&lt;title&gt;MOSCITO: a program system for MEMS optimization&lt;/title&gt;

Schneider, Peter; Schneider, Andre Felipe; Bastian, Jens; Reitz, Sven; Schwarz, Peter

doi:10.1117/12.462817

Cited by 6 publications

(4 citation statements)

References 6 publications

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“…On the other hand, fostered by the development of new technologies, perspective applications of microactuators, or in general micro-electro-mechanical systems (MEMS), appear more and more in the market. Only in more recent times, however, has the design of MEMS been approached in a systematic way employing automated optimal design [1,8,15]: this trend shortens the gap between academic and industrial research. Following this approach, the design problem is set up as a problem of multivariable non-linear optimization of multiple objective functions subject to a set of constraints.…”

Section: Introductionmentioning

confidence: 99%

Optimal shape design of electrostatic microactuators: A multiobjective formulation

Chereches

Barba

Ţopa

et al. 2013

International Journal of Applied Electromagnetics and Mechanics

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A procedure of automated optimal design of a class of micro-electromechanical devices is proposed in terms of a multiobjective optimization formulation. A comb-drive electrostatic accelerometer is considered as the case study. By optimizing the shape design of the device, it is desired to extend the actuation range of the comb drive in steady-state conditions, leading to greater gap distances between the electrodes. The design variables control the geometry of fixed and movable electrodes, in terms of width and height. The twofold goal of maximizing the drive force considered as the main criterion, while minimizing the levitation force considered as a parasitic effect, makes it possible to implement a Pareto optimality approach.

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Section: Introductionmentioning

confidence: 99%

Optimal shape design of electrostatic microactuators: A multiobjective formulation

Chereches

Barba

Ţopa

et al. 2013

International Journal of Applied Electromagnetics and Mechanics

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“…This procedure is generally known as Co-Coupled Simulation or Simulator Coupling. Basics were described by Schwarz [9] and a coupling program presented by Schneider et al [10].…”

Section: Coupled System Simulationmentioning

confidence: 99%

B2.1 - Efficient Design of Dynamic Systems by Combining Network Methods with Finite-Element Methods

Marschner¹,

Pfeifer²,

Starke³

2013

Proceedings SENSOR 2013

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The predetermination of the dynamic behavior of electromechanical systems is a challenging task because of the coupled physical domains and various transducer principles. An efficient design of such systems requires simulation methods which permit a simultaneous design-accompanying optimization, too. The combination of network methods and Finite Element methods on user level is a timeefficient method for the simulation of the dynamic behavior of electromechanical systems. In this paper the advantages and the efficiency of this Combined Simulation are demonstrated by hand of different examples in the light of different abstraction levels. The examples include the application of FEsimulations to determine network structures and parameters, as well as the inclusion of network elements and equivalent network structures in FE-models.

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“…11, 12), but our goal is to optimize our band-pass filter. Optimization algorithms can be used to size a circuit from Saber ® simulation software [21] or a global model with Ansys ® and Saber ® [22]. Dedicated filter design tools exist with optimization capacities, 1 but as detailed in section 1, our philosophy is to take better capacities of all available software to perform an optimal design.…”

Section: Modeling Toolsmentioning

confidence: 99%

A Component-Based Framework for the Composition of Simulation Software Modeling Electrical Systems

Delinchant¹,

Würtz²,

Magot³

et al. 2004

SIMULATION

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This article deals with a component-based approach to design electrical systems modeled by several simulation software. The component paradigm can be applied to simulation software, thus taking advantage of composition facilities. To do so, a visual composition tool has been developed and is presented in this article. It produces recursively a global simulation component from several pieces of simulation software. It also deals with uncertainty by taking into account different kinds of components as well as different kinds of coupling methods. A specific coupling method for components dedicated to optimization is detailed. The sizing process of a home system filter is then presented to illustrate the use of the visual composer tool and this specific coupling method.

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<title>MOSCITO: a program system for MEMS optimization</title>

Cited by 6 publications

References 6 publications

Optimal shape design of electrostatic microactuators: A multiobjective formulation

Optimal shape design of electrostatic microactuators: A multiobjective formulation

B2.1 - Efficient Design of Dynamic Systems by Combining Network Methods with Finite-Element Methods

A Component-Based Framework for the Composition of Simulation Software Modeling Electrical Systems

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