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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 281</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="9e178972a0858032366bb8d1082a7a66.gif" border="0" alt="0281-01.GIF" width="134" height="111" /></font></td>
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  <td align="center"><font face="Times New Roman, Times, Serif" size="2">Figure聽7.25<br />
Body-frame-mounted<br />
GPS聽antennas.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">in isolation or as an alternative to an inertial solution to the attitude determination problem. Each approach has its relative advantages, and there is no reason that the relative benefits of each approach cannot be obtained through a hybrid approach. A variety of GPS-only attitude determination methods exist in the literature [9, 31, 32, 106, 148]; they cannot all be presented in this forum. Thus in the first portion of this section a selected GPS-only solution to the attitude determination problem is presented. In the second section issues and methods related to the use of GPS for aiding an INS in attitude determination are discussed. In Sec. 7.6.3 the relative merits of the GPS-only and the GPS INS solutions are discussed.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">The INS portion of the analysis simulates a very benign (nonaccelerating) operating environment. The approach is valid in the presence of vehicle maneuvers. Vehicle maneuvers would result in improved error-estimation performance with or without the extra antennas required for attitude determination techniques.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><i>7.6.1<br />
GPS-Based Attitude Determination</i></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">Assume that three noncollinear antennas are mounted on the vehicle frame, as depicted in Fig. 7.25. The antenna positions define three vectors, two of which form an independent set. Consider the baseline vectors</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="d79039fc9275cd7d073c1137b9deef73.gif" border="0" alt="0281-02.GIF" width="284" height="17" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="4ebbfaa4b7f681c67b2425344bba3ef9.gif" border="0" alt="0281-03.GIF" width="284" height="15" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">Assume also that the baseline vectors <img src="184e6737cf3376b48d578168f903a625.gif" border="0" alt="C0281-01.GIF" width="65" height="20" /> are known and fixed in body frame. Accurate knowledge of the body-frame baseline vectors can be obtained by a variety of methods including <i>a priori</i> static carrier-phase GPS processing or accurate mechanical design. The assumption that the baseline vectors are fixed in body frame may be more problematic because of vibration and flex.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">For a vehicle undergoing maneuvers, a GPS receiver</font><font face="Times New Roman, Times, Serif" size="2"><sup>**</sup></font><font face="Times New Roman, Times, Serif" size="3"> in phase lock with resolved carrier-phase integer ambiguities is able to compute the baseline vectors in earth or tangent plane frames. Based on the technique described in</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>In practice, multiple receivers may be used with a computer processing the data from the various receivers.</font></td>
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