399 lines
11 KiB
C++
399 lines
11 KiB
C++
/*
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* This file is part of the Owl Positioning System (OwlPS) project.
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* It is subject to the copyright notice and license terms in the
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* COPYRIGHT.t2t file found in the top-level directory of this
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* distribution and at
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* http://code.lm7.fr/p/owlps/source/tree/master/COPYRIGHT.t2t
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* No part of the OwlPS Project, including this file, may be copied,
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* modified, propagated, or distributed except according to the terms
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* contained in the COPYRIGHT.t2t file; the COPYRIGHT.t2t file must be
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* distributed along with this file, either separately or by replacing
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* this notice by the COPYRIGHT.t2t file's contents.
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*/
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#include "referencepoint.hh"
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#include "calibrationrequest.hh"
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#include "stock.hh"
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using namespace std ;
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/* *** Constructors *** */
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/**
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* Clears #requests, but does not deallocate the values pointed by
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* the elements into it.
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*/
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ReferencePoint::~ReferencePoint()
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{
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requests.clear() ;
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}
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/* *** Read accessors *** */
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double ReferencePoint::
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average_measurements(const std::string &mac_transmitter) const
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{
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unordered_map<string, Measurement> measurements(
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get_all_measurements(mac_transmitter)) ;
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double avg = 0 ;
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int n_ss = 0 ;
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for (unordered_map<string, Measurement>::const_iterator i =
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measurements.begin() ;
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i != measurements.end() ; ++i)
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{
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avg += i->second.get_average_dbm() ;
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++n_ss ;
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}
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return (avg / n_ss) ;
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}
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unordered_map<string, Measurement> ReferencePoint::
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get_all_measurements() const
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{
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unordered_map<string, Measurement> all ;
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for (vector<CalibrationRequest*>::const_iterator i = requests.begin() ;
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i != requests.end() ; ++i)
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{
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unordered_map<string, Measurement> measurements =
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(*i)->get_measurements() ;
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for (unordered_map<string, Measurement>::const_iterator j =
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measurements.begin() ; j != measurements.end() ; ++j)
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if (! all.insert(*j).second)
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all[j->first].merge(j->second) ;
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}
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return all ;
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}
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unordered_map<string, Measurement> ReferencePoint::
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get_all_measurements(const string &mac_transmitter) const
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{
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unordered_map<string, Measurement> all ;
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vector<CalibrationRequest*> requests_trx(
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get_requests(mac_transmitter)) ;
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for (vector<CalibrationRequest*>::const_iterator i =
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requests_trx.begin() ;
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i != requests_trx.end() ; ++i)
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{
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unordered_map<string, Measurement> measurements =
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(*i)->get_measurements() ;
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for (unordered_map<string, Measurement>::const_iterator j =
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measurements.begin() ; j != measurements.end() ; ++j)
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if (! all.insert(*j).second)
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all[j->first].merge(j->second) ;
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}
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return all ;
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}
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/**
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* @param mac_transmitter The MAC address of the transmitting mobile.
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*
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* @returns A vector containing all the requests sent by the mobile.
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* The returned vector is empty if no request was sent by the mobile.
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*/
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const vector<CalibrationRequest*> ReferencePoint::
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get_requests(const string &mac_transmitter) const
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{
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vector<CalibrationRequest*> res ;
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for (vector<CalibrationRequest*>::const_iterator i = requests.begin() ;
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i != requests.end() ; ++i)
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if ((*i)->get_mobile()->get_mac_addr() == mac_transmitter)
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res.push_back(*i) ;
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return res ;
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}
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/* *** Write accessors *** */
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void ReferencePoint::delete_request(const CalibrationRequest *r)
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{
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for (vector<CalibrationRequest*>::iterator i = requests.begin() ;
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i != requests.end() ; ++i)
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if (*i == r)
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{
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requests.erase(i) ;
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return ;
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}
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}
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/**
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* Note that the requests pointed by the elements of #requests are
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* actually deleted from the Stock.
