Celestial Navigation, Inertial Navigation & Star Trackers

Astronavigation

Introduction to inertial navigation

Ball Aerospace Star Trackers

Optimal Attitude and Position Determination from Line-of-Sight Measurements

Attitude Determination and Autonomous On-Orbit Calibration of Star Tracker For GIFTS Mission

Inertial Navigation: 40 Years of Evolution

Least Squares - Minimizing The Impact Of Measurement Error

"Theoria Motus Corporum Coelestium In Sectionibus Conicis Solem Ambientum" Or "Theory Of Motion Of the Celestial Bodies Moving In Conic Sections Around The Sun" - Carl Friedrich Gauss

The Harmony of the World - a realization for the Ear of Johannes Kepler's Astronomical Data from Harmonices Mundi 1619