Mercurial > dive4elements > river
view artifacts/src/main/resources/messages.properties @ 9415:9744ce3c3853
Rework of fixanalysis computation and dWt and WQ facets. Got rid of strange remapping and bitshifting code by explicitely saving the column information and using it in the facets.
The facets also put the valid station range into their xml-metadata
| author | gernotbelger |
|---|---|
| date | Thu, 16 Aug 2018 16:27:53 +0200 |
| parents | 38201f5b0dd9 |
| children | a31cb674ddd1 |
line wrap: on
line source
false=Nein true=Ja state.winfo.river = River state.winfo.calculation_mode = Calculation Mode state.winfo.location_distance = Location or distance selection state.winfo.wq = Input for W/Q data state.winfo.wq_adapted = Input for W/Q data state.winfo.location = Choose the location state.winfo.distance = Choose the range state.winfo.distance_only = Range selection state.winfo.uesk.wsp = Choose the waterlevel state.winfo.uesk.dgm = Digital Terrain Model state.winfo.uesk.profiles = Interpolated Profiles state.winfo.uesk.floodplain = Lateral Boundary state.winfo.uesk.differences = Differences between waterlevel and terrain state.winfo.uesk.scenario = Flood Plain / Scenario state.winfo.uesk.dc-hws = HWS state.winfo.uesk.user-rgd = User defined shapefiles state.winfo.uesk.barriers = Digitized HWS state.winfo.waterlevel_pair_select = Chosen Differences state.winfo.historicalq.reference_gauge = Selection of Gauge state.winfo.historicalq.timerange = Selection of Evaluation time state.winfo.historicalq.mode = Selecion of analyses state.winfo.reference.curve.input.start = Chosen Reference state.winfo.reference.curve.input.end = Chosen Evaluation state.winfo.function_select = Chosen Function state.winfo.extreme.percent = Distance to last extreme in percent state.winfo.extreme.qinput = Input of Q data state.fix.river = River state.fix.calculation.mode = Calculation Mode state.fix.location = Distance state.fix.period = Period state.fix.gaugerange = Gaugerange state.fix.eventselect = Event selection state.fix.analysis.referenceperiod = Reference period state.fix.analysis.analysisperiods = Analysis period state.fix.analysis.function = Function state.fix.analysis.preprocessing = Outliers state.fix.preprocess=use outlier test state.fix.vollmer.function=Function state.fix.vollmer.preprocessing = Outliers state.fix.vollmer.qs = Input for W/Q data state.minfo.river = River state.minfo.calculation_mode = Calculation Mode state.minfo.distance = Range selection state.minfo.distance_only = Range selection state.minfo.dischargestate = Selection of discharge state and channel state.minfo.sq.location=Location state.minfo.sq.period=Periods state.minfo.sq.outliers=Tolerance state.minfo.sq.outlier-method=Outliertest state.minfo.bed.year_epoch=Year/Epoch state.minfo.bed.difference_select=Differences state.minfo.year=Year state.minfo.epoch=Epoch state.minfo.bed.location = Location/Distance state.minfo.bed.distance = Range selection state.minfo.bed.periods = Periods state.minfo.bed.char_diameter = Characteristic Diameter state.minfo.bed.error.no_data = No data found for selected range. state.minfo.bed.error.no_data_for_period = No data found for period: {0} - {1}. state.minfo.soundings = Choose Soundings state.uinfo.salix.historical.soundings=Wahl des historischen Zustands anhand einer Peilung state.bundu.wst.soundings = Choose Soundings state.minfo.sediment.load.location = Range state.minfo.sediment.load.year_epoch = Year/Epoch state.minfo.sediment.load.epochs = Epochs state.minfo.sediment.load.period = Years state.minfo.sediment.load.off_epochs = off. Epochs state.minfo.sediment.load.sq_interval = Load-Discharge Relation state.minfo.off_epoch = off. Epochs state.minfo.sediment.load.t_per_a = (t/a) state.minfo.sediment.load.m3_per_a = (m\u00b3/a) state.minfo.sediment.load.unit = Unit state.minfo.t_per_a = t/a state.minfo.m3_per_a = m\u00b3/a state.uinfo.vegetation_zones.table = Einteilung der Vegetationszonen und \u00dcberflutungsdauern (\u00dcFD) state.uinfo.salix.supraregional = \u00dcberregional wirkende Eingriffe state.uinfo.inundation.year_totalepoch = Year/Gesamter Zeitraum state.uinfo.salix.year_epoch = Year/Epoch state.uinfo.load.year_with_soundings = Year state.uinfo.inundation.load.year= Year state.uinfo.load.epoch=Epoch state.uinfo.year=Year state.uinfo.epoch=Epoch state.uinfo.totalepoch=Langj\u00e4hriges Mittel ({0} - {1}) state.sinfo.year_epoch = Year/Epoch state.sinfo.load.year= Year(s) state.sinfo.load.epoch=Epoch(s) state.sinfo.year=Year state.sinfo.epoch=Epoch state.sinfo.riverside.left = Linkes Ufer state.sinfo.riverside.right = Rechtes Ufer state.sinfo.riverside.both = Beide Ufer riverside.left = left riverside.right = right year=Year epoch=Epoch off_epoch = off. Epochs soundings = Soundings / Epochs t_per_a = t/a m3_per_a = m\u00b3/a historical.mode.w = Waterlevel Analyse historical.mode.q = Discharge Analyse calc.surface.curve = Water Level/Surface Curve calc.flood.map = Flood Plain calc.discharge.curve = State Discharge Curve/Stage Discharge Relation calc.duration.curve = Duration Curve calc.discharge.longitudinal.section = W for userdefined Discharge calc.w.differences = Differences calc.historical.discharge.curve = Historical Discharge Curve calc.reference.curve = Reference Curve calc.extreme.curve = Extreme Curves calc.fixation.default = Fixation calc.fixation.vollmer = Balanced Waterlevel calc.bed.middle = Middle Bed Height calc.bed.diff = Bed Height Difference calc.bed.quality = Bed Quality calc.sediment.load = Sediment Load calc.flow.velocity = Flow Velocity calc.sq.relation = Load Discharge Relation calc.bed.d90 = D90 calc.bed.d84 = D84 calc.bed.d80 = D80 calc.bed.d75 = D75 calc.bed.d70 = D70 calc.bed.d60 = D60 calc.bed.d50 = D50 calc.bed.d40 = D40 calc.bed.d30 = D30 calc.bed.d25 = D25 calc.bed.d20 = D20 calc.bed.d16 = D16 calc.bed.d10 = D10 calc.bed.dm = dm calc.bed.dmin = Dmin calc.bed.dmax = Dmax calc.bed.dmid = Dmid calculation.analysis = Fixinganalysis calculation.vollmer = relocated Waterlevel Calculation state.chart.river = River state.chart.type = Charttype state.chart.km = Kilometer chart.new.durationcurve = Duration Curve chart.new.computeddischargecurve = Discharge Curve chart.new.longitudinal_section = Longitudinal Section chart.new.w_differences = Differences chart.new.crosssection = Cross Section cross_section = Cross Section reference_curve = Reference Curve reference_curve_normalized = Normalized Reference Curve scenario.current = Current scenario.potentiel = Potentiel scenario.scenario = Scenario floodplain.option = Use Floodplain? floodplain.active = Active floodplain.inactive = Inactive outlier.method.grubbs=Grubbs outlier.method.std-dev=Residual standard error river = River calculation_mode = Calculation Mode ld_locations = Location(s) main_channel = Main channel total_channel = Total channel chart.cross_section.title = Cross Section for river {0} chart.cross_section.subtitle = {0}-km: {1,number,#.###} chart.cross_section.xaxis.label = Distance [m] chart.cross_section.yaxis.label = W [{0}] chart.longitudinal.section.title = W-Longitudinal Section chart.longitudinal.section.subtitle = Range: {0}-km {1,number,#.###} - {2,number,#.###} chart.longitudinal.section.shortsubtitle = {0} chart.longitudinal.section.locsubtitle = {0} km {1,number,#.###} chart.longitudinal.section.xaxis.label = {0}-km chart.longitudinal.section.yaxis.label = W [{0}] chart.longitudinal.annotations.label = {0}.km chart.discharge.curve.title = Discharge Curve chart.discharge.curve.yaxis.label = W [{0}] chart.discharge.curve.yaxis.cm.label = W [cm] chart.discharge.curve.curve.valid.from = {0} (valid from {1,date,short}) chart.discharge.curve.curve.valid.range = {0} (valid from {1,date,short} - {2,date,short}) chart.computed.discharge.curve.title = Discharge Curve chart.discharge.curve.subtitle = {0}-km: $KM chart.discharge.curve.model = Model discharge curve {0} {1,date,medium} - {2,date,medium} chart.discharge.curve.model.nostop = Model discharge curve {0} {1,date,medium} - chart.computed.discharge.curve.yaxis.label = W [{0}] chart.computed.discharge.curve.curve.label = Discharge Curve {0} km {1} chart.duration.curve.title = Duration Curve chart.duration.curve.subtitle = {0}-km: {1,number,#.