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*/
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void ReferencePoint::delete_requests()
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{
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#ifndef NDEBUG
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int stock_nb_requests = Stock::nb_calibration_requests() ;
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#endif // NDEBUG
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for (vector<CalibrationRequest*>::iterator r = requests.begin() ;
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r != requests.end() ; ++r)
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Stock::delete_calibration_request(**r) ;
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assert(Stock::nb_calibration_requests() ==
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stock_nb_requests - requests.size()) ;
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requests.clear() ;
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}
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/**
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* Note that the requests pointed by the elements of #requests are
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* actually deleted from the Stock.
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*
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* @returns `true` if at least one request was deleted.
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* @returns `false` if the ReferencePoint was left untouched.
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*/
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bool ReferencePoint::delete_generated_requests(void)
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{
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unsigned int nb_requests = requests.size() ;
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vector<CalibrationRequest*>::iterator r = requests.begin() ;
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while (r != requests.end())
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{
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assert(*r) ;
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unordered_map<std::string, CapturePoint>::const_iterator cp ;
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if ((*r)->get_mobile() == NULL)
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goto delete_request ;
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// Check if the request was sent by a CP
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for (cp = Stock::get_cps().begin() ; cp != Stock::get_cps().end() ;
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++cp)
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if ((*r)->get_mobile()->get_mac_addr() ==
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cp->second.get_mac_addr())
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break ;
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if (cp != Stock::get_cps().end()) // r was sent by a CP
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{
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++r ;
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continue ; // Do not delete r
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}
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// r is not associated with a CP, delete it
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delete_request:
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Stock::delete_calibration_request(**r) ;
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r = requests.erase(r) ;
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}
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return nb_requests != requests.size() ;
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}
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/* *** Operations *** */
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/**
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* Before to compute the similarity, all the measurements containted in
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* #requests are put together, as if it was one big request.
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*
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* Note: to compute the similarity between two requests, one should use
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* Request::similarity().
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*/
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float ReferencePoint::similarity(const Request &source) const
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{
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assert(! requests.empty()) ;
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unordered_map<string, Measurement>
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source_measurements(source.get_measurements()) ;
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unordered_map<string, Measurement>
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all_measurements(get_all_measurements()) ;
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PosUtil::complete_with_dummy_measurements(
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all_measurements, source_measurements) ;
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return PosUtil::similarity(
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all_measurements, source_measurements) ;
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}
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/**
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* @param cp_mac The MAC address of the CapturePoint to work on.
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*
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* @returns The Friis index associated to the CapturePoint.
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* @returns 0 if the CP is unknown at this ReferencePoint.
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*/
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float ReferencePoint::
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friis_index_for_cp(const string &cp_mac) const
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{
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const CapturePoint &cp = Stock::get_cp(cp_mac) ;
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double const_term = cp.friis_constant_term() ;
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int nb_friis_idx = 0 ;
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double friis_idx_sum =
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friis_indexes_for_cp(cp, const_term, nb_friis_idx) ;
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if (nb_friis_idx == 0)
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return 0 ;
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return friis_idx_sum / nb_friis_idx ;
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}
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/**
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* Computes a Friis index sum for the distance CP-ReferencePoint,
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* based on the measurements of this CP that are present in the
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* ReferencePoint. To obtain the real (averaged) Friis index, one
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* has to divide the returned sum by the number of indexes.
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*
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* @param cp The CapturePoint to work on.
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* @param const_term The "constant" part of the computation.
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* @param nb_indexes (result) The number of indexes computed.
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*
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* @returns The sum of all Friis indexes for the CapturePoint.
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* @returns 0 if the CP is unknown at this ReferencePoint.
