Line data Source code
1 : #ifndef _ATM_PROFILE_H
2 : #define _ATM_PROFILE_H
3 : /*******************************************************************************
4 : * ALMA - Atacama Large Millimiter Array
5 : * (c) Instituto de Estructura de la Materia, 2009
6 : *
7 : * This library is free software; you can redistribute it and/or
8 : * modify it under the terms of the GNU Lesser General Public
9 : * License as published by the Free Software Foundation; either
10 : * version 2.1 of the License, or (at your option) any later version.
11 : *
12 : * This library is distributed in the hope that it will be useful,
13 : * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 : * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15 : * Lesser General Public License for more details.
16 : *
17 : * You should have received a copy of the GNU Lesser General Public
18 : * License along with this library; if not, write to the Free Software
19 : * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20 : *
21 : * "@(#) $Id: ATMProfile.h Exp $"
22 : *
23 : * who when what
24 : * -------- -------- ----------------------------------------------
25 : * pardo 24/03/09 created
26 : */
27 :
28 : #ifndef __cplusplus
29 : #error This is a C++ include file and cannot be used from plain C
30 : #endif
31 :
32 : #include "ATMCommon.h"
33 : #include "ATMHumidity.h"
34 : #include "ATMLength.h"
35 : #include "ATMMassDensity.h"
36 : #include "ATMNumberDensity.h"
37 : #include "ATMPressure.h"
38 : #include "ATMTemperature.h"
39 : #include "ATMEnumerations.h"
40 :
41 : #include <string>
42 : #include <vector>
43 :
44 : using std::string;
45 : using std::vector;
46 :
47 :
48 : ATM_NAMESPACE_BEGIN
49 :
50 : /** \brief Class for an atmospheric profile object.
51 : *
52 : * An atmospheric profile is composed of 4 quantities as a function of altitude z:
53 : * - the layer thickness
54 : * - the pressure P
55 : * - the temperature T and
56 : * - the gas densities for H2O, O3, CO, N2O, NO2, SO2.<br>
57 : *
58 : * This object is needed for computing the absorption and
59 : * phase coefficients, as well as for performing radiative transfer
60 : * calculations (only layer thickness/T are needed).
61 : *
62 : * This class builds an atmospheric profile that can be used to
63 : * calculate absorption and phase coefficients, as well as to
64 : * perform forward and/or retrieval radiative transfer calculations.
65 : * It is composed of a set of parameters needed to build a layer thickness/P/T/gas densities
66 : * densities profile from simple parameters currently available at observatories
67 : * (from weather stations for example) using functions from
68 : * the ATM library. The set of input parameters consists of the
69 : * pressure P, the temperature T and the relative humidity at the ground, the altitude of
70 : * the site, the tropospheric temperature lapse rate,... The profile is built as:
71 : * thickness of the considered atmospheric layers above the site, and mean
72 : * P,T,H2O,O3,CO,N2O, NO2, SO2 in
73 : * them. The total number of atmospheric layers in the particular profile
74 : * is also available (a negative value indicates an error).<br>
75 : * The zenith column of water vapor can be calculated
76 : * by simply integrating the H2O profile. \f[ column\;\;H_{2}O\;\; (mm) =\sum_{layers} \Delta z \cdot [ H_{2}O ] \f]
77 : */
78 : class AtmProfile
79 : {
80 : public:
81 : /** A constructor of an empty profile with n layers, that can be filled up later. */
82 : AtmProfile(unsigned int n);
83 :
84 : /** A long constructor of the atmospheric profile from the basic set of parameters described above.
