Passive and Active Vibrations Allow Self-Organization in Large-Scale Electromechanical Systems

In this paper, the role of passive and active vibrations for the control of nonlinear large-scale electromechanical systems is investigated. The mathematical model of the system is discussed and detailed experimental results are shown in order to prove that coupling the effects of feedback and vibrations elicited by proper control signals makes possible to regularize imperfect uncertain large-scale systems.

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The Mathematical Model for Total Pubertal Growth in Idiopathic Growth Hormone (GH) Deficiency Suggests a Moderate Role of GH Dose

The Journal of Clinical Endocrinology & Metabolism ◽

10.1210/jc.2003-030600 ◽

2003 ◽

Vol 88 (10) ◽

pp. 4748-4753 ◽

Cited By ~ 34

Author(s):

Michael B. Ranke ◽

Anders Lindberg ◽

David D. Martin ◽

Bert Bakker ◽

Patrick Wilton ◽

...

Keyword(s):

Mathematical Model ◽

Growth Hormone ◽

Gh Deficiency ◽

Pubertal Growth ◽

The Mathematical Model

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Biomechanics of Soft Tissues: The Role of the Mathematical Model on Material Behavior

Advances in Intelligent Systems and Computing - Advances in Emerging Trends and Technologies ◽

10.1007/978-3-030-32022-5_29 ◽

2019 ◽

pp. 301-311

Author(s):

Carlos Bustamante-Orellana ◽

Robinson Guachi ◽

Lorena Guachi-Guachi ◽

Simone Novelli ◽

Francesca Campana ◽

...

Keyword(s):

Mathematical Model ◽

Soft Tissues ◽

Material Behavior ◽

The Mathematical Model

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Traffic Fuzzy Controller's Improvement Based on Self-Adaptive Optimal Algorithm

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.562-564.1414 ◽

2012 ◽

Vol 562-564 ◽

pp. 1414-1417

Author(s):

Zhi Yi Xu ◽

Da Lu Guan ◽

Ai Long Fan

Keyword(s):

Mathematical Model ◽

Large Scale ◽

Fuzzy Controller ◽

Optimal Algorithm ◽

Signal Control ◽

Traffic Signal Control ◽

Time Varying ◽

Large Scale Systems ◽

Simulation Results ◽

Self Adaptive

The transport system is a nonlinear, time-varying, lagging large-scale systems. Fuzzy control does not need to build a precise mathematical model, can be easily integrated people's thinking and experience, and is suitable for applications in the traffic signal control system. Here,a self-adaptive optimal algorithm was used to improve the traditional fuzzy controller. Simulation results show that the improved system has higher availability.

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Automatic Partitioning of Large Scale Simulation in Grid Computing for Run Time Reduction

Innovations in Information Systems for Business Functionality and Operations Management ◽

10.4018/978-1-4666-0933-4.ch014 ◽

2012 ◽

pp. 225-252

Author(s):

Nurcin Celik ◽

Esfandyar Mazhari ◽

John Canby ◽

Omid Kazemi ◽

Parag Sarfare ◽

...

Keyword(s):

Execution Time ◽

Large Scale ◽

Time Synchronization ◽

Computational Grid ◽

Experimental Results ◽

Time Interval ◽

Computational Power ◽

Large Scale Systems ◽

Large Scale Simulations ◽

Reduce Execution Time

Simulating large-scale systems usually entails exhaustive computational powers and lengthy execution times. The goal of this research is to reduce execution time of large-scale simulations without sacrificing their accuracy by partitioning a monolithic model into multiple pieces automatically and executing them in a distributed computing environment. While this partitioning allows us to distribute required computational power to multiple computers, it creates a new challenge of synchronizing the partitioned models. In this article, a partitioning methodology based on a modified Prim’s algorithm is proposed to minimize the overall simulation execution time considering 1) internal computation in each of the partitioned models and 2) time synchronization between them. In addition, the authors seek to find the most advantageous number of partitioned models from the monolithic model by evaluating the tradeoff between reduced computations vs. increased time synchronization requirements. In this article, epoch- based synchronization is employed to synchronize logical times of the partitioned simulations, where an appropriate time interval is determined based on the off-line simulation analyses. A computational grid framework is employed for execution of the simulations partitioned by the proposed methodology. The experimental results reveal that the proposed approach reduces simulation execution time significantly while maintaining the accuracy as compared with the monolithic simulation execution approach.

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Mathematical Modeling of Electrochemical Deburring

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.126-128.545 ◽

2010 ◽

Vol 126-128 ◽

pp. 545-550 ◽

Cited By ~ 1

Author(s):

Wen Ji Xu ◽

W. Wang ◽

Xu Yue Wang ◽

Gui Bing Pang

Keyword(s):

Mathematical Modeling ◽

Mathematical Model ◽

Influencing Factors ◽

Applied Voltage ◽

Experimental Results ◽

Electrode Gap ◽

Workpiece Material ◽

Burr Height ◽

Object A ◽

The Mathematical Model

The drilling burr is taken as the research object. A mathematical model of electrochemical deburring (ECD) is established and the effects of main influencing factors, such as inter-electrode gap, applied voltage and deburring time, on burr height have been analyzed. The results show that the deburring time increases with the increase of initial burr height, inter-electrode gap, with the decrease of volume of electrochemical equivalent of the workpiece material, conductivity of electrolyte and applied voltage. The deburring time for various burr heights can be predicted by the mathematical model. The calculated results obtained from the mathematical model are approximately consistent with the experimental results. The results show that initial burr height h0=0.722mm is removed, and the fillet radius R=0.211mm is obtained.

