The Attitude Determination and Control System (ADCS) is a satellite subsystem that ensures that the satellite consistently remains oriented in the correct position. For this, attitude determination sensors are placed on board. With the rise of small satellite missions and the need for more pointing accuracy, there is a need to explore more compact, cost-effective attitude determination sensors to improve upon existing sensors while providing more accurate attitude change results. This project focuses on verifying the working principle of a Stellar Gyroscope – an advanced star tracker sensor that can provide precise attitude change results at high operational slew rates. An in-depth analysis of existing attitude determination sensors, thei...
With the advancement of technology, we become more dependent on satellites for functions such as com...
Draper’s Inertial Stellar Compass (ISC) is a real-time, miniature, low power stellar inertial attitu...
The paper describes the design and development of an autonomous, low-cost, lowpower, low-mass attitu...
A stellar gyroscope is a star based attitude propagator that is capable of propagating a spacecraft’...
A stellar gyroscope is a star tracker that can operate at high slew rates and high update rates. Ste...
A star tracker is an optical sensor that measures the relative position of stars using photocells or...
The attitude determination and control system determines and controls the orientation of the spacecr...
A Stellar Gyroscope is a star based attitude propagator that is capable of propagating a spacecraft’...
Studies aimed at the development of indigenous low cost star tracker and gyroless attitude and angul...
This thesis provides an engineering framework for designing an advanced Attitude Determination and C...
Attitude determination systems using stellar images and star catalogs are used to obtain accurate po...
The project started with the formulation of the requirements for the mission and deriving the system...
The Inertial Stellar Compass (ISC) is a real-time, miniature, low power stellar inertial attitude de...
Typescript (photocopy).Autonomous star sensing and pattern recognition for attitude determination pr...
There are a number of universities which are developing pico and nano satellite for research and st...
With the advancement of technology, we become more dependent on satellites for functions such as com...
Draper’s Inertial Stellar Compass (ISC) is a real-time, miniature, low power stellar inertial attitu...
The paper describes the design and development of an autonomous, low-cost, lowpower, low-mass attitu...
A stellar gyroscope is a star based attitude propagator that is capable of propagating a spacecraft’...
A stellar gyroscope is a star tracker that can operate at high slew rates and high update rates. Ste...
A star tracker is an optical sensor that measures the relative position of stars using photocells or...
The attitude determination and control system determines and controls the orientation of the spacecr...
A Stellar Gyroscope is a star based attitude propagator that is capable of propagating a spacecraft’...
Studies aimed at the development of indigenous low cost star tracker and gyroless attitude and angul...
This thesis provides an engineering framework for designing an advanced Attitude Determination and C...
Attitude determination systems using stellar images and star catalogs are used to obtain accurate po...
The project started with the formulation of the requirements for the mission and deriving the system...
The Inertial Stellar Compass (ISC) is a real-time, miniature, low power stellar inertial attitude de...
Typescript (photocopy).Autonomous star sensing and pattern recognition for attitude determination pr...
There are a number of universities which are developing pico and nano satellite for research and st...
With the advancement of technology, we become more dependent on satellites for functions such as com...
Draper’s Inertial Stellar Compass (ISC) is a real-time, miniature, low power stellar inertial attitu...
The paper describes the design and development of an autonomous, low-cost, lowpower, low-mass attitu...