85 : Please note that this constructor assumes that the &altitude of the antenna is the SAME of the
86 : weather station that provides: &groundPressure, &groundTemperature, and &relativeHumidity */
87 : AtmProfile(const Length &altitude,
88 : const Pressure &groundPressure,
89 : const Temperature &groundTemperature,
90 : double tropoLapseRate,
91 : const Humidity &relativeHumidity,
92 : const Length &wvScaleHeight,
93 : const Pressure &pressureStep,
94 : double pressureStepFactor,
95 : const Length &topAtmProfile,
96 : unsigned int atmType); //Atmospheretype atmType);
97 :
98 :
99 : /** A long constructor of the atmospheric profile from the basic set of parameters described above which,
100 : in addition, includes user-defined temperature profile */
101 : AtmProfile(const Length &altitude,
102 : const Pressure &groundPressure,
103 : const Temperature &groundTemperature,
104 : double tropoLapseRate,
105 : const Humidity &relativeHumidity,
106 : const Length &wvScaleHeight,
107 : const Pressure &pressureStep,
108 : double pressureStepFactor,
109 : const Length &topAtmProfile,
110 : unsigned int atmType,
111 : const vector<Length> &v_layerBoundaries,
112 : const vector<Temperature> &v_layerTemperature);
113 :
114 :
115 :
116 : /** A long constructor of the atmospheric profile from the basic set of parameters described above. */
117 : /*
118 : AtmProfile(Length altitude, Pressure groundPressure,
119 : Temperature groundTemperature, double tropoLapseRate,
120 : Humidity relativeHumidity, Length wvScaleHeight,
121 : Pressure pressureStep, double pressureStepFactor,
122 : Length topAtmProfile, int typeAtm);
123 :
124 : */
125 :
126 : /** A short constructor of the atmospheric profile. With respect to the long constructor, this one considers
127 : the following (recomended) default values: pressureStep = 10 mb,
128 : pressureStepFactor = 1.2, topAtmProfile = 48.0 km */
129 : AtmProfile(const Length &altitude,
130 : const Pressure &groundPressure,
131 : const Temperature &groundTemperature,
132 : double tropoLapseRate,
133 : const Humidity &relativeHumidity,
134 : const Length &wvScaleHeight,
135 : unsigned int atmType); //Atmospheretype atmType);
136 :
137 : /*AtmProfile(const Length &altitude,
138 : const Pressure &groundPressure,
139 : const Temperature &groundTemperature,
140 : const Humidity &relativeHumidity,
141 : const vector<Length> &v_layerTop,
142 : const vector<Pressure> &v_layerTopPressure,
143 : const vector<Temperature> &v_layerTopTemperature,
144 : const vector<Humidity> &v_layerTopHumidity); */
145 :
146 : /** The user provides his own atmospheric profile (basic one: four vectors for layer thickness in m,
147 : average pressure in each layer in mb, average temperature in each layer in K, and average water
148 : vapor density in each layer in kg/m**3). QUESTION: SHOULD O3, CO, N2O, NO2, SO2 PROFILES BE FILLED UP
149 : INTERNALLY FROM A STANDARD ATMOSPHERE OR LEFT ITS ABUNDANCES EQUAL TO ZERO ? */
150 : AtmProfile(const Length &altitude,
151 : const vector<Length> &v_layerThickness,
152 : const vector<Pressure> &v_layerPressure,
153 : const vector<Temperature> &v_layerTemperature,
154 : const vector<MassDensity> &v_layerWaterVapor);
155 : AtmProfile(const vector<Length> &v_layerBoundaries,
156 : const vector<Pressure> &v_layerPressure,
157 : const vector<Temperature> &v_layerTemperature,
158 : const vector<MassDensity> &v_layerWaterVapor);
159 :
160 : AtmProfile(const Length &altitude,
161 : const vector<Length> &v_layerThickness,
162 : const vector<Pressure> &v_layerPressure,
163 : const vector<Temperature> &v_layerTemperature,
164 : const vector<NumberDensity> &v_layerWaterVapor);
165 : AtmProfile(const vector<Length> &v_layerBoundaries,
