source: ntrip/trunk/BNC/src/PPP/pppSatObs.h@ 7523

Last change on this file since 7523 was 7250, checked in by stuerze, 9 years ago

ionosopheric delay can be computed now

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File size: 3.8 KB
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1#ifndef PPPSATOBS_H
2#define PPPSATOBS_H
3
4#include <string>
5#include <map>
6#include <newmat.h>
7#include "pppInclude.h"
8#include "satObs.h"
9#include "bnctime.h"
10
11namespace BNC_PPP {
12
13class t_pppStation;
14
15class t_pppSatObs {
16 public:
17 t_pppSatObs(const t_satObs& satObs);
18 ~t_pppSatObs();
19 bool isValid() const {return _valid;};
20 bool isValid(t_lc::type tLC) const;
21 const t_prn& prn() const {return _prn;}
22 const ColumnVector& xc() const {return _xcSat;}
23 const bncTime& time() const {return _time;}
24 t_irc cmpModel(const t_pppStation* station);
25 double obsValue(t_lc::type tLC, bool* valid = 0) const;
26 double cmpValue(t_lc::type tLC) const;
27 double cmpValueForBanc(t_lc::type tLC) const;
28 double rho() const {return _model._rho;}
29 double sagnac() const {return _model._sagnac;}
30 double eleSat() const {return _model._eleSat;}
31 bool modelSet() const {return _model._set;}
32 void printModel() const;
33 void lcCoeff(t_lc::type tLC,
34 std::map<t_frequency::type, double>& codeCoeff,
35 std::map<t_frequency::type, double>& phaseCoeff) const;
36 double lambda(t_lc::type tLC) const;
37 double sigma(t_lc::type tLC) const;
38 double maxRes(t_lc::type tLC) const;
39 bool outlier() const {return _outlier;}
40 void setOutlier() {_outlier = true;}
41 void setRes(t_lc::type tLC, double res);
42 double getRes(t_lc::type tLC) const;
43
44 bool slip() const {
45 for (unsigned ii = 1; ii < t_frequency::max; ii++) {
46 if (_obs[ii] && _obs[ii]->_slip) {
47 return true;
48 }
49 }
50 return false;
51 }
52
53 int slipCounter() const {
54 int cnt = -1;
55 for (unsigned ii = 1; ii < t_frequency::max; ii++) {
56 if (_obs[ii] && _obs[ii]->_slipCounter > cnt) {
57 cnt = _obs[ii]->_slipCounter;
58 }
59 }
60 return cnt;
61 }
62
63 int biasJumpCounter() const {
64 int jmp = -1;
65 for (unsigned ii = 1; ii < t_frequency::max; ii++) {
66 if (_obs[ii] && _obs[ii]->_biasJumpCounter > jmp) {
67 jmp = _obs[ii]->_biasJumpCounter;
68 }
69 }
70 return jmp;
71 }
72
73 private:
74 class t_model {
75 public:
76 t_model() {reset();}
77 ~t_model() {}
78 void reset() {
79 _set = false;
80 _rho = 0.0;
81 _eleSat = 0.0;
82 _azSat = 0.0;
83 _recClkM = 0.0;
84 _satClkM = 0.0;
85 _sagnac = 0.0;
86 _antEcc = 0.0;
87 _tropo = 0.0;
88 _tide = 0.0;
89 _windUp = 0.0;
90 for (unsigned ii = 0; ii < t_frequency::max; ii++) {
91 _antPCO[ii] = 0.0;
92 _codeBias[ii] = 0.0;
93 _phaseBias[ii] = 0.0;
94 _ionoCodeDelay[ii] = 0.0;
95 }
96 }
97 bool _set;
98 double _rho;
99 double _eleSat;
100 double _azSat;
101 double _recClkM;
102 double _satClkM;
103 double _sagnac;
104 double _antEcc;
105 double _tropo;
106 double _tide;
107 double _windUp;
108 double _antPCO[t_frequency::max];
109 double _codeBias[t_frequency::max];
110 double _phaseBias[t_frequency::max];
111 double _ionoCodeDelay[t_frequency::max];
112 };
113
114 void prepareObs(const t_satObs& satObs);
115
116 bool _valid;
117 t_frequency::type _fType1;
118 t_frequency::type _fType2;
119 t_prn _prn;
120 bncTime _time;
121 int _channel;
122 t_frqObs* _obs[t_frequency::max];
123 ColumnVector _xcSat;
124 ColumnVector _vvSat;
125 t_model _model;
126 bool _outlier;
127 std::map<t_lc::type, double> _res;
128 double _signalPropagationTime;
129};
130
131}
132
133#endif
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