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Approximation of potential-driven flow dynamics in large-scale self-similar tree networks

Proceedings of The Royal Society A Mathematical Physical and Engineering Sciences ◽

10.1098/rspa.2011.0113 ◽

2011 ◽

Vol 467 (2134) ◽

pp. 2810-2824 ◽

Cited By ~ 12

Author(s):

Jason Mayes ◽

Mihir Sen

Keyword(s):

Mathematical Model ◽

Analytical Solutions ◽

Large Scale ◽

Differential Algebraic Equations ◽

Flow Dynamics ◽

Algebraic Equations ◽

Tree Networks ◽

Self Similar ◽

Large Scale Flow ◽

The Mathematical Model

Dynamic analysis of large-scale flow networks is made difficult by the large system of differential-algebraic equations resulting from its modelling. To simplify analysis, the mathematical model must be sufficiently reduced in complexity. For self-similar tree networks, this reduction can be made using the network’s structure in way that can allow simple, analytical solutions. For very large, but finite, networks, analytical solutions are more difficult to obtain. In the infinite limit, however, analysis is sometimes greatly simplified. It is shown that approximating large finite networks as infinite not only simplifies the analysis, but also provides an excellent approximate solution.

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The Numerical Simulation of Directional Solidification Process Temperature Field for Large-Scale Frustum of a Cone Ingot

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.189-193.1476 ◽

2011 ◽

Vol 189-193 ◽

pp. 1476-1481

Author(s):

Kun Liu ◽

Zhe Wang ◽

Ren Zhi Han ◽

Zi Ping Ren

Keyword(s):

Numerical Simulation ◽

Mathematical Model ◽

Temperature Field ◽

Directional Solidification ◽

Large Scale ◽

Solidification Process ◽

Directional Solidification Process ◽

Ingot Quality ◽

Fluent Software ◽

The Mathematical Model

By using Fluent software, the mathematical model of temperature field is established on directional solidification process for large-scale frustum of a cone ingot, and the result is analyzed by Origin software, Tecplot. The influences of different width/thickness ratio to directional solidification process of cone ingot are discussed in order to provide basis for design optimization and ingot quality improvement.

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Shaping Law and Motion Design in NC-ECM under Effect of Twiste Angle

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.128-129.1010 ◽

2011 ◽

Vol 128-129 ◽

pp. 1010-1014

Author(s):

Rui Wu ◽

Dan Wen Zhang ◽

Juan Sun

Keyword(s):

Mathematical Model ◽

Electrochemical Machining ◽

Experimental Results ◽

Working Face ◽

Relationship Of ◽

The Mathematical Model ◽

The Relationship ◽

Motion Design

The twiste angle has a great effect on shaping law and stability of Numerical Controlled Electrochemical Machining (NC-ECM) process. In order to avoid the disadvantages caused by twiste angle, a methode of study shaping law by dispersing cathode working face in NC-ECM was proposed, and a mathematical model of the shaping law with the effects of twiste angle has been established in this paper. The mathematical model disclosed the relationship of twiste angle β, feeding velocity vf and thickness of removal material h in NC-ECM. Theoretical and experimental results show the the mathematical model of shaping law described in this paper can be considered as a useful reference and is helpful for the analysis of the NC-ECM and general ECM process.

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A Control System on Soil Temperature

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.599-601.673 ◽

2014 ◽

Vol 599-601 ◽

pp. 673-679

Author(s):

Shi Guo Chen ◽

Li Hua Hu ◽

Dong Sheng Wu ◽

Xue Yong Chen

Keyword(s):

Mathematical Model ◽

Control System ◽

Soil Temperature ◽

Control Algorithm ◽

Soil Ecology ◽

Control Soil ◽

Pid Algorithm ◽

And Control ◽

The Mathematical Model

The soil’s temperature plays an important role of soil ecology research. In order to gain and control soil’ temperature. A control system is proposed for soil’s temperature. And a new control algorithm which is based on the PID algorithm is designed in the control system to handle the complex change of the soil’s temperature. It does not need to know the mathematical model of soil’s temperature. At last, the control result is analyzed in this paper. The result shows that the soil’s temperature is controlled ideal by this control system which is accurate to 0.5°C.

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Experimental Study of the Forces and Parameters for the Opening of Incisions Inside Ocular Cavity

10.20944/preprints202008.0715.v1 ◽

2020 ◽

Author(s):

Victor Olenin Ramírez-Beltrán ◽

Luis Adrian Zuninga Avilés ◽

Rosa Maria Valdovinos-Rosas ◽

Jose Javier Reyes-Lagos ◽

Giorgio Mackenzie Cruz-Martínez

Keyword(s):

Experimental Data ◽

Mathematical Model ◽

Experimental Study ◽

Linear Relationship ◽

Elastic Material ◽

Experimental Results ◽

Orbital Cavity ◽

Experimental Procedure ◽

The Mathematical Model

The experimental results of forces and efforts derived from the opening of incisions in the orbital cavity in a pig’s head are presented in this article. The different areas of the incision openings are related to the needs at the incision procedure for a dacryocystorhinostomy. In terms of the experimental procedure, an origin and a plane are defined so as to allow the location of the opening of the incision. The incisions are retracted along an axis of said origin. This procedure has been based on the mathematical model developed for this work, which consists of a procedure for determining the behavior of an incision when a force is applied to retract the skin. The experimental data obtained, suggests the existence of an almost linear relationship between the increment of resistance in relation to the time obtained for each opening, the same of which is deemed to be consistent with the behavior of an elastic material.

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