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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 128</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">filter and achieves the design specification, then the actual system will also achieve the design specification.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">4.6<br />
Numeric Issues</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">One of the implicit assumptions in the derivation of the Kalman filter algorithm was that the gains and the arithmetic necessary to calculate them would take place by use of infinite-precision real-valued numbers. Computer implementations of the Kalman filter use a finite-accuracy subset of the rational numbers. Although the precision of each computation may be quite high (especially in floating-point applications), the number of calculations involved in the Kalman filter algorithm can allow the cumulative effect of the machine arithmetic to affect the filter performance. This issue becomes increasingly important in applications with either a long duration or a high state dimension. Both factors result in a greater number of calculations.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">If the filter state is observable from the measurements and controllable from the process driving noise, then the effects of finite machine precision are usually minor. Therefore it is common to add a small amount of process driving noise even to states that are theoretically considered to be constants.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">Two common results of finite machine precision are loss of symmetry or loss of positive definiteness of the covariance matrix. These two topics are discussed in the following subsections.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><i>4.6.1<br />
Covariance Matrix Symmetry</i></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">The error covariance matrix P = <i>E&lt;</i></font><font face="Symbol" size="3">d</font><font face="Times New Roman, Times, Serif" size="3">x </font><font face="Symbol" size="3">d</font><font face="Times New Roman, Times, Serif" size="3">x</font><font face="Times New Roman, Times, Serif" size="2"><sup><i>T</i></sup></font><font face="Times New Roman, Times, Serif" size="3">&gt; is by its definition symmetric. However, numeric errors can result in the numeric representation of <img src="00f6b0972b2200a6e2c5d79c16a759b4.gif" border="0" alt="PCIRC.GIF" width="12" height="16" /> becoming nonsymmetric. Four techniques are common for maintaining the symmetry of <img src="00f6b0972b2200a6e2c5d79c16a759b4.gif" border="0" alt="PCIRC.GIF" width="12" height="16" />:</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">1. Use a form of the Kalman filter measurement update, such as the <i>Joseph form</i>, that is symmetric.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">2. Resymmetrize the covariance matrices at regular intervals with the equation</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><img src="eeb9400de3926adbdd7df96e226b7066.gif" border="0" alt="0128-01.GIF" width="94" height="31" /></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">3. Calculate only the main diagonal and upper (or lower) triangular portion of P. This approach also substantially decreases the memory and computational requirements.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">4. Use a UD-factorized or square-root implementation of the Kalman filter, as discussed in the following subsection.</font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3"><i>4.6.2<br />
Covariance Matrix Positive Definiteness</i></font></td>
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  <td><font face="Times New Roman, Times, Serif" size="3">The error covariance matrix P = <i>E</i>&lt;</font><font face="Symbol" size="3">d</font><font face="Times New Roman, Times, Serif" size="3">x </font><font face="Symbol" size="3">d</font><font face="Times New Roman, Times, Serif" size="3">x</font><font face="Times New Roman, Times, Serif" size="2"><sup><i>T</i></sup></font><font face="Times New Roman, Times, Serif" size="3">&gt; is, by its definition, positive semidefinite. Computed values of P can lose the positive semidefinite property. When</font><font face="Times New Roman, Times, Serif" size="3" color="#FFFF00"></font></td>
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