diff --git a/src/FDM/JSBSim/JSBSim.cxx b/src/FDM/JSBSim/JSBSim.cxx index f5dd9008e..abab0414d 100644 --- a/src/FDM/JSBSim/JSBSim.cxx +++ b/src/FDM/JSBSim/JSBSim.cxx @@ -103,8 +103,8 @@ public: double contact[3], normal[3], vel[3], agl = 0; mInterface->get_agl_ft(t, loc_cart, SG_METER_TO_FEET*2, contact, normal, vel, &agl); - n = l.GetTec2l()*FGColumnVector3( normal[0], normal[1], normal[2] ); - v = l.GetTec2l()*FGColumnVector3( vel[0], vel[1], vel[2] ); + n = FGColumnVector3( -normal[0], -normal[1], -normal[2] ); + v = FGColumnVector3( vel[0], vel[1], vel[2] ); cont = FGColumnVector3( contact[0], contact[1], contact[2] ); return agl; } diff --git a/src/FDM/JSBSim/input_output/FGPropertyManager.h b/src/FDM/JSBSim/input_output/FGPropertyManager.h index 8f191fe87..876b490b7 100644 --- a/src/FDM/JSBSim/input_output/FGPropertyManager.h +++ b/src/FDM/JSBSim/input_output/FGPropertyManager.h @@ -35,14 +35,17 @@ SENTRY INCLUDES %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/ -#ifdef HAVE_CONFIG_H -# include -#endif - #include #include #include -#include +#if !PROPS_STANDALONE + // This is needed by MSVC9 when included in FlightGear because of + // the new Vec4d class in props.hxx +# if defined( HAVE_CONFIG_H ) +# include +# endif +# include +#endif #include "FGJSBBase.h" diff --git a/src/FDM/JSBSim/input_output/FGScript.cpp b/src/FDM/JSBSim/input_output/FGScript.cpp index dc033e26f..5605b615c 100755 --- a/src/FDM/JSBSim/input_output/FGScript.cpp +++ b/src/FDM/JSBSim/input_output/FGScript.cpp @@ -274,14 +274,14 @@ bool FGScript::LoadScript( string script ) newEvent->newValue.push_back(0.0); newEvent->ValueSpan.push_back(0.0); string tempCompare = set_element->GetAttributeValue("type"); - if (tempCompare == "FG_DELTA") newEvent->Type.push_back(FG_DELTA); - else if (tempCompare == "FG_BOOL") newEvent->Type.push_back(FG_BOOL); - else if (tempCompare == "FG_VALUE") newEvent->Type.push_back(FG_VALUE); + if (to_lower(tempCompare).find("delta") != string::npos) newEvent->Type.push_back(FG_DELTA); + else if (to_lower(tempCompare).find("bool") != string::npos) newEvent->Type.push_back(FG_BOOL); + else if (to_lower(tempCompare).find("value") != string::npos) newEvent->Type.push_back(FG_VALUE); else newEvent->Type.push_back(FG_VALUE); // DEFAULT tempCompare = set_element->GetAttributeValue("action"); - if (tempCompare == "FG_RAMP") newEvent->Action.push_back(FG_RAMP); - else if (tempCompare == "FG_STEP") newEvent->Action.push_back(FG_STEP); - else if (tempCompare == "FG_EXP") newEvent->Action.push_back(FG_EXP); + if (to_lower(tempCompare).find("ramp") != string::npos) newEvent->Action.push_back(FG_RAMP); + else if (to_lower(tempCompare).find("step") != string::npos) newEvent->Action.push_back(FG_STEP); + else if (to_lower(tempCompare).find("exp") != string::npos) newEvent->Action.push_back(FG_EXP); else newEvent->Action.push_back(FG_STEP); // DEFAULT if (!set_element->GetAttributeValue("tc").empty()) diff --git a/src/FDM/JSBSim/models/FGLGear.cpp b/src/FDM/JSBSim/models/FGLGear.cpp index 96d8d2308..2a9b472e9 100644 --- a/src/FDM/JSBSim/models/FGLGear.cpp +++ b/src/FDM/JSBSim/models/FGLGear.cpp @@ -3,6 +3,7 @@ Module: FGLGear.cpp Author: Jon S. Berndt Norman H. Princen + Bertrand Coconnier Date started: 11/18/99 Purpose: Encapsulates the landing gear elements Called by: FGAircraft @@ -33,6 +34,7 @@ HISTORY -------------------------------------------------------------------------------- 11/18/99 JSB Created 01/30/01 NHP Extended gear model to properly simulate steering and braking +07/08/09 BC Modified gear model to support large angles between aircraft and ground /%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% INCLUDES @@ -225,13 +227,14 @@ FGLGear::FGLGear(Element* el, FGFDMExec* fdmex, int number) : TakeoffReported = LandingReported = false; LandingDistanceTraveled = TakeoffDistanceTraveled = TakeoffDistanceTraveled50ft = 0.0; MaximumStrutForce = MaximumStrutTravel = 0.0; - SideForce = RollingForce = 0.0; SinkRate = GroundSpeed = 0.0; vWhlBodyVec = MassBalance->StructuralToBody(vXYZ); vLocalGear = Propagate->GetTb2l() * vWhlBodyVec; + vLocalWhlVel.InitMatrix(); + compressLength = 0.0; compressSpeed = 0.0; brakePct = 0.0; @@ -240,12 +243,6 @@ FGLGear::FGLGear(Element* el, FGFDMExec* fdmex, int number) : WheelSlip = 0.0; TirePressureNorm = 1.0; - SideWhlVel = 0.0; - RollingWhlVel = 0.0; - - SinWheel = 0.0; - CosWheel = 0.0; - // Set Pacejka terms Stiffness = 0.06; @@ -272,6 +269,7 @@ FGColumnVector3& FGLGear::Force(void) dT = State->Getdt()*Exec->GetGroundReactions()->GetRate(); vForce.InitMatrix(); + vLocalForce.InitMatrix(); vMoment.InitMatrix(); if (isRetractable) ComputeRetractionState(); @@ -282,9 +280,21 @@ FGColumnVector3& FGLGear::Force(void) vLocalGear = Propagate->GetTb2l() * vWhlBodyVec; // Get local frame wheel location gearLoc = Propagate->GetLocation().LocalToLocation(vLocalGear); - compressLength = -Exec->GetGroundCallback()->GetAGLevel(t, gearLoc, contact, normal, cvel); + // Compute the height of the theoritical location of the wheel (if struct was not compressed) with + // respect to the ground level + double height = Exec->GetGroundCallback()->GetAGLevel(t, gearLoc, contact, normal, cvel); + vGroundNormal = -1. * Propagate->GetTec2b() * normal; - // The compression length is measured in the Z-axis, only, at this time. + switch (eContactType) { + case ctBOGEY: + // Project the height in the local coordinate frame of the strut to compute the actual compression + // length. The strut is assumed to be parallel to Z in the body frame. + compressLength = vGroundNormal(eZ) < 0.0 ? height / vGroundNormal(eZ) : 0.0; + break; + case ctSTRUCTURE: + compressLength = -height; + break; + } if (compressLength > 0.00) { @@ -293,22 +303,38 @@ FGColumnVector3& FGLGear::Force(void) // [The next equation should really use the vector to the contact patch of // the tire including the strut compression and not the original vWhlBodyVec.] - vWhlVelVec = Propagate->GetTb2l() * (Propagate->GetPQR() * vWhlBodyVec); - vWhlVelVec += Propagate->GetVel() - cvel; - compressSpeed = vWhlVelVec(eZ); + FGColumnVector3 vWhlContactVec = vWhlBodyVec - FGColumnVector3(0., 0., compressLength); + vWhlVelVec = Propagate->GetPQR() * vWhlContactVec; + vWhlVelVec += Propagate->GetUVW() - Propagate->GetTec2b() * cvel; InitializeReporting(); - ComputeBrakeForceCoefficient(); ComputeSteeringAngle(); - ComputeSlipAngle(); - ComputeSideForceCoefficient(); + ComputeGroundCoordSys(); + + vLocalWhlVel = Tb2g * vWhlVelVec; + + compressSpeed = -vLocalWhlVel(eZ); + if (eContactType == ctBOGEY) + // Project the compression speed in the local coordinate frame of the strut + compressSpeed /= -vGroundNormal(eZ); + ComputeVerticalStrutForce(); // Compute the forces in the wheel ground plane. - - double sign = RollingWhlVel>0?1.0:(RollingWhlVel<0?