Zeitangaben

Eintrittszeit für alle Ereignisse

double Mesh2_node_hw_time(nMesh2_hw,nMesh2_node) ;

Mesh2_node_hw_time:long_name = "Eintrittszeit des Tidehochwassers (Thw)" ;

Mesh2_node_hw_time:units = "seconds since 2008-07-01 00:00:00 01:00" ;

Mesh2_node_hw_time:name_id = 22 ;

Mesh2_node_hw_time:bounds = "Mesh2_node_hw_time_bnd" ;

Mesh2_node_hw_time:calendar = "gregorian" ;

Mesh2_node_hw_time:standard_name = "time" ;

Hinweise:

1. Bezeichnet Datum und Uhrzeit der Thw-Zeiten an allen Positionen.
2. Ist das Thw nicht eingetreten, so wird die Thw-Zeit der nächstgelegenen (Hilfs-) Referenzposition angegeben. Dies ist deshalb erforderlich, da eine (Hilfs-) Koordinatenvariable keine ungültigen Daten enthalten darf.

Zeitintervalle für alle Ereignisse

double Mesh2_node_hw_time_bnd(nMesh2_hw,nMesh2_node,two) ; Hinweise:

1. Im Normalfall entsprechen die Zeitangaben den Eintrittszeiten der vor und nach dem Thw gelegenen Tnw Ereignisse.
2. Stehen die Tnw-Zeiten nicht zur Verfügung, so werden diejenigen der am nächsten gelegenen (Hilfs-) Referenzpositionen benutzt.
3. Am Anfang und Ende des Analysezeitraums werden die Intervalle durch entsprechende Zeitangabe des Analysezeitraums begrenzt.

Eintrittszeit des Maximums

double Mesh2_node_x_hw_time(nMesh2_node) ;

Mesh2_node_x_hw_time:long_name = "Eintrittszeit des maximalen Tidehochwassers (HThw)" ;

Mesh2_node_x_hw_time:units = "seconds since 2008-07-01 00:00:00 01:00" ;

Mesh2_node_x_hw_time:name_id = 22 ;

Mesh2_node_x_hw_time:bounds = "Mesh2_node_analysis_time_bnd" ;

Mesh2_node_x_hw_time:calendar = "gregorian" ;

Mesh2_node_x_hw_time:standard_name = "time" ;

Eintrittszeit des Minimums

double Mesh2_node_n_hw_time(nMesh2_node) ;

Mesh2_node_n_hw_time:long_name = "Eintrittszeit des minimalen Tidehochwassers (NThw)" ;

Mesh2_node_n_hw_time:units = "seconds since 2008-07-01 00:00:00 01:00" ;

Mesh2_node_n_hw_time:name_id = 22 ;

Mesh2_node_n_hw_time:bounds = "Mesh2_node_analysis_time_bnd" ;

Mesh2_node_n_hw_time:calendar = "gregorian" ;

Mesh2_node_n_hw_time:standard_name = "time" ;

Eintrittszeit des Mittelwerts

double Mesh2_node_m_hw_time(nMesh2_node) ;

Mesh2_node_m_hw_time:long_name = "Eintrittszeit des mittleren Tidehochwassers (MThw)" ;

Mesh2_node_m_hw_time:units = "seconds since 2008-07-01 00:00:00 01:00" ;

Mesh2_node_m_hw_time:name_id = 22 ;

Mesh2_node_m_hw_time:bounds = "Mesh2_node_analysis_time_bnd" ;

Mesh2_node_m_hw_time:calendar = "gregorian" ;

Mesh2_node_m_hw_time:standard_name = "time" ;

Analysezeitraum

double Mesh2_node_analysis_time_bnd(nMesh2_node,two) ;

Kenngrößen

Wert für alle Ereignisse

double Mesh2_node_hw(nMesh2_hw,nMesh2_node) ;

Mesh2_node_hw:long_name = "Tidehochwasser Thw, Knoten" ;

Mesh2_node_hw:units = "m" ;

Mesh2_node_hw:name_id = 24 ;

Mesh2_node_hw:valid_range = -11034., 8848. ;

Mesh2_node_hw:_FillValue = 1.e+31 ;

Mesh2_node_hw:cell_methods = "time: point area: point" ;

Mesh2_node_hw:coordinates = "Mesh2_node_hw_time Mesh2_node_x Mesh2_node_y Mesh2_node_lon Mesh2_node_lat" ;

Mesh2_node_hw:grid_mapping = "Mesh2_crs" ;

Mesh2_node_hw:standard_name = "sea_surface_height" ; // "high_water_due_to_tides"

Mesh2_node_hw:mesh = "Mesh2" ;

Mesh2_node_hw:location = "node" ;

Mesh2_node_hw:comment = "(tidal) high water (HW)" ;

Mittelwert

double Mesh2_node_m_hw(nMesh2_node) ;

Mesh2_node_m_hw:long_name = "mittleres Tidehochwasser MThw, Knoten" ;

Mesh2_node_m_hw:units = "m" ;

Mesh2_node_m_hw:name_id = 25 ;

Mesh2_node_m_hw:valid_range = -11034., 8848. ;

Mesh2_node_m_hw:_FillValue = 1.e+31 ;

Mesh2_node_m_hw:cell_methods = "time: mean area: point" ;

Mesh2_node_m_hw:coordinates = "Mesh2_node_m_hw_time Mesh2_node_x Mesh2_node_y Mesh2_node_lon Mesh2_node_lat" ;