166 : const vector<Pressure> &v_layerPressure,
167 : const vector<Temperature> &v_layerTemperature,
168 : const vector<NumberDensity> &v_layerWaterVapor);
169 :
170 : /** The user provides his own atmospheric profile (in this case five vectors for layer thickness in m,
171 : average pressure in each layer in mb, average temperature in each layer in K, average water vapor
172 : density in each layer in kg/m**3, and average ozone number density in each layer in molecules/m**3)
173 : QUESTION: SHOULD CO and N2O, NO2, SO2 PROFILES BE FILLED UP
174 : INTERNALLY FROM A STANDARD ATMOSPHERE OR LEFT ITS ABUNDANCES EQUAL TO ZERO ? */
175 :
176 : AtmProfile(const Length &altitude,
177 : const vector<Length> &v_layerThickness,
178 : const vector<Pressure> &v_layerPressure,
179 : const vector<Temperature> &v_layerTemperature,
180 : const vector<MassDensity> &v_layerWaterVapor,
181 : const vector<NumberDensity> &v_layerO3);
182 : AtmProfile(const Length &altitude,
183 : const vector<Length> &v_layerThickness,
184 : const vector<Pressure> &v_layerPressure,
185 : const vector<Temperature> &v_layerTemperature,
186 : const vector<NumberDensity> &v_layerWaterVapor,
187 : const vector<NumberDensity> &v_layerO3);
188 :
189 : /** The user provides his own atmospheric profile (in this case seven vectors for layer thickness in m,
190 : average pressure in each layer in mb, average temperature in each layer in K, average water vapor
191 : density in each layer in kg/m**3, average ozone number density in each layer in molecules/m**3,
192 : average CO number density in each layer in molecules/m**3, average N2O, NO2, SO2 number density in each
193 : layer in molecules/m**3) */
194 : AtmProfile(const Length &altitude,
195 : const vector<Length> &v_layerThickness,
196 : const vector<Pressure> &v_layerPressure,
197 : const vector<Temperature> &v_layerTemperature,
198 : const vector<MassDensity> &v_layerWaterVapor,
199 : const vector<NumberDensity> &v_layerO3,
200 : const vector<NumberDensity> &v_layerCO,
201 : const vector<NumberDensity> &v_layerN2O,
202 : const vector<NumberDensity> &v_layerNO2,
203 : const vector<NumberDensity> &v_layerSO2);
204 :
205 : AtmProfile(const Length &altitude,
206 : const vector<Length> &v_layerThickness,
207 : const vector<Pressure> &v_layerPressure,
208 : const vector<Temperature> &v_layerTemperature,
209 : const vector<NumberDensity> &v_layerWaterVapor,
210 : const vector<NumberDensity> &v_layerO3,
211 : const vector<NumberDensity> &v_layerCO,
212 : const vector<NumberDensity> &v_layerN2O,
213 : const vector<NumberDensity> &v_layerNO2,
214 : const vector<NumberDensity> &v_layerSO2);
215 :
216 : AtmProfile(const AtmProfile &a); // copy constructor
217 :
218 73 : virtual ~AtmProfile() {}
219 :
220 : /** Setter to update the AtmProfile if some basic atmospheric parameter has changed.
221 : * @pre an atmospheric profile already exists
222 : * @param altitude the new altitude, a Length
223 : * @param groundPressure the Pressure at the ground level
224 : * @param groundTemperature the Temperature at the ground level
225 : * @param tropoLapseRate the tropospheric lapse rate
226 : * @param relativeHumidity the relative Humidity
227 : * @param wvScaleHeight the scale height of the water vapor, a Length
228 : * @return true if the atmospheric profile has been update, else false because the basic parameters have not changed
229 : * @post the atmospheric profile has been updated, only if at least one of the basic parameters has changed
230 : *
231 : * \note there is an overriding on this method in the sub-class AbsorptionPhaseProfile which in turn
232 : * has an overriding in its WaterVaporRetrieval sub-class. Hence this method must not be overloaded
233 : * in this AtmProfile class.
