WGS84 to Arc 1960 Converter

WGS84
Arc 1960
WGS84
Arc 1960

About WGS84 Coordinate System

1Definition

WGS84 (World Geodetic System 1984) is the global standard geodetic reference system used by GPS. It defines an Earth-centered, Earth-fixed coordinate system and geodetic datum.

2Development History

Developed by the U.S. Department of Defense in 1984, WGS84 has undergone several refinements (WGS84(G730), WGS84(G873), WGS84(G1150), WGS84(G1762)) to improve accuracy through GPS satellite observations.

3Applications

WGS84 is the default coordinate system for GPS receivers worldwide. It is used in aviation, maritime navigation, Google Maps, OpenStreetMap, GIS applications, and scientific research.

GPS Compatibility

WGS84 is the native coordinate system of the Global Positioning System (GPS), ensuring direct compatibility with all GPS receivers and satellite navigation systems worldwide.

Global Standard

As the most widely adopted geodetic datum, WGS84 provides a consistent global reference frame for mapping, surveying, and geospatial data exchange across international boundaries.

High Precision

With continuous refinements, WGS84 achieves centimeter-level accuracy globally, making it suitable for high-precision applications like surveying, drone navigation, and scientific research.

About Arc 1960 Coordinate System

1Definition

Arc 1960 is a historic geodetic datum used in East and Central Africa, covering countries including Kenya, Tanzania, Uganda, Burundi, and Rwanda. It uses the Clarke 1880 ellipsoid (a=6378249.145m, 1/f=293.465) and requires 7-parameter Helmert transformation for accurate conversion to WGS84. Arc 1960 was established as a refinement of the earlier Arc 1950 system.

2Development History

Arc 1960 was established in 1960 as an updated adjustment of the Arc 1950 geodetic network, incorporating additional survey measurements and improved computation methods. It provided better accuracy for the growing mapping needs of East and Central African countries following independence.

3Applications

Arc 1960 is still found in legacy mapping, historical cadastral surveys, and older infrastructure projects across East and Central Africa, particularly in Kenya, Tanzania, Uganda, Burundi, and Rwanda.

East & Central African Standard

Arc 1960 served as a refined geodetic datum for East and Central Africa, improving upon Arc 1950 with additional survey observations for better accuracy.

7-Parameter Required

Arc 1960 to WGS84 conversion requires a 7-parameter Helmert transformation. Parameters vary by country and region. Consult local surveying authorities for official values.

WGS84 to Arc 1960 Conversion Guide

📐 Conversion Formula
// WGS84 → Arc 1960 (7-parameter Helmert transformation)
// Between WGS84 ellipsoid and Clarke 1880 ellipsoid

// Step 1: Convert from WGS84 to geocentric Cartesian
// Using source ellipsoid: a = 6378137.0, 1/f = 298.257223563
N = a_source / √(1 - e²_source × sin²(φ))
X = (N + h) × cos(φ) × cos(λ)
Y = (N + h) × cos(φ) × sin(λ)
Z = (N × (1 - e²_source) + h) × sin(φ)

// Step 2: Helmert 7-parameter transform (WGS84 → Arc 1960)
// Parameters: dx, dy, dz (m), rx, ry, rz (rad), s (ppm)
// 
X' = ΔX + (1 + s)(X + Rz·Y - Ry·Z)
Y' = ΔY + (1 + s)(-Rz·X + Y + Rx·Z)
Z' = ΔZ + (1 + s)(Ry·X - Rx·Y + Z)

// Step 3: Convert back to geodetic using Clarke 1880 ellipsoid
// a = 6378249.145, 1/f = 293.465
p = √(X'² + Y'²)
θ = atan2(Z' × a_target, p × (1 - f_target))
φ' = atan2(Z' + e²_target × (1 - f_target) × a_target × sin³(θ),
         p - e²_target × a_target × cos³(θ))
λ' = atan2(Y', X')

WGS84 to Arc 1960 requires a full 7-parameter Helmert transformation because the two systems use different ellipsoids and different datum origins. The conversion accuracy depends on the quality of regional 7-parameter values used.

📋 Operation Steps
  1. Enter your WGS84 coordinates in the input field (latitude, longitude, one pair per line)
  2. Enter the appropriate 7-parameter Helmert values (dx, dy, dz, rx, ry, rz, s) for your region
  3. Click the Convert button to transform coordinates from WGS84 to Arc 1960
  4. Review the converted Arc 1960 coordinates in the output field
  5. Copy the results or save them as an XLSX file for further use
💡 Tips
  • Ensure coordinates are within valid ranges before conversion
  • 7-parameter values are region-specific; obtain them from local surveying authorities
  • Verify a sample of converted coordinates on your target platform
  • All conversions are performed client-side for complete data privacy

Frequently Asked Questions

The accuracy depends on the specific coordinate systems being converted. For standard geographic transformations between WGS84 and Arc 1960, typical accuracy is within sub-meter range under normal conditions. For systems requiring 7-parameter transformations, accuracy depends heavily on the quality and regional relevance of the parameters used. Always verify results for critical applications.

Yes! Our tool supports batch conversion. Simply enter multiple coordinate pairs, one per line, in the input field on this page. All coordinates will be processed simultaneously, and you can download the results as an XLSX file for further analysis or integration.

Enter coordinates in the format: latitude, longitude (one pair per line). Latitude should be the first value, longitude the second. For example: 23.05105,113.37149. Ensure latitude is between -90 and 90, and longitude is between -180 and 180.

For this conversion, standard parameters may be sufficient for most applications.

Absolutely. All coordinate conversions are performed entirely in your browser using client-side JavaScript. Your data is never sent to any server, ensuring complete privacy and security of your geographic information. This is especially important for sensitive location data.

WGS84 wgs84 (world geodetic system 1984) is the global standard geodetic reference system used by gps. it ... Arc 1960 arc 1960 is a historic geodetic datum used in east and central africa, covering countries including . The conversion between them accounts for differences in their ellipsoid parameters, datum origins, and any encryption offsets.