heuristic is developed on the basis of the decoupled approach. An integer linear mathematical model is built to determine the number of product storage compartments and replenishment threshold for each smart vending machine in the system and the Clarke and Wright's savings algorithm is applied to route vehicles for inventory replenishments of smart vending machines that share the same delivery days. Computational experiments are conducted on several small-size test problems to compare the proposed heuristic with the integrated optimization mathematical model with respect to system profit. Furthermore, a sensitivity analysis is carried out on a medium-size test problem to evaluate the effect of the customer service level on system profit using a computer simulation. Findings: The results show that the proposed heuristic yielded pretty good solutions with 5.7% error rate on average compared to the optimal solutions. The proposed heuristic took about 3 CPU minutes on average in the test problems being consisted of 10 five-product smart vending machines. It was confirmed that the system profit is significantly affected by the customer service level. Originality/value: The inventory management of smart vending machine systems is newly treated. Product substitutions are explicitly considered in the model. The proposed heuristic is effective as well as efficient. It can be easily modified for application to various retail vending settings under a vendor-managed inventory scheme with POS system. [ABSTRACT FROM AUTHOR]

Published

2012

29. The Virtual Harmonic Power Droop Strategy to Mitigate the Output Harmonic Voltage of the Inverter.

Author

Yao, Yuan and Kang, Longyun

Subjects

DISTRIBUTED power generation, ALGORITHMS, ELECTRIC inverters, COMPUTER simulation, MATHEMATICAL models

Abstract

The harmonic voltage issue becomes a challenge for a distributed generation system. Considering that droop control is the most common control algorithm used in the distributed system, a virtual harmonic power droop strategy which aims to mitigate the harmonic voltage is proposed in this paper. First, the conventional droop control is analyzed. Based on that concept, the virtual power algorithm is introduced. Second, the output harmonic voltage issue and the mathematical model of the inverter are presented. In addition, the second-order generalized integrator is briefly discussed. Third, taking into consideration the algorithms and models presented, a virtual harmonic power droop strategy is proposed to implement the harmonic voltage mitigation. In this algorithm, signals in fundamental frequency and harmonic frequency are separated with the help of second-order generalized integrators. Unlike the conventional voltage–current dual loop structure which is used to mitigate system harmonics, this method only needs the virtual power feedback to mitigate the harmonic voltage. Based on these features, the system's control structure is simplified. Simulation and experimental results verified the harmonic voltage mitigation ability of the proposed strategy. [ABSTRACT FROM AUTHOR]

Published

2018

30. Small Signal Monitoring of Power System using Subspace System Identification.

Author

Mohammadi, Aliakbar, Khaloozadeh, Hamid, and Amjadifard, Roya

Subjects

SIGNAL processing, ELECTRIC power systems, SYSTEM identification, MATHEMATICAL models, ALGORITHMS, SUBSPACE identification (Mathematics), COMPUTER simulation

Abstract

In this paper, small signal analysis of power systems is investigated using Subspace System Identification (SSI) methods. Classical small signal analysis methods for power systems are based on mathematical modeling and linearized model of power system in an especial operating point. There are some difficulties when such a classical method is applied, specially, in the case of large power systems. In this paper, such difficulties and their bases are investigated and in order to avoid them, it is suggested to use SSI algorithms for small signal analysis of power systems. The paper discusses extracting of small signal properties of power systems and presents some new suggestions for application of subspace system identification methods. Different types of subspace system identification algorithms were applied to different power system case studies using the presented propositions. The benefits and drawbacks of subspace system identification methods and the presented suggestions are studied for small signal analysis of power systems and power system monitoring. Several comparisons were investigated using computer simulations. The results express the usefulness and easiness of proposed methods. [ABSTRACT FROM AUTHOR]

Published

2012

31. BM3D Frames and Variational Image Deblurring.

Author

Danielyan, Aram, Katkovnik, Vladimir, and Egiazarian, Karen

Subjects

MATCHING theory, DIGITAL image processing, ALGORITHMS, MATHEMATICAL models, ITERATIVE methods (Mathematics), NASH equilibrium, COMPUTER simulation, NUMERICAL analysis, IMAGE reconstruction, DIGITAL signal processing

