Add to ORKGThe implication of the dependence on active controls technology during the design phase of transport structures is considered. Critical loading conditions are discussed along with probable ways of alleviating these loads. Why fatigue requirements may be critical and can only be partially alleviated is explained. The significance of certain flutter suppression system criteria is examined
The evolution of air transport towards a sustainable and greener future is a major driver for techno...
Improving the performance of large transport aircraft requires high aspect ratio and lightweight win...
This work elaborates an aircraft pre-design process that integrates loads analysis, load alleviation...
A general discussion of the airplane applications of active flutter suppression systems is presented...
The performance and economic benefits of a constrained application of Active Controls Technology (AC...
A survey on the structurally relevant applications of Active Control Technology is presented. The b...
Active controls improve airplane performance by stabilizing its flight, reducing departures from sta...
The feasibility was studied of modifying a JetStar airplane into a demonstrator of benefits to be ac...
The effects of active controls on flutter suppression and gust alleviation of the Arava twin turbopr...
The state of the art in active control technology is summarized. How current design criteria and air...
This paper presents the design of an innovative wingtip device actively actuated to control the aero...
Analytical methods are described for the prediction of aerothermoelastic stability of hypersonic air...
A survey on the structural relevant applications of Active Control Technology is presented. The ben...
In recent years, load alleviation technologies have been more widely used in transport aircraft. For...
This paper presents the design of an innovative wingtip device actively actuated to control the aero...
The evolution of air transport towards a sustainable and greener future is a major driver for techno...
Improving the performance of large transport aircraft requires high aspect ratio and lightweight win...
This work elaborates an aircraft pre-design process that integrates loads analysis, load alleviation...
A general discussion of the airplane applications of active flutter suppression systems is presented...
The performance and economic benefits of a constrained application of Active Controls Technology (AC...
A survey on the structurally relevant applications of Active Control Technology is presented. The b...
Active controls improve airplane performance by stabilizing its flight, reducing departures from sta...
The feasibility was studied of modifying a JetStar airplane into a demonstrator of benefits to be ac...
The effects of active controls on flutter suppression and gust alleviation of the Arava twin turbopr...
The state of the art in active control technology is summarized. How current design criteria and air...
This paper presents the design of an innovative wingtip device actively actuated to control the aero...
Analytical methods are described for the prediction of aerothermoelastic stability of hypersonic air...
A survey on the structural relevant applications of Active Control Technology is presented. The ben...
In recent years, load alleviation technologies have been more widely used in transport aircraft. For...
This paper presents the design of an innovative wingtip device actively actuated to control the aero...
The evolution of air transport towards a sustainable and greener future is a major driver for techno...
Improving the performance of large transport aircraft requires high aspect ratio and lightweight win...
This work elaborates an aircraft pre-design process that integrates loads analysis, load alleviation...