###} chart.duration.curve.xaxis.label = Duration of Non-Exceedence [Days] chart.duration.curve.yaxis.label.w = W [{0}] chart.duration.curve.curve.w = Waterlevel duration curve for {0} (km: {1}) chart.duration.curve.curve.q = Discharge duration curve for {0} (km: {1}) chart.historical.discharge.title = Historical Discharge Curves for Gauge {0} chart.historical.discharge.subtitle = Gauge {0} {1,date,medium} - {2,date,medium} chart.historical.discharge.xaxis.label = Time chart.historical.discharge.yaxis.label = W [cm] chart.historical.discharge.wq.title = Discharge Curves chart.historical.discharge.wq.yaxis.label = W [cm] chart.reference.curve.title = Reference Curve chart.reference.curve.subtitle = {0} chart.reference.curve.x.axis.in.cm = Reference Gauge(s) [cm] chart.reference.curve.x.axis.in.m = Reference Station [NN + m] chart.reference.curve.y.axis.in.cm = Target Gauge(s) [cm] chart.reference.curve.y.axis.in.m = Target Station(s) [NN + m] chart.fixings.derivedcurve.title = Derived curve chart.fixings.analysis.title = Longitudinal section at km {0} chart.fixings.wq.title = Fixings Analysis at km {0} chart.fixings.wq.yaxis.label = W [{0}] chart.extreme.wq.yaxis.label = W [{0}] chart.normalized.reference.curve.title = Reduced Reference Curve chart.w_differences.title = Differences chart.w_differences.subtitle = {0} chart.w_differences.yaxis.label = m chart.w_differences.yaxis.second.label = W [NN + m] chart.bedquality.title=Bed Longitudinal Section chart.bedquality.xaxis.label={0}-km chart.bedquality.yaxis.label.diameter = Diameter [mm] chart.bedquality.yaxis.label.porosity=Porosity [%] chart.bedquality.yaxis.label.density=Density [t/m\u00b3] chart.bedheight_middle.section.title=Middle Bed Height chart.bedheight_middle.section.yaxis.label=middle Bed Height [{0}] chart.bedheight_middle.sounding.yaxis.label=Sounding Width [m] meta.bedheight.year = Year meta.bedheight.type = Type meta.bedheight.cur.elevation = Current elevation model meta.bedheight.old.elevation = Old elevation model meta.bedheight.range = Range meta.bedheight.location.system = Location system meta.bedheight.evalby = Evaluated by meta.bedheight.river.elevation = River elevation model chart.flow_velocity.section.title=Geschwindigkeit- und Schubspannung chart.flow_velocity.section.yaxis.label=Speed v [m/s] chart.flow_velocity.section.yaxis.second.label=Bottom shear stress [N/m\u00b2] chart.sq_relation.xaxis.label = Discharge [m\u00b3/s] chart.sq_relation.yaxis.label = Transport [kg/s] chart.sq_relation_a.title = Fine material chart.sq_relation_b.title = Sand (suspended) chart.sq_relation_c.title = Sand (bed load) chart.sq_relation_d.title = Fine/middle gravel chart.sq_relation_e.title = Coarse gravel chart.sq_relation_f.title = Total bed load facet.sq_relation.curve = Potential (bed load {0,date} - {1,date}) facet.sq_relation.measurements = Bed load {0,date} - {1,date} facet.sq_relation.static_data = {0} to {1} facet.sq_relation.outliers = Outliers pass {0} facet.sq_relation.outlier.curve = Potential pass {0} facet.sq_relation.outlier.measurement = bed load data pass {0} sedimentdensity = sediment density sand = Sand fine_middle = Fine/Mid. gravel susp_sand = Susp. Sand susp_sand_bed = Bed. part Susp.Sand suspended_sediment = Sediment coarse = Coarse gravel total = Total load chart.sedimentload.ls.title = Sediment load chart.sedimentload.ls.xaxis.label = km chart.sedimentload.ls.yaxis.label.diff = [t/a] facet.sedimentload.prefix.offcial = Official epoch : facet.sedimentload.coarse = Coarse gravel - {0} [{1}] facet.sedimentload.fine_middle = Fine/Mid. gravel - {0} [{1}] facet.sedimentload.sand = Sand - {0} [{1}] facet.sedimentload.susp_sand = Suspended sand - {0} [{1}] facet.sedimentload.susp_sand_bed = Bed. part suspended sand - {0} [{1}] facet.sedimentload.suspended_sediment = Suspended sediment - {0} [{1}] facet.sedimentload.total = Total load (from database) - {0} [{1}] facet.sedimentload.bed_load = Bed load (from database) - {0} [{1}] facet.sedimentload.suspended_load = Suspended load (from database) - {0} [{1}] facet.sedimentload.calc.total = Total load (calculated) - {0} [{1}] facet.sedimentload.calc.bed_load = Bed load (calculated) - {0} [{1}] facet.sedimentload.calc.bed_load_susp_sand = Bed building load (calculated) - {0} [{1}] minfo.sedimentload.no.data = No sediment load data available sedimentload.missing.fraction.coarse = Missing fraction coarse gravel - {0} sedimentload.missing.fraction.fine_middle = Missing fraction fine/mid. gravel - {0} sedimentload.missing.fraction.sand = Missing fraction sand - {0} sedimentload.missing.fraction.susp_sand = Missing fraction suspended sand - {0} sedimentload.missing.fraction.susp_sand_bed = Missing fraction bed. part suspended sand - {0} sedimentload.missing.fraction.suspended_sediment = Missing fraction suspended sediment - {0} sedimentload.missing.fraction.total = Missing fraction total load - {0} sedimentload.missing.fraction.bed_load = Missing fraction bed load - {0} sedimentload.missing.fraction.bed_load_susp_sand = Missing fraction bed building load - {0} facet.longitudinal_section.annotations = POIs facet.discharge_curves.mainvalues.q = Q (main values) facet.discharge_curves.mainvalues.w = W (main values) facet.w_differences = {0} - {1} facet.w_differences.raw = {0} - {1} (raw) historical_discharge.mainvalues.q = Q Main Values historical_discharge.mainvalues.w = W Main Values facet.flow_velocity.model.mainchannel = Mainchannel {0} facet.flow_velocity.model.totalchannel = Totalchannel {0} facet.flow_velocity.model.tau = Bottom shear stress {0} facet.flow_velocity.model.q = Q {0} facet.flow_velocity.mainchannel = v Mainchannel at {0} facet.flow_velocity.discharge = Discharge at {0} facet.flow_velocity.totalchannel = v Totalchannel at {0} facet.flow_velocity.tauchannel = Bottom shear stress Mainchannel at {0} facet.flow_velocity.mainchannel.raw = v Mainchannel at {0} (raw) facet.flow_velocity.totalchannel.raw = v Totalchannel at {0} (raw) facet.flow_velocity.tauchannel.raw = Bottom shear stress Mainchannel at {0} (raw) facet.flow_velocity.velocity = V {0} facet.flow_velocity.waterlevel = Waterlevel {0} facet.bedheight_middle.single = Bed Height {0,number,####} facet.bedheight_middle.epoch = Bed Height Epoch {0,number,####} - {1,number,####} facet.bedquality.bed.porosity.toplayer = Porosity ({0,date} - {1,date}) ({2}) facet.bedquality.bed.porosity.sublayer = Porosity ({0,date} - {1,date}) ({2}) facet.bedquality.bed.density.toplayer = Density ({0,date} - {1,date}) ({2}) facet.bedquality.bed.density.sublayer = Density ({0,date} - {1,date}) ({2}) facet.bedquality.bed.diameter.toplayer = {0}_Bed ({1,date} - {2,date}) ({3}) facet.bedquality.bed.diameter.sublayer = {0}_Bed ({1,date} - {2,date}) ({3}) facet.bedquality.bed.diameter.toplayer.data = {0} Bed ({1,date} - {2,date}) ({3}) - measurements facet.bedquality.bed.diameter.sublayer.data = {0} Bed ({1,date} - {2,date}) ({3}) - measurements facet.bedquality.bed.diameter.bedload.data = {0} Bedload - measurements facet.bedquality.bed.diameter.bedload = {0}_Bedload facet.bedquality.interpol.suffix = - interpolated bedquality.toplayer = 0.0m - 0.3m bedquality.sublayer = 0.1m - 0.5m bedquality.missing.diameter.bedload = Interpolating bedload diameter {0} on this range in {1,date} - {2,date} not possible. bedquality.missing.diameter.sublayer = Interpolating bed diameter {0} (0.0 m - 0.3 m) on this range in {1,date} - {2,date} not possible. bedquality.missing.diameter.toplayer = Interpolating bed diameter {0} (0.1 m - 0.5 m) on this range in {1,date} - {2,date} not possible. bedquality.missing.density.toplayer = Interpolating density (0.0 m - 0.3 m) on this range in {1,date} - {2,date} not possible. bedquality.missing.density.sublayer = Interpolating density (0.1 m - 0.5 m) on this range in {1,date} - {2,date} not possible. bedquality.missing.porosity.toplayer = Interpolating porosity (0.0 m - 0.3 m) on this range in {1,date} - {2,date} not possible. bedquality.missing.porosity.sublayer = Interpolating porosity (0.1 m - 0.5 m) on this range in {1,date} - {2,date} not possible. facet.bedheight.diff.year = Bedheight Difference {0} facet.bedheight.sounding_width = Sounding Width ({0}) facet.bedheight.diff.sounding = sounding Width facet.bedheight.diff.height1 = Original Height Minuend {0} facet.bedheight.diff.height2 = Original Height Subtrahend {0} facet.bedheight.diff.morph1 = Morph. active width minuend facet.bedheight.diff.morph2 = Morph. active width subtrahend facet.bedheight.diff.absolute = Bedheight Difference/Year {0} facet.bedheight.diff.epoch = Bedheight Difference {0} facet.bedheight.diff.year.raw = Bedheight Difference {0} (raw) facet.bedheight.diff.height.raw = {0} (raw) facet.bedheight.diff.height1.raw = Original Height Minuend {0} (raw) facet.bedheight.diff.height2.raw = Original Height Subtrahend {0} (raw) facet.bedheight.diff.absolute.raw = Bedheight Difference/Year {0} (raw) facet.bedheight.diff.epoch.raw = BedHeight Difference {0} (raw) facet.gauge_discharge_curve.river = Name of the river facet.gauge_discharge_curve.reference_gauge = Gauge official number facet.gauge_discharge_curve.gauge_name = Name of the gauge facet.gauge_discharge_curve.gauge_location = Location of the gauge facet.morphologic.width = morphologic Width facet.porosity = {0} chart.beddifference.height.title = Bedheight Difference chart.beddifference.height.xaxis.label = {0}-km chart.beddifference.height.yaxis.label = Difference [cm/year] chart.beddifference.epoch.title = Bedheight Difference chart.beddifference.xaxis.label = {0}-km chart.beddifference.yaxis.label.diff = Difference [cm] chart.beddifference.yaxis.label.height = Absolute Height [m] chart.beddifference.year.title = Bedheight Difference chart.beddifference.yaxis.label.morph = Width [m] chart.beddifference.yaxis.label.heights = Absolute Height [m] chart.subtitle.radius = Width of sample