Abstract

A family of the block matching 3-D (BM3D) algorithms for various imaging problems has been recently proposed within the framework of nonlocal patchwise image modeling refid="ref1"/, refid="ref2"/. In this paper, we construct analysis and synthesis frames, formalizing BM3D image modeling, and use these frames to develop novel iterative deblurring algorithms. We consider two different formulations of the deblurring problem, i.e., one given by the minimization of the single-objective function and another based on the generalized Nash equilibrium (GNE) balance of two objective functions. The latter results in the algorithm where deblurring and denoising operations are decoupled. The convergence of the developed algorithms is proved. Simulation experiments show that the decoupled algorithm derived from the GNE formulation demonstrates the best numerical and visual results and shows superiority with respect to the state of the art in the field, confirming a valuable potential of BM3D-frames as an advanced image modeling tool. [ABSTRACT FROM AUTHOR]

Published

2012

32. Filter-Based Fading Channel Modeling.

Author

Alimohammad, Amirhossein, Fouladi Fard, Saeed, and Cockburn, Bruce F.

Subjects

RADIO transmitter fading, MATHEMATICAL models, DIGITAL filters (Mathematics), GAUSSIAN processes, COEFFICIENTS (Statistics), ALGORITHMS, COMPUTER simulation, SPECTRUM analysis, WIRELESS communications

Abstract

A channel simulator is an essential component in the development and accurate performance evaluation of wireless systems. A key technique for producing statistically accurate fading variates is to shape the flat spectrum of Gaussian variates using digital filters. This paper addresses various challenges when designing real and complex spectrum shaping filters with quantized coefficients for efficient realization of both isotropic and nonisotropic fading channels. An iterative algorithm for designing stable complex infinite impulse response (IIR) filters with fixed-point coefficients is presented. The performance of the proposed filter design algorithm is verified with 16-bit fixed-point simulations of two example fading filters. [ABSTRACT FROM AUTHOR]

Published

2012

33. Partially coupled gradient estimation algorithm for multivariable equation-error autoregressive moving average systems using the data filtering technique.

Author

Qinyao Liu, Feng Ding, Ling Xu, and Erfu Yang

Subjects

ALGORITHMS, AUTOREGRESSIVE models, FINITE element method, COMPUTER simulation, MATHEMATICAL models

Abstract

System identification provides many convenient and useful methods for engineering modelling. This study targets the parameter identification problems for multivariable equation-error autoregressive moving average systems. To reduce the influence of the coloured noises on the parameter estimation, the data filtering technique is adopted to filter the input and output data, and to transform the original system into a filtered system with white noises. Then the filtered system is decomposed into several subsystems and a filtering-based partially-coupled generalised extended stochastic gradient algorithm is developed via the coupling concept. In contrast to the multivariable generalised extended stochastic gradient algorithm, the proposed algorithm can give more accurate parameter estimates. Finally, the effectiveness of the proposed algorithm is well demonstrated by simulation examples. [ABSTRACT FROM AUTHOR]

Published

2019

34. In Vitro Identification of Four-Element Windkessel Models Based on Iterated Unscented Kalman Filter.

Author

Huang, Huan, Yang, Ming, Zang, Wangfu, Wu, Shunjie, and Pang, Yafei

Subjects

HEART assist devices, KALMAN filtering, MATHEMATICAL models, SYSTEM identification, ITERATIVE methods (Mathematics), ALGORITHMS, COMPUTER simulation, PARAMETER estimation, EQUATIONS, BODY fluids

Abstract

Mock circulatory loops (MCLs) have been widely used to test left ventricular assist devices. The hydraulic properties of the mock systemic arterial system are usually described by two alternative four-element windkessel (W4) models. Compared with three-element windkessel model, their parameters, especially the inertial term, are much more difficult to estimate. In this paper, an estimator based on the iterated unscented Kalman filter (IUKF) algorithm is proposed to identify model parameters. Identifiability of these parameters for different measurements is described. Performance of the estimator for different model structures is first evaluated using numerical simulation data contaminated with artificial noise. An MCL is developed to test the proposed algorithm. Parameter estimates for different models are compared with the calculated values derived from the mechanical and hydraulic properties of the MCL to validate model structures. In conclusion, the W4 model with an inertance and an aortic characteristic resistance arranged in series is proposed to represent the mock systemic arterial system. Once model structure is appropriately selected, IUKF can provide reasonable estimation accuracy in a limited time and may be helpful for future clinical applications. [ABSTRACT FROM PUBLISHER]

