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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 83</font></td></tr></table><table border="0" cellspacing="0" cellpadding="0"><tr><td rowspan="5"><img src="f7703d30723feae8ee39d997c6419c20.gif" border="0" width="24" height="1" alt="f7703d30723feae8ee39d997c6419c20.gif" /></td>
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  <td><font face="Times New Roman, Times, Serif" size="2">Appending a state-space realization of the linear gyro bias error model to the INS error model yields</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="050d7c23d2fccfcd214e0778644bda6c.gif" border="0" alt="0083-01.GIF" width="372" height="79" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="2">When the driving noise is white and Gaussian, the process specified in Eq. (3.129) is referred to as a scalar Gauss-Markov process. Higher-order vector Gauss-Markov processes result when the correlation function is more complex.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">Note that the noise process and the linear system must be specified jointly, since there are more degrees of freedom than design constraints. Also, the selection of G(<i>s</i>) from the two factors of Eq. (3.128) is not arbitrary. G(<i>s</i>) is selected so that the poles and the zeros of the spectral density lie in the strict left half of the <i>s</i> plane. This results in a causal, stable linear system model. Such a choice is always possible when the spectral density is the ratio of polynomials containing only even powers of <i>s</i>. The interested reader is referred to the subject of <i>spectral factorization</i> [23, 121].</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">3.4.2.4<br />
Compound Augmented States</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">The examples of the previous sections each contained a single type of error model. In more realistic situations, several forms of error may be present. This section presents an example involving compound error models augmented to simplified INS error equations. Full INS error equations and instrument error models are derived and discussed in Chap. 6.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="2">Example The ideal dynamics of a one-dimensional INS implemented in inertial space are</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="ac6957326376700284de5c81de6bd0e8.gif" border="0" alt="0083-02.GIF" width="253" height="17" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="2">A noisy measurement of the position is described as</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="2">where </font><font face="Symbol" size="2"><i>m</i></font><font face="Times New Roman, Times, Serif" size="2"> represents white noise and </font><font face="Symbol" size="2"><i>z</i></font><i><font face="Times New Roman, Times, Serif" size="2">(t)</font></i><font face="Times New Roman, Times, Serif" size="2"> is a scalar Gauss-Markov process with correlation time 1/</font><font face="Symbol" size="2"><i>b</i></font><font face="Times New Roman, Times, Serif" size="2"> and driving-noise spectral density <img src="8970cf9cefce68d97a7c13cd2d401614.gif" border="0" alt="C0083-01.GIF" width="24" height="27" />. The implemented INS is described as</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="2">where</font><font face="Times New Roman, Times, Serif" size="2" color="#FFFF00"></font></td>
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