234 : */
235 : bool setBasicAtmosphericParameters(const Length &altitude,
236 : const Pressure &groundPressure,
237 : const Temperature &groundTemperature,
238 : double tropoLapseRate,
239 : const Humidity &relativeHumidity,
240 : const Length &wvScaleHeight);
241 :
242 : /** Accessor to the type of current atmosphere **/
243 : string getAtmosphereType() const;
244 :
245 : /** Accessor to the type of atmosphere specified by the number**/
246 : static string getAtmosphereType(unsigned int typeAtm);
247 :
248 : /** Accessor to the current Ground Temperature used in the object */
249 124 : Temperature getGroundTemperature() const { return groundTemperature_; }
250 :
251 : /** Accessor to the current Tropospheric Lapse Rate used in the object (temperature/length units) */
252 0 : double getTropoLapseRate() const { return tropoLapseRate_; }
253 :
254 : /** Accessor to the current Ground Pressure used in the object (pressure units) */
255 120 : Pressure getGroundPressure() const { return groundPressure_; }
256 :
257 : /** Accessor to the current Tropopause Temperature used in the object */
258 0 : Temperature getTropopauseTemperature() const { return tropoTemperature_; }
259 :
260 : /** Accessor to the current Ground Relative Humidity in the object (humidity units) */
261 0 : Humidity getRelativeHumidity() const { return relativeHumidity_; }
262 :
263 : /** Accessor to the current Water Vapor Scale Height in the object (length units) */
264 0 : Length getWvScaleHeight() const { return wvScaleHeight_; }
265 :
266 : /** Accessor to the current Primary Pressure Step in the object. The Primary Pressure Step
267 : (pressure units) is used to define the thickness of the first layer in the profile.
268 : Pressure difference between the boundaries of first layer will be equal to the
269 : Primary Pressure Step. */
270 : Pressure getPressureStep() const { return pressureStep_; }
271 :
272 : /** Accessor to the current Pressure_Step_Factor in the object. The Pressure_Step_Factor
273 : (no units) is the Pressure step change between consecutive layers when moving upwards.
274 : Pressure difference between the boundaries of the (n+1)-th layer (DP_n+1) will
275 : be DP_n**DP1. */
276 : Pressure getPressureStepFactor() const { return pressureStepFactor_; }
277 :
278 : /** Accessor to the ground altitude of site (length units) */
279 0 : Length getAltitude() const { return altitude_; }
280 :
281 : /** Alternative accessor to the ground altitude of site (length units) */
282 : Length getGroundAltitude() const { return altitude_; }
283 :
284 : /** setter for the ground altitude of site (length units). Careful! It will remove or add layers if necessary.
285 : Ground values of T/P/h would change as well */
286 : void setAltitude(const Length &groundaltitude);
287 :
288 : /** Alternative setter for the ground altitude of site (length units). Careful! It will remove or add layers if necessary.
289 : Ground values of T/P/h would change as well */
290 : // void setGroundAltitude(const Length &groundaltitude);
291 :
292 : /** Accessor to the altitude of the tropopause (length units) */
293 0 : Length getTropopauseAltitude() const { return tropoAltitude_; }
294 :
295 : /** Accessor to the Maximum allowed altitude for the Atmospheric Profile above the site (length units) */
296 : Length getTopAtmProfile() const { return topAtmProfile_; }
297 :
298 : /** Accessor to the number of layers of the atmospheric profile */
299 239069 : unsigned int getNumLayer() const { return numLayer_; }
300 :
301 : /** Method to access the Temperature Profile */
302 : vector<Temperature> getTemperatureProfile() const;
303 :
304 : /**
305 : * Method to access the average Temperature in layer i (thickness of layers in ThicknessProfile)
306 : * @exception AtmException if the layer is not valid.
307 : **/
308 : Temperature getLayerTemperature(unsigned int i) const;
309 :
310 : /**
311 : * Method to access the Temperature at bottom of layer i (thickness of layers in ThicknessProfile)
312 : * @exception AtmException if the layer is not valid.
313 : **/
314 : Temperature getLayerBottomTemperature(unsigned int i) const;
315 :
316 : /**
317 : * Method to access the Temperature at top of layer i (thickness of layers in ThicknessProfile)
318 : * @exception AtmException if the layer is not valid.
319 : **/
320 : Temperature getLayerTopTemperature(unsigned int i) const;
321 :
322 : /** Setter for the average Temperature in layer i (allows to touch one layer each time once a profile has been defined) */
323 : void setLayerTemperature(unsigned int i, const Temperature &layerTemperature);
324 :
325 : /** Method to retrieve the layer thickness from site altitude upwards.
326 : * Use Altitude to + ThicknessProfile to know the vertical grid. */
327 : vector<Length> getThicknessProfile() const;
328 :
329 : /**
330 : * Method to access the layer thickness of layer i
331 : * @exception AtmException if the layer is not valid.