window for moving average export_csv_title = Title: export.csv.header.km = km export.csv.header.year = year export.waterlevel.csv.header.km = River-Km export.waterlevel.csv.header.w = W [{0}] common.export.csv.header.waterlevel = W common.export.csv.header.q = Q [m\u00b3/s] export.waterlevel.csv.header.q.desc = Description export.waterlevel.csv.header.location = Location export.waterlevel.csv.header.gauge = Reference Gauge export.waterlevel.csv.meta.result = # Calculation Output - {0} - Waterlevel - FLYS 3 export.waterlevel.csv.meta.creation = # Time of creation: {0} export.waterlevel.csv.meta.calculationbase = # Calculation base: {0} export.waterlevel.csv.meta.river = # River: {0} export.waterlevel.csv.meta.range = # Location/Range (km): {0} - {1} export.waterlevel.csv.meta.gauge = # Gauge: {0} common.export.waterlevel.csv.meta.q = # Q (m\u00b3/s): {0} export.waterlevel.csv.meta.w = # W (NN + m): {0} - {1} export.waterlevel.csv.not.in.gauge.range = Outside selected gauge export.computed.discharge.curve.csv.header.w = W [{0}] export.duration.curve.csv.header.duration = D [Days] export.duration.curve.csv.header.w = W [{0}] export.discharge.longitudinal.section.csv.header.km = River-Km export.discharge.longitudinal.section.csv.header.w = W [NN + m] export.discharge.longitudinal.section.csv.header.cw = W corr. [NN + m] export.discharge.curve.at.gauge.header = Dischargetable for {1}/{0} since {2} datum[{4}] = {3} export.discharge.curve.at.header = Computed discharge curve for {0} {0}-km: {1} export.historical.discharge.csv.header.timerange = Timerange export.historical.discharge.csv.header.waterlevel = Waterlevel [cm] export.historical.discharge.csv.header.discharge = Discharge [m\u00b3/s] export.historical.discharge.csv.header.diff.q = \u0394Q to reference[m\u00b3/s] export.historical.discharge.csv.header.diff.w = \u0394W to reference[m\u00b3/s] export.historical.discharge.csv.header.gaugename = Gauge export.reference_curve.csv.header.km = km export.reference_curve.csv.header.w.cm = W (cm at Gauge) export.reference_curve.csv.header.w.m = W (m + NHN) export.reference_curve.csv.header.w.q = equiv. Q (m\u00b3/s) export.waterlevel.pdf.mode = Waterlevel export.computed.discharge.pdf.mode = Dischargecurve export.computed.discharge.pdf.calc.mode = Computed Dischargecurve export.duration.pdf.mode = Durationcurve export.wdifferences.pdf.mode = W Differences export.historical.discharge.pdf.mode = Historical Discharge export.reference_curve.pdf.mode = Reference Curve export.computed.discharge.pdf.file = /jasper/computed-discharge_en.jasper export.duration.pdf.file = /jasper/duration_en.jasper export.waterlevel.pdf.file = /jasper/waterlevel_en.jasper export.wdifferences.pdf.file = /jasper/wdifferences_en.jasper export.historical.discharge.pdf.file = /jasper/historical-discharge_en.jasper export.reference_curve.pdf.file = /jasper/reference_en.jasper export.reference_curve.pdf.file.gauge = /jasper/reference_en_gauge.jasper export.reference_curve.pdf.file.gauge.end = /jasper/reference_en_gauge_end.jasper export.reference_curve.pdf.file.gauge.start.end = /jasper/reference_en_gauge_start_end.jasper export.flow_velocity.csv.header.km = River Km export.flow_velocity.csv.header.v_total = v Total Channel export.flow_velocity.csv.header.v_main = v Main Channel export.flow_velocity.csv.header.tau_main = Bottom shear stress Main Channel export.flow_velocity.csv.header.locations = Location export.bedheight_middle.csv.header.km = River km export.bedheight_middle.csv.header.sounding = Sounding / Epoch export.bedheight_middle.csv.header.height = middle Bed Height [{0}] export.bedheight_middle.csv.header.uncertainty = Uncertainty [m] export.bedheight_middle.csv.header.datagap = Data Gap export.bedheight_middle.csv.header.soundingwidth = Sounding Width [m] export.bedheight_middle.csv.header.locations = Location export.sedimentload.csv.header.coarse = Coarse gravel [{0}] export.sedimentload.csv.header.fine_middle = Fine/Mid. gravel [{0}] export.sedimentload.csv.header.sand = Sand [{0}] export.sedimentload.csv.header.susp_sand = Suspended sand [{0}] export.sedimentload.csv.header.susp_sand_bed = Bed. part suspended sand [{0}] export.sedimentload.csv.header.suspended_sediment = Suspended sediment [{0}] export.sedimentload.csv.header.total = Total load [{0}] export.sedimentload.csv.header.bed_load = Bed load [{0}] export.sedimentload.csv.header.bed_load_susp_sand = Bed building load [{0}] export.sqrelation.csv.info.coeff.a = a: coefficient of transport curve export.sqrelation.csv.info.coeff.b = b: exponent of transport curve export.sqrelation.csv.info.qmax = Q max, measured: maximum measured discharge [m\u00b3/s] export.sqrelation.csv.info.stderr = standard error: natural logarithm of standard deviation export.sqrelation.csv.info.r2 = r^2: coefficient of determination export.sqrelation.csv.info.ntot = n total: number of measurements export.sqrelation.csv.info.noutl = n outliers: number of outliers export.sqrelation.csv.info.cferguson = CFERGUSON: bias correction (Ferguson, 1986) export.sqrelation.csv.info.cduan = CDUAN: bias correction (Duan, 1983) export.sqrelation.csv.info.param.a = Parameter A: transport of fine material (< 0.063 mm) export.sqrelation.csv.info.param.b = Parameter B: transport of suspended sand (0.063-2 mm) export.sqrelation.csv.info.param.c = Parameter C: transport of sand (0.063-2 mm) export.sqrelation.csv.info.param.d = Parameter D: transport of fine and medium gravel (2-16 mm) export.sqrelation.csv.info.param.e = Parameter E: transport of coarse gravel (> Mittelkies)(16-125 mm) export.sqrelation.csv.info.param.f = Parameter F: transport of bed load (0.063-125 mm) export.sqrelation.csv.info.q = Q: Discharge in [m\u00b3/s] as measured on measurement date export.sqrelation.csv.info.s_kg = S: Transport in [kg/s] as measured on measurement date export.sqrelation.csv.info.date = Measurement Date: The date this measurment was made export.sqrelation.csv.header.parameter = Parameter export.sqrelation.csv.header.station = Station export.sqrelation.csv.header.km = River-Km export.sqrelation.csv.header.function = Function export.sqrelation.csv.header.gauge = Gauge export.sqrelation.csv.header.coeff.a = a export.sqrelation.csv.header.coeff.b = b export.sqrelation.csv.header.coeff.q = Q export.sqrelation.csv.header.coeff.r = r^2 export.sqrelation.csv.header.n.total = n total export.sqrelation.csv.header.n.outliers = n outliers export.sqrelation.csv.header.c.duan = C (Duan) export.sqrelation.csv.header.c.ferguson = C (Ferguson) export.sqrelation.csv.header.sd = Standard error export.sqrelation.csv.header.qmax = Q max, measured [m\u00b3/s] export.sqrelation.csv.header.s_kg = S [kg/s] export.sqrelation.csv.header.date = Measurement date export.sqrelation.pdf.file = /jasper/sqrelation_en.jasper export.sqrelation.measurements.pdf.file = /jasper/sqmeasurements_en.jasper export.sqrelation.pdf.mode = Load Discharge Relation export.minfo.bedquality.km = km export.minfo.bedquality.density.toplayer = Density Toplayer [t/m\u00b3] export.minfo.bedquality.density.sublayer = Density Sublayer [t/m\u00b3] export.minfo.bedquality.porosity.toplayer = Porosity Toplayer [%] export.minfo.bedquality.porosity.sublayer = Porosity Sublayer [%] export.minfo.bedquality.diameter.bedload = Bedload Diameter [mm] export.minfo.bedquality.diameter.toplayer = Bed Diameter Toplayer [mm] export.minfo.bedquality.diameter.sublayer = Bed Diameter Sublayer [mm] export.minfo.beddifference.km = km export.minfo.beddifference.diff = Bedheight Difference [cm] export.minfo.beddifference.diff.pair = Difference pair export.minfo.beddifference.pdf.file = /jasper/beddifference_en.jasper export.minfo.beddifference.pdf.title = Bedheight Difference export.minfo.beddifference.pdf.mode = Bedheight Difference export.minfo.beddifference.sounding1 = Sounding width minuend [m] export.minfo.beddifference.sounding2 = Sounding width subtrahend [m] export.minfo.beddifference.gap1 = Data gap minuend [%] export.minfo.beddifference.gap2 = Data gap subtrahend [%] floodmap.wmsbackground = Background Map floodmap.riveraxis = River Axis floodmap.uesk = Floodmap: {0}-km {1,number,####} - {2,number,####} - {3} floodmap.barriers = Digitized Objects floodmap.kms = Kilometrage floodmap.qps = Crosssection Tracks floodmap.hws = Flood Control Works floodmap.hws.lines.official = Official Flood Control Works floodmap.hws.points.official = Official Flood Control Works (points) floodmap.catchment = Catchment floodmap.floodplain = Floodplain floodmap.lines = Lines floodmap.buildings = Buildings floodmap.fixpoints = Fixpoints floodmap.floodmaps = Floodmaps floodmap.usershape = User data floodmap.isobath.class = {0,number,#.#} m to {1,number,#.#} m floodmap.isobath.lastclass = greater {0,number,#.#} m wsplgen.job.queued = WSPLGEN job in queue. wsplgen.job.error = An unexpected error while starting WSPLGEN occured. official.line.found = Found official line for {0} from year {1,date,yyyy} from {2}. wsp.selected.string = {0} Mosel = Mosel Saar = Saar Elbe = Elbe state.map.river = River spline.interpolation.failed = Spline interpolation failed. cannot.find.w.for.q = Cannot find W for Q = {0,number,#.