Surface NMR forward modelling
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KernelV0.h 11KB

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  1. /* This file is part of Lemma, a geophysical modelling and inversion API.
  2. * More information is available at http://lemmasoftware.org
  3. */
  4. /* This Source Code Form is subject to the terms of the Mozilla Public
  5. * License, v. 2.0. If a copy of the MPL was not distributed with this
  6. * file, You can obtain one at http://mozilla.org/MPL/2.0/.
  7. */
  8. /**
  9. * @file
  10. * @date 11/11/2016 01:47:34 PM
  11. * @author Trevor Irons (ti)
  12. * @email tirons@egi.utah.edu
  13. * @copyright Copyright (c) 2016, University of Utah
  14. * @copyright Copyright (c) 2016, Lemma Software, LLC
  15. * @copyright Copyright (c) 2008, Colorado School of Mines
  16. */
  17. #ifndef KERNELV0_INC
  18. #define KERNELV0_INC
  19. #pragma once
  20. #include "LemmaObject.h"
  21. #include "LayeredEarthEM.h"
  22. #include "PolygonalWireAntenna.h"
  23. #include "EMEarth1D.h"
  24. #ifdef LEMMAUSEVTK
  25. #include "vtkHyperOctree.h"
  26. #include "vtkHyperOctreeCursor.h"
  27. #include "vtkXMLHyperOctreeWriter.h"
  28. #include "vtkDoubleArray.h"
  29. #endif
  30. namespace Lemma {
  31. struct EllipticB {
  32. Vector3r bhat;
  33. Vector3r bhatp;
  34. Real alpha;
  35. Real beta;
  36. Complex eizt;
  37. Real zeta;
  38. };
  39. template <typename T> int sgn(T val) {
  40. return (val > T(0)) - (val < T(0));
  41. }
  42. /**
  43. * \ingroup Merlin
  44. * \brief
  45. * \details
  46. */
  47. class KernelV0 : public LemmaObject {
  48. friend std::ostream &operator<<(std::ostream &stream, const KernelV0 &ob);
  49. protected:
  50. /*
  51. * This key is used to lock the constructor. It is protected so that inhereted
  52. * classes also have the key to contruct their base class.
  53. */
  54. struct ctor_key {};
  55. public:
  56. // ==================== LIFECYCLE =======================
  57. /**
  58. * Default constructor.
  59. * @note This method is locked, and cannot be called directly.
  60. * The reason that the method is public is to enable the use
  61. * of make_shared whilst enforcing the use of shared_ptr,
  62. * in c++-17, this curiosity may be resolved.
  63. * @see KernelV0::NewSP
  64. */
  65. explicit KernelV0 ( const ctor_key& );
  66. /**
  67. * DeSerializing constructor.
  68. * @note This method is locked, and cannot be called directly.
  69. * The reason that the method is public is to enable the use
  70. * of make_shared whilst enforcing the use of shared_ptr,
  71. * in c++-17, this curiosity may be resolved.
  72. * @see KernelV0::DeSerialize
  73. */
  74. KernelV0 ( const YAML::Node& node, const ctor_key& );
  75. /**
  76. * Default destructor.
  77. * @note This method should never be called due to the mandated
  78. * use of smart pointers. It is necessary to keep the method
  79. * public in order to allow for the use of the more efficient
  80. * make_shared constructor.
  81. */
  82. virtual ~KernelV0 ();
  83. /**
  84. * Uses YAML to serialize this object.
  85. * @return a YAML::Node
  86. * @see KernelV0::DeSerialize
  87. */
  88. virtual YAML::Node Serialize() const;
  89. /*
  90. * Factory method for generating concrete class.
  91. * @return a std::shared_ptr of type KernelV0
  92. */
  93. static std::shared_ptr< KernelV0 > NewSP();
  94. /**
  95. * Constructs an KernelV0 object from a YAML::Node.
  96. * @see KernelV0::Serialize
  97. */
  98. static std::shared_ptr<KernelV0> DeSerialize(const YAML::Node& node);
  99. // ==================== OPERATORS =======================
  100. // ==================== OPERATIONS =======================
  101. /**
  102. * @return std::shared_ptr<LayeredEarthEM>
  103. */
  104. inline std::shared_ptr<LayeredEarthEM> GetSigmaModel ( ) {
  105. return SigmaModel;
  106. } // ----- end of method KernelV0::get_SigmaModel -----
  107. /**
  108. * @param[in] value the 1D-EM model used for calculations
  109. */
  110. inline void SetLayeredEarthEM ( std::shared_ptr< LayeredEarthEM > value ) {
  111. SigmaModel = value;
  112. return ;
  113. } // ----- end of method KernelV0::set_SigmaModel -----
  114. /**
  115. *
  116. */
  117. inline void SetIntegrationSize ( const Vector3r& size ) {
  118. Size = size;
  119. return ;
  120. } // ----- end of method KernelV0::SetIntegrationSize -----
  121. /**
  122. *
  123. */
  124. inline void SetIntegrationOrigin ( const Vector3r& origin ) {
  125. Origin = origin;
  126. return ;
  127. } // ----- end of method KernelV0::SetIntegrationOrigin -----
  128. /**
  129. *
  130. */
  131. inline void SetPulseCurrent ( const VectorXr& Amps ) {
  132. PulseI = Amps;
  133. return ;
  134. } // ----- end of method KernelV0::SetIntegrationOrigin -----
  135. /**
  136. * Assign transmiter coils
  137. */
  138. inline void PushCoil( const std::string& label, std::shared_ptr<PolygonalWireAntenna> ant ) {
  139. TxRx[label] = ant;
  140. }
  141. /**
  142. * Calculates a single imaging kernel, however, phased arrays are supported
  143. * so that more than one transmitter and/or receiver can be specified.
