https://ancs.eng.buffalo.edu/index.php?action=history&feed=atom&title=Guidance_Navigation_and_Control 2026-05-19T15:23:49Z Revision history for this page on the wiki MediaWiki 1.39.17 https://ancs.eng.buffalo.edu/index.php?title=Guidance_Navigation_and_Control&diff=607&oldid=prev 2014-07-23T02:20:08Z

<p>Created page with &quot;This course gives the fundamental aspects of guidance, navigation and control of dynamical systems. This course stresses modeling of physical problems into mathematical terms....&quot;</p> <p><b>New page</b></p><div>This course gives the fundamental aspects of guidance, navigation and control of dynamical systems. This course stresses modeling of physical problems into mathematical terms.<br /> <br /> &#039;&#039;&#039;TEXT&#039;&#039;&#039;: “Inertial Navigation Systems with Geodetic Applications,” by C. Jekeli, Walter de Gruyter, Berlin, 2001.<br /> <br /> * Particle Kinematics<br /> ** Vector Description of Particle Motion<br /> ** Angular Velocity of Rotation of Coordinate Systems<br /> ** Differentiating Vectors Seen From Other Frames<br /> ** Direction Cosine Matrix (Euler Angles)<br /> * Orbital Dynamics<br /> ** Newton’s Law<br /> ** Kepler’s Equation<br /> ** Orbit Propagation and External Disturbances<br /> * Geodetics and Reference Frames<br /> ** Geodesy of the Earth<br /> ** Transformations Between Reference Frames<br /> * Global Positioning System (GPS)<br /> ** Constellation Overview<br /> ** Pseudorange Measurements<br /> ** Clock Bias and Other Error Sources<br /> * Position Determination Using GPS<br /> ** Linear and Nonlinear Least Squares<br /> ** Geometric Dilution of Precision (GDOP)<br /> * Inertial Navigation Sensors (INS)<br /> ** Fundamental Equations<br /> ** Combined GPS/INS<br /> * Guidance and Control Concepts<br /> ** Hohmann Transfer<br /> ** Launch to Rendezvous<br /> <br /> &#039;&#039;&#039;Years Taught&#039;&#039;&#039;: Spring &#039;06, Spring &#039;05, Spring &#039;04, Spring &#039;03, Spring &#039;02</div>

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