Difference between revisions of "Polynomial regression II"
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| Line 5: | Line 5: | ||
brd = JXG.JSXGraph.initBoard('jxgbox', {boundingbox:[-2, 100, 220, -70], grid: false, axis:true}); | brd = JXG.JSXGraph.initBoard('jxgbox', {boundingbox:[-2, 100, 220, -70], grid: false, axis:true}); | ||
brd.suspendUpdate(); | brd.suspendUpdate(); | ||
| − | deg = brd. | + | deg = brd.create('slider',[[10,90],[100,90],[1,1,10]],{name:'degree',snapWidth:1}); |
| − | s = brd. | + | s = brd.create('slider',[[10,70],[100,70],[0,1,3]],{name:'scale'}); |
pointlist = []; | pointlist = []; | ||
for (i=0; i<30;i++) { | for (i=0; i<30;i++) { | ||
| − | pointlist.push(brd. | + | pointlist.push(brd.create('point', [function() { return 200*Math.random(); }, function() { return s.Value()*30*Math.random()+20;}], { style:4, strokecolor:"#0000a0", name:" "})); |
} | } | ||
brd.unsuspendUpdate(); | brd.unsuspendUpdate(); | ||
regression = JXG.Math.Numerics.regressionPolynomial(deg,pointlist); | regression = JXG.Math.Numerics.regressionPolynomial(deg,pointlist); | ||
| − | reg = brd. | + | reg = brd.create('functiongraph',[regression],{strokeColor:'green'}); |
| − | t = brd. | + | t = brd.create('text',[20,-40, |
function(){ return "r(x) = " + regression.getTerm();} | function(){ return "r(x) = " + regression.getTerm();} | ||
], | ], | ||
| Line 27: | Line 27: | ||
brd = JXG.JSXGraph.initBoard('jxgbox', {boundingbox:[-2, 100, 220, -70], grid: false, axis:true}); | brd = JXG.JSXGraph.initBoard('jxgbox', {boundingbox:[-2, 100, 220, -70], grid: false, axis:true}); | ||
brd.suspendUpdate(); | brd.suspendUpdate(); | ||
| − | deg = brd. | + | deg = brd.create('slider',[[10,90],[100,90],[1,1,10]],{name:'degree',snapWidth:1}); |
| − | s = brd. | + | s = brd.create('slider',[[10,70],[100,70],[0,1,3]],{name:'scale'}); |
pointlist = []; | pointlist = []; | ||
for (i=0; i<30;i++) { | for (i=0; i<30;i++) { | ||
| − | pointlist.push(brd. | + | pointlist.push(brd.create('point', [function() { return 200*Math.random(); }, function() { return s.Value()*30*Math.random()+20;}], { style:4, strokecolor:"#0000a0", name:" "})); |
} | } | ||
| + | brd.unsuspendUpdate(); | ||
regression = JXG.Math.Numerics.regressionPolynomial(deg,pointlist); | regression = JXG.Math.Numerics.regressionPolynomial(deg,pointlist); | ||
| − | reg = brd. | + | reg = brd.create('functiongraph',[regression],{strokeColor:'green'}); |
| − | t = brd. | + | t = brd.create('text',[20,-40, |
function(){ return "r(x) = " + regression.getTerm();} | function(){ return "r(x) = " + regression.getTerm();} | ||
], | ], | ||
{strokeColor:'black',fontSize:'14px'}); | {strokeColor:'black',fontSize:'14px'}); | ||
| − | + | ||
</jsxgraph> | </jsxgraph> | ||
</source> | </source> | ||
[[Category:Examples]] | [[Category:Examples]] | ||
Revision as of 16:11, 29 September 2010
Here are 30 randomly distributed points. The range of these points can be adjusted by the slider 'scale'. Through these points a regression polynomial is computed. The degree of this polynomial can be adjusted by the slider 'degree'.
The underlying JavaScript code
<jsxgraph width="700" height="500">
brd = JXG.JSXGraph.initBoard('jxgbox', {boundingbox:[-2, 100, 220, -70], grid: false, axis:true});
brd.suspendUpdate();
deg = brd.create('slider',[[10,90],[100,90],[1,1,10]],{name:'degree',snapWidth:1});
s = brd.create('slider',[[10,70],[100,70],[0,1,3]],{name:'scale'});
pointlist = [];
for (i=0; i<30;i++) {
pointlist.push(brd.create('point', [function() { return 200*Math.random(); }, function() { return s.Value()*30*Math.random()+20;}], { style:4, strokecolor:"#0000a0", name:" "}));
}
brd.unsuspendUpdate();
regression = JXG.Math.Numerics.regressionPolynomial(deg,pointlist);
reg = brd.create('functiongraph',[regression],{strokeColor:'green'});
t = brd.create('text',[20,-40,
function(){ return "r(x) = " + regression.getTerm();}
],
{strokeColor:'black',fontSize:'14px'});
</jsxgraph>