Published

2011

35. Block-Latency Insertion Method (Block-LIM) for Fast Transient Simulation of Tightly Coupled Transmission Lines.

Author

Sekine, Tadatoshi and Asai, Hideki

Subjects

MATHEMATICAL models, MAGNETIC coupling, CAPACITANCE meters, INTEGRATED circuits, ALGORITHMS, ELECTRIC lines, ELECTRIC inductors, TOPOLOGY, COMPUTER simulation

Abstract

This paper describes a block-latency insertion method (LIM) for the fast transient simulation of the large networks with many coupling elements. First, the basic formulation of LIM is reviewed. Next, the block-LIM formulation for the network with many coupling elements, such as the mutual inductance, the mutual capacitance, and controlled sources is described. Then, the block-LIM algorithm is applied to the tightly coupled transmission lines, which are connected to each other by a number of mutual inductors and capacitors. Finally, some numerical results are shown, and it is confirmed that the proposed technique is useful and efficient for the simulation of the tightly coupled transmission lines. [ABSTRACT FROM AUTHOR]

Published

2011

36. An adaptive multigrid algorithm for simulating solid tumor growth using mixture models

Author

Wise, S.M., Lowengrub, J.S., and Cristini, V.

Subjects

*TUMOR growth, *COMPUTER simulation, *MULTIGRID methods (Numerical analysis), *NEOVASCULARIZATION, *STOCHASTIC convergence, *ALGORITHMS, *MATHEMATICAL models

Abstract

Abstract: In this paper we give the details of the numerical solution of a three-dimensional multispecies diffuse interface model of tumor growth, which was derived in [S.M. Wise, J.S. Lowengrub, H.B. Frieboes, V. Cristini, Three-dimensional multispecies nonlinear tumor growth–I: model and numerical method, J. Theoret. Biol. 253 (2008) 524–543] and used to study the development of glioma in [H.B. Frieboes, J.S. Lowengrub, S.M. Wise, X. Zheng, P. Macklin, E.L. Bearer, V. Cristini, Computer simulation of glioma growth and morphology, NeuroImage 37 (2007) S59–S70] and tumor invasion in [E.L. Bearer, J.S. Lowengrub, Y.L. Chuang, H.B. Frieboes, F. Jin, S.M. Wise, M. Ferrari, D.B. Agus, V. Cristini, Multiparameter computational modeling of tumor invasion, Cancer Res. 69 (2009) 4493–4501; H.B. Frieboes, F. Jin, Y.L. Chuang, S.M. Wise, J.S. Lowengrub, V. Cristini, Three-dimensional multispecies nonlinear tumor growth—II: tissue invasion and angiogenesis, J. Theoret. Biol. 264 (2010) 1254–1278]. The model has a thermodynamic basis, is related to recently developed mixture models, and is capable of providing a detailed description of tumor progression. It utilizes a diffuse interface approach, whereby sharp tumor boundaries are replaced by narrow transition layers that arise due to differential adhesive forces among the cell-species. The model consists of fourth-order nonlinear advection–reaction–diffusion equations (of Cahn–Hilliard-type) for the cell-species coupled with reaction–diffusion equations for the substrate components. Computing numerical solutions of the model is challenging because the equations are coupled, highly nonlinear, and numerically stiff. In this paper we describe a fully adaptive, nonlinear multigrid/finite difference method for efficiently solving the equations. We demonstrate the convergence of the algorithm and we present simulations of tumor growth in 2D and 3D that demonstrate the capabilities of the algorithm in accurately and efficiently simulating the progression of tumors with complex morphologies. [Copyright &y& Elsevier]

Published

2011

37. Central Heating System Constrained Control with Input Delay Based on Neural Networks.

Author

Wang, Hongwei, Tu, Fangwen, Feng, Guohui, and Ao, Xin

Subjects

LYAPUNOV functions, NEURAL circuitry, COMPUTER simulation, MATHEMATICAL models, ALGORITHMS

