Attitude information is acquired by detecting Earth’s infrared electromagnetic radiation and, subsequently, determining the region obscured by Earth in the sensors’ fields of view to compute a nadir vector estimation in the satellite’s body frame. Due to the limited computational resources and source code modification ability of most small satellites on orbit, a compact and robust EHS solution is required to efficiently achieve high-accuracy attitude knowledge. This paper presents the analytic form and simulated model of an attitude estimation method to compute a nadir vector using inputs from infrared EHS with Gaussian response characteristics. The proposed method can be applied when two sensors, each with known and distinct pointing direc...
The growing interest in the development of small satellites and the demand for high resolution imagi...
The mass and cost requirements of high-accuracy satellite pointing systems often inhibit the potenti...
AbstractIn order to determine an appropriate attitude of three-axis stabilized communication satelli...
Infrared Earth horizon sensors are capable of providing attitude knowledge for satellites in low Ear...
The preliminary design and validation of a novel, high accuracy horizon-sensor for small satellites ...
Infrared Earth sensors are used in spacecraft for attitude sensing. Their accuracy is limited by sy...
Attitude determination represents a fundamental task for most of the spacecrafts. It relies on three...
Infrared Earth sensors with large-field-of-view (FOV) cameras are widely used in low-Earth-orbit sat...
Current attitude determination systems on-board Earth orbiting, Nadir pointing spacecraft rely on Ea...
Through using measurement from only a single horizon sensor, this paper presented a quaternion-based...
This paper is the second part of a series of studies discussing a novel attitude determination metho...
In order to determine an appropriate attitude of three-axis stabilized communication satellites, thi...
An attitude-sensing device for space vehicles which detects the thermal radiation discontinuity at o...
International audienceThis paper is focused on the development and verification of a heat attitude m...
The paper describes how the attitude of a sounding rocket, launch vehicle or satellite with respect ...
The growing interest in the development of small satellites and the demand for high resolution imagi...
The mass and cost requirements of high-accuracy satellite pointing systems often inhibit the potenti...
AbstractIn order to determine an appropriate attitude of three-axis stabilized communication satelli...
Infrared Earth horizon sensors are capable of providing attitude knowledge for satellites in low Ear...
The preliminary design and validation of a novel, high accuracy horizon-sensor for small satellites ...
Infrared Earth sensors are used in spacecraft for attitude sensing. Their accuracy is limited by sy...
Attitude determination represents a fundamental task for most of the spacecrafts. It relies on three...
Infrared Earth sensors with large-field-of-view (FOV) cameras are widely used in low-Earth-orbit sat...
Current attitude determination systems on-board Earth orbiting, Nadir pointing spacecraft rely on Ea...
Through using measurement from only a single horizon sensor, this paper presented a quaternion-based...
This paper is the second part of a series of studies discussing a novel attitude determination metho...
In order to determine an appropriate attitude of three-axis stabilized communication satellites, thi...
An attitude-sensing device for space vehicles which detects the thermal radiation discontinuity at o...
International audienceThis paper is focused on the development and verification of a heat attitude m...
The paper describes how the attitude of a sounding rocket, launch vehicle or satellite with respect ...
The growing interest in the development of small satellites and the demand for high resolution imagi...
The mass and cost requirements of high-accuracy satellite pointing systems often inhibit the potenti...
AbstractIn order to determine an appropriate attitude of three-axis stabilized communication satelli...