332 : */
333 : Length getLayerThickness(unsigned int i) const;
334 :
335 : /** Setter for the thickness of layer i (allows to touch one layer each time once a profile has been defined). We do
336 : * not advise to use this one unless you change P and T accordingly */
337 : void setLayerThickness(unsigned int i, const Length &layerThickness);
338 : //void setLayerThickness(const Length &layerThickness, unsigned int i) { setLayerThickness(i, layerThickness); }
339 :
340 : /**
341 : * Method to access the Bottom Height of layer i above the Ground
342 : * @exception AtmException if the layer is not valid.
343 : */
344 : Length getLayerBottomHeightAboveGround(unsigned int i) const;
345 :
346 : /**
347 : * Method to access the Bottom Height of layer i above the Sea Level
348 : * @exception AtmException if the layer is not valid.
349 : */
350 : Length getLayerBottomHeightAboveSeaLevel(unsigned int i) const;
351 :
352 :
353 : /**
354 : * Method to access the Top Height of layer i above the Ground
355 : * @exception AtmException if the layer is not valid.
356 : */
357 : Length getLayerTopHeightAboveGround(unsigned int i) const;
358 :
359 : /**
360 : * Method to access the Top Height of layer i above the Sea Level
361 : * @exception AtmException if the layer is not valid.
362 : */
363 : Length getLayerTopHeightAboveSeaLevel(unsigned int i) const;
364 :
365 :
366 : /** Function to retrieve Average Water vapor density in a given layer in kg/m**3
367 : * (thickness of layers in ThicknessProfile)
368 : * @exception AtmException if the layer is not valid.
369 : */
370 : MassDensity getLayerWaterVaporMassDensity(unsigned int i) const;
371 : MassDensity getLayerBottomWaterVaporMassDensity(unsigned int i) const;
372 : MassDensity getLayerTopWaterVaporMassDensity(unsigned int i) const;
373 : NumberDensity getLayerWaterVaporNumberDensity(unsigned int i) const;
374 : NumberDensity getLayerBottomWaterVaporNumberDensity(unsigned int i) const;
375 : NumberDensity getLayerTopWaterVaporNumberDensity(unsigned int i) const;
376 :
377 : /** Setter for the average Water vapor density in layer i in kg/m**3 (allows to touch one layer each
378 : * time once a profile has been defined) */
379 : void setLayerWaterVaporMassDensity(unsigned int i, const MassDensity &layerWaterVapor);
380 : //void setLayerWaterVaporMassDensity(const MassDensity &layerWaterVapor, unsigned int i) { setLayerWaterVaporMassDensity(i, layerWaterVapor); }
381 : void setLayerWaterVaporNumberDensity(unsigned int i, const NumberDensity &layerWaterVapor);
382 : //void setLayerWaterVapor(const NumberDensity &layerWaterVapor, unsigned int i) { setLayerWaterVapor(i, layerWaterVapor); }
383 :
384 : /** Method to get the Pressure Profile */
385 : vector<Pressure> getPressureProfile() const;
386 :
387 : /** Method to access the average Pressure in layer i
388 : * @exception AtmException if the layer is not valid.
389 : */
390 : Pressure getLayerPressure(unsigned int i) const;
391 :
392 : /** Method to access the Pressure at bottom of layer i
393 : * @exception AtmException if the layer is not valid.
394 : */
395 : Pressure getLayerBottomPressure(unsigned int i) const;
396 :
397 : /** Method to access the Pressure at top of layer i
398 : * @exception AtmException if the layer is not valid.