Abstract

An output constrained control with input delay is proposed for a central heating system. Due to the delay of signal transmission and valves opening time, an input delay is considered into the system and an auxiliary system is employed to handle this issue by converting the delayed input into a delay-free one. Moreover, to ensure the output supply water temperature within a limited range, Barrier Lyapunov algorithm is involved to achieve desired control accuracy. Finally, external disturbance and model uncertainty are incorporated into the dynamic system and neural networks (NN) are trained in an online fashion for the compensation. The stability of the control system is guaranteed through rigorous Lyapunov analysis and the excellent control performance over traditional PID control is demonstrated via numerical simulation study. [ABSTRACT FROM AUTHOR]

Published

2018

38. Leader-Follower Consensus of Second-Order Multiagent Systems with Absent Velocity Measurement and Time Delay.

Author

Yang, Panpan, Tang, Ye, Yan, Maode, and Zuo, Lei

Subjects

VELOCITY, COMPUTER simulation, MATHEMATICAL models, ALGORITHMS, MATRICES (Mathematics)

Abstract

The leader-follower consensus problem of second-order multiagent systems with both absent velocity measurement and time delay is considered. First of all, the consensus protocol is designed by introducing an auxiliary system to compensate for the unavailability of the velocity information. Then, time delay is incorporated into the consensus protocol and two cases with, respectively, constant time delay and time-varying delay are investigated. For the case of constant time delay, Lyapunov-Razumikhin theorem is deployed to obtain the sufficient conditions that guarantee the stability of the consensus algorithm. For the case of time-varying delay, the sufficient conditions are also derived by resorting to the Lyapunov-Razumkhin theorem and linear matrix inequalities (LMIs). Various numerical simulations demonstrate the correctness of the theoretical results. [ABSTRACT FROM AUTHOR]

Published

2018

39. Plant-wide oscillation detection using multivariate empirical mode decomposition.

Author

Aftab, Muhammad Faisal, Hovd, Morten, and Sivalingam, Selvanathan

Subjects

*ALGORITHMS, *COMPUTER simulation, *MATHEMATICAL models, *MATHEMATICAL optimization, *NUMERICAL analysis

Abstract

Plant-wide oscillation detection is an important task in the maintenance of large-scale industrial control systems, owing to the fact that in an interactive multi-loop environment oscillation generated in one loop may propagate to the different parts of the plant. In such a scenario, it is required that different loops oscillating due to a common cause and hence similar frequency may be grouped together. In this paper an adaptive method for plant-wide oscillation detection based on multivariate empirical mode decomposition (MEMD) along with a grouping algorithm is proposed. The method can identify multiple oscillation groups among different variables as well as variables with random noise only. The proposed method is also applicable to both non-linear and non-stationary time series where the techniques based on the conventional Fourier analysis are prone to errors. Within each group that oscillate due to a common cause, the method can also indicate the location of the probable root cause of oscillations. The efficacy of the proposed method is established with the help of both simulation and industrial case studies. [ABSTRACT FROM AUTHOR]

Published

2018

40. An optimal control model and algorithm for the deviated well’s trajectory planning

Author

Li, An, Feng, Enmin, and Gong, Zhaohua

Subjects

*MATHEMATICAL models, *ALGORITHMS, *OIL well design & construction, *TRAJECTORIES (Mechanics), *NONLINEAR programming, *COMPUTER simulation

Abstract

Abstract: This paper presents a nonlinear piecewise smooth dynamical system of the trajectory of deviated wells according to engineering background. An optimal control model is established and the necessary conditions for optimality are proved via maximum principle. The optimal control problem is solved by a revised Hooke–Jeeves algorithm. The uniform design technique has been incorporated into the revised Hooke–Jeeves algorithm to handle the multimodal function. Computer simulation is used for this paper, and the numerical example illustrates the validity and efficiency of the algorithm. The procedure demonstrates its advantages in practical applications in Liaohe Oil Field. [Copyright &y& Elsevier]

Published

2009

41. Robust and Accurate Frequency and Timing Synchronization Using Chirp Signals.

Author

Boumard, Sandrine and Mämmelä, Aarne

Subjects

SYNCHRONIZATION, ALGORITHMS, MONTE Carlo method, NUMERICAL analysis, MATHEMATICAL models, SIMULATION methods & models, COMPUTER simulation