##}. cannot.find.q = Cannot find Q = {0,number,#.##}. no.ws.found = No Ws found. no.q.found.in.column = No Q found in {0,integer} column. spline.creation.failed = Spline creation failed. cannot.find.w.or.q = Cannot find W or Q. km.not.found = Cannot find km. cannot.create.wq.relation = Cannot create W/Q relation. cannot.create.index.q.relation = Cannot create index/Q relation. cannot.find.q.for.w = Cannot find Q for W = {0,number,#.##}. w.w.qkm1.failed = Calculating Q for WST index {0,number,#.##} failed. w.w.wkm1.failed = Calculating W for Q = {0,number,#.##} / WST index {1,number,#.##} failed. w.w.qkm2.failed = Calculating Q for WST index {0,number,#.##} failed. w.w.wkm2.failed = Calculating W for Q = {0,number,#.##} / WST index {1,number,#.##} failed. hist.discharge.no.value.in.ref = {0} {1} not in reference table cannot.find.hist.q.for.w = Cannot find Q for W = {0,number,#.##} in timerange {1, date} - {2, date} cannot.find.hist.w.for.q = Cannot find W for Q = {0,number,#.##} in timerange {1, date} - {2, date} cannot.find.hist.q.tables = Cannot find Discharge Tables for given timerange. cannot.find.hist.q.reftable = Cannot find reference Discharge Table for specified Gauge. more.than.one.q.for.w = Found more Qs for W = {0,number,#.##}. extreme_wq_curve = Curve for extreme WQ extreme_wq_base_curve = Measurement basis for extreme WQ no.river.selected = No river selected. no.gauge.selected = No gauge selected. no.locations.selected = No locations selected. no.kms.selected = No KMs selected. converting.ws.to.qs.failed = Converting Ws to Qs failed. no.wst.for.river = No WST found for selected river. no.range.found = No range found. no.gauge.found.for.km = No gauge found for KM {0}. cannot.create.segments = Cannot create segments. cannot.compute.discharge.curve = Cannot create discharge curve. cannot.find.ds = Cannot find Ds. no.segments.found = No segments found. no.values.given = No values given. cannot.interpolate.w.q = Cannot interpolate W/Q. manualpoints = Manual Points no.reference.start.km = No reference start station given. no.reference.end.kms = No reference end station(s) given. waterlevels = Waterlevels help.index=${help.url}/OnlineHilfe help.state.winfo=${help.url}/OnlineHilfe/WINFO help.state.winfo.river=${help.url}/OnlineHilfe/WINFO#help.state.winfo.river help.state.winfo.calculation_mode=${help.url}/OnlineHilfe/WINFO#help.state.winfo.calculation_mode help.state.winfo.location=${help.url}/OnlineHilfe/WINFO#help.state.winfo.location help.state.winfo.distance_only=${help.url}/OnlineHilfe/WINFO#help.state.winfo.distance_only help.state.winfo.distance=${help.url}/OnlineHilfe/WINFO#help.state.winfo.distance help.state.winfo.location_distance=${help.url}/OnlineHilfe/WINFO#help.state.winfo.location_distance help.state.winfo.wq=${help.url}/OnlineHilfe/WINFO#help.state.winfo.wq help.state.winfo.wq_adapted=${help.url}/OnlineHilfe/WINFO#help.state.winfo.wq_adapted help.state.winfo.waterlevel_pair_select=${help.url}/OnlineHilfe/WINFO#help.state.winfo.waterlevel_pair_select help.state.winfo.reference.curve.input.start=${help.url}/OnlineHilfe/WINFO#help.state.winfo.reference.curve.input.start help.state.winfo.reference.curve.input.end=${help.url}/OnlineHilfe/WINFO#help.state.winfo.reference.curve.input.end help.state.winfo.uesk.wsp=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.wsp help.state.winfo.uesk.dgm=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.dgm help.state.winfo.uesk.profiles=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.profiles help.state.winfo.uesk.floodplain=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.floodplain help.state.winfo.uesk.differences=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.differences help.state.winfo.uesk.scenario=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.scenario help.state.winfo.uesk.dc-hws=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.scenario help.state.winfo.uesk.user-rgd=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.scenario help.state.winfo.uesk.barriers=${help.url}/OnlineHilfe/WINFO#help.state.winfo.uesk.scenario help.state.winfo.historicalq.reference_gauge=${help.url}/OnlineHilfe/WINFO#help.state.winfo.historicalq.reference_gauge help.state.winfo.historicalq.timerange=${help.url}/OnlineHilfe/WINFO#help.state.winfo.historicalq.timerange help.state.winfo.historicalq.mode=${help.url}/OnlineHilfe/WINFO#help.state.winfo.historicalq.mode help.state.winfo.function_select=${help.url}/OnlineHilfe/WINFO#help.state.winfo.function_select help.state.winfo.extreme.percent=${help.url}/OnlineHilfe/WINFO#help.state.winfo.extreme.percent help.state.winfo.extreme.qinput=${help.url}/OnlineHilfe/WINFO#help.state.winfo.extreme.qinput help.state.minfo.river=${help.url}/OnlineHilfe/MINFO#help.state.minfo.river help.state.minfo.calculation_mode=${help.url}/OnlineHilfe/MINFO#help.state.minfo.calculation_mode help.state.minfo.distance_only=${help.url}/OnlineHilfe/MINFO#help.state.minfo.distance_only help.state.minfo.distance=${help.url}/OnlineHilfe/MINFO#help.state.minfo.distance help.state.minfo.bed.year_epoch=${help.url}/OnlineHilfe/MINFO#help.state.minfo.bed.year_epoch help.state.minfo.sq.location=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sq.location help.state.minfo.bed.location=${help.url}/OnlineHilfe/MINFO#help.state.minfo.bed.location help.state.minfo.dischargestate=${help.url}/OnlineHilfe/MINFO#help.state.minfo.dischargestate help.state.minfo.soundings=${help.url}/OnlineHilfe/MINFO#help.state.minfo.soundings help.state.minfo.bed.difference_select=${help.url}/OnlineHilfe/MINFO#help.state.minfo.bed.difference_select help.state.minfo.sq.outliermethod=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sq.outliermethod help.state.minfo.sq.outliers=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sq.outliers help.state.minfo.sediment.load.year_epoch=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sediment.load.year_epoch help.state.minfo.sediment.load.location=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sediment.load.location help.state.minfo.bed.periods=${help.url}/OnlineHilfe/MINFO#help.state.minfo.bed.periods help.state.minfo.bed.char_diameter=${help.url}/OnlineHilfe/MINFO#help.state.minfo.bed.char_diameter help.state.minfo.sediment.load.period=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sediment.load.period help.state.minfo.sediment.load.epochs=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sediment.load.epochs help.state.minfo.sediment.load.off_epochs=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sediment.load.off_epochs help.state.minfo.sediment.load.unit=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sediment.load.unit help.state.minfo.sq.period=${help.url}/OnlineHilfe/MINFO#help.state.minfo.sq.period fix.reference.period=Reference period fix.reference.period.event=Reference event fix.reference.period.event.short=R fix.analysis.short=A fix.analysis.periods=Analysis periods fix.derivative=Derivative fix.outlier=Outlier fix.interpolated = interpolated fix.analysis=Analysis event fix.deviation=Standard deviation fix.reference.deviation=Reference deviation fix.vollmer.wq.curve=Adjusted function fix.vollmer.wq.events=Events qsectors=Discharge Sectors fix.mnq=arround MNQ fix.mq=arraound MQ fix.mhq=arround MHQ fix.hq5=over HQ5 chart.fix.deltawt.title=Difference from compensating curve at kilometer {0} chart.fix.deltawt.subtitle=Water: {0}; Period: {1,date,short} to {2,date,short}; Reference period: {3,date,short} bis {4,date,short} chart.fix.deltawt.xaxis.label=Date chart.fix.deltawt.yaxis.label=\u0394 W(t) [cm] chart.fixings.wq.subtitle=River: {0}; Range: {1,date,short} to {2,date,short}; Reference period: {3,date,short} to {4,date,short} chart.fixings.wq.subtitle1={0,date,short} to {1,date,short} chart.fixings.longitudinalsection.title=\u0394W Longitudinal section chart.fixings.deltawt.title = Differences from fitted curve at km {0} export.fixings.deltawt.csv.header.km=km export.fixings.deltawt.csv.header.deltaw=\u0394 W [cm] export.fixings.deltawt.csv.header.q=Discharge [m\u00b3/s] export.fixings.deltawt.csv.header.w=Waterlevel [{0}] export.fixings.deltawt.csv.header.t=Date export.fixings.deltawt.csv.t.format=yyyy/MM/dd export.fixings.deltawt.csv.header.time.range=State export.fixings.deltawt.csv.reference=R export.fixings.deltawt.csv.analysis=A{0,number,integer} fix.missing.river=Missing river fix.missing.from=Missing start km fix.missing.to=Missing end km fix.missing.step="Missing step width fix.missing.function=Missing function type fix.missing.events=Missing list of events fix.missing.reference.period=Missing reference period fix.missing.analysis.periods=Missing analysis periods fix.missing.qstart.sector=Missing discharge start sector fix.missing.qend.sector=Missing discharge end sector fix.missing.prepocessing=Missing info about preprocessing fix.no.overview.available=No overview available fix.invalid.function.name=Name of function unknown fix.too.less.data.colums=Too less data columns for calculation fix.fitting.failed=Fitting failed fix.invalid.values=Invalid values fix.cannot.load.data=Cannot fetch data from database fix.realize.missing.is.q=No Q value found fix.realize.missing.segments=Missing values for gauges fix.no.such.river=River not found fix.cannot.find.segment=Outside of gauge ranges fix.cannot.calculate.function=Evaluation of function failed fix.km.chart.q.sector.border0=(MNQ + MQ)/2 fix.km.chart.q.sector.border1=(MQ + MHQ)/2 fix.km.chart.q.sector.border2=HQ5 fix.km.chart.label.date=yyyy/MM/dd fix.km.chart.title=Fixings {0} km {1,number,#.