Recalibrate intro line: shift LON0 to 150, bump rate to -6 deg/s

The pins were drifting east of the actual cities — Paris ended up over
Italy and Antananarivo in the Indian Ocean. Linear regression over five
calibration frames (visible central longitude at t=0,10,15,18,22) gives
LON0~151, rate~-6.0, which I round to 150 and -6.

Also expose all knobs as URL params (?lon0=&rate=&cx=&cy=&r=) and add a
?debug=1 overlay that draws the projected sphere outline + equator +
30 deg meridian grid, so the calibration can be eyeballed live.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
This commit is contained in:
MVA Global Fret 2026-05-04 23:59:01 +02:00
parent 8033c0fd02
commit eb01e75a3f

View File

@ -54,6 +54,13 @@
</linearGradient> </linearGradient>
</defs> </defs>
<g id="debugLayer" style="display:none">
<circle id="dbgEarth" r="0" cx="0" cy="0" fill="none" stroke="#00e5ff" stroke-width="1.5" opacity="0.7"/>
<path id="dbgEquator" d="" stroke="#ffea00" stroke-width="1" fill="none" opacity="0.7" stroke-dasharray="4 4"/>
<g id="dbgGrid"></g>
<text id="dbgLabel" x="20" y="40" fill="#00e5ff" font-family="monospace" font-size="18" font-weight="700"></text>
</g>
<g id="routeGroup" opacity="0"> <g id="routeGroup" opacity="0">
<path id="routeHalo" d="" stroke="#ff2a3d" stroke-width="9" fill="none" opacity="0.3" filter="url(#redGlow)"/> <path id="routeHalo" d="" stroke="#ff2a3d" stroke-width="9" fill="none" opacity="0.3" filter="url(#redGlow)"/>
<path id="routeLine" d="" stroke="url(#redLine)" stroke-width="2" fill="none" stroke-linecap="round" filter="url(#redGlow)"/> <path id="routeLine" d="" stroke="url(#redLine)" stroke-width="2" fill="none" stroke-linecap="round" filter="url(#redGlow)"/>
@ -110,17 +117,18 @@
Calibration empirique sur la vidéo earth-rotation.mp4 : Calibration empirique sur la vidéo earth-rotation.mp4 :
- Centre de la Terre dans le frame 1280×720 : (640, 360) - Centre de la Terre dans le frame 1280×720 : (640, 360)
- Rayon visible : 340 px - Rayon visible : 340 px
- Longitude centrale à t=0 : 140°E - Longitude centrale à t=0 : 150°E
- Vitesse de rotation : -5.75°/s (apparent) - Vitesse de rotation : -6°/s (apparent)
La SVG utilise viewBox 1280×720 avec preserveAspectRatio="xMidYMid slice", Override en URL : ?lon0=150&rate=-6&debug=1
même comportement que le video object-fit:cover → alignement parfait.
-------------------------------------------------------------------- */ -------------------------------------------------------------------- */
(function () { (function () {
const EARTH_CX = 640; const params = new URLSearchParams(location.search);
const EARTH_CY = 360; const EARTH_CX = +params.get('cx') || 640;
const EARTH_R = 340; const EARTH_CY = +params.get('cy') || 360;
const LON0 = 140; // central longitude visible à t=0 const EARTH_R = +params.get('r') || 340;
const ROT_RATE = -5.75; // °/s (négatif = view's central decreases) const LON0 = parseFloat(params.get('lon0') ?? '150');
const ROT_RATE = parseFloat(params.get('rate') ?? '-6');
const DEBUG = params.has('debug');
const PARIS = { lat: 48.85, lon: 2.35 }; const PARIS = { lat: 48.85, lon: 2.35 };
const TANA = { lat: -18.9, lon: 47.5 }; const TANA = { lat: -18.9, lon: 47.5 };
@ -172,6 +180,49 @@
const arcVecs = []; const arcVecs = [];
for (let i = 0; i <= SAMPLES; i++) arcVecs.push(slerp(parisVec, tanaVec, i / SAMPLES)); for (let i = 0; i <= SAMPLES; i++) arcVecs.push(slerp(parisVec, tanaVec, i / SAMPLES));
// Debug overlay : projected sphere outline + equator + longitude grid
const dbgLayer = document.getElementById('debugLayer');
const dbgEarth = document.getElementById('dbgEarth');
const dbgEquator = document.getElementById('dbgEquator');
const dbgGrid = document.getElementById('dbgGrid');
const dbgLabel = document.getElementById('dbgLabel');
if (DEBUG) {
dbgLayer.style.display = '';
dbgEarth.setAttribute('cx', EARTH_CX);
dbgEarth.setAttribute('cy', EARTH_CY);
dbgEarth.setAttribute('r', EARTH_R);
}
function buildArcPath(vecs, rotAngle) {
let d = '', open = false;
for (const v of vecs) {
const p = project(rotateY(v, rotAngle));
if (p.z > 0) {
d += (open ? ' L ' : 'M ') + p.x.toFixed(1) + ' ' + p.y.toFixed(1);
open = true;
} else { open = false; }
}
return d;
}
// Pre-compute equator + meridians (every 30°)
const eqVecs = [];
for (let i = 0; i <= 180; i++) eqVecs.push(toCart(0, i * 2 - 180));
const meridianSets = [];
for (let lon = -180; lon < 180; lon += 30) {
const set = [];
for (let lat = -90; lat <= 90; lat += 5) set.push(toCart(lat, lon));
meridianSets.push(set);
if (DEBUG) {
const p = document.createElementNS('http://www.w3.org/2000/svg', 'path');
p.setAttribute('stroke', '#ffea00');
p.setAttribute('stroke-width', '0.6');
p.setAttribute('fill', 'none');
p.setAttribute('opacity', '0.5');
p.setAttribute('stroke-dasharray', '3 3');
p.dataset.lon = lon;
dbgGrid.appendChild(p);
}
}
function update() { function update() {
// Time source : video.currentTime (loops automatically). Fallback : Date.now() // Time source : video.currentTime (loops automatically). Fallback : Date.now()
const t = (video && !isNaN(video.currentTime)) ? video.currentTime : (performance.now() / 1000); const t = (video && !isNaN(video.currentTime)) ? video.currentTime : (performance.now() / 1000);
@ -237,6 +288,17 @@
pulseDot.style.opacity = 0; pulseDot.style.opacity = 0;
} }
// Debug overlay update
if (DEBUG) {
dbgEquator.setAttribute('d', buildArcPath(eqVecs, rotAngle));
const meridianPaths = dbgGrid.children;
for (let i = 0; i < meridianPaths.length; i++) {
meridianPaths[i].setAttribute('d', buildArcPath(meridianSets[i], rotAngle));
}
const central = ((LON0 + ROT_RATE * t) % 360 + 540) % 360 - 180;
dbgLabel.textContent = 't=' + t.toFixed(1) + 's central=' + central.toFixed(1) + '° rate=' + ROT_RATE + '°/s lon0=' + LON0;
}
// Group opacity = fade out when both pins are on the back side // Group opacity = fade out when both pins are on the back side
const visFactor = Math.max(0, Math.min(1, (Math.max(pPar.z, pTan.z) + 0.05) * 4)); const visFactor = Math.max(0, Math.min(1, (Math.max(pPar.z, pTan.z) + 0.05) * 4));
routeGroup.setAttribute('opacity', visFactor.toFixed(2)); routeGroup.setAttribute('opacity', visFactor.toFixed(2));