Abstract

We propose a new robust and accurate synchronization procedure using a training sequence composed of chirp signals. We use a new integer frequency estimation algorithm and propose a new combination of a known fractional frequency offset estimation algorithm and timing synchronization algorithm. The training sequence is composed of one up and two down chirp symbols, also known as Newman phases. The integer frequency offset estimation algorithm uses the effect of timing and frequency offsets on the matched filter outputs of the chirp signals. Autocorrelation and reversed autocorrelation are used to acquire the timing instant and the fractional frequency offset. We present the complete timing and frequency synchronization procedure and study the output signals of the autocorrelation and reversed autocorrelation algorithms. Finally, we check the performance of the synchronization procedure via Monte Carlo simulation in several multipath channels. Our algorithms are accurate and more robust compared to previously published state-of-the art algorithms. [ABSTRACT FROM AUTHOR]

Published

2009

42. A Robust Distributed Congestion-Control Strategy for Differentiated-Services Network.

Author

Bouyoucef, K. and Khorasani, K.

Subjects

BOTTLENECKS (Manufacturing), COMPUTER networks, COMMAND & control systems, ALGORITHMS, NETWORK PC (Computer), COMPUTER simulation, ELECTROMECHANICAL analogies, SIMULATION methods & models, MATHEMATICAL models

Abstract

In this paper, we propose a new robust congestion- control strategy for a differentiated-services (DiffServ) network. A sliding-mode-based variable structure control technique is utilized to design a congestion controller on the basis of a fluid flow model. The performance of our proposed scheme is then demonstrated on a DiffServ network. Our proposed algorithm is developed for an interconnected network as a hop-by-hop distributed-control approach. A formal analysis of the controlled network is conducted, where it is shown that the error dynamics of the overall time-delay-dependent system is ℒ∞ stable. Numerical simulations are provided to demonstrate the capabilities of our proposed methodology. [ABSTRACT FROM AUTHOR]

Published

2009

43. High-Resolution and Real-Time Three-Dimensional Imaging Algorithm With Envelopes of Spheres for UWB Radars.

Author

Kidera, Shouhei, Sakamoto, Takuya, and Sato, Toru

Subjects

THREE-dimensional imaging, ALGORITHMS, ULTRA-wideband devices, RADAR, COMPUTER simulation, MATHEMATICAL models, STATISTICAL correlation, STATISTICAL smoothing

Abstract

Ultrawideband pulse radars have a great potential for high-range resolution in near field imaging and can be used for noncontact measuring in precision or specular products such as reflector antennas and aircraft fuselages. We have already proposed a high-speed 3-D imaging algorithm, SEABED, which is based on a reversible transform, which is the boundary scattering transform, between the received signals and the target shape. However, the estimated image with SEABED is unstable with random noise because it utilizes a derivative of the received data. In this paper, we propose a robust 3-D imaging algorithm with an envelope of spheres that completely resolves the instability due to derivative operations. Moreover, to enhance the resolution of estimated images, this method is combined with a direct waveform compensation method that does not sacrifice high-speed calculation. Numerical simulations and an experiment confirm that the proposed method can realize fast, robust, and high-resolution 3-D imaging for arbitrary targets. [ABSTRACT FROM AUTHOR]

Published

2008

44. On the Application of Factor Graphs and the Sum -- Product Algorithm to ISI Channels.

Author

Colavolpe, Giulio and Germi, Gianpietro

Subjects

ALGORITHMS, COMPUTER simulation, ELECTROMECHANICAL analogies, MATHEMATICAL models, COMPUTER software, ALGEBRA

Abstract

In this paper, based on the application of the sum-product (SP) algorithm to factor graphs (FGs) representing the joint a posteriori probability (APP) of the transmitted symbols, we propose new iterative soft-input soft-output (SISO) detection schemes for intersymbol interference (ISI) channels. We have verified by computer simulations that the SP algorithm converges to a good approximation of the exact marginal APPs of the transmitted symbols if the FG has girth at least 6. For ISI channels whose corresponding FG has girth 4, the application of a stretching technique allows us to obtain an equivalent girth-6 graph. For sparse 151 channels, the proposed algorithms have advantages in terms of complexity over optimal detection schemes based on the Bahl-Cocke-Jelinek-Raviv (BCJR) algorithm. They also allow a parallel implementation of the receiver and the possibility of a more efficient complexity reduction. The application to joint detection and decoding of low-density parity-check (LDPC) codes is also considered and results are shown for some partial-response magnetic channels. Also in these cases, we show that the proposed algorithms have a limited performance loss with respect to that can be obtained when the optimal "serial" BCJR algorithm is used for detection. Therefore, for their parallel implementation, they represent a favorable alternative to the modified "parallel" BCJR algorithm proposed in the literature for the application to magnetic channels. [ABSTRACT FROM AUTHOR]

