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Lemma is an Electromagnetics API
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lemma_mirror/Modules/FDEM1D/include/PolygonalWireAntenna.h

PolygonalWireAntenna.h 6.4KB
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  1. /* This file is part of Lemma, a geophysical modelling and inversion API */

  2. 

  3. /* This Source Code Form is subject to the terms of the Mozilla Public

  4.  * License, v. 2.0. If a copy of the MPL was not distributed with this

  5.  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

  6. 

  7. /**

  8.   @file

  9.   @author   Trevor Irons

  10.   @date     05/18/2010

  11.  **/

  12. #ifndef  POLYGONALWIREANTENNA_INC

  13. #define  POLYGONALWIREANTENNA_INC

  14. 

  15. #include "DipoleSource.h"

  16. #include "WireAntenna.h"

  17. 

  18. namespace Lemma {

  19. 

  20.     // ===================================================================

  21.     //        Class:  PolygonalWireAntenna

  22.     /// \ingroup FDEM1D

  23.     /// \brief   Class representing polygonal wire antennae.

  24.     /// \details For EM calculations, dipoles representing this loop are

  25.     ///    created dynamically, depending on receiver location.

  26.     /// @todo enforce minimum dipole moment.

  27.     // ===================================================================

  28.     class PolygonalWireAntenna : public WireAntenna {

  29. 

  30.         friend std::ostream &operator << (std::ostream &stream, const PolygonalWireAntenna &ob);

  31. 

  32.         public:

  33. 

  34.             // ====================  LIFECYCLE     =======================

  35. 

  36.             /// Default protected constructor.

  37.             explicit PolygonalWireAntenna ( const ctor_key& );

  38. 

  39.             /// Default protected constructor.

  40.             PolygonalWireAntenna (const YAML::Node& node, const ctor_key& );

  41. 

  42.             /// Default protected constructor.

  43.             virtual ~PolygonalWireAntenna ();

  44. 

  45.             /**

  46.              * Declares all memory and returns a new instance.

  47.              */

  48.             static std::shared_ptr<PolygonalWireAntenna> NewSP();

  49. 

  50.             /// Makes a deep copy of this antenna with all connections except

  51.             /// the dipole approximation.

  52.             virtual std::shared_ptr<WireAntenna> Clone() const ;

  53. 

  54.             /// Makes a deep copy of this antenna with all connections except

  55.             /// the dipole approximation.

  56.             virtual std::shared_ptr<PolygonalWireAntenna> ClonePA() const ;

  57. 

  58.             /**

  59.              *  Uses YAML to serialize this object.

  60.              *  @return a YAML::Node

  61.              */

  62.             YAML::Node Serialize() const;

  63. 

  64.             /**

  65.              *   Constructs an object from a YAML::Node.

  66.              */

  67.             static std::shared_ptr<PolygonalWireAntenna> DeSerialize(const YAML::Node& node);

  68. 

  69.             /**

  70.              *   Constructs an object from a string representation of a YAML::Node. This is primarily

  71.              *   used in Python wrapping

  72.              */

  73.             static std::shared_ptr<PolygonalWireAntenna> DeSerialize( const std::string& node ) {

  74.                 return PolygonalWireAntenna::DeSerialize(YAML::LoadFile(node));

  75.             }

  76. 

  77.             // ====================  OPERATORS     =======================

  78. 

  79.             // ====================  OPERATIONS    =======================

  80. 

  81.             /// Approximates with ungrounded electrical dipoles, such that

  82.             /// minDipoleRatio is satisfied.

  83.             virtual void ApproximateWithElectricDipoles(const Vector3r &rp);

  84. 

  85.             /** Sets the minimum ratio for dipole moments to be used to

  86.              * approximate the loop. A smaller ratio yields a more accurate

  87.              * result, but is more expensive. Default is (1/5).

  88.              */

  89.             void SetMinDipoleRatio(const Real& ratio);

  90. 

  91.             /** Sets the minimum moment for dipole moments to be used to

  92.              * approximate the loop.

  93.              */

  94.             void SetMinDipoleMoment(const Real& m);

  95. 

  96.             /** Sets the minimum moment for dipole moments to be used to

  97.              * approximate the loop.

  98.              */

  99.             void SetMaxDipoleMoment(const Real& m);

  100. 

  101.             // ====================  ACCESS        =======================

  102. 

  103.             // ====================  INQUIRY       =======================

  104. 

  105.             /** Returns the name of the underlying class, similiar to Python's type */

  106.             virtual std::string GetName() const ;

  107. 

  108.         protected:

  109. 

  110.             // ====================  DATA MEMBERS  =======================

  111. 

  112.             /// minimum ratio of dipole moment to distance to receiver point

  113.             Real minDipoleRatio;

  114. 

  115.             /// Maximum dipole moment allowed

  116.             Real minDipoleMoment;

  117. 

  118.             /// Maximum dipole moment allowed

  119.             Real maxDipoleMoment;

  120. 

  121.             /// Adds grounding point to non-closed wire loop

  122.             void AddGroundingPoint(

  123.                             const Vector3r &cp,

  124.                             const Vector3r &dir,

  125.                             std::vector< std::shared_ptr<DipoleSource> > &Dipoles );

  126. 

  127.             /// appends

  128.             void PushXYZDipoles( const Vector3r &step, const Vector3r &cp,

  129.                             const Vector3r &dir,

  130.                             std::vector< std::shared_ptr<DipoleSource> > &Dipoles) ;

  131. 

  132.             /// corrects for overstep

  133.             void CorrectOverstepXYZDipoles( const Vector3r &step,

  134.                             const Vector3r &cp,

  135.                             const Vector3r &dir,

  136.                             std::vector< std::shared_ptr<DipoleSource> > &Dipoles );

  137. 

  138.             // ====================  OPERATIONS    =======================

  139. 

  140. 

  141.             /// Returns the nearest point on a line segment to another point.

  142.             /// if the point is not on the line-segment, return the

  143.             /// nearest end-point

  144.             /// @param[in] p0, p1 define the line segement

  145.             /// @param[in] rp is a point in space. The function returns the

  146.             /// closest point on the line to this point.

  147.             /// @return The point (Lemma::Vector3r) on the line defined by p0,

  148.             /// and p1, closest to rp

  149.             Vector3r ClosestPointOnLine(const Vector3r &p0, const Vector3r &p1,

  150.                             const Vector3r &rp);

  151. 

  152.             /// Interpolates dipoles along line segment defined by p0 and p1.

  153.             void InterpolateLineSegment(const Vector3r &p0, const Vector3r &p1, const Vector3r &rp,

  154.                             std::vector< std::shared_ptr<DipoleSource> > &Dipoles );

  155. 

  156.         private:

  157. 

  158.             Vector3r                               rRepeat;

  159. 

  160.             static constexpr auto CName = "PolygonalWireAntenna";

  161. 

  162.     }; // -----  end of class  PolygonalWireAntenna  -----

  163. 

  164. }       // -----  end of Lemma  name  -----

  165. 

  166. #endif   // ----- #ifndef POLYGONALWIREANTENNA_INC  -----