See which side the shade tends to drift toward when you change the qator yo'nalish.
Bog' qator soyasi simulyatori
Visualize which side of a qator bog' gets more shade from kenglik, slope ekspozitsiya, qator yo'nalish, daraxt balandlik, and toj kenglik.
It runs entirely in the brauzer and lets you switch between yillik bias and representative sun conditions.
Haqiqiy shimol
In-brauzer calculation
Yarimshar-aware
Ulashish URL
Bu vosita nimani ko'rsatadi
See how slope ekspozitsiya and slope steepness affect uphill/downhill bias in the same view.
Check how far the shadow reaches relative to qator spacing with one clear ratio.
Qanday foydalaniladi
- Enter kenglik, slope ekspozitsiya, and qator yo'nalish.
- Enter daraxt balandlik and toj kenglik.
- Sozlamalarni ochish only if you want to refine slope angle and qator spacing.
- Review the natija card and heatmap to inspect shade bias.
Examples
Typical Bog' in the Northern Yarimshar
Kiritish
Kenglik 35.7°, slope ekspozitsiya 180°, qator yo'nalish 0°, daraxt balandlik 3.2m, toj kenglik 2.8m, mode Yillik
Natija
Yillik bias leans slightly downhill, and past sun increases cross-qator overlap.
Qator Bog' in the Southern Yarimshar
Kiritish
Kenglik -34.6°, slope ekspozitsiya 20°, qator yo'nalish 90°, daraxt balandlik 4.0m, toj kenglik 3.4m, mode Past Sun
Natija
The same haqiqiy-shimol convention works in the Southern Yarimshar. Past sun increases downhill bias.
Atamalar
Haqiqiy shimol
The shimol reference used for maps and azimuths. It is not always the same as magnetic shimol.
Azimut
Angle measured clockwise from shimol. It lets the simulyatori treat qator yo'nalish and slope ekspozitsiya consistently.
Ekspozitsiya
The downhill-facing yo'nalish of a slope. It affects uphill/downhill shade bias.
Shade Bias Index
A percentage-style index for uphill/downhill shade bias. Values near zero mean a more balanced natija.
Cross-Qator Reach
The ratio of shadow reach to qator spacing. Values above 1 suggest qator overlap.
Formulas
Solar altitude: sin α = sin φ sin δ + cos φ cos δ cos HAzimut: A = normalize(atan2(sin H, cos H sin φ - tan δ cos φ))Terrain normal: n = normalize([sinβ sinAs, sinβ cosAs, cosβ])Shadow tip: S = P + t(-u), t = -n·P / n·(-u)Shade bias index: 100 × (downhill - uphill) / total shadeCross-qator reach: shadow kenglik perpendicular to the qator / qator spacing
Tez-tez so'raladigan savollar
Is slope ekspozitsiya alone enough?
Ekspozitsiya alone does not tell you slope steepness, so the sozlamalar use a reference slope angle.
Can I use it in the Southern Yarimshar?
Yes. The kenglik sign switches hemispheres, and the same haqiqiy-shimol azimut convention is used.
Do I need haqiqiy shimol?
Yes. Qator yo'nalish and slope ekspozitsiya are haqiqiy-shimol based. Convert magnetic bearings first if needed.
What if I do not know qator spacing?
Auto mode uses 1.5× toj kenglik as the default and estimates cross-qator overlap.
Can I use it outside orchards?
Yes. The same logic works for vineyards and other qator-based perennial systems.
Notes
- This vosita visualizes geometric bias. It does not guarantee microclimate or yield outcomes.
- Actual shade changes a lot with qator spacing, toj shape, pruning, and surrounding terrain.
- Enter qator yo'nalish and slope ekspozitsiya using haqiqiy shimol. Convert magnetic bearings first if needed.
- When slope angle is not entered, the vosita uses a default reference value. Replace it with a measured value in sozlamalar if available.