Adaptative high-gain extended Kalman filter and applications
Adaptative high-gain extended Kalman filter and applications
Adaptative high-gain extended Kalman filter and applications
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
tel-00559107, version 1 - 24 Jan 2011<br />
REFERENCES<br />
[62] T. Hagglund. New Estimation Techniques for Adaptive Control. PhD thesis, Lund<br />
Institue of Technology, 1985. 31<br />
[63] H. Hammouri. Nonlinear Observers <strong>and</strong> Applications, volume 363 of LNCIS, chapter<br />
Uniform Observability <strong>and</strong> Observer Synthesis. Springer, 2007. 93<br />
[64] S. Haugwitz, P. Hag<strong>and</strong>er, <strong>and</strong> T. Norén. modeling <strong>and</strong> control of a novel heat exchange<br />
reactor, the open plate reactor. Control Engineering Practices, 15:779–792, 2007. xi,<br />
22<br />
[65] R. Hermann <strong>and</strong> A. J. Krener. Nonlinear controlability <strong>and</strong> observability. IEEE Transactions<br />
on Automatic Control, AC-22:728–740, 1977. 11<br />
[66] M. W. Hirsch. Differential Topology. Springer-Verlag, 1972. 12<br />
[67] R. A. Horn <strong>and</strong> C. R. Johnson. Matrix Analysis. Cambridge University Press, 1985.<br />
108, 132<br />
[68] A. H. Jazwinski. Stochastic Processes <strong>and</strong> Filtering Theory. Dover Publications, INC,<br />
1970. x<br />
[69] L. Jetto <strong>and</strong> S. Longhi. Development <strong>and</strong> experimental validation of an adaptive<br />
<strong>extended</strong> kalman <strong>filter</strong> for the localization of mobile robots. IEEE Transactions on<br />
Robotics <strong>and</strong> Automation, 15(2):219–229, 1999. 32<br />
[70] P. Jouan <strong>and</strong> J-P. Gauthier. Finite singularities of nonlinear systems. output stabilization,<br />
observability <strong>and</strong> observers. Journal of Dynamical <strong>and</strong> Control systems,<br />
2(2):255–288, 1996. 11<br />
[71] S. Julier <strong>and</strong> J. K. Ulhmann. A new extension of the kalman <strong>filter</strong> to nonlinear systems.<br />
In Signal processing, sensor fusion, <strong>and</strong> target recognition VI; Proceedings of the<br />
Conference, Orl<strong>and</strong>o, pages 182–193, 1997. 116<br />
[72] D. J. Jwo <strong>and</strong> F. Chang. Advanced Intelligent Computing Theories <strong>and</strong> Applications.<br />
With Aspects of Theoretical <strong>and</strong> Methodological Issues, chapter A Fuzzy Adaptive Fading<br />
<strong>Kalman</strong> Filter for GPS Navigation, pages 820–831. LNCIS. Springer, 2007. 23<br />
[73] Radhakrishnan K. <strong>and</strong> Hindmarsh A. C. Description <strong>and</strong> use of lsode, the livermore<br />
solver for ordinary differential equations. Technical Report UCRL-ID-113855, LLNL,<br />
1993. 87<br />
[74] T. Kailath. Linear Systems, volume xxi. Prentice-Hall, New Jersey, 1980. 3<br />
[75] R. E. <strong>Kalman</strong>. A new approach to linear <strong>filter</strong>ing. Transactions of the ASME - Journal<br />
of Basic Engineering, 82 (Series D):35–45, 1960. 5<br />
[76] R. E. <strong>Kalman</strong> <strong>and</strong> B. S. Bucy. New results in linear <strong>filter</strong>ing <strong>and</strong> prediction theory.<br />
Journal of Basic Engineering, 83:95–108, 1961. 5<br />
[77] P. C. Krause, O. Wasynczuk, <strong>and</strong> S. D. Sudhoff. Analysis of Electric Machinery <strong>and</strong><br />
Drive Systems, 2nd Edition. Wiley-interscience, 2002. 57<br />
169
Change language