org.geotools.nature

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Java Source Code / Java Documentation » GIS » GeoTools 2.4.1 » org.geotools.nature 
org.geotools.nature
package org.geotools.nature Algorithms related to the observations of natural phenomenons. Most algorithms in this package are derived from empirical measurements; their results are approximative. Algorithms include:
  • Sea water properties (density, sound velocity, fusion temperature, etc.) computed from salinity, temperature and pression using algorithms published by UNESCO.
  • Values relative to earth calendar, like tropical year length.
  • etc.

 

References

Alain Poisson, M.H. Gashoumi and Selim Morcos.
    Salinity and density of seawater: table for high salinities (42 to 50).
    Unesco technical papers in marine science #62 (1991).

Unesco
     International oceanographic tables, volume 4.
    Unesco technical papers in marine science #40 (1987).

Franck J. Millero.
     Solubility of oxygen in sea water in Progress on oceanographic tables and standards 1983-1986.
    Unesco technical papers in marine science #50 (1986) pp.13-14.

Unesco
     The international system of units (SI) in oceanography.
    Unesco technical papers in marine science #45 (1985).

N.P. Fofonoff and R.C. Millard Jr.
     Algorithms for computation of fundamental properties of seawater.
    Unesco technical papers in marine science #44 (1983).

Tropical year length is computed using formula by Laskar (1986). Synodic month length is computed using formula by Chapront-Touze and Chapront (1988). Those formulas was taken from the following adress:
Java Source File NameTypeComment
Calendar.javaClass Approximations de quelques calculs astronomiques relatifs aux calendriers terrestres. Les différents cycles astronomiques (notamment le jour, le mois et l'année) ne sont pas constants.
SeaWater.javaClass Sea water properties as a function of salinity, temperature and pressure.
SunRelativePosition.javaClass Calcule la position du soleil relativement à la position de l'observateur. Cette classe reçoit en entrés les coordonnées spatio-temporelles de l'observateur, soit:
 
  • La longitude (en degrées) de l'observateur;
  • La latitude (en degrées) de l'observateur;
  • La date et heure en heure universelle (GMT).
La position du soleil calculée en sortie comprend les valeurs suivantes:
  • L'azimuth du soleil (en degrés dans le sens des aiguilles d'une montre depuis le nord);
  • L'élévation du soleil (en degrés par rapport a l'horizon).
Les algorithmes utilisés dans cette classe sont des adaptations des algorithmes en javascript écrit par le "National Oceanic and Atmospheric Administration, Surface Radiation Research Branch".
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