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Twin Rotor MIMO System

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Title: PowerPoint Presentation Last modified by: reem Created Date: 1/1/1601 12:00:00 AM Document presentation format: On-screen Show Other titles – PowerPoint PPT presentation

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Tags: mimo | block | elements | rotor | system | twin

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Title: Twin Rotor MIMO System


1
Twin Rotor MIMO System
2
Objectives
  • 1. Identification the TRMS
  • 2. Design PID control system to improve the
    system responses

3
TRMS
  • The Mechanical Unit of the Twin Rotor MIMO System
    besides the base and the tower consists of the
    following elements
  • 1. Main rotor enables vertical thrust control
    thus vertical position control.
  • 2. Tail rotor enables horizontal thrust thus
    position horizontal position control.
  • 3. Counter balance counter weight for the main
    rotor

4
TRMS
  • PC with a clocked control algorithm
  • A/D and D/A converters serving as an interface
    between the PC and external environment
  • The controlled process
  • Sensors

5
Identification
6
Identification Procedure
7
Identification Procedure
8
Identification Procedure
  • gtgt ident

9
Identification Procedure
10
Identification Procedure
11
Identification Procedure
  •  To obtain z transfer function H(z)
  • gtgt sysd-pitchtf(oe241, 0.1)
  •   To convert H(z) to H(s)
  • gtgt syspitchcd2c(sysd-pitch)

12
Planet Control
  • There are numerous control algorithms. The PID
    control algorithm is popular because of its
    simplicity.

13
PID Controller
  • PID controller consists of 3 blocks
    Proportional, Integral and Derivative

14
Proportional
  • Proportional block is mostly responsible for the
    speed of the system reaction.
  • In some plants the oscillations may occur if the
    value of P is set to be too large.

15
Integral
  • The Integral part is very important and assures 0
    error value in steady state, which means that the
    output will be exactly what we want it to be.
  • Nevertheless the Integral action of the
    controller causes the system to respond slower to
    the desired value changes and for systems where
    very fast reaction is very important the integral
    action may have to be omitted.
  • Certain nonlinearities will also cause problems
    for the integration action. 

16
Derivative
  • The Derivative part has been introduced to make
    the response faster.
  • However it is very sensitive to noise amplitude
    increase and may cause the system to react very
    nervously.

17
PID controller Procedure
18
Processing data
  • pitch_pidtf(? ? ?,1 0)
  •  Type rltool at the Matlab command line.
  •  gtgt rltool
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