Jane-Wit Kampoon scite author profile

This paper presents a method of input prediction for an aircraft flying in spatially and/or temporally varying wind field. Input prediction is done using inverse simulation to compute the required control variables (control surface deflections and thrust level) for an aircraft to fly through a prescribed trajectory. Various simulation cases are presented to demonstrate the feasibility of input prediction method and the importance of including wind field information in inverse simulations.

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Aerodynamics, Stability and Control Analysis of Tactical Solar Power UAV

Kampoon

Jiajan

Klongtrujrok

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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This paper addresses the fundamental aerodynamics, stability, and control analysis of a solar power Unmanned Aerial Vehicle (UAV) as a part of the preliminary design stage. The tactical solar-powered UAV addressed in this paper is primarily developed for intelligence, surveillance, and reconnaissance (ISR) missions at low altitude. Moreover, such design also has a dual-use capability, which could be utilized in both military and civilian domains. The aerodynamic characteristics of the UAV are obtained from both computational fluid dynamics analysis technique and the wind-tunnel testing at the design operating Reynolds number ranging from 1x105 – 4.5x105. The fundamental aerodynamics coefficient consists of lift, drag, and pitching moment variations versus the angle of attack. The stability and control analysis was carried out based on the small disturbance theory in correlation with the XFLR5 software. The results show that the tactical solar power UAV design could achieve high aerodynamic efficiency at a 4-degree angle of attack which is corresponding to the lift-to-drag ratio of 20.05. Also, the analysis results confirm that the design possesses positive static and dynamic stability at the design cruise flight condition.

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Jane-Wit Kampoon

Guidance of Receiver Aircraft to Rendezvous with Tanker in the Presence of Wind

Conceptual Design of Tactical Solar Power UAV

Aircraft Input Prediction in the Presence of Spatially Varying Wind Field

Aerodynamics, Stability and Control Analysis of Tactical Solar Power UAV

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