Définitions de coordonnées

Systèmes de référence et systèmes de coordonnées (CoordSys.ili)

Source : INTERLIS 2.3 Manuel de référence, annexe I


!! File CoordSys.ili Release 2015-11-24

INTERLIS 2.3;

!! 2015-11-24 Cardinalities adapted (line 122, 123, 124, 132, 133, 134, 142, 143,
!!                                   148, 149, 163, 164, 168, 169, 206 and 207)
!!@precursorVersion = 2005-06-16

REFSYSTEM MODEL CoordSys (en) AT "http://www.interlis.ch/models"
  VERSION "2015-11-24" =

  UNIT
    Angle_Degree = 180 / PI [INTERLIS.rad];
    Angle_Minute = 1 / 60 [Angle_Degree];
    Angle_Second = 1 / 60 [Angle_Minute];

  STRUCTURE Angle_DMS_S =
    Degrees: -180 .. 180 CIRCULAR [Angle_Degree];
    CONTINUOUS SUBDIVISION Minutes: 0 .. 59 CIRCULAR [Angle_Minute];
    CONTINUOUS SUBDIVISION Seconds: 0.000 .. 59.999 CIRCULAR [Angle_Second];
  END Angle_DMS_S;

  DOMAIN
    Angle_DMS = FORMAT BASED ON Angle_DMS_S (Degrees ":" Minutes ":" Seconds);
    Angle_DMS_90 EXTENDS Angle_DMS = "-90:00:00.000" .. "90:00:00.000";


  TOPIC CoordsysTopic =

    !! Special space aspects to be referenced
    !! **************************************

    CLASS Ellipsoid EXTENDS INTERLIS.REFSYSTEM =
      EllipsoidAlias: TEXT*70;
      SemiMajorAxis: MANDATORY 6360000.0000 .. 6390000.0000 [INTERLIS.m];
      InverseFlattening: MANDATORY 0.00000000 .. 350.00000000;
      !! The inverse flattening 0 characterizes the 2-dim sphere
      Remarks: TEXT*70;
    END Ellipsoid;

    CLASS GravityModel EXTENDS INTERLIS.REFSYSTEM =
      GravityModAlias: TEXT*70;
      Definition: TEXT*70;
    END GravityModel;

    CLASS GeoidModel EXTENDS INTERLIS.REFSYSTEM =
      GeoidModAlias: TEXT*70;
      Definition: TEXT*70;
    END GeoidModel;


    !! Coordinate systems for geodetic purposes
    !! ****************************************

    STRUCTURE LengthAXIS EXTENDS INTERLIS.AXIS =
      ShortName: TEXT*12;
      Description: TEXT*255;
    PARAMETER
      Unit (EXTENDED): NUMERIC [INTERLIS.LENGTH];
    END LengthAXIS;

    STRUCTURE AngleAXIS EXTENDS INTERLIS.AXIS =
      ShortName: TEXT*12;
      Description: TEXT*255;
    PARAMETER
      Unit (EXTENDED): NUMERIC [INTERLIS.ANGLE];
    END AngleAXIS;

    CLASS GeoCartesian1D EXTENDS INTERLIS.COORDSYSTEM =
      Axis (EXTENDED): LIST {1} OF LengthAXIS;
    END GeoCartesian1D;

    CLASS GeoHeight EXTENDS GeoCartesian1D =
      System: MANDATORY (
        normal,
        orthometric,
        ellipsoidal,
        other);
      ReferenceHeight: MANDATORY -10000.000 .. +10000.000 [INTERLIS.m];
      ReferenceHeightDescr: TEXT*70;
    END GeoHeight;

    ASSOCIATION HeightEllips =
      GeoHeightRef -- {*} GeoHeight;
      EllipsoidRef -- {1} Ellipsoid;
    END HeightEllips;

    ASSOCIATION HeightGravit =
      GeoHeightRef -- {*} GeoHeight;
      GravityRef -- {1} GravityModel;
    END HeightGravit;

    ASSOCIATION HeightGeoid =
      GeoHeightRef -- {*} GeoHeight;
      GeoidRef -- {1} GeoidModel;
    END HeightGeoid;

    CLASS GeoCartesian2D EXTENDS INTERLIS.COORDSYSTEM =
      Definition: TEXT*70;
      Axis (EXTENDED): LIST {2} OF LengthAXIS;
    END GeoCartesian2D;

    CLASS GeoCartesian3D EXTENDS INTERLIS.COORDSYSTEM =
      Definition: TEXT*70;
      Axis (EXTENDED): LIST {3} OF LengthAXIS;
    END GeoCartesian3D;

    CLASS GeoEllipsoidal EXTENDS INTERLIS.COORDSYSTEM =
      Definition: TEXT*70;
      Axis (EXTENDED): LIST {2} OF AngleAXIS;
    END GeoEllipsoidal;

    ASSOCIATION EllCSEllips =
      GeoEllipsoidalRef -- {*} GeoEllipsoidal;
      EllipsoidRef -- {1} Ellipsoid;
    END EllCSEllips;


    !! Mappings between coordinate systems
    !! ***********************************

    ASSOCIATION ToGeoEllipsoidal =
      From -- {0..*} GeoCartesian3D;
      To -- {0..*} GeoEllipsoidal;
      ToHeight -- {0..*} GeoHeight;
    MANDATORY CONSTRAINT
      ToHeight -> System == #ellipsoidal;
    MANDATORY CONSTRAINT
      To -> EllipsoidRef -> Name == ToHeight -> EllipsoidRef -> Name;
    END ToGeoEllipsoidal;