-1.0:0.0); - RollingForce = ((1.0 - TirePressureNorm) * 30 + vLocalForce(eZ) * BrakeFCoeff) * sign; - SideForce = vLocalForce(eZ) * FCoeff; + if (eContactType == ctBOGEY) { + ComputeSlipAngle(); + ComputeBrakeForceCoefficient(); + ComputeSideForceCoefficient(); + double sign = vLocalWhlVel(eX)>0?1.0:(vLocalWhlVel(eX)<0?-1.0:0.0); + vLocalForce(eX) = - ((1.0 - TirePressureNorm) * 30 + vLocalForce(eZ) * BrakeFCoeff) * sign; + vLocalForce(eY) = vLocalForce(eZ) * FCoeff; + } + else if (eContactType == ctSTRUCTURE) { + FGColumnVector3 vSlipVec = vLocalWhlVel; + vSlipVec(eZ) = 0.; + vSlipVec.Normalize(); + vLocalForce -= staticFCoeff * vLocalForce(eZ) * vSlipVec; + } // Lag and attenuate the XY-plane forces dependent on velocity. This code // uses a lag filter, C/(s + C) where "C" is the filter coefficient. When @@ -317,24 +343,18 @@ FGColumnVector3& FGLGear::Force(void) // If a coefficient is set to something equal to or less than zero, the // filter is bypassed. - if (LongForceLagFilterCoeff > 0) RollingForce = LongForceFilter.execute(RollingForce); - if (LatForceLagFilterCoeff > 0) SideForce = LatForceFilter.execute(SideForce); + if (LongForceLagFilterCoeff > 0) vLocalForce(eX) = LongForceFilter.execute(vLocalForce(eX)); + if (LatForceLagFilterCoeff > 0) vLocalForce(eY) = LatForceFilter.execute(vLocalForce(eY)); - if ((fabs(RollingWhlVel) <= RFRV) && RFRV > 0) RollingForce *= fabs(RollingWhlVel)/RFRV; - if ((fabs(SideWhlVel) <= SFRV) && SFRV > 0) SideForce *= fabs(SideWhlVel)/SFRV; + if ((fabs(vLocalWhlVel(eX)) <= RFRV) && RFRV > 0) vLocalForce(eX) *= fabs(vLocalWhlVel(eX))/RFRV; + if ((fabs(vLocalWhlVel(eY)) <= SFRV) && SFRV > 0) vLocalForce(eY) *= fabs(vLocalWhlVel(eY))/SFRV; - // Transform these forces back to the local reference frame. - - vLocalForce(eX) = RollingForce*CosWheel - SideForce*SinWheel; - vLocalForce(eY) = SideForce*CosWheel + RollingForce*SinWheel; + // End section for attenuating gear jitter // Transform the forces back to the body frame and compute the moment. - vForce = Propagate->GetTl2b() * vLocalForce; - - // End section for attentuating gear jitter - - vMoment = vWhlBodyVec * vForce; + vForce = Tg2b * vLocalForce; + vMoment = vWhlContactVec * vForce; } else { // Gear is NOT compressed @@ -342,12 +362,9 @@ FGColumnVector3& FGLGear::Force(void) compressLength = 0.0; compressSpeed = 0.0; - // No wheel conditions - SideWhlVel = WheelSlip = 0.0; - // Let wheel spin down slowly - RollingWhlVel -= 13.0*dT; - if (RollingWhlVel < 0.0) RollingWhlVel = 0.0; + vLocalWhlVel(eX) -= 13.0*dT; + if (vLocalWhlVel(eX) < 0.0) vLocalWhlVel(eX) = 0.0; // Return to neutral position between 1.0 and 0.8 gear pos. SteerAngle *= max(GetGearUnitPos()-0.8, 0.0)/0.2; @@ -367,6 +384,45 @@ FGColumnVector3& FGLGear::Force(void) return vForce; } +//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +// Build a local "ground" coordinate system defined by +// eX : projection of the rolling direction on the ground +// eY : projection of the sliping direction on the ground +// eZ : normal to the ground + +void FGLGear::ComputeGroundCoordSys(void) +{ + // Compute the rolling direction projected on the ground + // It consists in finding a vector 'r' such that 'r' lies in the plane (w,z) and