abstract: Active pixel sensors hold a lot of promise for space applications in star tracking because of their effectiveness against radiation, small size, and on-chip processing. The research focus is on documenting and validating ground test equipment for these types of sensors. Through demonstrating the utility of a commercial sensor, the research will be able to work on ensuring the accuracy of ground tests. This contribution allows for future research on improving active pixel sensor performance
An APS (Active Pixel Sensor) based autonomous star tracker (AAST) has been proposed for small satell...
This chapter describes the main developments in Complementary Metal-Oxide Semiconductor (CMOS) Activ...
The performance of a star tracker is largely based on the availability of its attitude solution. Sev...
This paper gives the status of theoretical and experimental efforts at JPL in the development of env...
This paper presents a performance analysis for star trackers that adopt Active Pixel Sensor photodet...
Star tracker has been developed since 1970s and proved to be the most accurate sensor ever used in t...
ABSTRACT: Autonomous star trackers are optical-electronic devices used for attitude determination of...
Recent trends in space technologies highlight the importance of star trackers. Star trackers are opt...
It is generally known that active pixel sensors (APS) have a number of advantages over CCD detectors...
A lot of studies have already been realized on CMOS image sensor (or APS: Active Pixel Sensors), but...
Current state-of-the-art commercial star sensors typically weigh 15 pounds, attain 5 to 10 arcsecond...
CMOS-sensors, or in general Active Pixel Sensors (APS), are rapidly replacing CCDs in the consumer c...
The subject grants support development of High-Performance Active Pixel Sensors for X-ray Astronomy ...
Abstract: Sensors based on the active-pixel matrix are not common used yet in Russia, thei...
Despite the continuing success of the charge couple device (CCD), the last 2 decades have seen APS d...
An APS (Active Pixel Sensor) based autonomous star tracker (AAST) has been proposed for small satell...
This chapter describes the main developments in Complementary Metal-Oxide Semiconductor (CMOS) Activ...
The performance of a star tracker is largely based on the availability of its attitude solution. Sev...
This paper gives the status of theoretical and experimental efforts at JPL in the development of env...
This paper presents a performance analysis for star trackers that adopt Active Pixel Sensor photodet...
Star tracker has been developed since 1970s and proved to be the most accurate sensor ever used in t...
ABSTRACT: Autonomous star trackers are optical-electronic devices used for attitude determination of...
Recent trends in space technologies highlight the importance of star trackers. Star trackers are opt...
It is generally known that active pixel sensors (APS) have a number of advantages over CCD detectors...
A lot of studies have already been realized on CMOS image sensor (or APS: Active Pixel Sensors), but...
Current state-of-the-art commercial star sensors typically weigh 15 pounds, attain 5 to 10 arcsecond...
CMOS-sensors, or in general Active Pixel Sensors (APS), are rapidly replacing CCDs in the consumer c...
The subject grants support development of High-Performance Active Pixel Sensors for X-ray Astronomy ...
Abstract: Sensors based on the active-pixel matrix are not common used yet in Russia, thei...
Despite the continuing success of the charge couple device (CCD), the last 2 decades have seen APS d...
An APS (Active Pixel Sensor) based autonomous star tracker (AAST) has been proposed for small satell...
This chapter describes the main developments in Complementary Metal-Oxide Semiconductor (CMOS) Activ...
The performance of a star tracker is largely based on the availability of its attitude solution. Sev...