This work illustrates the feasibility of the implementation of innovative, efficient and low-cost solutions for fast-prototyping and customization of controlled mechanical and aeroservoelastic systems. A controlled constant-speed wind-turbine is considered as an example of the proposed methodologies, where the physical aeromechanics problem is controlled by a controller process scheduled for execution in real-time on a PC-class computer. The physical problem is simulated by a general-purpose multibody process that is scheduled in real-time as well. The processes communicate using real-time inter-process communication primitives. All the involved tools are based on free software
This work is focused on the implementation of a general multibody analysis framework for the real-ti...
Standardized, easy to use, and preferably open-source research software is an important aspect in su...
In this paper, we report on our ongoing research in the area of aeroelastic modeling and control of ...
This work illustrates the feasibility of the implementation of innovative, efficient and low-cost so...
This work illustrates the feasibility of the implementation of innovative, efficient and low-cost so...
This work developed a free/open source simulation software for wind turbines, based on coupling a fr...
This work presents the application of a general purpose multibody analysis software to the real-time...
This work presents the application of a general purpose multibody analysis software to the real-time...
The paper illustrates the real-time simulation capabilities of general-purpose multibody analysis ap...
This paper presents a novel simulation approach to evaluate new ancillary service controls in the co...
This paper is a contribution to the development of a real time wind turbine simulator. The simulator...
In the present contribution, the modeling of the aerodynamics of wind turbines is analyzed from the ...
This work is focused on the implementation of a general multibody analysis framework for the real-ti...
Standardized, easy to use, and preferably open-source research software is an important aspect in su...
In this paper, we report on our ongoing research in the area of aeroelastic modeling and control of ...
This work illustrates the feasibility of the implementation of innovative, efficient and low-cost so...
This work illustrates the feasibility of the implementation of innovative, efficient and low-cost so...
This work developed a free/open source simulation software for wind turbines, based on coupling a fr...
This work presents the application of a general purpose multibody analysis software to the real-time...
This work presents the application of a general purpose multibody analysis software to the real-time...
The paper illustrates the real-time simulation capabilities of general-purpose multibody analysis ap...
This paper presents a novel simulation approach to evaluate new ancillary service controls in the co...
This paper is a contribution to the development of a real time wind turbine simulator. The simulator...
In the present contribution, the modeling of the aerodynamics of wind turbines is analyzed from the ...
This work is focused on the implementation of a general multibody analysis framework for the real-ti...
Standardized, easy to use, and preferably open-source research software is an important aspect in su...
In this paper, we report on our ongoing research in the area of aeroelastic modeling and control of ...