###} fix.km.chart.w.axis=W [NN + m] fix.km.chart.measured=measured fix.km.chart.interpolated=interpolated fix.export.at.header = Exported fixings discharge curve for {0} {0}-km: {1} fix.export.at.gauge.header = Exported fixings discharge curve for {0}, gauge: {1} datum[{3}] = {2} sq.km.chart.label = Measuring Points sq.km.chart.title = Measuring Points sq.km.chart.km.axis = km sq.km.chart.date.axis = Date static.sq.river = River static.sq.station = Station module.winfo = W-INFO module.sinfo = S-INFO module.uinfo = U-INFO module.minfo = M-INFO module.fixanalysis = Fix Analysis module.new_map = New Map module.new_chart = New Chart module.bundu = Betrieb und Unterhaltung load_diameter = Bedload Diameter bed_diameter = Bed Diameter area.label.template = Area = %s m\u00b2 gauge.discharge.service.chart.title = Discharge Tables at Gauge {0} gauge.discharge.service.chart.y.title = W [cm] gauge.discharge.service.chart.series.title = Discharge Curve {0,date,short} - {1,date,short} gauge.discharge.service.chart.series.title.master = Current Discharge Curve since {0,date,short} bed.km.chart.label = Sedimentdata bed.km.chart.title = Sedimentdata SedDB bedload.km.chart.label = Geschiebedaten bedload.km.chart.title = Geschiebedatenbestand SedDB help.state.fix.river=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.river help.state.fix.calculation.mode=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.calculation.mode help.state.fix.location=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.location help.state.fix.period=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.period help.state.fix.gaugerange=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.gaugerange help.state.fix.eventselect=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.eventselect help.state.fix.analysis.referenceperiod=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.analysis.referenceperiod help.state.fix.analysis.analysisperiods=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.analysis.analysisperiods help.state.fix.analysis.function=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.analysis.function help.state.fix.analysis.preprocessing=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.analysis.preprocessing help.state.fix.analysis.compute=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.analysis.compute help.state.fix.vollmer.function=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.vollmer.function help.state.fix.vollmer.preprocessing=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.vollmer.preprocessing help.state.fix.vollmer.qs=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.vollmer.qs help.state.fix.vollmer.compute=${help.url}/OnlineHilfe/Fixierungsanalyse#help.state.fix.vollmer.compute module.group.ingwerds = INGwerDs # empty label, so it does not get a group-frame in the ui module.group.bottom = state.sinfo.river = River state.sinfo.calculation_mode=Calculation Mode sinfo_calc_flow_depth=Flie\u00dftiefen sinfo_calc_flow_depth.warning.missingQ = {0}: no discharge available, calculation of transport body height not possible sinfo_calc_flow_depth.warning.waterlevel_discretisation = Wasserspiegel {0}: r\u00e4umliche Aufl\u00f6sung betr\u00e4gt mehr als 1000m sinfo_calc_flow_depth.warning.year_difference = {0}: Sie verwenden als Differenzenpaar eine Wasserspiegellage aus dem Jahr {1} und eine Peilung aus dem Jahr {2}. Dies kann zu unplausiblen Werten f\u00fchren. sinfo.bedheightsfinder.nobedheightsforriver = No default bed heights for river {0} sinfo.bedheightsfinder.badrange = Invalid range for bed heights {0}. sinfo.bedheightsfinder.overlappingrange = Range of bed height {0} overlaps with other ranges. sinfo.bedheightsfinder.missingdescription = River {0} has no bed heights with description {1} sinfo.bedheightsfinder.configfile.loaderror = Failed to load config file ''{0}'': {1} sinfo.bedheightsfinder.notfound = Failed to access sounding with id ''{0}'' sinfo.bedheightsfinder.empty = The bed heights do not contain any values for the selected calculation range sinfo_calc_flow_depth_development=Flie\u00dftiefenentwicklung sinfo_calc_flow_depth_minmax=Minimale und Maximale Flie\u00dftiefe sinfo_calc_collision=Grundber\u00fchrungen sinfo_calc_transport_bodies_heights=Transportk\u00f6rperh\u00f6hen sinfo_calc_flood_duration=\u00dcberflutungsdauern Infrastrukturen BWaStr state.sinfo.infrastructures_inundation = \u00dcberflutungsdauern Infrastrukturen BWaStr (Ergebnis) help.state.sinfo.infrastructures_inundation = ${help.url}/OnlineHilfe/SINFO#help.state.infrastructures_inundation help.state.sinfo=${help.url}/OnlineHilfe/SINFO help.state.sinfo.river=${help.url}/OnlineHilfe/SINFO#help.state.sinfo.river help.state.sinfo.calculation_mode=${help.url}/OnlineHilfe/SINFO#help.state.sinfo.calculation_mode state.sinfo.distance_only = Range selection help.state.sinfo.distance_only = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.distance_only state.sinfo.distance = Choose the range help.state.sinfo.distance = ${help.url}/OnlineHilfe/help.state.sinfo.distance state.sinfo.wq = Input for W/Q data help.state.sinfo.wq=${help.url}/OnlineHilfe/SINFO#help.state.sinfo.wq state.sinfo.transport_bodies_heights=Transportk\u00f6rperh\u00f6hen help.state.sinfo.transport_bodies_heights=${help.url}/OnlineHilfe/SINFO#help.state.sinfo.transport_bodies_heights state.sinfo.waterlevel_soundings_select= Chosen Differences help.state.sinfo.waterlevel_soundings_select=${help.url}/OnlineHilfe/SINFO#help.state.sinfo.waterlevel_soundings_select state.sinfo.waterlevel_soundings_minmax_select= Chosen Differences help.state.sinfo.waterlevel_soundings_minmax_select=${help.url}/OnlineHilfe/SINFO#help.state.sinfo.waterlevel_soundings_minmax_select state.sinfo.use_transport_bodies=Transportk\u00f6rperh\u00f6hen help.state.sinfo.use_transport_bodies=${help.url}/OnlineHilfe/SINFO#help.state.sinfo.use_transport_bodies state.sinfo.flow_depth_minmax = minimale/maximale Flie\u00dftiefen help.state.sinfo.flow_depth_minmax = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.flow_depth_minmax state.sinfo.flow_depth_development = Flie\u00dftiefenentwicklung help.state.sinfo.flow_depth_development = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.flow_depth_development useTransportBodies.option = Transportk\u00f6rperh\u00f6hen miteinbeziehen? useTransportBodies.active = Active useTransportBodies.inactive = Inactive state.sinfo.flowdepthdevlopment_current_select = Aktuelles Differenzenpaar help.state.sinfo.flowdepthdevlopment_current_select = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.flowdepthdevlopment_current_select state.sinfo.flowdepthdevlopment_historical_select = Historisches Differenzenpaar help.state.sinfo.flowdepthdevlopment_historical_select = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.flowdepthdevlopment_historical_select help.state.sinfo.collisions.year_epoch_choice = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.collisions.year_epoch_choice help.state.sinfo.collisions.epochs = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.collisions.epochs help.state.sinfo.collisions.years = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.collisions.years state.sinfo.riverside = Auswahl der Uferseite state.sinfo.riverside.option1 = Linke Uferseite state.sinfo.riverside.option2 = Rechte Uferseite state.sinfo.riverside.option3 = Beide Uferseiten help.state.sinfo.riverside= ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.riverside state.bundu.wst.qs = Eingabe f\u00fcr UD/Q Daten state.sinfo.wqinput = Eingabe f\u00fcr W/Q Daten state.sinfo.wqinput.option = wqinput-option help.state.sinfo.wqinput = ${help.url}/OnlineHilfe/SINFO#help.state.sinfo.wqinput help.state.sinfo.flood_duration.wq = ${help.url}/OnlineHilfe/SINFO#state.sinfo.flood_duration.wq state.sinfo.flood_duration.wq = Input for W/Q data state.sinfo.wspl = Wasserspiegellagen state.sinfo.wspl.option = Wasserspiegellagen zus\u00e4tzlich darstellen? state.sinfo.wspl.active = Ja state.sinfo.wspl.inactive = Nein sinfo.export.flow_depth.csv.meta.header.result = ## {0} - {1} - {2} sinfo.export.flow_depth.csv.meta.header.result.label = Calculation Output sinfo.export.flow_depth.csv.meta.version = # {0}: {1} sinfo.export.flow_depth.csv.meta.version.label = FLYS-Version sinfo.export.flow_depth.csv.meta.user = # {0}: {1} sinfo.export.flow_depth.csv.meta.user.label = Bearbeiter sinfo.export.flow_depth.csv.meta.creation = # {0}: {1} sinfo.export.flow_depth.csv.meta.creation.label = Time of creation sinfo.export.flow_depth.csv.meta.river = # {0}: {1} sinfo.export.flow_depth.csv.meta.river.label = Gew\u00e4sser common.export.csv.meta.header.sounding = ##METADATEN PEILUNG common.export.csv.meta.header.sounding.year = # Jahr der Peilung: {0} common.export.csv.meta.header.sounding.type = # Aufnahmeart: {0} common.export.csv.meta.header.sounding.evaluator = # Auswerter: {0} common.export.csv.meta.header.sounding.prj = # Lagesystem: {0} common.export.csv.meta.header.sounding.elevationmodel = # H\u00f6hensystem: {0} common.export.csv.meta.header.sounding.elevationmodel.original = # urspr\u00fcngliches H\u00f6hensystem: {0} common.export.csv.meta.header.waterlevel = ##METADATEN WASSERSPIEGELLAGE common.export.csv.meta.header.waterlevel.name = # Bezeichnung der Wasserspiegellage: {0} common.export.csv.meta.header.waterlevel.gauge = # Bezugspegel: {0} common.export.csv.meta.header.waterlevel.year = # Jahr/Zeitraum der Wasserspiegellage: {0} sinfo.export.flow_depth.csv.meta.range = # {0}: {1} - {2} sinfo.export.flow_depth.csv.meta.range.label = Range (km) sinfo.export.flow_depth.pdf.meta.calculation.label = Angewandte Gleichung sinfo.export.flow_depth.pdf.meta.calculation.name = Gill (1971) sinfo.export.flow_depth.csv.meta.height_unit.river = # H\u00f6hensystem des Flusses: {0} bundu.export.bezugswst.csv.meta.function = # Ausgleichsfunktion: {0} bundu.export.bezugswst.csv.meta.preprocessing = # Ausrei\u00dfertest: {0} bundu.export.bezugswst.csv.meta.q_period = # Zeitraum der Abflusszeitreihe: {0} - {1} bundu.export.bezugswst.csv.meta.ud = # UD (d/a): {0} bundu.export.bezugswst.csv.meta.missing_volume_range = # Bereich der Fehltiefenermittlung: {0} - {1} bundu.export.csv.title.bezugswst.overview = \u00dcbersicht bundu.export.csv.title.bezugswst.result1 = Fehlvolumenermittlung 1 bundu.export.csv.title.bezugswst.result2 = Fehlvolumenermittlung 2 bundu.export.csv.title.bezugswst.result3 = Summe der Fehlvolumen bundu.export.bezugswst.csv.meta.miss.density = Lagerungsdichte [t/m\u00b3] bundu.export.bezugswst.pdf.meta.miss.density = Lagerungs-dichte [t/m\u00b3] bundu.export.bezugswst.csv.meta.miss.channel.width = Breite Fahrrinnenkasten [m] bundu.export.bezugswst.pdf.meta.miss.channel.width = Breite Fahr-rinnen-kasten [m] bundu.export.bezugswst.csv.meta.miss.costs = Baggerkosten [\u20ac] bundu.export.bezugswst.pdf.meta.miss.costs = Bagger-kosten [\u20ac] bundu.export.bezugswst.csv.meta.miss.excavation = Baggervolumina [m\u00b3] bundu.export.bezugswst.pdf.meta.miss.excavation = Bagger-volumina [m\u00b3] bundu.export.bezugswst.csv.meta.miss.mass = Masse Fehltiefe ges. [t] bundu.export.bezugswst.csv.meta.miss.volume = Volumen Fehltiefe ges. [m\u00b3] bundu.export.bezugswst.csv.meta.miss.exists = Fehltiefe vorhanden? bundu.export.bezugswst.pdf.meta.miss.exists = Fehl-tiefe vor-handen? bundu.export.bezugswst.csv.meta.miss.channel.min_depth = Zu gew\u00e4hrleistende Fahrrinnentiefe [m] bundu.export.bezugswst.pdf.meta.miss.channel.min_depth = Zu gew\u00e4hr-leistende Fahrrinnen-tiefe [m] bundu.export.bezugswst.csv.meta.miss.channel.lower_edge = Unterkante Fahrrinnenkasten bundu.export.bezugswst.pdf.meta.miss.channel.lower_edge = Unterkante Fahrrinnen-kasten bundu.export.bezugswst.csv.meta.miss.sounding = Peilung bundu.export.bezugswst.csv.meta.miss.field = Feld {0} Fehlvolumen/-masse bundu.export.bezugswst.csv.meta.miss.mean_bedheight = Mittlere Sohlh\u00f6he Fehlvolumen/-masse export.flow_depth.csv.header.km = Fluss-km sinfo.export.flow_depth.csv.header.flowdepth = Flie\u00dftiefe sinfo.export.flow_depth.csv.header.flowdepthTkh = Flie\u00dftiefe mit TKH sinfo.export.flow_depth.csv.header.tkh = TKH sinfo.export.flow_depth.csv.header.waterlevel = Wasserstand sinfo.export.flow_depth.pdf.header.waterlevel = Wasser-stand sinfo.export.flow_depth.csv.header.discharge = Q sinfo.export.collision.csv.header.discharge_long = Abfluss common.export.csv.header.mainvalue_label = Bezeichnung common.export.csv.header.gauge = Bezugspegel sinfo.export.flow_depth.csv.header.mean_bed_height = Mittlere Sohlh\u00f6he sinfo.export.flow_depth.csv.header.mean_bed_height.short = Mittlere Sohl- sinfo.export.flow_depth.csv.header.sounding = Peilung/Epoche common.export.csv.header.location = Lage sinfo.export.flood_duration.csv.header.riverside = Uferseite sinfo.export.flood_duration.csv.header.infrastructure.height = H\u00f6he der Infrastruktur sinfo.export.flood_duration.csv.header.duration = \u00dcberflutungsdauer [d/a] sinfo.export.flood_duration.csv.header.discharge = \u00dcberflutungsdauerabfluss Q sinfo.export.flood_duration.csv.header.infrastructure_type = Infrastrukturtyp sinfo.export.flood_duration.pdf.header.duration = \u00dcber-flutungs-dauer [d/a] sinfo.export.flood_duration.pdf.header.discharge = \u00dcber-flutungs-dauer-abfluss Q [m\u00b3/s] sinfo.export.flood_duration.pdf.header.infrastructure_type = Infra-struktur-typ sinfo.export.flood_duration.pdf.header.infrastructure.height = H\u00f6he der Infra-struktur sinfo.chart.flow_depth.section.title=h-L\u00e4ngsschnitt sinfo.chart.km.xaxis.label = {0}-km sinfo.chart.flow_depth.yaxis.label = Flie\u00dftiefe [m] sinfo.chart.flow_depth.section.yaxis.label=Flie\u00dftiefe [m] sinfo.facet.flow_depth.filtered.description = h ({0}) sinfo.facet.flow_depth.raw.description = h ({0}) (raw) sinfo.facet.flow_depth_with_tkh.filtered.description = h + \u0394d ({0}) sinfo.facet.flow_depth_with_tkh.raw.description = h + \u0394d ({0}) (raw) sinfo.chart.flow_depth_minmax.section.title = min/max h-L\u00e4ngsschnitt sinfo.facet.flow_depth_min.filtered.description = h-min ({0}) sinfo.facet.flow_depth_min.raw.description = h-min ({0}) (raw) sinfo.facet.flow_depth_max.filtered.description = h-max ({0}) sinfo.facet.flow_depth_max.raw.description = h-max ({0}) (raw) sinfo.chart.tkh.section.title=Transportk\u00f6rperh\u00f6hen sinfo.chart.tkh.section.yaxis.label = Transportk\u00f6rperh\u00f6hen [cm] sinfo.chart.tkh.yaxis.label = Transportk\u00f6rperh\u00f6hen [cm] sinfo.facet.tkh.description = \u0394d ({0}) sinfo.export.tkh.calculation.formula = # Berechnungsgrundlage: Gleichung nach GILL (1971) sinfo.export.tkh.csv.header.tkh = Transportk\u00f6rperh\u00f6he sinfo.export.tkh.csv.header.tkhkind = Einteilung der Gew\u00e4ssersohle sinfo.export.tkh.pdf.header.tkhkind = Einteilung der Gew\u00e4sser-sohle sinfo.export.tkh.soilkind.mobil = Mobil sinfo.export.tkh.soilkind.starr = Starr sinfo.chart.tkh_velocity.section.yaxis.label = Flie\u00dfgeschwindigkeit [m/s] sinfo.chart.tkh_velocity.yaxis.label = Flie\u00dfgeschwindigkeit [m/s] sinfo.facet.tkh_velocity.description = Flie\u00dfgeschwindigkeit ({0}) sinfo.chart.tkh_tau.section.yaxis.label = Sohlschubspannung [N/m\u00b2] sinfo.chart.tkh_tau.yaxis.label = Sohlschubspannung [N/m\u00b2] sinfo.facet.tkh_tau.description = Sohlschubspannung ({0}) sinfo.chart.tkh_d50.section.yaxis.label = Sohlbeschaffenheit D50 [mm] sinfo.chart.tkh_d50.yaxis.label = Sohlbeschaffenheit D50 [mm] sinfo.facet.tkh_d50.description = Sohlbeschaffenheit D50 ({0}) sinfo.chart.flow_depth_development.section.title = Flie\u00dftiefenentwicklung sinfo.chart.flow_depth_development.section.yaxis.label = Flie\u00dftiefenentwicklung [cm] sinfo.chart.flow_depth.development.yaxis.label = Flie\u00dftiefenentwicklung [cm] sinfo.chart.flow_depth_development_perYear.section.title = Flie\u00dftiefenentwicklung pro Jahr sinfo.chart.flow_depth_development_per_year.section.yaxis.label = Flie\u00dftiefenentwicklung pro Jahr [cm/a] sinfo.chart.flow_depth_development_per_year.yaxis.label = Flie\u00dftiefenentwicklung pro Jahr [cm/a] sinfo.facet.flow_depth_development_per_year.filtered = \u0394h/t [cm/a] sinfo.facet.flow_depth_development_per_year.filtered.description = \u0394h/t ({0}) sinfo.facet.flow_depth_development_per_year.raw.description = \u0394h/t ({0}) (raw) sinfo_facet_flow_depth_development.filtered = \u0394h [cm] sinfo.facet.flow_depth_development.filtered.description = \u0394h ({0}) sinfo.facet.flow_depth_development.raw.description = \u0394h ({0}) (raw) sinfo_facet_waterlevel_difference.filtered = \u0394WSPL [cm] sinfo.facet.waterlevel_difference.filtered.description = \u0394WSPL ({0}) sinfo_facet_bedheight_difference.filtered = \u0394WSPL [cm] sinfo.facet.bedheight_difference.filtered.description = \u0394MSH ({0}) sinfo_facet_flow_depth_current.filtered = h-aktuell [m] sinfo.facet.flow_depth_current.filtered.description = h-aktuell ({0}) sinfo.facet.flow_depth_current.raw.description = h-aktuell ({0}) (raw) sinfo_facet_flow_depth_historical.filtered = h-historisch [m] sinfo.facet.flow_depth_historical.filtered.description = h-historisch ({0}) sinfo.facet.flow_depth_historical.raw.description = h-historisch ({0}) (raw) sinfo.flood_duration.header.bezeichnung_index = Bezeichnung{0} sinfo.flood_duration.header.pdf.bezeichnung_index = Bezeich-nung{0} sinfo.flood_duration.header.duration_index = \u00dcberflutungsdauer WSPL{0} [d/a] sinfo.flood_duration.header.fd_per_year_index = \u00dcberflutungsdauer