Measurement

An alarm clock in c

The following C project contains the C source code and C examples used for an alarm clock. Alarm an user when the time is up with a sound or a beep... Features: *Lets user to set his/her own alarm message *Lets user to set his/her own alarm sound *Remembers all settings *Can be pushed into System Tray

Unit of measurement in c

The following C project contains the C source code and C examples used for unit of measurement. Implements a class that takes consideration of value's unit of mesasurement. You can add multiply divide and also use the mathematical function implemented in math library. I think the class it's self explanatory.

Calculate distance between two points using longitude latitude in sphere - zipcodeworld.com in c

The following C project contains the C source code and C examples used for calculate distance between two points using longitude & latitude in sphere - zipcodeworld.com. Tutorial and sample codes to calculate the distance between two locations using spherical algorithm. Free sample source codes in PHP, ASP, ColdFusion, C/C++, C#, Java, Perl, Visual Basic and Javascript. Longitude and latitude for United States ZIP Code and Canadian Postal Code are available in database subscription from http://www.zipcodeworld.com.

A clock in c

The following C project contains the C source code and C examples used for a clock in c. This is a program written in C that displays an analog clock with GUI functionality. The program has been developed using Borland Turbo C++ v3.0 compiler. The code is great to explore for those who want to learn making Graphical User Interfaces (GUI) in Turbo C++ with mouse functionality.

Gauss jacobi quadrature in matlab

The following Matlab project contains the source code and Matlab examples used for gauss jacobi quadrature. Ever wonder how the weights and abscissae are calculated for the numerical conversion from radiance to flux? The long and the short of it is that Gauss-Jacobi quadrature determines the weights and abscissae which is similar to Gaussian for low-point quadrature but differs substantially for high-point quadrature.

Datum transformation in matlab

The following Matlab project contains the source code and Matlab examples used for datum transformation. It performs transformations of geodetic coordinates from one ellipsoid to another using 7 datum parameters. It is also called Helmert 7 parameters transformation or datum transformation (in geodesy and cartography).

Compute circulation from vorticity in piv analysis, and plot circulation in matlab

The following Matlab project contains the source code and Matlab examples used for compute circulation from vorticity in piv analysis, and plot circulation. The method of performing Particle Image Velocimetry (PIV) analysis to obtain velocity, vorticity, and circulation of a flowing fluid from PIV images and plotting them to view the results graphically.

Ll2os in matlab

The following Matlab project contains the source code and Matlab examples used for ll2os. [E, N] = LL2OS( LAT, LON ) returns OSGB UK National Grid coodinates E, N (easting and northing) for points given by latitude and longitude Convert latitude/longitude => OS National Grid (for inverse function see OS2LL) Algorithm and constants from D00659 v2.

Geod yet another geodetic toolbox in matlab

The following Matlab project contains the source code and Matlab examples used for geod yet another geodetic toolbox. CONVERT_FROM_CARTESIAN: Convert from global Cartesian coordinates CONVERT_FROM_ELLIPSOIDAL_HARMONIC: Convert from ellipsoidal-harmonic coordinates CONVERT_FROM_GEODETIC: Convert from geodetic coordinates CONVERT_FROM_GEODM: Convert from ellipsoidal arc-lengths (at non-zero height) CONVERT_FROM_GEOPOT_HEIGHT: Convert from geopotential height CONVERT_FROM_GEOPOT_HEIGHT_ABS: Convert from geopotential height (absolute)

Wgs84 earth shape in matlab

The following Matlab project contains the source code and Matlab examples used for wgs84 earth shape. This is a class defining the shape of the Earth's ellipsoid. WGS84 is commonly used by the GPS satellites. This class implements conversions between Cartesian and Geodetic coordinates and vice-versa.

Geodetic transformations toolbox in matlab

The following Matlab project contains the source code and Matlab examples used for geodetic transformations toolbox. A set of functions to calculate coordinate transformations between different reference ellipsoids and different projections, including tools on: - transformation from cartesian to geographic coordinates and back - transformation from geographic coordinates to transverse mercator mapping or lambert conformal conical mapping and back - transformation from geographic to UTM and back which can handle irregular zones and pole mapping

The shortest distance from a point to ellipsoid in matlab

The following Matlab project contains the source code and Matlab examples used for the shortest distance from a point to ellipsoid . Compute The shortest distance from a point to Triaxial Ellipsoid or Biaxial Ellipsoid or Sphere x/a)^2+(y/b)^2+(z/c)^2=1 Triaxial Ellipsoid Equation centered at the    origin       Parameters:  * X, [x y z] - A point Cartesian coordinates data, n x 3 matrix or three n x 1 vectors  * axis,[a; b; c] - ellipsoid radii [a; b; c],its axes % along [x y z] axes    For Triaxial ellipsoid ,it must be a > b > c

Converter cartesian coordinates to geodetic coordinates in matlab

The following Matlab project contains the source code and Matlab examples used for converter cartesian coordinates to geodetic coordinates . Converter Cartesian coordinates to Geodetic coordinates on Triaxial Ellipsoid or Biaxial Ellipsoid or Sphere (x/a)^2+(y/b)^2+(z/c)^2=1 Triaxial Ellipsoid Equation Cartesian To Geodetic x y z ==> B L h  Parameters:  * X, [x y z] - Cartesian coordinatesdata, n x 3 matrix or three n x 1 vectors  * axis,[a; b; c] - ellipsoid radii [a; b; c],its axes % along [x y z] axes    For Triaxial ellipsoid ,it must be a > b > c

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