Add to ORKGIn the present paper a geometric-topologic structural optimisation procedure of a transport aircraft engine mount is shown. In order to achieve the minimum structural weight under some functional and operative constraints, both static and dynamic aspects have been treated. A parametric FEM model with extended self-consistent topology controls has been developed. The genetic algorithm used for the optimisation procedure was based on a specific bit-masking oriented data structure able to properly handle both continuous and discrete design variables requested by the hybrid geometric-topological model of structure
The paper demonstrates the application of a modified Evolutionary Structural Optimisation (ESO) algo...
An engine bracket is one of the most critical components of the engine used for mounting and support...
This paper addresses the problem of including the choice of the High-Lift Devices (HLDs) configurati...
Topology Optimization is a defined as the method of determining optimal distribution of material for...
AbstractThe paper demonstrates the application of a modified Evolutionary Structural Optimisation (E...
This paper addresses a new approach to aircraft engine parts designing using the topological optimiz...
The paper demonstrates the application of a modified Evolutionary Structural Optimisation (ESO) algo...
An iterative optimisation routine for aircraft structures using Genetic Algorithms (GAs) and Neural ...
International audienceStructural topology optimization is addressed through Genetic Algorithms: A se...
International audienceStructural topology optimization is addressed through Genetic Algorithms: A se...
In the EU FP7 collaborative research programme ALaSCA (Advanced Lattice Structures for Composite Air...
Structural topology optimization is addressed through Genetic Algorithms: A set of designs is evolve...
Structural topology optimisation has been identified as the most challenging and economically reward...
This work addresses the optimization of an engine mount design from a multi-objective scenario. Our ...
This paper describes an intuitive way of defining geometry design variables for solving structural t...
The paper demonstrates the application of a modified Evolutionary Structural Optimisation (ESO) algo...
An engine bracket is one of the most critical components of the engine used for mounting and support...
This paper addresses the problem of including the choice of the High-Lift Devices (HLDs) configurati...
Topology Optimization is a defined as the method of determining optimal distribution of material for...
AbstractThe paper demonstrates the application of a modified Evolutionary Structural Optimisation (E...
This paper addresses a new approach to aircraft engine parts designing using the topological optimiz...
The paper demonstrates the application of a modified Evolutionary Structural Optimisation (ESO) algo...
An iterative optimisation routine for aircraft structures using Genetic Algorithms (GAs) and Neural ...
International audienceStructural topology optimization is addressed through Genetic Algorithms: A se...
International audienceStructural topology optimization is addressed through Genetic Algorithms: A se...
In the EU FP7 collaborative research programme ALaSCA (Advanced Lattice Structures for Composite Air...
Structural topology optimization is addressed through Genetic Algorithms: A set of designs is evolve...
Structural topology optimisation has been identified as the most challenging and economically reward...
This work addresses the optimization of an engine mount design from a multi-objective scenario. Our ...
This paper describes an intuitive way of defining geometry design variables for solving structural t...
The paper demonstrates the application of a modified Evolutionary Structural Optimisation (ESO) algo...
An engine bracket is one of the most critical components of the engine used for mounting and support...
This paper addresses the problem of including the choice of the High-Lift Devices (HLDs) configurati...