399 : */
400 : Pressure getLayerTopPressure(unsigned int i) const;
401 :
402 : /** Setter for the average Pressure in layer i (allows to touch one layer each
403 : * time once a profile has been defined) */
404 : void setLayerPressure(unsigned int i, const Pressure &layerPressure) { v_layerPressure_[i] = layerPressure.get(Pressure::UnitMilliBar); }
405 : //void setLayerPressure(const Pressure &layerPressure, unsigned int i) { setLayerPressure(i, layerPressure); }
406 :
407 : /** Function to retrieve CO density in a given layer (thickness of layers
408 : * in ThicknessProfile) */
409 90 : NumberDensity getLayerCO(unsigned int i) const { return NumberDensity(v_layerCO_[i], NumberDensity::UnitInverseCubicMeter); }
410 : /** Setter for the average number density of CO in layer i in molecules/m**3 (allows to touch one layer each
411 : * time once a profile has been defined) */
412 : void setLayerCO(unsigned int i, const NumberDensity &layerCO) { v_layerCO_[i] = layerCO.get(NumberDensity::UnitInverseCubicMeter); }
413 : //void setLayerCO(const NumberDensity &layerCO, unsigned int i) { setLayerCO(i, layerCO); }
414 :
415 : /** Function to retrieve O3 density in a given layer (thickness of layers
416 : * in ThicknessProfile) */
417 90 : NumberDensity getLayerO3(unsigned int i) const { return NumberDensity(v_layerO3_[i], NumberDensity::UnitInverseCubicMeter); }
418 : /** Setter for the average number density of O3 in layer i in molecules/m**3 (allows to touch one layer each
419 : * time once a profile has been defined) */
420 : void setLayerO3(unsigned int i, const NumberDensity &layerO3) { v_layerO3_[i] = layerO3.get(NumberDensity::UnitInverseCubicMeter); }
421 : //void setLayerO3(const NumberDensity &layerO3, unsigned int i) { setLayerO3(i, layerO3); }
422 :
423 : /** Function to retrieve N2O density in a given layer (thickness of layers
424 : * in ThicknessProfile) */
425 90 : NumberDensity getLayerN2O(unsigned int i) const { return NumberDensity(v_layerN2O_[i], NumberDensity::UnitInverseCubicMeter); }
426 : /** Setter for the average number density of N2O in layer i in molecules/m**3 (allows to touch one layer each
427 : * time once a profile has been defined) */
428 : void setLayerN2O(unsigned int i, const NumberDensity &layerN2O) { v_layerN2O_[i] = layerN2O.get(NumberDensity::UnitInverseCubicMeter); }
429 : //void setLayerN2O(const NumberDensity &layerN2O, unsigned int i) { setLayerN2O(i, layerN2O); }
430 :
431 : /** Function to retrieve NO2 density in a given layer (thickness of layers
432 : * in ThicknessProfile) */
433 : NumberDensity getLayerNO2(unsigned int i) const { return NumberDensity(v_layerNO2_[i], NumberDensity::UnitInverseCubicMeter); }
434 : /** Setter for the average number density of NO2 in layer i in molecules/m**3 (allows to touch one layer each
435 : * time once a profile has been defined) */
436 : void setLayerNO2(unsigned int i, const NumberDensity &layerNO2) { v_layerNO2_[i] = layerNO2.get(NumberDensity::UnitInverseCubicMeter); }
437 : //void setLayerNO2(const NumberDensity &layerNO2, unsigned int i) { setLayerNO2(i, layerNO2); }
438 :
439 : /** Function to retrieve SO2 density in a given layer (thickness of layers
440 : * in ThicknessProfile) */
441 : NumberDensity getLayerSO2(unsigned int i) const { return NumberDensity(v_layerSO2_[i], NumberDensity::UnitInverseCubicMeter); }
442 : /** Setter for the average number density of SO2 in layer i in molecules/m**3 (allows to touch one layer each
443 : * time once a profile has been defined) */
444 : void setLayerSO2(unsigned int i, const NumberDensity &layerSO2) { v_layerSO2_[i] = layerSO2.get(NumberDensity::UnitInverseCubicMeter); }
445 : //void setLayerSO2(const NumberDensity &layerSO2, unsigned int i) { setLayerSO2(i, layerSO2); }
446 :
447 : void setBasicAtmosphericParameterThresholds(const Length &altitudeThreshold,
