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this book can help you to get a better performance in the gps development

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<p></p><table border="0" cellspacing="0" cellpadding="0" width="100%"><tr><td align="right"><font face="Times New Roman, Times, Serif" size="2" color="#FF0000">Page 22</font></td></tr></table><table border="0" cellspacing="0" cellpadding="0" width="100%"><tr><td rowspan="5"></td>
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  <td align="center"><font face="Times New Roman, Times, Serif" size="3"><img src="655ba41e0499570af30ec62199ac842d.gif" border="0" alt="0022-01.GIF" width="401" height="114" /></font></td>
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  <td align="center"><font face="Times New Roman, Times, Serif" size="2">Figure聽2.1<br />
High-level聽block聽diagram聽of聽an聽INS.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><i>2.1.1<br />
Inertial Frame</i></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">An inertial frame is a reference frame in which Newton's laws of motion apply. An inertial frame is therefore not accelerating, but may be in uniform linear motion. The origin of the inertial coordinate system is arbitrary, and the coordinate axis may point in any three mutually perpendicular directions. All inertial sensors produce measurements relative to an inertial frame, but resolved along the instrument-sensitive axis.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">For discussion purposes it is sometimes convenient to define an inertial frame that at a given initial time is coincident with the earth's center of mass. At the same initial time, the inertial <i>x</i> and <i>z</i> axes point toward the vernal equinox and along the earth's spin axis, respectively. The <i>y</i> axis is defined to complete the right-handed coordinate system. The axes define an orthogonal coordinate system.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><i>2.1.2<br />
Earth-Centered Earth-Fixed (ECEF) Frames</i></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">This frame has its origin fixed to the center of the earth. When the coordinate axis is fixed to the earth, the axes rotate relative to the inertial frame with a frequency of</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="50ff7960b6cebe9bf02d2238e0fdc7d5.gif" border="0" alt="0022-02.GIF" width="447" height="38" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">because of the daily earth rotation and yearly revolution about the sun [41]. The earth's geoid</font><font face="Times New Roman, Times, Serif" size="2"><sup>**</sup></font><font face="Times New Roman, Times, Serif" size="3"> is usually approximated as an ellipsoid of revolution about its minor axis. A consistent set of earth's shape (i.e., ellipsoid) and gravitation model parameters must be used in any given application. Therefore the value for </font><font face="Symbol" size="3"><i>w</i></font><i><font face="Times New Roman, Times, Serif" size="1"><sub>ie</sub></font></i><font face="Times New Roman, Times, Serif" size="1"><sub></sub></font><font face="Times New Roman, Times, Serif" size="3"> in Approx. (2.1) should only be considered as an approximated value. Earth's shape and gravity models are discussed in Secs. 2.2 and 6.6.1. Because of the earth's rotation, the ECEF frame of reference is not an inertial reference frame. Two common coordinate systems for the ECEF frame of reference are discussed in Sec. 2.2.</font><font face="Times New Roman, Times, Serif" size="3" color="#FFFF00"></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="2"><sup>**</sup>The earth's geoid is a hypothetical surface that coincides with the earth's mean sea level.</font></td>
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