mio::FilterPotentialSW Class Reference

Detailed Description

Checks for physically realistic incoming short wave radiation (ISWR) values.

For each data point, the measured value must be:

• more than the horizontal top of atmosphere potential radiation multiplied by the min_coeff coefficient;
• less than the global horizontal potential radiation multiplied by the max_coeff coefficient.

Alternatively, you can set the MODE keyword to GROUND, in which case min_coeff is also multiplied with the global potential radiation for the minimum check.

It takes the following arguments:

• MIN_COEFF: minimum coefficient (default: 0.03);
• MAX_COEFF: maximum coefficient (default: 1.1);
• SOFT: if true, filtered values are set to the filter limits (coefficient * calculation) instead of nodata (optional);
• MEAN_PERIOD: average the radiation over this given period (in seconds)
• MODE: set to GROUND to use ground level global radiation when evaluating the minimum plausible radiation (optional).

The default values come from Moradi, I., "Quality control of global solar radiation using sunshine duration hours", 2009, Energy 34, no. 1, 1-6.

ISWR::filter1         = PotentialSW
ISWR::arg1::MIN_COEFF = 0.03
ISWR::arg1::MAX_COEFF = 1.1

If your data logger aggregates measurements this can lead to troubles at the steeper parts of the potential radiation curve. For 10 minutes, the difference can be a couple of dozens W/m^2 which would be averaged and compared to the theoretical value at the end of the aggregation period. To remedy this, you can set MEAN_PERIOD (in seconds).

ISWR::filter1           = PotentialSW
ISWR::arg1::min_coeff   = 0
ISWR::arg1::max_coeff   = 1.05
ISWR::arg1::soft        = true
ISWR::arg1::mean_period = 600 ;ie 10 minutes

In the above example, if the filter meets a measurement at 10:15 it will compute the potential radiation for 10:15, 10:14, ..., 10:05 (i. e. 11 values), take the arithmetic mean, and compare that to the value at 10:15 as usual. Note that influential atmospheric parameters (TA, RH, P) are currently taken as constant from the measurement time step (at 10:15 in the example). The min_coeff in this case is essentially a minimum filter to 0.

#include <FilterPotentialSW.h>

Public Member Functions
	FilterPotentialSW (const std::vector< std::pair< std::string, std::string > > &vecArgs, const std::string &name, const Config &cfg)
virtual void	process (const unsigned int &param, const std::vector< MeteoData > &ivec, std::vector< MeteoData > &ovec)
Public Member Functions inherited from mio::ProcessingBlock
virtual	~ProcessingBlock ()
virtual void	process (const unsigned int &param, const std::vector< MeteoData > &ivec, std::vector< MeteoData > &ovec)=0
virtual void	process (Date &dateStart, Date &dateEnd)
std::string	getName () const
const ProcessingProperties &	getProperties () const
const std::string	toString () const
bool	skipStation (const std::string &station_id) const
	Should the provided station be skipped in the processing? More...
bool	noStationsRestrictions () const
const std::vector< DateRange >	getTimeRestrictions () const

Additional Inherited Members
Static Public Member Functions inherited from mio::ProcessingBlock
static void	readCorrections (const std::string &filter, const std::string &filename, std::vector< double > &X, std::vector< double > &Y)
	Read a data file structured as X Y value on each lines. More...
static void	readCorrections (const std::string &filter, const std::string &filename, std::vector< double > &X, std::vector< double > &Y1, std::vector< double > &Y2)
	Read a data file structured as X Y1 Y2 value on each lines. More...
static std::vector< double >	readCorrections (const std::string &filter, const std::string &filename, const size_t &col_idx, const char &c_type, const double &init)
	Read a correction file applicable to repeating time period. More...
static std::vector< offset_spec >	readCorrections (const std::string &filter, const std::string &filename, const double &TZ, const size_t &col_idx=2)
	Read a correction file, ie a file structured as timestamps followed by values on each lines. More...
static std::map< std::string, std::vector< DateRange > >	readDates (const std::string &filter, const std::string &filename, const double &TZ)
	Read a list of date ranges by stationIDs from a file. More...
Protected Member Functions inherited from mio::ProcessingBlock
	ProcessingBlock (const std::vector< std::pair< std::string, std::string > > &vecArgs, const std::string &name, const Config &cfg)
	protected constructor only to be called by children More...
Static Protected Member Functions inherited from mio::ProcessingBlock
static void	extract_dbl_vector (const unsigned int &param, const std::vector< MeteoData > &ivec, std::vector< double > &ovec)
static void	extract_dbl_vector (const unsigned int &param, const std::vector< const MeteoData * > &ivec, std::vector< double > &ovec)
Protected Attributes inherited from mio::ProcessingBlock
const std::set< std::string >	excluded_stations
const std::set< std::string >	kept_stations
const std::vector< DateRange >	time_restrictions
ProcessingProperties	properties
const std::string	block_name
Static Protected Attributes inherited from mio::ProcessingBlock
static const double	soil_albedo = .23
static const double	snow_albedo = .85
static const double	snow_thresh = .1
	parametrize the albedo from HS More...

Constructor & Destructor Documentation

FilterPotentialSW()

mio::FilterPotentialSW::FilterPotentialSW	(	const std::vector< std::pair< std::string, std::string > > &	vecArgs,
		const std::string &	name,
		const Config &	cfg
	)

Member Function Documentation

process()

void mio::FilterPotentialSW::process ( const unsigned int &  param, const std::vector< MeteoData > &  ivec, std::vector< MeteoData > &  ovec  )

virtual

Implements mio::ProcessingBlock.

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The documentation for this class was generated from the following files:

• FilterPotentialSW.h
• FilterPotentialSW.cc