448 : const Pressure &groundPressureThreshold,
449 : const Temperature &groundTemperatureThreshold,
450 : double tropoLapseRateThreshold,
451 : const Humidity &relativeHumidityThreshold,
452 : const Length &wvScaleHeightThreshold);
453 :
454 :
455 : /** Method to get the zenith column of water vapor. It is computed by
456 : * simply integrating the H2O profile:
457 : * \f$ column\;\;H_{2}O\;\; (mm) =\sum_{layers} \Delta z \cdot [ H_{2}O ] \f$
458 : */
459 : Length getGroundWH2O() const;
460 :
461 : // Thresholds
462 : Length getAltitudeThreshold() const {return altitudeThreshold_;};
463 : Pressure getGroundPressureThreshold() const {return groundPressureThreshold_;};
464 : Temperature getGroundTemperatureThreshold() const {return groundTemperatureThreshold_;};
465 : double getTropoLapseRateThreshold() const {return tropoLapseRateThreshold_;};
466 : Humidity getRelativeHumidityThreshold() const {return relativeHumidityThreshold_;};
467 : Length getWvScaleHeightThreshold() const {return wvScaleHeightThreshold_;};
468 :
469 : void setAltitudeThreshold(const Length &altitudeThreshold) {altitudeThreshold_=altitudeThreshold;};
470 : void setGroundPressureThreshold(const Pressure &groundPressureThreshold) {groundPressureThreshold_=groundPressureThreshold;};
471 : void setGroundTemperatureThreshold(const Temperature &groundTemperatureThreshold) {groundTemperatureThreshold_=groundTemperatureThreshold;};
472 :
473 :
474 : //@}
475 :
476 : protected:
477 : unsigned int typeAtm_; //!< 1: tropical, 2: midlatSummer, 3: midlatWinter, 4: subarcticSummer, 5: subarcticWinter
478 : Temperature groundTemperature_; //!< Ambient temperature at the site (K)
479 : double tropoLapseRate_; //!< tropospheric lapse rate in K/km
480 : Temperature tropoTemperature_; //!< Temperature at the tropopause
481 : unsigned int tropoLayer_; //!< Layer where tropopause starts
482 : Length tropoAltitude_; //!< Altitude where tropopause starts
483 : Pressure groundPressure_; //!< Ground pressure at the site
484 : Humidity relativeHumidity_; /** Relative humidity at the site (%)
485 : used only to make an estimate
486 : of the water vapor column, first guess) */
487 : Length wvScaleHeight_; //!< scale height of water vapor distribution (km)
488 : Pressure pressureStep_; //!< Pressure basic step (mb)
489 : double pressureStepFactor_; /** Multiplicative factor for presure steps.
490 : Example of pressure parameters:
491 : P_ground=550; DP: 10; DP1:
492 : 1.2 ==> The pressure levels will
493 : then be 550, 560, 572, 586.4, .... */
494 :
495 : Length altitude_; //!< Altitude of the site (km)
496 : Length topAtmProfile_; //!< Top of atmospheric profile (km)
497 : unsigned int numLayer_; //!< Total number of layers in the output atmospheric profiles
498 : double fractionLast_; //!< Fraction of last layer needed for some calculations
499 : bool newBasicParam_;
500 : vector<double> v_layerThickness_; //!< Thickness of layer (m)
501 : vector<double> v_layerTemperature_; //!< Temp. of layers (K)
502 : vector<double> v_layerTemperature0_; //!< Temp. at bottom of layers (K)
503 : vector<double> v_layerTemperature1_; //!< Temp. at top of layer (K)
504 : vector<double> v_layerWaterVapor_; //!< Average water vapor kg/m**3 in the layer
505 : vector<double> v_layerWaterVapor0_; //!< Water vapor kg/m**3 at bottom of layer
506 : vector<double> v_layerWaterVapor1_; //!< Water vapor kg/m**3 at top of layer
507 : vector<double> v_layerPressure_; //!< Pressure of layers (mb)
508 : vector<double> v_layerPressure0_; //!< Pressure at bottom of layers (mb)
509 : vector<double> v_layerPressure1_; //!< Pressure at top of layers (mb)
510 : vector<double> v_layerCO_; //!< CO in molecules per m**3
511 : vector<double> v_layerO3_; //!< O3 in molecules per m**3
512 : vector<double> v_layerN2O_; //!< N2O in molecules per m**3
513 : vector<double> v_layerNO2_; //!< NO2 in molecules per m**3