    ASSOCIATION ToGeoCartesian3D =
      From2 -- {0..*} GeoEllipsoidal;
      FromHeight-- {0..*} GeoHeight;
      To3 -- {0..*} GeoCartesian3D;
    MANDATORY CONSTRAINT
      FromHeight -> System == #ellipsoidal;
    MANDATORY CONSTRAINT
      From2 -> EllipsoidRef -> Name == FromHeight -> EllipsoidRef -> Name;
    END ToGeoCartesian3D;

    ASSOCIATION BidirectGeoCartesian2D =
      From -- {0..*} GeoCartesian2D;
      To -- {0..*} GeoCartesian2D;
    END BidirectGeoCartesian2D;

    ASSOCIATION BidirectGeoCartesian3D =
      From -- {0..*} GeoCartesian3D;
      To2 -- {0..*} GeoCartesian3D;
      Precision: MANDATORY (
        exact,
        measure_based);
      ShiftAxis1: MANDATORY -10000.000 .. 10000.000 [INTERLIS.m];
      ShiftAxis2: MANDATORY -10000.000 .. 10000.000 [INTERLIS.m];
      ShiftAxis3: MANDATORY -10000.000 .. 10000.000 [INTERLIS.m];
      RotationAxis1: Angle_DMS_90;
      RotationAxis2: Angle_DMS_90;
      RotationAxis3: Angle_DMS_90;
      NewScale: 0.000001 .. 1000000.000000;
    END BidirectGeoCartesian3D;

    ASSOCIATION BidirectGeoEllipsoidal =
      From4 -- {0..*} GeoEllipsoidal;
      To4 -- {0..*} GeoEllipsoidal;
    END BidirectGeoEllipsoidal;

    ASSOCIATION MapProjection (ABSTRACT) =
      From5 -- {0..*} GeoEllipsoidal;
      To5 -- {0..*} GeoCartesian2D;
      FromCo1_FundPt: MANDATORY Angle_DMS_90;
      FromCo2_FundPt: MANDATORY Angle_DMS_90;
      ToCoord1_FundPt: MANDATORY -10000000 .. +10000000 [INTERLIS.m];
      ToCoord2_FundPt: MANDATORY -10000000 .. +10000000 [INTERLIS.m];
    END MapProjection;

    ASSOCIATION TransverseMercator EXTENDS MapProjection =
    END TransverseMercator;

    ASSOCIATION SwissProjection EXTENDS MapProjection =
      IntermFundP1: MANDATORY Angle_DMS_90;
      IntermFundP2: MANDATORY Angle_DMS_90;
    END SwissProjection;

    ASSOCIATION Mercator EXTENDS MapProjection =
    END Mercator;

    ASSOCIATION ObliqueMercator EXTENDS MapProjection =
    END ObliqueMercator;

    ASSOCIATION Lambert EXTENDS MapProjection =
    END Lambert;

    ASSOCIATION Polyconic EXTENDS MapProjection =
    END Polyconic;

    ASSOCIATION Albus EXTENDS MapProjection =
    END Albus;

    ASSOCIATION Azimutal EXTENDS MapProjection =
    END Azimutal;

    ASSOCIATION Stereographic EXTENDS MapProjection =
    END Stereographic;

    ASSOCIATION HeightConversion =
      FromHeight -- {0..*} GeoHeight;
      ToHeight -- {0..*} GeoHeight;
      Definition: TEXT*70;
    END HeightConversion;

  END CoordsysTopic;

END CoordSys.

INTERLIS ist eine formale

In enim justo, rhoncus ut, imperdiet a, venenatis

In enim justo, rhoncus ut, imperdiet a, venenatis vitae, justo. Nullam dictum felis eu pede mollis preti

Lorem ipsum dolor sit amet, consectetuer adipiscing elit. Aenean commodo ligula eget dolor. Aenean massa. Cum sociis natoque penatibus et magnis dis parturient montes, nascetur ridiculus mus. Donec quam felis, ultricies nec, pellentesque eu, pretium quis, sem. Nulla consequat massa quis enim. Donec pede justo, fringilla vel, aliquet nec, vulputate eget, arcu.
In enim justo, rhoncus ut, imperdiet a, venenatis vitae, justo. Nullam dictum felis eu pede mollis pretium. Integer tincidunt. Cras dapibus. Vivamus elementum semper nisi. Aenean vulputate eleifend tellus. Aenean leo ligula, porttitor eu, consequat vitae, eleifend ac, enim. Aliquam lorem ante, dapibus in, viverra quis, feugiat a, tellus.
Phasellus viverra nulla ut metus varius laoreet. Quisque rutrum. Aenean imperdiet. Etiam ultricies nisi vel augue. Curabitur ullamcorper ultricies nisi. Nam eget dui. Etiam rhoncus. Maecenas tempus, tellus eget condimentum rhoncus, sem quam semper libero, sit amet adipiscing sem neque sed

Kartenausschnitt

INTERLIS est un langage de description conçu pour assurer la compatibilité à long terme entre les différents systèmes. INTERLIS est indépendant des logiciels et des systèmes.

La version la plus utilisée actuellement est INTERLIS 2, version 2.3.

INTERLIS – qui est derrière ?

COSIG (Coordination, Services et Informations Géographiques) est en collaboration avec les groupes spécialisé d'eCH le gardien du langage formel INTERLIS et fournit les informations et documents nécessaires. Les activités de l'administration fédérale dans le domaine de l'information géographique (IG) et des systèmes d'information géographique (SIG) sont également coordonnées par COSIG.
Voir https://www.cosig.ch

Vous trouverez nos coordonnées ici.

Login