3D CRANE SYSTEM
This is a research and analysis project on studying the 3D Crane System. The 3D Crane System is widelyused for industrial purposes to move cargo, goods and supplies. But one of the problems is when the payload/pendulum is swinging too oscillatory. Thus, it could give the impact on the safety of p...
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| Main Author: | |
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Universiti Teknologi Petronas
2004
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| Online Access: | http://utpedia.utp.edu.my/7896/1/2004%20Bachelor%20-%203D%20Crane%20System.pdf http://utpedia.utp.edu.my/7896/ |
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| Summary: | This is a research and analysis project on studying the 3D Crane System. The 3D Crane
System is widelyused for industrial purposes to move cargo, goods and supplies. But one of
the problems is when the payload/pendulum is swinging too oscillatory. Thus, it could give
the impact on the safety of personnel who controlling the crane and public servant around the
crane area.
The goals of this project are to analyse and study the dynamic behavior of 3D Crane System
and to design and test a control strategy to improve the performance of the crane system.
Through this project, the performance of the crane system is measured in terms of stability of
the crane especially on the pendulum oscillation and accuracy of the crane movement to the
desired position. Inthis project, only one control strategy had been designed, which is tuning
the PID controller parameters. Thus, tuning the PID parameters expected to reduce the
oscillatory of the payload and improving the performance of the crane system. Some tuning
methods analysis had been used in order to obtain the tuning parameters of PID controller
which are Ziegler Nichols Method and Ciancone Correlations Tuning Method. To obtain the
PID tuning parameters, many experiments had been done by varying the gain to obtain the
best response (constant amplitude). From the response, using the tuning method, the tuning
parameters for PID controller is obtained. All the tuning parameters for each axis obtained
were set into respective PID controller and combined it into 3 axis controller. The final
response shows the response from actual cart position from 3 axis and response of angle
payload in x and y axis. Conclude that, the objective of this project is met where the
performance of the response of cart position and angle of payload is better compare before
undergoing the tuning PID controller. The scopes of this project include literature review on
3D crane system and Matlab simulation by varying PID tuning parameters. The purpose of
this simulation is to see the response curve based ontuning parameters obtained andcompare
with the response curve before the PID is tuned. Therefore, the performance of the crane
system can be observed either better or not. |
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