Logistic process: Difference between revisions
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brd = JXG.JSXGraph.initBoard('box1', {originX: 10, originY: 250, unitX: 40, unitY: 20, axis:true}); | brd = JXG.JSXGraph.initBoard('box1', {originX: 10, originY: 250, unitX: 40, unitY: 20, axis:true}); | ||
var t = brd.createElement('turtle',[4,3,70]); | var t = brd.createElement('turtle',[4,3,70]); | ||
var s = brd.createElement('slider', [[0,-5], [10,-5],[-5,0.5,5]], {name:'s'}); | var s = brd.createElement('slider', [[0,-5], [10,-5],[-5,0.5,5]], {name:'s'}); | ||
var alpha = brd.createElement('slider', [[0,-6], [10,-6],[-1,0.2,2]], {name:'α'}); | var alpha = brd.createElement('slider', [[0,-6], [10,-6],[-1,0.2,2]], {name:'α'}); | ||
t.hideTurtle(); | t.hideTurtle(); | ||
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brd = JXG.JSXGraph.initBoard('box1', {originX: 10, originY: 250, unitX: 40, unitY: 20, axis:true}); | brd = JXG.JSXGraph.initBoard('box1', {originX: 10, originY: 250, unitX: 40, unitY: 20, axis:true}); | ||
var t = brd.createElement('turtle',[4,3,70]); | var t = brd.createElement('turtle',[4,3,70]); | ||
var s = brd.createElement('slider', [[0,-5], [10,-5],[-5,0.5,5]], {name:'s'}); | var s = brd.createElement('slider', [[0,-5], [10,-5],[-5,0.5,5]], {name:'s'}); | ||
var alpha = brd.createElement('slider', [[0,-6], [10,-6],[-1,0.2,2]], {name:'α'}); | var alpha = brd.createElement('slider', [[0,-6], [10,-6],[-1,0.2,2]], {name:'α'}); | ||
t.hideTurtle(); | t.hideTurtle(); | ||
tau = 0.3; | A = 5; | ||
tau = 0.3; | |||
function clearturtle() { | function clearturtle() { | ||
t.cs(); | t.cs(); | ||
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function run() { | function run() { | ||
t.setPos(0,s. | t.setPos(0,s.Value()); | ||
t.setPenSize(4); | t.setPenSize(4); | ||
dx = 0.1; // global | |||
x = 0.0; // global | x = 0.0; // global | ||
loop(); | loop(); | ||
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function loop() { | function loop() { | ||
var | var dy = (alpha.Value()*t.Y()-tau*t.Y()*t.Y())*dx; // Logistic process | ||
t.moveTo([ | t.moveTo([dx+t.X(),dy+t.Y()]); | ||
x += | x += dx; | ||
if (x<20.0) { | if (x<20.0) { | ||
setTimeout(loop,10); | setTimeout(loop,10); | ||
Revision as of 07:48, 23 June 2009
Logistic population growth model
In time [math]\displaystyle{ \Delta t }[/math] the population grows by [math]\displaystyle{ \alpha\cdot y -\tau\cdot y^2 }[/math] elements: [math]\displaystyle{ \Delta y = (\alpha\cdot y- \tau\cdot y^2)\cdot \Delta t }[/math], that is [math]\displaystyle{ \frac{\Delta y}{\Delta t} = \alpha\cdot y -\tau\cdot y^2 }[/math].
With [math]\displaystyle{ \Delta t\to 0 }[/math] we get [math]\displaystyle{ \frac{d y}{d t} = \alpha\cdot y -\tau\cdot y^2 }[/math], i.e. [math]\displaystyle{ y' = \alpha\cdot y -\tau\cdot y^2 }[/math].
The initial population is [math]\displaystyle{ y(0)= s }[/math], [math]\displaystyle{ \tau:=0.3 }[/math].
The blue line is the simulation with [math]\displaystyle{ \Delta t = 0.1 }[/math].
Other models
The JavaScript code
<jsxgraph height="500" width="600" board="board" box="box1">
brd = JXG.JSXGraph.initBoard('box1', {originX: 10, originY: 250, unitX: 40, unitY: 20, axis:true});
var t = brd.createElement('turtle',[4,3,70]);
var s = brd.createElement('slider', [[0,-5], [10,-5],[-5,0.5,5]], {name:'s'});
var alpha = brd.createElement('slider', [[0,-6], [10,-6],[-1,0.2,2]], {name:'α'});
t.hideTurtle();
A = 5;
tau = 0.3;
function clearturtle() {
t.cs();
t.ht();
}
function run() {
t.setPos(0,s.Value());
t.setPenSize(4);
dx = 0.1; // global
x = 0.0; // global
loop();
}
function loop() {
var dy = (alpha.Value()*t.Y()-tau*t.Y()*t.Y())*dx; // Logistic process
t.moveTo([dx+t.X(),dy+t.Y()]);
x += dx;
if (x<20.0) {
setTimeout(loop,10);
}
}
</jsxgraph>
