In this work, an interactive optimisation framework—a combination of a low fidelity flow solver, Athena Vortex Lattice (AVL), and an interactive Multi-Objective Particle Swarm Optimisation (MOPSO)—is proposed for aerodynamic shape design optimisation of any aerial vehicle platform. This paper demonstrates the benefits of interactive optimisation—reduction of computational time with high optimality levels. Progress towards the most preferred solutions is made by having the Decision Maker (DM) periodically provide preference information once the MOPSO iterations are underway. By involving the DM within the optimisation process, the search is directed to the region of interest, which accelerates the process. The flexibility and eciency ...
Unmanned Aerial Vehicle (UAV) design tends to focus on sensors, payload and navigation systems, as t...
The paper investigates two advanced Computational Intelligence Systems (CIS) for a morphing Unmanned...
This thesis presents a modern evolutionary technique for design and optimisation in aeronautics, wi...
In this work, an interactive optimisation framework—a combination of a low fidelity flow solve...
This article presents an optimisation framework that uses stochastic multi-objective optimisation, c...
This paper presents an aerodynamic design optimisation methodology used in further developing an alr...
Aerodynamic designers rely on high-fidelity numerical models to approximate, within reasonable accu...
The research focuses on the aerodynamic design of airfoils for a Multi-Mission Unmanned Aerial Vehic...
AbstractInteractive Multi-Objective Optimisation is an increasing field of evolutionary and swarm in...
Intelligent shape optimisation architecture is developed, validated and applied in the design of hig...
We investigate the performance of different variants of a suitably tailored Tabu Search optimisation...
In the modern engineering design cycle the use of computational tools becomes a neces- sity. The com...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
AbstractThe pylon structure of an airplane is very complex, and its high-fidelity analysis is quite ...
Unmanned Aerial Vehicle (UAV) design tends to focus on sensors, payload and navigation systems, as t...
The paper investigates two advanced Computational Intelligence Systems (CIS) for a morphing Unmanned...
This thesis presents a modern evolutionary technique for design and optimisation in aeronautics, wi...
In this work, an interactive optimisation framework—a combination of a low fidelity flow solve...
This article presents an optimisation framework that uses stochastic multi-objective optimisation, c...
This paper presents an aerodynamic design optimisation methodology used in further developing an alr...
Aerodynamic designers rely on high-fidelity numerical models to approximate, within reasonable accu...
The research focuses on the aerodynamic design of airfoils for a Multi-Mission Unmanned Aerial Vehic...
AbstractInteractive Multi-Objective Optimisation is an increasing field of evolutionary and swarm in...
Intelligent shape optimisation architecture is developed, validated and applied in the design of hig...
We investigate the performance of different variants of a suitably tailored Tabu Search optimisation...
In the modern engineering design cycle the use of computational tools becomes a neces- sity. The com...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
AbstractThe pylon structure of an airplane is very complex, and its high-fidelity analysis is quite ...
Unmanned Aerial Vehicle (UAV) design tends to focus on sensors, payload and navigation systems, as t...
The paper investigates two advanced Computational Intelligence Systems (CIS) for a morphing Unmanned...
This thesis presents a modern evolutionary technique for design and optimisation in aeronautics, wi...