Difference between revisions of "Dp 339 en"

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[[Diplomové práce 2009]]
 
[[Diplomové práce 2009]]
  
The Center for Applied Cybernetics, Faculty of Electrical Engineering, Czech Techni-
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[[Image:339_dp.gif]]
cal University in Prague, solves the project of the stabilized camera platform in contract
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The Center for Applied Cybernetics, Faculty of Electrical Engineering, Czech Technical University in Prague, solves the project of the stabilized camera platform in contract
 
for Czech Airforce Technological Institute as a part of the project of Czech unmanned
 
for Czech Airforce Technological Institute as a part of the project of Czech unmanned
 
aerial vehicle Manta. In order to solve the problem of tracking an inertially moving object,
 
aerial vehicle Manta. In order to solve the problem of tracking an inertially moving object,
 
the translational velocity of the platform carrier has to be known. For this purpose, the
 
the translational velocity of the platform carrier has to be known. For this purpose, the
inertial navigation unit is being developed. It contains three-axis gyroscopes, accelerom-
+
inertial navigation unit is being developed. It contains three-axis gyroscopes, accelerometers and magnetometers as well as a GPS module. This thesis solves the problem of
eters and magnetometers as well as a GPS module. This thesis solves the problem of
 
 
velocity estimation using the data of the given sensors. To do this the inertial navigation
 
velocity estimation using the data of the given sensors. To do this the inertial navigation
 
unit simulator is first developed to provide the expected output sensor data as well as
 
unit simulator is first developed to provide the expected output sensor data as well as
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is then included in the calculated state. At the end of the paper, the C-code for the used
 
is then included in the calculated state. At the end of the paper, the C-code for the used
 
MCU LPC2119 is made and some hardware problems are being discussed.
 
MCU LPC2119 is made and some hardware problems are being discussed.
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* '''Fejfar Ota''', tel: +420 608 224 968, mailto:fejfao1@fel.cvut.cz
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* '''Hurák Zdeněk''', mailto:z.hurak@c-a-k.cz, web: http://ar.c-a-k.cz/hurak/

Revision as of 14:24, 5 May 2010

Estimation and control for inertially stabilized airborne camera platform

Author: Fejfar Ota

Diplomové práce 2009

339 dp.gif

The Center for Applied Cybernetics, Faculty of Electrical Engineering, Czech Technical University in Prague, solves the project of the stabilized camera platform in contract for Czech Airforce Technological Institute as a part of the project of Czech unmanned aerial vehicle Manta. In order to solve the problem of tracking an inertially moving object, the translational velocity of the platform carrier has to be known. For this purpose, the inertial navigation unit is being developed. It contains three-axis gyroscopes, accelerometers and magnetometers as well as a GPS module. This thesis solves the problem of velocity estimation using the data of the given sensors. To do this the inertial navigation unit simulator is first developed to provide the expected output sensor data as well as the data of all known true state signals. They are used for an extended Kalman filter design that estimates the actual state of the system. The estimated translational velocity is then included in the calculated state. At the end of the paper, the C-code for the used MCU LPC2119 is made and some hardware problems are being discussed.