Search results for "Topology optimization"

showing 10 items of 16 documents

Optimization design process of a morphing winglet

2018

Aeronautic and aerospace engineering is recently moving in the direction of developing morphing wing devices, with the aim of making adaptable the aerodynamic shapes to different operational conditions. Those devices may be classified according to two different conceptual architectures: kinematic or compliant systems. Both of them embed within their body all the active components (actuators and sensors), necessary to their operations. In the first case, the geometry variation is achieved through an augmented classical mechanism, while in the second case the form modification is due to a special arrangement of the inner structure creating a distributed elastic hinges arrangement. Whatever is…

Adaptive winglet topology optimization morphing devices load alleviation and controlWingProcess (engineering)Computer scienceTopology optimizationControl engineering02 engineering and technologyAerodynamicsKinematics021001 nanoscience & nanotechnologyAeroelasticity01 natural sciences010309 opticsMorphingRobustness (computer science)Adaptive system0103 physical sciencesSystems architectureDesign processWingtip deviceSettore ING-IND/04 - Costruzioni E Strutture Aerospaziali0210 nano-technologyEngineering design processActuatorBioinspiration, Biomimetics, and Bioreplication VIII
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Ensuring High Performance of Consensus-Based Estimation by Lifetime Maximization in WSNs

2015

The estimation of a parameter corrupted by noise is a common tasks in wireless sensor networks, where the deployed nodes cooperate in order to improve their own inaccurate observations. This cooperation usually involves successive data exchanges and local information updates until a global consensus value is reached. The quality of the final estimator depends on the amount of collected observations, hence the number of active nodes. Moreover, the inherent iterative nature of the consensus process involves a certain energy consumption. Since the devices composing the network are usually battery powered, nodes becoming inactive due to battery depletion emerges as a serious problem. In this wo…

Algebraic connectivityComputer scienceDistributed computingTopology optimizationProcess (computing)EstimatorMaximizationEnergy consumptionNetwork topologyWireless sensor network2015 International Conference on Distributed Computing in Sensor Systems
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On a topology optimization problem governed by two-dimensional Helmholtz equation

2015

The paper deals with a class of shape/topology optimization problems governed by the Helmholtz equation in 2D. To guarantee the existence of minimizers, the relaxation is necessary. Two numerical methods for solving such problems are proposed and theoretically justified: a direct discretization of the relaxed formulation and a level set parametrization of shapes by means of radial basis functions. Numerical experiments are given.

Computational MathematicsControl and OptimizationLevel setLevel set methodDiscretizationHelmholtz equationApplied MathematicsNumerical analysisTopology optimizationMathematical analysisRelaxation (approximation)ParametrizationMathematicsComputational Optimization and Applications
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Energy Efficient Consensus Over Directed Graphs

2018

Consensus algorithms are iterative methods that represent a basic building block to achieve superior functionalities in increasingly complex sensor networks by facilitating the implementation of many signal-processing tasks in a distributed manner. Due to the heterogeneity of the devices, which may present very different capabilities (e.g. energy supply, transmission range), the energy often becomes a scarce resource and the communications turn into directed. To maximize the network lifetime, a magnitude that in this work measures the number of consensus processes that can be executed before the first node in the network runs out of battery, we propose a topology optimization methodology fo…

Computer scienceDistributed computingNode (networking)Topology optimizationTopology (electrical circuits)Directed graphNetwork topologyWireless sensor networkEfficient energy useBlock (data storage)
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A new ESO-based method to find the optimal topology of structures subject to multiple load conditions

2014

In the field of topology optimization problems, the Evolutionary Structural Optimization (ESO) method is one of the most popular and easy to use. When dealing with problems of reasonable difficulty, the ESO method is able to give very good results in reduced times and with a limited request of computational resources. Generally, main applications of this method are addressed to the definition of the optimal topology of a component subjected to a single load condition.In this work, a new methodology, based on the ESO approach, is introduced for the study of the optimal topology of a component subjected to multiple load conditions. The new procedure, entirely developed in the APDL programming…