Published

2005

45. A Direct Execution Approach to Simulating Mobile Agent Algorithms.

Author

Xuhui Li, Jiannong Cao, and Yanxiang He

Subjects

MOBILE agent systems, ALGORITHMS, INTELLIGENT agents, COMPUTER simulation, MATHEMATICAL models

Abstract

Mobile agent technology has been applied to develop the solutions for various kinds of parallel and distributed computing problems. However, performance evaluation of mobile agent algorithms remains a difficult task, mainly due to the characteristics of mobile agents such as distributed and asynchronous execution, autonomy and mobility. This paper proposes a general approach based on direct execution simulation for evaluating the performance of mobile agent algorithms by collecting and analyzing the information about the agents during their execution. We describe the proposed generic simulation model, named MADES, the architecture of a software environment based on MADES, and a prototype implementation. A mobile agent-based distributed load balancing algorithm has been used for experiments with the prototype. [ABSTRACT FROM AUTHOR]

Published

2004

46. A New Scheme for Speed-Sensorless Control of Induction Motor.

Author

Kwon, Young Ahn and Sung Hwan Kim

Subjects

INDUCTION motors, ELECTRONIC control in electric motors, SPEED, ALGORITHMS, MATHEMATICAL models, COMPUTER simulation

Abstract

Various control algorithms have been proposed for the speed-sensorless control of an induction motor. These sensorless algorithms are mainly based on the speed feedback with the flux and speed estimations. This paper proposes a new scheme for the speed-sensorless control of an induction motor. The proposed scheme is based on the current estimation without the flux and speed estimations, in which the controlled stator voltage is applied to the induction motor so that the difference between stator currents of the mathematical model and motor may be forced to decay to zero. The performance of the proposed scheme is verified through simulation and experiment. [ABSTRACT FROM AUTHOR]

Published

2004

47. Is the Area Under Curve Appropriate for Evaluating the Fit of Psychometric Models?

Author

Han, Yuting, Zhang, Jihong, Jiang, Zhehan, and Shi, Dexin

Subjects

COMPUTER simulation, STRUCTURAL equation modeling, COMPUTER software, SAMPLE size (Statistics), MATHEMATICAL models, MULTIVARIATE analysis, CALIBRATION, PSYCHOMETRICS, THEORY, STATISTICAL hypothesis testing, RESEARCH funding, DESCRIPTIVE statistics, RECEIVER operating characteristic curves, DIAGNOSTIC errors, SENSITIVITY & specificity (Statistics), PROBABILITY theory, ALGORITHMS

Abstract

In the literature of modern psychometric modeling, mostly related to item response theory (IRT), the fit of model is evaluated through known indices, such as χ2, M2, and root mean square error of approximation (RMSEA) for absolute assessments as well as Akaike information criterion (AIC), consistent AIC (CAIC), and Bayesian information criterion (BIC) for relative comparisons. Recent developments show a merging trend of psychometric and machine learnings, yet there remains a gap in the model fit evaluation, specifically the use of the area under curve (AUC). This study focuses on the behaviors of AUC in fitting IRT models. Rounds of simulations were conducted to investigate AUC's appropriateness (e.g., power and Type I error rate) under various conditions. The results show that AUC possessed certain advantages under certain conditions such as high-dimensional structure with two-parameter logistic (2PL) and some three-parameter logistic (3PL) models, while disadvantages were also obvious when the true model is unidimensional. It cautions researchers about the dangers of using AUC solely in evaluating psychometric models. [ABSTRACT FROM AUTHOR]

Published

2023

48. A Predictive Control Strategy for Aerial Payload Transportation with an Unmanned Aerial Vehicle.

Author

Urbina-Brito, Norberto, Guerrero-Sánchez, María-Eusebia, Valencia-Palomo, Guillermo, Hernández-González, Omar, López-Estrada, Francisco-Ronay, and Hoyo-Montaño, José Antonio