514 : vector<double> v_layerSO2_; //!< SO2 in molecules per m**3
515 : Length altitudeThreshold_;
516 : Pressure groundPressureThreshold_;
517 : Temperature groundTemperatureThreshold_;
518 : double tropoLapseRateThreshold_;
519 : Humidity relativeHumidityThreshold_;
520 : Length wvScaleHeightThreshold_;
521 :
522 : unsigned int ier_;
523 :
524 : /** Default constructor (required if copy constructor in derived classes) */
525 0 : AtmProfile() {}
526 :
527 : /*
528 : * \fn Method to build the profile,
529 : */
530 : unsigned int mkAtmProfile(); /** returns error code: <0 unsuccessful */
531 :
532 : /** Method to update an atmospheric profile based on one or more new basic parameter(s)
533 : * @param altitude the new altitude, a Length
534 : * @param groundPressure the Pressure at the ground level
535 : * @param groundTemperature the Temperature at the ground level
536 : * @param tropoLapseRate the tropospheric lapse rate
537 : * @param relativeHumidity the relative Humidity
538 : * @param wvScaleHeight the scale height of the water vapor, a Length
539 : * @return true if the atmospheric profile has been update, else false because the basic parameters have not changed
540 : * @post the atmospheric profile has been updated only if at least one of the basic parameters has changed
541 : */
542 : bool updateAtmProfile(const Length &altitude,
543 : const Pressure &groundPressure,
544 : const Temperature &groundTemperature,
545 : double tropoLapseRate,
546 : const Humidity &relativeHumidity,
547 : const Length &wvScaleHeight);
548 : void initBasicAtmosphericParameterThresholds();
549 :
550 : private:
551 : MassDensity rwat(const Temperature &t, const Humidity &rh, const Pressure &p) const;
552 : Humidity rwat_inv(const Temperature &tt, const MassDensity &dd, const Pressure &pp) const;
553 : vector<NumberDensity> st76(const Length &ha, unsigned int tip) const;
554 : double poli2(double ha,
555 : double x1,
556 : double x2,
557 : double x3,
558 : double y1,
559 : double y2,
560 : double y3) const;
561 : /*
562 : // static Pressure pressureStep_default( 10.0,Pressure::UnitMilliBar);
563 : // static double pSd; // = 10.0; // pressureStep_default in mb
564 : static Pressure pressureStep_default_;
565 :
566 :
567 : static double pressureStepFactor_default_; // = 1.2;
568 : //static double pSFd; // = 1.2;
569 :
570 :
571 :
572 : static Length topAtmProfile_default_; //( 48.0,Length::UnitKiloMeter);
573 : //static tAPd; // = 48.0;
574 : */
575 :
576 : /** Default value of Atmospheric type (to reproduce behavior above the tropopause) */
577 : //static Atmospheretype atmType_default = tropical;
578 :
579 : }; // class AtmProfile
580 :
581 : ATM_NAMESPACE_END
582 : /*
583 : Pressure AtmProfile::pressureStep_default_(Pressure(1.2,Pressure::UnitMilliBar));
584 : double AtmProfile::pressureStepFactor_default_(1.2);
585 : Length AtmProfile::topAtmProfile_default_(Length(48,Length::UnitKiloMeter));
586 : */
587 :
588 : /** \page AtmProfile_example Example with the AtmProfile class.
589 : * Our main function always starts like this:
590 : * \skip #include "AtmTypeName.h"
591 : * \until {
592 : *
593 : * First we set a constant that will be used in the calculations:
594 : * \skip double
595 : * \until 0.04799274551
596 : * Then we set the parameters necessary to create an atmospheric profile (if you do not want to enter the whole profile yourself):
597 : * \skip Atmospheretype
598 : * \until 1.2
599 : * The above input information is printed on the screen
600 : * \skip cout
601 : * \until K/km
602 : * With all this information an AtmProfile object can now be created:
603 : * \skipline AtmProfile
604 : * The AtmProfile object "myProflie" is accessed and partially shown on the screen
605 : * \skip cout
606 : * \until scale height */
607 :
608 :
609 : #endif /*!_ATM_PROFILE_H*/
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