Mesh2_node_m_hw:ancillary_variables = "Mesh2_node_nof_hw" ;

Mesh2_node_m_hw:grid_mapping = "Mesh2_crs" ;

Mesh2_node_m_hw:standard_name = "sea_surface_height" ; // "mean_high_water_due_to_tides"

Mesh2_node_m_hw:mesh = "Mesh2" ;

Mesh2_node_m_hw:location = "node" ;

Mesh2_node_m_hw:comment = "mean (tidal) high water (HW) within analysis period" ;

Maximum

double Mesh2_node_x_hw(nMesh2_node) ;

Mesh2_node_x_hw:long_name = "maximales Tidehochwasser HThw, Knoten" ;

Mesh2_node_x_hw:units = "m" ;

Mesh2_node_x_hw:name_id = 26 ;

Mesh2_node_x_hw:valid_range = -11034., 8848. ;

Mesh2_node_x_hw:_FillValue = 1.e+31 ;

Mesh2_node_x_hw:cell_methods = "time: maximum area: point" ;

Mesh2_node_x_hw:coordinates = "Mesh2_node_x_hw_time Mesh2_node_x Mesh2_node_y Mesh2_node_lon Mesh2_node_lat" ;

Mesh2_node_x_hw:ancillary_variables = "Mesh2_node_nof_hw" ;

Mesh2_node_x_hw:grid_mapping = "Mesh2_crs" ;

Mesh2_node_x_hw:standard_name = "sea_surface_height" ; // "maximum_high_water_due_to_tides"

Mesh2_node_x_hw:mesh = "Mesh2" ;

Mesh2_node_x_hw:location = "node" ;

Mesh2_node_x_hw:comment = "maximum (tidal) high water (HW) within analysis period" ;

Minimum

double Mesh2_node_n_hw(nMesh2_node) ;

Mesh2_node_n_hw:long_name = "minimales Tidehochwasser NThw, Knoten" ;

Mesh2_node_n_hw:units = "m" ;

Mesh2_node_n_hw:name_id = 27 ;

Mesh2_node_n_hw:valid_range = -11034., 8848. ;

Mesh2_node_n_hw:_FillValue = 1.e+31 ;

Mesh2_node_n_hw:cell_methods = "time: minimum area: point" ;

Mesh2_node_n_hw:coordinates = "Mesh2_node_n_hw_time Mesh2_node_x Mesh2_node_y Mesh2_node_lon Mesh2_node_lat" ;

Mesh2_node_n_hw:ancillary_variables = "Mesh2_node_nof_hw Mesh2_node_std_hw" ;

Mesh2_node_n_hw:grid_mapping = "Mesh2_crs" ;

Mesh2_node_n_hw:standard_name = "sea_surface_height" ; // "minimum_high_water_due_to_tides"

Mesh2_node_n_hw:mesh = "Mesh2" ;

Mesh2_node_n_hw:location = "node" ;

Mesh2_node_n_hw:comment = "minimum (tidal) high water (HW) within analysis period" ;

Statistische Daten

Anzahl der Ereignisse

int Mesh2_node_nof_hw(nMesh2_node) ;

Mesh2_node_nof_hw:long_name = "Tidehochwasser Thw, Anzahl der Ereignisse, Knoten" ;

Mesh2_node_nof_hw:units = "1" ;

Mesh2_node_nof_hw:name_id = 23 ;

Mesh2_node_nof_hw:valid_range = 0, 1000000. ;

Mesh2_node_nof_hw:_FillValue = -999 ;

Mesh2_node_nof_hw:cell_methods = "time: sum area: point" ;

Mesh2_node_nof_hw:coordinates = "Mesh2_node_m_hw_time Mesh2_node_x Mesh2_node_y Mesh2_node_lon Mesh2_node_lat" ;

Mesh2_node_nof_hw:grid_mapping = "Mesh2_crs" ;

Mesh2_node_nof_hw:standard_name = "sea_surface_height number_of_observations" ; // "high_water_due_to_tides number_of_observations"

Mesh2_node_nof_hw:mesh = "Mesh2" ;

Mesh2_node_nof_hw:location = "node" ;

Mesh2_node_nof_hw:comment = "(tidal) high water (HW), number of events" ;

Standardabweichung

double Mesh2_node_std_hw(nMesh2_node) ;

Mesh2_node_std_hw:long_name = "Tidehochwasser Thw, Standardabweichung, Knoten" ;

Mesh2_node_std_hw:units = "m" ;

Mesh2_node_std_hw:name_id = -999 ;

Mesh2_node_std_hw:valid_range = 0., 10. ;

Mesh2_node_std_hw:_FillValue = 1.e+31 ;

Mesh2_node_std_hw:cell_methods = "time: standard_deviation area: point" ;

Mesh2_node_std_hw:coordinates = "Mesh2_node_m_hw_time Mesh2_node_x Mesh2_node_y Mesh2_node_lon Mesh2_node_lat" ;

Mesh2_node_std_hw:grid_mapping = "Mesh2_crs" ;

Mesh2_node_std_hw:standard_name = "sea_surface_height" ; // "high_water_due_to_tides"

Mesh2_node_std_hw:mesh = "Mesh2" ;

Mesh2_node_std_hw:location = "node" ;

Mesh2_node_std_hw:comment = "(tidal) high water (HW), standard deviation" ;

Anmerkungen

• Inhalt ist CF-konform gemäß NCAS CF Compliance Checker.

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