WSPL{0} [d/a] sinfo.flood_duration.header.pdf.fd_per_year_index = \u00dcberflu-tungs-dauer WSPL{0} [d/a] sinfo.flood_duration.header.w_index = Wasserstand/Wasserspiegellage{0} [{1}] sinfo.flood_duration.header.pdf.w_index = Wasser-stand/ Wasser-spiegel-lage{0} sinfo.flood_duration.header.q_index = Q{0} [m\u00b3/s] sinfo.export.flow_depth_minmax.csv.header.min = Minimale Flie\u00dftiefe sinfo.export.flow_depth_minmax.csv.header.max = Maximale Flie\u00dftiefe waterlevelfetcher.missing = Failed to access waterlevel with id ''{0}'' waterlevelfetcher.empty = The water level {0} does not contain any values for the selected calculation range bedqualityd50kmvaluefinder.error = Failed to access D50 data, calculation of transport body height not possible: {0} bedqualityd50kmvaluefinder.empty = The bed quality (D50) does not contain any values for the selected calculation range and sounding year {0} bedqualityd50kmvaluefinder.missing = Bed quality (D50) not available soilkindkmvaluefinder.empty = no soil kind available for the selected calculation range, calculation of transport body height not possible soilkindkmvaluefinder.missing = no soil kind available flowvelocitymodelkmvaluefinder.empty = no flow velocities available for the selected calculation range, calculation of transport body height not possible flowvelocitymodelkmvaluefinder.missing = no flow velocities available, calculation of transport body height not possible linearInterpolator.maxdistance = spatial discretisation exceeds {0}m, interpolation does not take place sinfo.export.csv.meta.header.sounding.current = ##METADATEN PEILUNG aktuell sinfo.export.csv.meta.header.sounding.historical = ##METADATEN PEILUNG historisch sinfo.export.csv.meta.header.waterlevel.current = ##METADATEN WASSERSPIEGELLAGE aktuell sinfo.export.csv.meta.header.waterlevel.historical = ##METADATEN WASSERSPIEGELLAGE historisch sinfo.export.csv.header.channel.width = Sollbreite Fahrrinne sinfo.export.csv.header.channel.depth = Solltiefe Fahrrinne sinfo.export.csv.header.flowdepth.development = Flie\u00dftiefenentwicklung sinfo.export.pdf.header.flowdepth.development = Flie\u00dftiefen-entwicklung sinfo.export.csv.header.flowdepth.development.per.year = Flie\u00dftiefenentwicklung pro Jahr sinfo.export.pdf.header.flowdepth.development.per.year = Flie\u00dftiefenent-wicklung pro Jahr sinfo.export.csv.header.waterlevel.difference = \u0394WSPL sinfo.export.csv.header.mean_bed_height.difference = \u0394MSH sinfo.export.csv.header.flowdepth.current = Flie\u00dftiefe h-aktuell sinfo.export.csv.header.flowdepth.historical = Flie\u00dftiefe h-historisch flowdepthdevelopmentcalculation.missingCurrentYear = Failed to determine date of current watterlevel ({0}), calculation not possible. flowdepthdevelopmentcalculation.missingHistoricalYear = Failed to determine date of historical watterlevel ({0}), calculation not possible. abstractsinfocalculationresults.emptyResult = {0}: result set is empty, please check the data ranges of the input flowdepthdevelopmentcalculation.yearDifferenceCurrent = aktuelles Differenzenpaar flowdepthdevelopmentcalculation.yearDifferenceHistorical = = historisches Differenzenpaar state.uinfo.inundation.vegetation=Einteilung der Vegetationszonen und \u00dcberflutunsgdauern state.uinfo.inundation.use_scenario=Szenariobetrachtung state.uinfo.inundation.load.scenario.regional = \u00c4nderungen der MW-Spiegellage state.uinfo.inundation.scenario.regional = Eingabe der \u00c4nderung der Mittelwasserspiegellage (bis zu 5 Werte m\u00f6glich) state.uinfo.inundation.scenario = Werte f\u00fcr \u00c4nderung der Sohl- bzw. Mittelwasserlage eingeben state.uinfo.salix.use_scenario=Szenariobetrachtung useScenario.option = Zus\u00e4tzlich Szenariobetrachtung miteinbeziehen? useScenario.active = Active useScenario.inactive = Inactive help.state.uinfo.salix.use_scenario=${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.use_scenario help.state.uinfo.river=${help.url}/OnlineHilfe/UINFO#help.state.uinfo.river help.state.uinfo.calculation_mode=${help.url}/OnlineHilfe/UINFO#help.state.uinfo.calculation_mode state.uinfo.salix.scenario_type = Szenariotyp state.uinfo.load.scenario_type=Auswahl des Szenariotyps scenarioType.option1 = Regional wirkende Eingriffe scenarioType.option2 = \u00dcberregional wirkende Eingriffe scenarioType.option3 = Historische Betrachtung help.state.uinfo.salix.scenario_type=${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.scenario_type help.state.uinfo.salix.distance_only = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.distance_only help.state.uinfo.salix.use_scenario = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.use_scenario help.state.uinfo.salix.scenario_type = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.scenario_type help.state.uinfo.salix.supraregional = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.supraregional help.state.uinfo.salix.regional = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.regional help.state.uinfo.salix.historical = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.historical help.state.uinfo.salix.historical.soundings = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.historical.soundings help.state.uinfo.salix.historical.distance_only_part = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.salix.historical.distance_only_part help.state.uinfo.inundation_duration = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.inundation_duration help.state.uinfo.inundation_duration.location = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.inundation_duration.location help.state.uinfo.vegetation_zones = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.vegetation_zones help.state.uinfo.inundation.use_scenario = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.inundation.use_scenario help.state.uinfo.inundation.scenario = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.inundation.scenario help.state.uinfo.inundation.vegetation = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.vegetation help.state.uinfo.inundation.load.year = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.inundation.load.year state.bundu.wst.load.distance_only_part = Fehltiefenermittlung state.uinfo.distance_only_part.historical= Teilabschnitt state.uinfo.distance_only_part.from_regional= Teilabschnitt state.uinfo.distance_only_part = Teilabschnitt help.state.uinfo.vegetationzone.distance_only = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.vegetationzone.distance_only state.uinfo.salix.distance_only = Wahl der Berechnungsstrecke state.uinfo.distance_only = Choose calculation range [km] state.uinfo.inundationduration.distance_only = Wahl des Darstellungsbereichs help.state.uinfo.distance_only = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.distance_only help.state.uinfo.inundation.year_totalepoch = ${help.url}/OnlineHilfe/UINFO#help.state.uinfo.inundation.year_totalepoch uinfo_salix_line = Iota (Fluss/Aue-Konnektivit\u00e4t) uinfo_inundation_duration = \u00dcberflutungsdauern Aue uinfo_vegetation_zones = Vegetationszonen uinfo_vegetation_type_1 = zonal forest uinfo_vegetation_type_2 = dry hartwood forest floodplain uinfo_vegetation_type_3 = wet hartwood forest floodplain uinfo_vegetation_type_4 = salix alba forest uinfo_vegetation_type_5 = salix shrubs uinfo_vegetation_type_6 = reed bed uinfo_vegetation_type_7 = bank pioneers uinfo_vegetation_type_8 = no vegetation uinfo_vegetation_type_9 = water state.uinfo.river = Gew\u00e4sser state.uinfo.calculation_mode=Berechnungsart mainvalue.w = Wasserstand/Wasserspiegellage mainvalue.w.description = Wasserstand/Wasserspiegellage ({0}) mainvalue.duration = \u00dcberflutungsdauer mainvalue.duration.description = \u00dcberflutungsdauer ({0}) state.uinfo.salix.historical.km_range_part = Ausgewertete Strecke uinfo.salix.sounding= Peilung uinfo.salix.soundings= Soundings uinfo.export.salix_line.csv.header.scenario_deltaw = \u0394MW [cm] uinfo.export.salix_line.csv.header.scenario = Iota_Szenario [m] uinfo.export.salix_line.csv.header.salix_line = Iota [m] uinfo.export.salix_line.csv.header.mw_mnw = (MW-MNW)x(-1) [m] uinfo.export.csv.meta.header.salix.regional = ##Regional wirkende Eingriffe uinfo.export.csv.meta.header.salix.supraregional = ##\u00dcberregional wirkende Eingriffe uinfo.export.csv.meta.header.salix.teilabschnitt = # Teilabschnitt: {0} uinfo.export.csv.meta.header.salix.supraregional.teilabschnitt = # Teilabschnitte: {0} uinfo.export.csv.meta.header.salix.mwspiegelaenderung = # MittelwasserSpiegellagen\u00e4nderung: {0} uinfo.export.csv.meta.header.salix.historical = ##Historische Betrachtung uinfo.export.csv.meta.header.salix.historical.zeitpunkt = # Historischer Zeitpunkt: {0} uinfo.export.csv.meta.header.veg.name = Vegetationszonen uinfo.export.csv.meta.header.veg.dauervon = \u00dcberflutungsdauer von [d/a] uinfo.export.csv.meta.header.veg.dauerbis = \u00dcberflutungsdauer bis [d/a] uinfo.export.csv.meta.header.veg.color = Farbe uinfo.export.url.inundationduration.inundationduration = \u00dcberflutungsdauer ({0}) uinfo.export.url.inundationduration.vegetation = Vegetationszonen ({0}) uinfo.export.url.inundationduration.vegetation_scenario= Vegetationszonen Szenario ({0}, {1}cm) uinfo.export.url.inundationduration.scenario = \u00dcberflutungsdauer Szenario ({0}, {1}cm) uinfo.chart.salix_line.section.title = Iota (Fluss/Aue-Konnektivit\u00e4t) - L\u00e4ngsschnitt uinfo.chart.salix_line.section.yaxis.label = [m] uinfo_facet_salix_line = Iota uinfo_facet_salix_line.filtered.description = Iota uinfo_facet_salix_line.raw.description = Iota (Rohdaten) uinfo_facet_salix_mnwmw = (MW-MNW)x(-1) uinfo_facet_salix_mnwmw.filtered.description = (MW-MNW)x(-1) uinfo_facet_salix_mnwmw.raw.description = (MW-MNW)x(-1) (Rohdaten) uinfo_facet_salix_scenario = Iota Szenario, {0} uinfo_facet_salix_scenario.filtered.description = Iota Szenario, {0} uinfo_facet_salix_scenario.raw.description = Iota Szenario, {0} (Rohdaten) uinfo_salix_scenario_deltaw = \u0394MW={0} uinfo_salix_scenario_supraregional = \u00fcberregional uinfo_salix_scenario_historical = historisch uinfo_facet_salix_rank = Bewertungsschema uinfo_facet_salix_rank.description = Bewertungsschema uinfo_salix_calc.warning.missing_mq = MQ (MW) missing at reference gauge, no calculation possible uinfo_salix_calc.warning.missing_mhq = MHQ (MHW) missing at reference gauge, no salix calculation possible uinfo_salix_calc.warning.missing_mnq = MNQ (MNW) missing at reference gauge, no (MW-MNW) calculation possible predefineddepthevol.total.title = Gesamt: {0} predefineddepthevol.peryear.title = J\u00e4hrlich: {0} predefinedchannel.width.title = Sollbreite Fahrrinne predefinedchannel.depth.title = Solltiefe Fahrrinne sinfo.chart.channel_width.section.yaxis.label = Sollbreite Fahrrinne [m] sinfo.chart.channel_depth.section.yaxis.label = Solltiefe Fahrrinne [m] sinfo.export.csv.header.infrastructure.height = Infrastrukturh\u00f6he infrastructure.height.title = Geod. H\u00f6he ({0}) sinfo.export.csv.title.collision.detail = Abfluss/Abflusszustand sinfo.export.csv.title.collison.overview = H\u00e4ufigkeiten sinfo.export.csv.header.collision.count = Anzahl der Grundber\u00fchrungen collision.count.title = Grundber\u00fchrungen {0} chart.collision_count.section.yaxis.label = H\u00e4ufigkeit sinfo.export.csv.header.collision.gaugew = Pegelstand collision.gaugew.title = W am Pegel {0} sinfo.export.csv.header.discharge.zone = Abflusszustand sinfo.export.csv.meta.header.years = # Jahr/Zeitraum: {0} sinfo.export.csv.header.years = Jahr/Zeitraum sinfo.export.csv.meta.date = Datum sinfo.chart.collision.section.title = Grundber\u00fchrungen sinfo.chart.flood_duration.section.title = \u00dcberflutungsdauer Infrastrukturen BWaStr sinfo.chart.flood_duration.section.yaxis.label = \u00dcberflutungsdauer [d/a] sinfo_facet_flood_duration = \u00dcberflutungsdauern sinfo_facet_flood_duration.description = \u00dcberflutungsdauern Infrastrukturen BWaStr ({0}) gauge_duration.missing = Keine Dauerzahlen vorhanden am Pegel {0} gauge_discharge_table.missing = No discharge table available for gauge {0} gauge_main_values.missing = No named main values available for gauge {0} wq_base_data.missing = No base waterlevel/discharge available sinfo.chart.flood_duration.height.section.title = H\u00f6he Infrastrukturen BWaStr sinfo.chart.flood_duration.height.section.yaxis.label = H\u00f6he [{0}] sinfo_facet_flood_height = Geod\u00e4tische H\u00f6he Infrastrukturen BWaStr sinfo_facet_flood_height.description = Geod\u00e4tische H\u00f6he Infrastrukturen BWaStr ({0}) sinfo.chart.flood_duration.curve.section.title = \u00dcberflutungsdauer Infrastrukturen BWaStr - Dauerlinie sinfo.chart.flood_duration.curve.xaxis.label = \u00dcberflutungsdauer [d/a] sinfo.chart.flood_duration.curve.w = Wasserstandsdauerlinie sinfo.chart.flood_duration.curve.q = Abflussdauerlinie sinfo.chart.flood_duration.curve.mainw = W (ausgew\u00e4hlte WSPL) sinfo.chart.flood_duration.curve.mainq = Q (ausgew\u00e4hlte WSPL) sinfo.chart.flood_duration.curve.infrastructure = Infrastruktur ({0}) sinfo_facet_flood_duration_curve.infra.w.left.description = Infrastruktur links, W(\u00dcberflutung) sinfo_facet_flood_duration_curve.infra.w.right.description = Infrastruktur rechts, W(\u00dcberflutung) sinfo_facet_flood_duration_curve.infra.q.left.description = Infrastruktur links, Q(\u00dcberflutung) sinfo_facet_flood_duration_curve.infra.q.right.description = Infrastruktur rechts, Q(\u00dcberflutung) bundu_bezugswst = Bezugswasserst\u00e4nde bundu_analysis = Fixinganalysis bundu_vollmer = relocated Waterlevel Calculation state.bundu.river = River state.bundu.calculation.mode = Calculation Mode state.bundu.location = Distance state.bundu.period = Period state.bundu.gaugerange = Gaugerange state.bundu.eventselect = Event selection state.bundu.analysis.referenceperiod = Reference period state.bundu.analysis.analysisperiods = Analysis period state.bundu.analysis.function = Function state.bundu.analysis.preprocessing = Outliers state.bundu.preprocess=use outlier test state.bundu.vollmer.function=Function state.bundu.vollmer.preprocessing = Ausrei\u00dfer state.bundu.vollmer.qs = Eingabe f\u00fcr W/Q Daten state.bundu.wst.gaugerange = Gaugerange state.bundu.wst.eventselect = Event selection state.bundu.wst.location = Distance state.bundu.wst.yearselect = Bezugsjahr state.bundu.wst.fix.auto = Automatische Auswahl state.bundu.wst.fix.manual = Manuelle Auswahl state.bundu.wst.fixationchoice = Fixierungen state.bundu.wst.calc.auto = Automatische Auswahl state.bundu.wst.calc.manual = Manuelle Auswahl state.bundu.wst.missing_volume.select = Ermittlung von Fehlvolumina durchf\u00fchren help.state.bundu.calculation_mode = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.calculation_mode help.state.bundu.wst.location = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.location help.state.bundu.wst.yearselect = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.yearselect help.state.bundu.wst.fixationchoice = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.fixationchoice help.state.bundu.wst.fix.load.year_length = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.year_length help.state.bundu.wst.function = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.function help.state.bundu.wst.qs = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.qs help.state.bundu.wst.load.preprocessing = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.load.preprocessing help.state.bundu.wst.load.missing_volume = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.load.missing_volume help.state.bundu.wst.soundings = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.soundings help.state.bundu.wst.gaugerange = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.gaugerange help.state.bundu.wst.eventselect = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.eventselect help.state.bundu.wst.load.distance_only_part = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.load.distance_only_part help.state.bundu.wst.load.calc_choice = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst.load.calc_choice help.state.bundu.wst = ${help.url}/OnlineHilfe/BUNDU#help.state.bundu.wst state.bundu.wst.fix.load.year_length = L\u00e4nge der Abflusszeitreihe state.bundu.wst.fix.year_length = L\u00e4nge der Abflusszeitreihe (Ausgehend vom Bezugsjahr in die Vergangenheit) state.bundu.wst.calc_choice = Auswahl der Berechnungsgrundlagen state.bundu.wst.load.calc_choice = Berechnungsgrundlagen state.bundu.wst.preprocessing = Ausrei\u00dfertest Auswahl state.bundu.wst.load.preprocessing = Ausrei\u00dfertest state.bundu.wst.load.missing_volume = Ermittlung von Fehlvolumina state.bundu.wst.missing_volume = Ermittlung von Fehlvolumina? state.bundu.wst.load.function = Ausgleichsfunktion state.bundu.wst.function = Auswahl der Ausgleichsfunktion bundu.wst.export.csv.meta.header.bezugswst = Bezugswasserstand bundu.wst.export.pdf.meta.header.bezugswst = Bezugs-wasserstand bundu.wst_no_data_at_all = Es liegt keine Abflussganglinie vor ({0}) bundu.wst.range_does_not_cover = Die Abflussganglinie ({0}-{1}) deckt nicht den Bezugszeitraum ab. bundu.wst.error_reading_gauges = Fehler beim Abruf des Pegels aus der Datenbank. bundu.wst.gauge_timeranges_disjoint = Der Bezugszeitraum konnte nicht auf die vorhandenen Abflusswerte eingeschr\u00e4nkt werden. common.client.ui.selection = Selection common.client.ui.from = from common.client.ui.to = to chart.subtitle.metadata.version = FLYS-Version: {0} chart.subtitle.metadata.user = Bearbeiter: {0} chart.subtitle.metadata.creationdate = Datum der Erstellung: {0} state.title.distance_state = Choose calculation range [km] state.title.location_distance_state = Choose calculation location(s) / range [km] state.title.distance_part_state = Festlegen eines Teilabschnitts state.title.salix.historical.distance_part_state = Festlegen eines Teilabschnitts state.title.uinfo.bezugswst.miss_vol.distance_part_state = Strecke der zu ermittelnden Fehltiefen w\u00e4hlen [km] state.title.distance_only_inundationduration_state = Darstellungsbereich w\u00e4hlen [km]