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*/
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float ReferencePoint::friis_indexes_for_cp(
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const CapturePoint &cp,
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const double &const_term,
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int &nb_indexes) const
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{
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nb_indexes = 0 ;
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double friis_idx_sum = 0 ;
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const string &cp_mac = cp.get_mac_addr() ;
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float distance = this->distance(cp.get_coordinates()) ;
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/*
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* Compute an index for the CP's Measurement in each Request in the
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* ReferencePoint. The Friis index for the CP is the average of all
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* these indexes (we do not compute the average in this function).
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*/
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for (vector<CalibrationRequest*>::const_iterator request =
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requests.begin() ; request != requests.end() ; ++request)
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{
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const unordered_map<string, Measurement> &measurements =
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(*request)->get_measurements() ;
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unordered_map<string, Measurement>::const_iterator measurement =
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measurements.find(cp_mac) ;
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if (measurement != measurements.end())
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{
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float ss = measurement->second.get_average_dbm() ;
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assert((*request)->get_mobile()) ;
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float mobile_gain =
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(*request)->get_mobile()->get_antenna_gain() ;
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float mobile_pow =
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(*request)->get_mobile()->get_trx_power() ;
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friis_idx_sum +=
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(const_term + mobile_gain + mobile_pow - ss)
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/ (10 * log10(distance)) ;
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++nb_indexes ;
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}
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}
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return friis_idx_sum ;
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}
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/**
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* Computes a Friis index for the distance CP-ReferencePoint, based on a
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* given packet (`pkt_id),` of a measurement of this CP present in the
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* ReferencePoint. This measurement is the first found in the
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* ReferencePoint. This works well when we keep only one calibration
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* request per reference point.
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*
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* @param cp_mac The MAC address of the CapturePoint to work on.
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* @param pkt_id The packet ID to look for.
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*
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* @returns The Friis index for this CP and packet.
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* @returns 0 if the CP is unknown at this ReferencePoint, or if there
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* is no packet with the wanted ID.
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*/
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float ReferencePoint::
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friis_index_for_cp(const string &cp_mac, pkt_id_t pkt_id) const
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{
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const CapturePoint &cp = Stock::get_cp(cp_mac) ;
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double const_term = cp.friis_constant_term() ;
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float distance = this->distance(cp.get_coordinates()) ;
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float friis_idx = 0 ;
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for (vector<CalibrationRequest*>::const_iterator request =
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requests.begin() ; request != requests.end() ; ++request)
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{
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const unordered_map<string, Measurement> &measurements =
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(*request)->get_measurements() ;
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unordered_map<string, Measurement>::const_iterator measurement =
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measurements.find(cp_mac) ;
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if (measurement == measurements.end())
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continue ;
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ss_t ss = measurement->second.get_ss(pkt_id) ;
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if (ss == 0)
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continue ;
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assert((*request)->get_mobile()) ;
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float mobile_gain = (*request)->get_mobile()->get_antenna_gain() ;
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float mobile_pow = (*request)->get_mobile()->get_trx_power() ;
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friis_idx =
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(const_term + mobile_gain + mobile_pow - ss)
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/ (10 * log10(distance)) ;
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break ;
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}
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return friis_idx ;
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}
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/* *** Operators *** */
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ReferencePoint& ReferencePoint::operator=(const ReferencePoint &source)
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{
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if (this == &source)
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return *this ;
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this->Point3D::operator=(source) ;
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requests = source.requests ;
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return *this ;
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}
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bool ReferencePoint::operator==(const ReferencePoint &source) const
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{
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if (this == &source)
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return true ;
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return
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this->Point3D::operator==(source) &&
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requests == source.requests ;
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}
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ostream &operator<<(ostream &os, const ReferencePoint &rp)
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{
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// Coordinates
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os << static_cast<Point3D>(rp) ;
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// List of requests
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if (rp.requests.empty())
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os << "\nNo request." << '\n' ;
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else
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for (vector<CalibrationRequest*>::const_iterator
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i = rp.requests.begin() ;
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i != rp.requests.end() ; ++i)
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os << '\n' << **i ;
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return os ;
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}
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