#ifndef OrbitalInfoStruct_h #define OrbitalInfoStruct_h struct cOrbitalInfo { ULong64_t abstime; //< Absolute Time // EM: added On Board Time and CPU Packet Number ULong64_t obt; //< On Board Time ULong64_t pkt_num; //< CPU packet number // Position Float_t lon; // degree from -180 to 180 Float_t lat; // degree from -90 to 90 Float_t alt; // meters // Magnetic field // components (gauss) Float_t Bnorth; Float_t Beast; Float_t Bdown; // abs value (guass) Float_t Babs; //Earth dipole moment Float_t M; // Minimum along the field line (that is at the magnetic equator) Float_t BB0; // Distance of the magnetic equator in earth radii Float_t L; // Dipolar magnetic coordinates Float_t londip; // degrees from -180 to 180 Float_t latdip; // degrees from -90 to 90 Float_t altdip; // meters // Corrected magnetic coordinates Float_t loncgm; // degrees from -180 to 180 Float_t latcgm; // degrees from -90 to 90 Float_t altcgm; // meters // Corrected B min magnetic coordinates Float_t loncbm; // degrees from -180 to 180 Float_t latcbm; // degrees from -90 to 90 Float_t altcbm; // meters Float_t cutoffsvl; // Quaternions Float_t q0, q1, q2, q3; // Euler angles (nadir reference frame) Float_t theta, phi, etha; // Euler angles (local field reference frame) // Float_t thetamag, phimag, ethamag; Int_t mode; // Useful? // Int_t goodAttitude[5]; void InitcOrbitalInfo(){ abstime = 0; obt = 0; pkt_num = 0; } }; #endif