FEMEngineering (all)Evolutionary structural optimizationTopology optimizationNumerical method
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Topological optimization of a structural naval component manufactured in FDM

2019

In this paper, a topological optimization procedure has been applied on a real component of the deck of a sailing multi-hull in order to find the internal shape that best save the material used in the manufacturing process without a relevant loss of structural rigidity. The multi-hull boat is a 16 feet length catamaran equipped with an asymmetric foil on both centerboards and with a symmetric foil on both rudders. The task of the analyzed object is to act as a cylindrical support for the screw that drives the rotation of the centerboard. The process adopted to manufacture this object is the Fused Deposition Modeling (FDM) technique, because of its high versatility and its relative low-cost …

Fused deposition modelingComputer scienceTopology optimizationMechanical engineeringRudderFused deposition modelingDecklaw.inventionCAD modelingSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineRobustness (computer science)lawTopological optimizationTopology optimizationStructural rigiditySettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeFOIL method
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A New ESO-Based Method to Find the Optimal Topology of Structures Subject to Multiple Load Conditions

2014

In the field of topology optimization problems, the Evolutionary Structural Optimization (ESO) method is one of the most popular and easy to use. When dealing with problems of reasonable difficulty, the ESO method is able to give very good results in reduced times and with a limited request of computational resources. Generally, main applications of this method are addressed to the definition of the optimal topology of a component subjected to a single load condition. In this work, a new methodology, based on the ESO approach, is introduced for the study of the optimal topology of a component subjected to multiple load conditions. The new procedure, entirely developed in the APDL programmin…

Mathematical optimizationComponent (UML)Numerical analysisTopology optimizationWork (physics)Subject (grammar)Topology (electrical circuits)General MedicineTopologyAlgorithmField (computer science)Finite element methodMathematicsApplied Mechanics and Materials
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Designing the internal reinforcements of a sailing boat using a topology optimization approach

2022

In naval design it is common practice to define an internal regular web frame made of longitudinal elements and transversal sections with the purpose of giving stiffness to the whole structure and, at the same time, promoting lightness. In this work, FEM simulation and Topology Optimization (TO) tools are implemented to present a different approach in placing the reinforcements inside the hull of a sailing dinghy. The methodology proposed in this paper considers as a starting point the volume inside the hull and the deck completely filled with material and the result after the simulations is a free form shape of the sailboat reinforcements. The TO procedure is based on two different input F…

Ocean EngineeringTopology optimization Yacht design Reinforcement FEMSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale
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An Automatic Differentiation Based Approach to the Level Set Method

2015

This paper discusses an implementation of the parametric level set method. Adjoint approach is used to perform the sensitivity analysis, but contrary to standard implementations, the state problem is differentiated in its discretized form. The required partial derivatives are computed using tools of automatic differentiation, which avoids the need to derive the adjoint problem from the governing partial differential equation. The augmented Lagrangian approach is used to enforce volume constraints, and a gradient based optimization method is used to solve the subproblems. Applicability of the method is demonstrated by repeating well known compliance minimization studies of a cantilever beam …

Partial differential equationLevel set methodAugmented Lagrangian methodAutomatic differentiationComputer scienceTopology optimizationPartial derivativeApplied mathematicsSensitivity (control systems)Parametric statistics
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On a topology optimization problem governed by two-dimensional Helmholtz equation

2015

The paper deals with a class of shape/topology optimization problems governed by the Helmholtz equation in 2D. To guarantee the existence of minimizers, the relaxation is necessary. Two numerical methods for solving such problems are proposed and theoretically justified: a direct discretization of the relaxed formulation and a level set parametrization of shapes by means of radial basis functions. Numerical experiments are given. peerReviewed

Radial basis functionsLevel set methodTopology optimizationHelmholtz equation
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