During the first part of this reporting period research has concentrated on performing a detailed evaluation, to zero order, of the guidance algorithm developed in the first period taking the numerical approach developed in the third period. A zero order matched asymptotic expansion (MAE) solution that closely satisfies a set of 6 implicit equations in 6 unknowns to an accuracy of 10(exp -10), was evaluated. Guidance law implementation entails treating the current state as a new initial state and repetitively solving the MAE problem to obtain the feedback controls. A zero order guided solution was evaluated and compared with optimal solution that was obtained by numerical methods. Numerical experience shows that the zero order guided soluti...
The aerocapture is a promising technique for the future human interplanetary missions. The Mars Samp...
A comparison is made of open and closed loop applications of a second order guidance algorithm, usin...
Future missions to Mars may require pin-point landing precision, possibly on the order of tens of me...
The proposed investigation on a Matched Asymptotic Expansion (MAE) method was carried out. It was co...
This report addresses and clarifies a number of issues related to the Matched Asymptotic Expansion (...
An advanced guidance algorithm, Fully Numerical Predictor-corrector Aerocapture Guidance (FNPAG), ha...
A real-time guidance scheme for the problem of maximizing the payload into orbit subject to the equa...
The problem considered is that of a three-dimensional, minimum time, heliocentric, Earth-Mars transf...
Effort was directed toward the problems of the real time trajectory optimization and guidance law de...
Direct force control, where the angle of attack and sideslip angle are modulated, has been proposed ...
Aero-assisted orbit transfer vehicles have the potential for significantly reducing the fuel require...
General problems associated with on-board trajectory optimization, propulsion system cycle selection...
This work focuses on the analysis and application of various nonlinear, autonomous guidance algorith...
This paper proposes a guidance scheme to achieve an autonomous precision landing on Mars and propose...
A practical real time guidance algorithm has been developed for aerobraking vehicles that minimizes ...
The aerocapture is a promising technique for the future human interplanetary missions. The Mars Samp...
A comparison is made of open and closed loop applications of a second order guidance algorithm, usin...
Future missions to Mars may require pin-point landing precision, possibly on the order of tens of me...
The proposed investigation on a Matched Asymptotic Expansion (MAE) method was carried out. It was co...
This report addresses and clarifies a number of issues related to the Matched Asymptotic Expansion (...
An advanced guidance algorithm, Fully Numerical Predictor-corrector Aerocapture Guidance (FNPAG), ha...
A real-time guidance scheme for the problem of maximizing the payload into orbit subject to the equa...
The problem considered is that of a three-dimensional, minimum time, heliocentric, Earth-Mars transf...
Effort was directed toward the problems of the real time trajectory optimization and guidance law de...
Direct force control, where the angle of attack and sideslip angle are modulated, has been proposed ...
Aero-assisted orbit transfer vehicles have the potential for significantly reducing the fuel require...
General problems associated with on-board trajectory optimization, propulsion system cycle selection...
This work focuses on the analysis and application of various nonlinear, autonomous guidance algorith...
This paper proposes a guidance scheme to achieve an autonomous precision landing on Mars and propose...
A practical real time guidance algorithm has been developed for aerobraking vehicles that minimizes ...
The aerocapture is a promising technique for the future human interplanetary missions. The Mars Samp...
A comparison is made of open and closed loop applications of a second order guidance algorithm, usin...
Future missions to Mars may require pin-point landing precision, possibly on the order of tens of me...