Subjects

AIR warfare, LINEAR systems, ALGORITHMS, MATHEMATICAL models, COMPUTER simulation

Abstract

This paper presents the results of a model-based predictive control (MPC) design for a quadrotor aerial vehicle with a suspended load. Unlike previous works, the controller takes into account the hanging payload dynamics, the dynamics in three-dimensional space, and the vehicle rotation, achieving a good balance between fast stabilization times and small swing angles. The mathematical model is based on the Euler–Lagrange formulation and considers the dynamics of the vehicle, the cable, and the load. Then, the mathematical model is represented as an input-affine system to obtain the linear model for the control design. A constrained MPC strategy was designed and compared with an unconstrained MPC and an algorithm from the literature for the case of study. The constraints to be considered include the limits on the swing angles and the quadrotor position. The constrained control algorithm was constructed to stabilize the aerial vehicle. It aims to track a trajectory reference while attenuating the load swing, considering a maximum swing range of ± 10 ∘ . Numerical simulations were carried out to validate the control strategy. [ABSTRACT FROM AUTHOR]

Published

2021

49. Simulation-based decision support framework for dynamic ambulance redeployment in Singapore.

Author

Lam, Sean Shao Wei, Ng, Clarence Boon Liang, Nguyen, Francis Ngoc Hoang Long, Ng, Yih Yng, and Ong, Marcus Eng Hock

Subjects

*EMERGENCY medical services, *AMBULANCE service, *DYNAMIC programming, *DECISION support systems, *COMPUTER simulation, *ALGORITHMS, *AMBULANCES, *MATHEMATICAL models, *QUALITY assurance, *RESOURCE allocation, *TIME, *THEORY, *STANDARDS

Abstract

Objective: Dynamic ambulance redeployment policies tend to introduce much more flexibilities in improving ambulance resource allocation by capitalizing on the definite geospatial-temporal variations in ambulance demand patterns over the time-of-the-day and day-of-the-week effects. A novel modelling framework based on the Approximate Dynamic Programming (ADP) approach leveraging on a Discrete Events Simulation (DES) model for dynamic ambulance redeployment in Singapore is proposed in this paper.Methods: The study was based on the Singapore's national Emergency Medical Services (EMS) system. Based on a dataset comprising 216,973 valid incidents over a continuous two-years study period from 1 January 2011-31 December 2012, a DES model for the EMS system was developed. An ADP model based on linear value function approximations was then evaluated using the DES model via the temporal difference (TD) learning family of algorithms. The objective of the ADP model is to derive approximate optimal dynamic redeployment policies based on the primary outcome of ambulance coverage.Results: Considering an 8min response time threshold, an estimated 5% reduction in the proportion of calls that cannot be reached within the threshold (equivalent to approximately 8000 dispatches) was observed from the computational experiments. The study also revealed that the redeployment policies which are restricted within the same operational division could potentially result in a more promising response time performance. Furthermore, the best policy involved the combination of redeploying ambulances whenever they are released from service and that of relocating ambulances that are idle in bases.Conclusion: This study demonstrated the successful application of an approximate modelling framework based on ADP that leverages upon a detailed DES model of the Singapore's EMS system to generate approximate optimal dynamic redeployment plans. Various policies and scenarios relevant to the Singapore EMS system were evaluated. [ABSTRACT FROM AUTHOR]

Published

2017

50. Structural-System Identification. I: Theory.

Author

Ghanem, Roger and Shinozuka, Masanobu

Subjects

*EARTHQUAKE engineering, *MATHEMATICAL models, *COMPUTER simulation, *ALGORITHMS

Abstract

The investigation reported in this paper looks into the application of a number of system-identification techniques to problems of earthquake engineering. A number of techniques for structural-system identification have been developed over the past few years. Many of these techniques have been successful at identifying properties of linearized and time-invariant equivalent structural systems. Most of these techniques were verified using mathematical models simulated on the computer. In this paper, a number of structural-identification algorithms are reviewed and applied to the identification of structural systems subjected to earthquake excitations. The algorithms are applied to experimental data obtained in controlled laboratory conditions. The data pertain to the acceleration records from two building models subjected to various loading conditions. The performance of the various identification algorithms is critically assessed, and guidelines are obtained regarding their suitability to various engineering applications. [ABSTRACT FROM AUTHOR]

Published

1995