Sang-Ryool Lee scite author profile

In order to accelerate the evolution of faster, better, cheaper spacecraft, it is evident that greatly enhanced general-purpose attitude determination methods are needed Currently, star tracker sensors based on charge coupled devices (CCD) or active pixel sensors(APS) enable one to obtain the best spacecraft attitude estimation among the existing sensors for attitude determination. In this paper, basic principles of star tracker technology are explained including major issues arising in design and development of star tracker. Also, an historical overview and worldwide survey associated with various star trackers from star scanner through microelectromechanical system(MEMS)-based star tracker is offered.

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Adaptive backstepping radial basis function neural network controller design for a Mars lander during the powered descent phase

Kang

Bang

Lee

2017

Proceedings of the Institution of Mechanical Engineers, Part G:

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When a Mars lander is guided to follow a predetermined reference trajectory during the powered descent phase, large tracking errors occur due to strong perturbations caused by enormous external disturbances, such as the Martian atmosphere and wind and dust storms, as well as considerable uncertainties. The tracking performance is determined directly by the accuracy of the system model, especially with regard to nonlinear terms. In this paper, an adaptive backstepping radial basis function neural network controller is developed for a Mars lander to achieve precise tracking to a reference trajectory during the powered descent phase. The main part of the controller is designed with backstepping, and a radial basis function neural network with an online adaptive law for the weight vector is used as an auxiliary part to approximate unknown nonlinear functions, including the gravitational force, Coriolis force, centrifugal force, atmospheric drag force, atmospheric lift force, wind force, and unknown uncertainties. The proposed adaptive backstepping radial basis function neural network controller guarantees that tracking errors and radial basis sunction neural network weight estimation errors eventually converge to the uniformly ultimately bounded values according to the Lyapunov stability theory. Additionally, this study presents an online adaptive law for the weight vector. The simulation results show that the adaptive backstepping radial basis function neural network controller has an excellent tracking performance in the severe environmental conditions of Mars with strong external disturbances and large variations in uncertainties. Furthermore, this study reveals that the radial basis function neural network has an outstanding capability to approximate unknown nonlinear functions.

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Very Small Satellite Program for Expending the Space Technology Base: CanSat Competition

Won¹,

Jun²,

Kim³

et al. 2012

Journal of the Korean Society for Aeronautical & Space Scie

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This paper presented the CanSat competition as one of very small satellite programs for expending the space technology base. The CanSat was compared and characterized with a real satellite and the foreign CanSat competition cases and domestic CanSat development trends were summarized. On the basis of the above information, the organizational structure and function were suggested for domestic CanSat competition and the required technologies, such as satellite, launcher and ground station were described. And also, the prior plan for competition, including mission, education and schedule were suggested.

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Sensor Alignment Calibration for PrecisionAttitude Determination of Spacecrafts

Lee¹,

Ryoo²,

Bang³

et al. 2004

International Journal of Aeronautical and Space Sciences

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Sang-Ryool Lee

Overview of KOMPSAT-5 program, mission, and system

Overview of Star Tracker Technology and Its Development Trends

Adaptive backstepping radial basis function neural network controller design for a Mars lander during the powered descent phase

Very Small Satellite Program for Expending the Space Technology Base: CanSat Competition

Sensor Alignment Calibration for PrecisionAttitude Determination of Spacecrafts

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