Spline Interpolation Method

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Presentation transcript:

Spline Interpolation Method Major: All Engineering Majors Authors: Autar Kaw, Jai Paul http://numericalmethods.eng.usf.edu Transforming Numerical Methods Education for STEM Undergraduates http://numericalmethods.eng.usf.edu

Spline Method of Interpolation http://numericalmethods.eng.usf.edu

What is Interpolation ? Given (x0,y0), (x1,y1), …… (xn,yn), find the value of ‘y’ at a value of ‘x’ that is not given. http://numericalmethods.eng.usf.edu

Interpolants Evaluate Differentiate, and Integrate. Polynomials are the most common choice of interpolants because they are easy to: Evaluate Differentiate, and Integrate. http://numericalmethods.eng.usf.edu

Why Splines ? http://numericalmethods.eng.usf.edu

Why Splines ? Figure : Higher order polynomial interpolation is a bad idea http://numericalmethods.eng.usf.edu

Linear Interpolation http://numericalmethods.eng.usf.edu

Linear Interpolation (contd) http://numericalmethods.eng.usf.edu

Example The upward velocity of a rocket is given as a function of time in Table 1. Find the velocity at t=16 seconds using linear splines. Table Velocity as a function of time (s) (m/s) 10 227.04 15 362.78 20 517.35 22.5 602.97 30 901.67 Figure. Velocity vs. time data for the rocket example http://numericalmethods.eng.usf.edu

Linear Interpolation http://numericalmethods.eng.usf.edu

Quadratic Interpolation http://numericalmethods.eng.usf.edu

Quadratic Interpolation (contd) http://numericalmethods.eng.usf.edu

Quadratic Splines (contd) http://numericalmethods.eng.usf.edu

Quadratic Splines (contd) http://numericalmethods.eng.usf.edu

Quadratic Splines (contd) http://numericalmethods.eng.usf.edu

Quadratic Spline Interpolation Part 1 of 2 http://numericalmethods.eng.usf.edu

Quadratic Spline Example The upward velocity of a rocket is given as a function of time. Using quadratic splines Find the velocity at t=16 seconds Find the acceleration at t=16 seconds Find the distance covered between t=11 and t=16 seconds t v(t) s m/s 10 227.04 15 362.78 20 517.35 22.5 602.97 30 901.67

Data and Plot t v(t) s m/s 10 227.04 15 362.78 20 517.35 22.5 602.97 10 227.04 15 362.78 20 517.35 22.5 602.97 30 901.67 18

Solution Let us set up the equations

Each Spline Goes Through Two Consecutive Data Points

Each Spline Goes Through Two Consecutive Data Points v(t) s m/s 10 227.04 15 362.78 20 517.35 22.5 602.97 30 901.67

Derivatives are Continuous at Interior Data Points

Derivatives are continuous at Interior Data Points At t=10 At t=15 At t=20 At t=22.5

Last Equation

Final Set of Equations

Coefficients of Spline ai bi ci 1 22.704 2 0.8888 4.928 88.88 3 -0.1356 35.66 -141.61 4 1.6048 -33.956 554.55 5 0.20889 28.86 -152.13

END http://numericalmethods.eng.usf.edu

Quadratic Spline Interpolation Part 2 of 2 http://numericalmethods.eng.usf.edu 28

Final Solution

Velocity at a Particular Point a) Velocity at t=16

Acceleration from Velocity Profile b) Acceleration at t=16

Acceleration from Velocity Profile The quadratic spline valid at t=16 is given by ,

Distance from Velocity Profile c) Find the distance covered by the rocket from t=11s to t=16s. 33

Distance from Velocity Profile

Additional Resources For all resources on this topic such as digital audiovisual lectures, primers, textbook chapters, multiple-choice tests, worksheets in MATLAB, MATHEMATICA, MathCad and MAPLE, blogs, related physical problems, please visit http://numericalmethods.eng.usf.edu/topics/spline_method.html

END http://numericalmethods.eng.usf.edu