The increased need to design higher performing aerodynamic shapes has led to design optimisation cycles requiring high-fidelity CFD models and high-dimensional parametrisation schemes. The computational cost of employing global search algorithms on such scenarios has typically been prohibitive for most academic and industrial environments. In this work, a novel methodology is presented, called AInADS. This strategy leverages the capabilities of Artificial Neural Networks for regressing complex unstructured data, while coupling them with dimensionality reduction algorithms. This approach enables employing global-based optimisation methods on high-dimensional applications through a reduced computational cost. The capabilities of AInADS are de...
This research represents an innovative method for geometry generation of the squealer-tip in axial c...
This work aims to develop a framework for the optimisation of various aspects of rotor blades. The p...
Numerical optimisation methods have successfully been used for a variety of aerodynamic design pro...
The increased need to design higher performing aerodynamic shapes has led to design optimisation cyc...
The increased need to design higher performing aerodynamic shapes has led to design optimization cyc...
The increased need to design higher performing aerodynamic shapes has led to design optimization cyc...
The tip clearance size has historically been considered to be the main factor affecting stability ra...
Optimization methods have been widely applied to the aerodynamic design of gas turbine blades. While...
The tip clearance size has historically been considered to be the main factor affecting stability ra...
Alaminar flow optimization scheme for fan blade profiles is studied. The first step is to parameteri...
The work presents a data driven based strategy to develop a new statistical model of complex tip sha...
Axial air flow fans are widely used for air movement. In an increasingly international and competiti...
This work presents a computational framework for the optimisation of various aspects of rotor blades...
The basic tool set to design multi-stage axial compressors consists of fast codes for throughflow an...
This paper presents an experimental study of the optimization of blade skew in low pressure axial ...
This research represents an innovative method for geometry generation of the squealer-tip in axial c...
This work aims to develop a framework for the optimisation of various aspects of rotor blades. The p...
Numerical optimisation methods have successfully been used for a variety of aerodynamic design pro...
The increased need to design higher performing aerodynamic shapes has led to design optimisation cyc...
The increased need to design higher performing aerodynamic shapes has led to design optimization cyc...
The increased need to design higher performing aerodynamic shapes has led to design optimization cyc...
The tip clearance size has historically been considered to be the main factor affecting stability ra...
Optimization methods have been widely applied to the aerodynamic design of gas turbine blades. While...
The tip clearance size has historically been considered to be the main factor affecting stability ra...
Alaminar flow optimization scheme for fan blade profiles is studied. The first step is to parameteri...
The work presents a data driven based strategy to develop a new statistical model of complex tip sha...
Axial air flow fans are widely used for air movement. In an increasingly international and competiti...
This work presents a computational framework for the optimisation of various aspects of rotor blades...
The basic tool set to design multi-stage axial compressors consists of fast codes for throughflow an...
This paper presents an experimental study of the optimization of blade skew in low pressure axial ...
This research represents an innovative method for geometry generation of the squealer-tip in axial c...
This work aims to develop a framework for the optimisation of various aspects of rotor blades. The p...
Numerical optimisation methods have successfully been used for a variety of aerodynamic design pro...