Feedback Control for a Path Following Robotic Car Part 12 pdf

Feedback.Control.for.a.Path.Following.Robotic.Car Part 12 pdf

Feedback.Control.for.a.Path.Following.Robotic.Car Part 12 pdf

... velocity ****************************************************************************/ float LateralController(float X2, float X3, float X4, float U1) { static float U2; // steering angular velocity and a very good rock band static float k1,k2,k3; // gains #define lambda 20 k1 ... Until serial data has been received goto MainLp ; Loop here Stop bcf Flag,1 btfss Flag,0 ; if char1 was a Car...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 6 pdf

Feedback.Control.for.a.Path.Following.Robotic.Car Part 6 pdf

... same as p. Because the rear sensor array is placed directly below the rear axle, the error obtained from that sensor is taken to be d, the car s lateral displacement from the path. 5.2.3 Heading ... Heading Angle Calculation The controller must know the heading angle, θ p , the angle between the car and the path. The value can be calculated using the displacement errors at the front an...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 1 pptx

Feedback.Control.for.a.Path.Following.Robotic.Car Part 1 pptx

... intelligent transportation system, lateral control, nonholonomic, path following, curvature estimation Copyright 2002, Patricia Mellodge Feedback Control for a Path Following Robotic Car Patricia Mellodge (ABSTRACT) This ... FLASH Images 114 vii Feedback Control for a Path Following Robotic Car Patricia Mellodge Thesis submitted to the Faculty of the Virgi...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 2 ppsx

Feedback.Control.for.a.Path.Following.Robotic.Car Part 2 ppsx

... roadway and several 1/10 scale cars. Each car is capable of operating manually or autonomously. The cars are described in detail in Chapter 6. 2.1.2 Eduational Exhibit Currently, an educational exhibit ... exiting a highway; obstacle detection to locate other cars, pedestrians, animals, etc.; adaptive cruise control to maintain a safe speed; collision avoidance to avoid hitting obstac...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 3 docx

Feedback.Control.for.a.Path.Following.Robotic.Car Part 3 docx

... moving the car forwards and backwards and turning the wheels, the car can be placed in the parking space. Ignoring the restrictions caused by external objects, the car can be located at any position ... the variables in (3.10) are known or can be measured, the equation can be solved for c(s). Patricia Mellodge Chapter 3. Mathematical Modeling and Control Algorithm 15 3.2 Control L...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 4 docx

Feedback.Control.for.a.Path.Following.Robotic.Car Part 4 docx

... car corrected itself on the path. Another approach was tried with the dynamic curve estimate. After applying the update equation, (4.10), a was thresholded. If it was greater than 0.5, it was ... calculated curvature was greater than this threshold, c(s) was set to 1. The car was initially placed so that it was starting on the straight section of the path and oriented so that d and θ...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 5 ppt

Feedback.Control.for.a.Path.Following.Robotic.Car Part 5 ppt

... shown using the MATLAB animation toolbox. A flowchart of the program is shown in Fig. 5.1. First, the initialization involves creating the car and path for animation and placing the car on the path. Next, ... Errors are also introduced because this method assumes the roadway is a plane perpendicular to the car s vertical axis. The actual track however, is not flat but contains hil...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 7 pptx

Feedback.Control.for.a.Path.Following.Robotic.Car Part 7 pptx

... infrared and magnetic sensors indicate where the path is located directly beneath the car. The camera provides path information about the area in front of the car. The IR, magnetic, and camera ... of the car are given in Table 6.1. The components in Table 6.1 are used ”as is” except for the electric motor. Because the motor is manufactured for RC car racing, it is capable of tra...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 8 docx

Feedback.Control.for.a.Path.Following.Robotic.Car Part 8 docx

... straight down at the roadway to determine where the desired path is underneath the car. Patricia Mellodge Chapter 6. Hardware Implementation 63 on the DSP and allows for data to be transmitted and ... a variable for use later. Access to the hardware is done using assembly language functions directly. The assembly language functions are called from C and the bus data gets put into a...

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Feedback.Control.for.a.Path.Following.Robotic.Car Part 9 pptx

Feedback.Control.for.a.Path.Following.Robotic.Car Part 9 pptx

... Unfor- tunately, the car does not have any data logging and the variables that it calculates as it is driving are not available for analysis. As such, only a qualitative discussion of the car s performance ... sensor array to the same side, the lateral controller used a value of zero for θ p . With the given gains, a value of zero for θ p cause the car to keep going straight...

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