  144. * @param[in] tx is the list of transmitters to use for a kernel, use the same labels as
  145. * used in PushCoil.
  146. * @param[in] rx is the list of receivers to use for a kernel, use the same labels as
  147. * used in PushCoil. @see PushCoil
  148. * @param[in] vtkOutput generates a VTK hyperoctree file as well, useful for visualization.
  149. * requires compilation of Lemma with VTK.
  150. */
  151. void CalculateK0 (const std::vector< std::string >& tx, const std::vector< std::string >& rx,
  152. bool vtkOutput=false );
  153. /**
  154. * Sets the temperature, which has implications in calculation of \f$ M_N^{(0)}\f$. Units in
  155. * Kelvin.
  156. */
  157. inline void SetTemperature(const Real& tempK) {
  158. Temperature = tempK;
  159. }
  160. /**
  161. * Sets the tolerance to use for making the adaptive mesh
  162. *
  163. */
  164. inline void SetTolerance(const Real& ttol) {
  165. tol = ttol;
  166. }
  167. inline void SetPulseDuration(const Real& taup) {
  168. Taup = taup;
  169. }
  170. inline void SetDepthLayerInterfaces( const VectorXr& iface ){
  171. Interfaces = iface;
  172. }
  173. // ==================== INQUIRY =======================
  174. /**
  175. * Returns the name of the underlying class, similiar to Python's type
  176. * @return string of class name
  177. */
  178. virtual inline std::string GetName() const {
  179. return CName;
  180. }
  181. protected:
  182. // ==================== LIFECYCLE =======================
  183. /** Copy is disabled */
  184. KernelV0( const KernelV0& ) = delete;
  185. private:
  186. /**
  187. * Returns the kernel value for an input prism
  188. */
  189. VectorXcr f( const Vector3r& r, const Real& volume , const Vector3cr& Ht, const Vector3cr& Hr);
  190. // Complex ComputeV0Cell(const EllipticB& EBT, const EllipticB& EBR,
  191. // const Real& sintheta, const Real& phase, const Real& Mn0Abs,
  192. // const Real& vol);
  193. EllipticB EllipticFieldRep (const Vector3cr& B, const Vector3r& B0hat);
  194. Vector3r ComputeMn0(const Real& Porosity, const Vector3r& B0);
  195. void IntegrateOnOctreeGrid( bool vtkOutput=false );
  196. /**
  197. * Recursive call to integrate a function on an adaptive Octree Grid.
  198. * For efficiency's sake the octree grid is not stored, as only the
  199. * integral (sum) is of interest. The logic for grid refinement is based
  200. * on an Octree representation of the domain. If an Octree representation
  201. * of the kernel is desired, call alternative version @see EvaluateKids2
  202. * @param[in] size gives the domain size, in metres
  203. * @param[in] level gives the current level of the octree grid, call with 0 initially
  204. * @param[in] cpos is the centre position of the parent cuboid
  205. */
  206. void EvaluateKids( const Vector3r& size, const int& level, const Vector3r& cpos,
  207. const VectorXcr& parentVal );
  208. #ifdef LEMMAUSEVTK
  209. /**
  210. * Same functionality as @see EvaluateKids, but includes generation of a VTK
  211. * HyperOctree, which is useful for visualization.
  212. */
  213. void EvaluateKids2( const Vector3r& size, const int& level, const Vector3r& cpos,
  214. const VectorXcr& parentVal, vtkHyperOctree* octree, vtkHyperOctreeCursor* curse );
  215. void GetPosition( vtkHyperOctreeCursor* Cursor, Real* p );
  216. #endif
  217. // ==================== DATA MEMBERS =========================
  218. int ilay;
  219. int nleaves;
  220. int minLevel=4;
  221. int maxLevel=8;
  222. Real VOLSUM;
  223. Real tol=1e-11;
  224. Real Temperature=283.;
  225. Real Taup = .020; // Sec
  226. Real Larmor;
  227. Vector3r Size;
  228. Vector3r Origin;
  229. VectorXr PulseI;
  230. VectorXr Interfaces;
  231. MatrixXcr Kern;
  232. std::shared_ptr< LayeredEarthEM > SigmaModel = nullptr;
  233. std::shared_ptr< FieldPoints > cpoints;
  234. std::map< std::string , std::shared_ptr< PolygonalWireAntenna > > TxRx;
  235. std::map< std::string , std::shared_ptr< EMEarth1D > > EMEarths;
  236. #ifdef LEMMAUSEVTK
  237. std::map< int, VectorXcr > LeafDict;
  238. std::map< int, int > LeafDictIdx;
  239. std::map< int, Real > LeafDictErr;
  240. #endif
  241. // Physical constants and conversion factors
  242. static constexpr Real GAMMA = 2.67518e8; // MKS units
  243. static constexpr Real INVSQRT2 = 0.70710678118654746;
  244. static constexpr Real HBAR = 1.05457148e-34; // m2 kg / s
  245. static constexpr Real NH2O = 6.692e28; // [m^3]
  246. static constexpr Real KB = 1.3805e-23; // m^2 kg s-2 K-1
  247. static constexpr Real CHI_N = 3.29e-3; // MKS units
  248. /** ASCII string representation of the class name */
  249. static constexpr auto CName = "KernelV0";
  250. }; // ----- end of class KernelV0 -----
  251. } // ----- end of namespace Lemma ----
  252. /* vim: set tabstop=4 expandtab */
  253. /* vim: set filetype=cpp */
  254. #endif // ----- #ifndef KERNELV0_INC -----