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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 231</font></td></tr></table><table border="0" cellspacing="0" cellpadding="0"><tr><td rowspan="5"></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">Similarly, the gyro outputs can be processed to achieve azimuth alignment. The residual gyro measurement is described by</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="00ac28f23acb3c3d043f086d491c1a30.gif" border="0" alt="0231-01.GIF" width="396" height="15" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="154c3141caa71bb8f80088fb59aaf39a.gif" border="0" alt="0231-02.GIF" width="376" height="56" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="623ee42a9b22b3b625e6c1b059b5bba5.gif" border="0" alt="0231-03.GIF" width="377" height="64" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">Again, based on Eq. (6.166), two approaches are possible. Consider a Kalman-filter-based approach, with state error dynamics as previously defined and the measurement matrix</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="5dcebb870e337ba041b1ab50b07ed6c7.gif" border="0" alt="0231-04.GIF" width="333" height="20" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">where</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="20443d75b2b029dd8d01d9dcc05a6f16.gif" border="0" alt="0231-05.GIF" width="163" height="54" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">The Kalman filter approach has advantages in that both the accelerometer-based leveling and gyro-based azimuth alignment can occur simultaneously and in that the approach correctly accounts for all measurement errors. In the alternative approach, after leveling has occurred, the second component of </font><font face="Symbol" size="3">d<i>w</i></font><font face="Times New Roman, Times, Serif" size="3"> can be passed through a low-pass filter to generate an estimate of </font><font face="Symbol" size="3">e</font><font face="Times New Roman, Times, Serif" size="1"><sub><i>D</i></sub></font><font face="Times New Roman, Times, Serif" size="3">. The utility of gyro-based azimuth alignment is limited to situations in which the gyros are accurate enough to measure earth rate and the disturbances are small enough that earth rate is discernible.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">The main advantage of the low-pass filter approach is its simplicity and low number of computations. Although some benefits of the Kalman filter approach have already been stated, additional benefits include</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"> The initialization process uses essentially the same code (Kalman filter algorithms) as any on-line aiding processes (only the H and R matrices change). Ultimately, this can reduce the amount of code and debugging time.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"> The initialization process results in the correct error covariance matrix required for on-line aiding. If the low-pass filter approach is used, the designer must determine a reasonable initial value for this matrix.</font><font face="Times New Roman, Times, Serif" size="3" color="#FFFF00"></font></td>
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