//VERSION=3 (auto-converted from 2) var degToRad = Math.PI / 180; function evaluatePixelOrig(samples) { var sample = samples[0]; var b03_norm = normalize(sample.B03, 0, 0.253061520471542); var b04_norm = normalize(sample.B04, 0, 0.290393577911328); var b05_norm = normalize(sample.B05, 0, 0.305398915248555); var b06_norm = normalize(sample.B06, 0.006637972542253, 0.608900395797889); var b07_norm = normalize(sample.B07, 0.013972727018939, 0.753827384322927); var b8a_norm = normalize(sample.B8A, 0.026690138082061, 0.782011770669178); var b11_norm = normalize(sample.B11, 0.016388074192258, 0.493761397883092); var b12_norm = normalize(sample.B12, 0, 0.493025984460231); var viewZen_norm = normalize(Math.cos(sample.viewZenithMean * degToRad), 0.918595400582046, 1); var sunZen_norm = normalize(Math.cos(sample.sunZenithAngles * degToRad), 0.342022871159208, 0.936206429175402); var relAzim_norm = Math.cos((sample.sunAzimuthAngles - sample.viewAzimuthMean) * degToRad) var n1 = neuron1(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm); var n2 = neuron2(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm); var n3 = neuron3(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm); var n4 = neuron4(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm); var n5 = neuron5(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm); var l2 = layer2(n1, n2, n3, n4, n5); var cab = denormalize(l2, 0.007426692959872, 873.908222110306); return { default: [cab / 300] } } function neuron1(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm) { var sum = 4.242299670155190 + 0.400396555256580 * b03_norm + 0.607936279259404 * b04_norm + 0.137468650780226 * b05_norm - 2.955866573461640 * b06_norm - 3.186746687729570 * b07_norm + 2.206800751246430 * b8a_norm - 0.313784336139636 * b11_norm + 0.256063547510639 * b12_norm - 0.071613219805105 * viewZen_norm + 0.510113504210111 * sunZen_norm + 0.142813982138661 * relAzim_norm; return tansig(sum); } function neuron2(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm) { var sum = - 0.259569088225796 - 0.250781102414872 * b03_norm + 0.439086302920381 * b04_norm - 1.160590937522300 * b05_norm - 1.861935250269610 * b06_norm + 0.981359868451638 * b07_norm + 1.634230834254840 * b8a_norm - 0.872527934645577 * b11_norm + 0.448240475035072 * b12_norm + 0.037078083501217 * viewZen_norm + 0.030044189670404 * sunZen_norm + 0.005956686619403 * relAzim_norm; return tansig(sum); } function neuron3(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm) { var sum = + 3.130392627338360 + 0.552080132568747 * b03_norm - 0.502919673166901 * b04_norm + 6.105041924966230 * b05_norm - 1.294386119140800 * b06_norm - 1.059956388352800 * b07_norm - 1.394092902418820 * b8a_norm + 0.324752732710706 * b11_norm - 1.758871822827680 * b12_norm - 0.036663679860328 * viewZen_norm - 0.183105291400739 * sunZen_norm - 0.038145312117381 * relAzim_norm; return tansig(sum); } function neuron4(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm) { var sum = + 0.774423577181620 + 0.211591184882422 * b03_norm - 0.248788896074327 * b04_norm + 0.887151598039092 * b05_norm + 1.143675895571410 * b06_norm - 0.753968830338323 * b07_norm - 1.185456953076760 * b8a_norm + 0.541897860471577 * b11_norm - 0.252685834607768 * b12_norm - 0.023414901078143 * viewZen_norm - 0.046022503549557 * sunZen_norm - 0.006570284080657 * relAzim_norm; return tansig(sum); } function neuron5(b03_norm,b04_norm,b05_norm,b06_norm,b07_norm,b8a_norm,b11_norm,b12_norm, viewZen_norm,sunZen_norm,relAzim_norm) { var sum = + 2.584276648534610 + 0.254790234231378 * b03_norm - 0.724968611431065 * b04_norm + 0.731872806026834 * b05_norm + 2.303453821021270 * b06_norm - 0.849907966921912 * b07_norm - 6.425315500537270 * b8a_norm + 2.238844558459030 * b11_norm - 0.199937574297990 * b12_norm + 0.097303331714567 * viewZen_norm + 0.334528254938326 * sunZen_norm + 0.113075306591838 * relAzim_norm; return tansig(sum); } function layer2(neuron1, neuron2, neuron3, neuron4, neuron5) { var sum = + 0.463426463933822 - 0.352760040599190 * neuron1 - 0.603407399151276 * neuron2 + 0.135099379384275 * neuron3 - 1.735673123851930 * neuron4 - 0.147546813318256 * neuron5; return sum; } function normalize(unnormalized, min, max) { return 2 * (unnormalized - min) / (max - min) - 1; } function denormalize(normalized, min, max) { return 0.5 * (normalized + 1) * (max - min) + min; } function tansig(input) { return 2 / (1 + Math.exp(-2 * input)) - 1; } function setup() { return { input: [{ bands: [ "B03", "B04", "B05", "B06", "B07", "B8A", "B11", "B12", "viewZenithMean", "viewAzimuthMean", "sunZenithAngles", "sunAzimuthAngles" ] }], output: [ { id: "default", sampleType: "FLOAT32", bands: 1 } ] } } function evaluatePixel(sample, scene, metadata, customData, outputMetadata) { const result = evaluatePixelOrig([sample], [scene], metadata, customData, outputMetadata); return result[Object.keys(result)[0]]; }