r.n = 0 (scalar + // product) where: + // 'n' is the normal to the ground, + // (x,y,z) are the directions defined in the body coord system + // and 'w' is 'x' rotated by the steering angle (SteerAngle) in the plane (x,y). + // r = u * w + v * z and r.n = 0 => v/u = -w.n/z.n = a + // We also want u**2+v**2=1 and u > 0 (i.e. r orientated in the same 'direction' than w) + // after some arithmetic, one finds that : + double a = -(vGroundNormal(eX)*cos(SteerAngle)+vGroundNormal(eY)*sin(SteerAngle)) / vGroundNormal(eZ); + double u = 1. / sqrt(1. + a*a); + double v = a * u; + FGColumnVector3 vRollingGroundVec = FGColumnVector3(u * cos(SteerAngle), u * sin(SteerAngle), v); + + // The sliping direction is the cross product multiplication of the ground normal and rolling + // directions + FGColumnVector3 vSlipGroundVec = vGroundNormal * vRollingGroundVec; + + Tg2b(1,1) = vRollingGroundVec(eX); + Tg2b(2,1) = vRollingGroundVec(eY); + Tg2b(3,1) = vRollingGroundVec(eZ); + Tg2b(1,2) = vSlipGroundVec(eX); + Tg2b(2,2) = vSlipGroundVec(eY); + Tg2b(3,2) = vSlipGroundVec(eZ); + Tg2b(1,3) = vGroundNormal(eX); + Tg2b(2,3) = vGroundNormal(eY); + Tg2b(3,3) = vGroundNormal(eZ); + + Tb2g = Tg2b.Transposed(); +} + //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% void FGLGear::ComputeRetractionState(void) @@ -376,7 +432,7 @@ void FGLGear::ComputeRetractionState(void) GearUp = true; WOW = false; GearDown = false; - RollingWhlVel = 0.0; + vLocalWhlVel.InitMatrix(); } else if (gearPos > 0.99) { GearDown = true; GearUp = false; @@ -390,12 +446,8 @@ void FGLGear::ComputeRetractionState(void) void FGLGear::ComputeSlipAngle(void) { - // Transform the wheel velocities from the local axis system to the wheel axis system. - RollingWhlVel = vWhlVelVec(eX)*CosWheel + vWhlVelVec(eY)*SinWheel; - SideWhlVel = vWhlVelVec(eY)*CosWheel - vWhlVelVec(eX)*SinWheel; - // Calculate tire slip angle. - WheelSlip = atan2(SideWhlVel, fabs(RollingWhlVel))*radtodeg; + WheelSlip = -atan2(vLocalWhlVel(eY), fabs(vLocalWhlVel(eX)))*radtodeg; // Filter the wheel slip angle if (WheelSlipLagFilterCoeff > 0) WheelSlip = WheelSlipFilter.execute(WheelSlip); @@ -407,9 +459,6 @@ void FGLGear::ComputeSlipAngle(void) void FGLGear::ComputeSteeringAngle(void) { - double casterLocalFrameAngleRad = 0.0; - double casterAngle = 0.0; - switch (eSteerType) { case stSteer: SteerAngle = degtorad * FCS->GetSteerPosDeg(GearNumber); @@ -418,20 +467,12 @@ void FGLGear::ComputeSteeringAngle(void) SteerAngle = 0.0; break; case stCaster: - // This is not correct for castering gear. Should make steer angle parallel - // to the actual velocity vector of the wheel, given aircraft velocity vector - // and omega. - SteerAngle = 0.0; - casterLocalFrameAngleRad = acos(vWhlVelVec(eX)/vWhlVelVec.Magnitude()); - casterAngle = casterLocalFrameAngleRad - Propagate->GetEuler(ePsi); + SteerAngle = atan2(fabs(vWhlVelVec(eX)), vWhlVelVec(eY)); break; default: cerr << "Improper steering type membership detected for this gear." << endl; break; } - - SinWheel = sin(Propagate->GetEuler(ePsi) + SteerAngle); - CosWheel = cos(Propagate->GetEuler(ePsi) + SteerAngle); } //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% @@ -612,10 +653,22 @@ void FGLGear::ComputeVerticalStrutForce(void) dampForce = compressSpeed * compressSpeed * bDampRebound; } - vLocalForce(eZ) = min(springForce + dampForce, (double)0.0); + + StrutForce = min(springForce + dampForce, (double)0.0); + + // The reaction force of the wheel is always normal to the ground + switch (eContactType) { + case ctBOGEY: + // Project back the strut force in the local coordinate frame of the ground + vLocalForce(eZ) = StrutForce / vGroundNormal(eZ); + break; + case ctSTRUCTURE: + vLocalForce(eZ) = -StrutForce; + break; + } // Remember these values for reporting - MaximumStrutForce = max(MaximumStrutForce, fabs(vLocalForce(eZ))); + MaximumStrutForce = max(MaximumStrutForce, fabs(StrutForce)); MaximumStrutTravel = max(MaximumStrutTravel, fabs(compressLength)); } @@ -644,7 +697,8 @@ void FGLGear::bind(void) property_name = base_property_name + "/WOW"; Exec->GetPropertyManager()->Tie( property_name.c_str(), &WOW ); property_name = base_property_name + "/wheel-speed-fps"; - Exec->GetPropertyManager()->Tie( property_name.c_str(), &RollingWhlVel ); + Exec->GetPropertyManager()->Tie( property_name.c_str(), (FGLGear*)this, + &FGLGear::GetWheelRollVel); property_name = base_property_name + "/z-position"; Exec->GetPropertyManager()->Tie( property_name.c_str(), (FGLGear*)this, &FGLGear::GetZPosition, &FGLGear::SetZPosition); diff --git a/src/FDM/JSBSim/models/FGLGear.h b/src/FDM/JSBSim/models/FGLGear.h index a62549f28..09a143873 100644 --- a/src/FDM/JSBSim/models/FGLGear.h +++ b/src/FDM/JSBSim/models/FGLGear.h @@ -234,55 +234,55 @@ public: double GetLocalGear(int idx) const { return vLocalGear(idx); } /// Gets the name of the gear - inline string GetName(void) const {return name; } + string GetName(void) const {return name; } /// Gets the Weight On Wheels flag value - inline bool GetWOW(void) const {return WOW; } + bool GetWOW(void) const {return WOW; } /// Gets the current compressed length of the gear in feet - inline double GetCompLen(void) const {return compressLength;} + double GetCompLen(void) const {return compressLength;} /// Gets the current gear compression velocity in ft/sec - inline double GetCompVel(void) const {return compressSpeed; } + double GetCompVel(void) const {return compressSpeed; } /// Gets the gear compression force in pounds - inline double GetCompForce(void) const {return vForce(eZ); } - inline double GetBrakeFCoeff(void) const {return BrakeFCoeff;} + double GetCompForce(void) const {return StrutForce; } + double GetBrakeFCoeff(void) const {return BrakeFCoeff;} /// Gets the current normalized tire pressure - inline double GetTirePressure(void) const { return TirePressureNorm; } + double GetTirePressure(void) const { return TirePressureNorm; } /// Sets the new normalized tire pressure - inline void SetTirePressure(double p) { TirePressureNorm = p; } + void SetTirePressure(double p) { TirePressureNorm = p; } /// Sets the brake value in percent (0 - 100) - inline void SetBrake(double bp) {brakePct = bp;} + void SetBrake(double bp) {brakePct = bp;} /// Sets the weight-on-wheels flag. void SetWOW(bool wow) {WOW = wow;} /** Set the console touchdown reporting feature @param flag true turns on touchdown reporting, false turns it off */ - inline void SetReport(bool flag) { ReportEnable = flag; } + void SetReport(bool flag) { ReportEnable = flag; } /** Get the console touchdown reporting feature @return true if reporting is turned on */ - inline bool GetReport(void) const { return ReportEnable; } + bool GetReport(void) const { return ReportEnable; } double GetSteerNorm(void) const { return radtodeg/maxSteerAngle*SteerAngle; } double GetDefaultSteerAngle(double cmd) const { return cmd*maxSteerAngle; } double GetstaticFCoeff(void) const { return staticFCoeff; } - inline int GetBrakeGroup(void) const { return (int)eBrakeGrp; } - inline int GetSteerType(void) const { return (int)eSteerType; } + int GetBrakeGroup(void) const { return (int)eBrakeGrp; } + int GetSteerType(void) const { return (int)eSteerType; } - inline double GetZPosition(void) const { return vXYZ(3); } - inline void SetZPosition(double z) { vXYZ(3) = z; } + double GetZPosition(void) const { return vXYZ(3); } + void SetZPosition(double z) { vXYZ(3) = z; } bool GetSteerable(void) const { return eSteerType != stFixed; } - inline bool GetRetractable(void) const { return isRetractable; } - inline bool GetGearUnitUp(void) const { return GearUp; } - inline bool GetGearUnitDown(void) const { return GearDown; } - inline double GetWheelSideForce(void) const { return SideForce; } - inline double GetWheelRollForce(void) const { return RollingForce; } - inline double GetWheelSideVel(void) const { return SideWhlVel; } - inline double GetWheelRollVel(void) const { return RollingWhlVel; } - inline double GetBodyXForce(void) const { return vLocalForce(eX); } - inline double GetBodyYForce(void) const { return vLocalForce(eY); } - inline double GetWheelSlipAngle(void) const { return WheelSlip; } + bool GetRetractable(void) const { return isRetractable; } + bool GetGearUnitUp(void) const { return GearUp; } + bool GetGearUnitDown(void) const { return GearDown; } + double GetWheelSideForce(void) const { return vLocalForce(eY); } + double GetWheelRollForce(void) const { return vLocalForce(eX); } + double GetWheelSideVel(void) const { return vWhlVelVec(eY); } + double GetWheelRollVel(void) const { return vWhlVelVec(eX); } + double GetBodyXForce(void) const { return vForce(eX); } + double GetBodyYForce(void) const { return vForce(eY); } + double GetWheelSlipAngle(void) const { return WheelSlip; } double GetWheelVel(int axis) const { return vWhlVelVec(axis);} bool IsBogey(void) const { return (eContactType == ctBOGEY);} double GetGearUnitPos(void); @@ -291,15 +291,15 @@ public: private: int GearNumber; + FGMatrix33 Tg2b, Tb2g; FGColumnVector3 vXYZ; FGColumnVector3 vMoment; FGColumnVector3 vWhlBodyVec; FGColumnVector3 vLocalGear; FGColumnVector3 vForce; - FGColumnVector3 last_vForce; // remove this FGColumnVector3 vLocalForce; - FGColumnVector3 vWhlVelVec; // Velocity of this wheel (Local) - FGColumnVector3 normal, cvel; + FGColumnVector3 vWhlVelVec, vLocalWhlVel; // Velocity of this wheel + FGColumnVector3 normal, cvel, vGroundNormal; FGLocation contact, gearLoc; FGTable *ForceY_Table; double dT; @@ -319,13 +319,11 @@ private: double TakeoffDistanceTraveled; double TakeoffDistanceTraveled50ft; double LandingDistanceTraveled; - double MaximumStrutForce; + double MaximumStrutForce, StrutForce; double MaximumStrutTravel; - double SideWhlVel, RollingWhlVel; - double RollingForce, SideForce, FCoeff; + double FCoeff; double WheelSlip; double TirePressureNorm; - double SinWheel, CosWheel; double GearPos; bool useFCSGearPos; bool WOW; @@ -374,6 +372,7 @@ private: void ComputeSlipAngle(void); void ComputeSideForceCoefficient(void); void ComputeVerticalStrutForce(void); + void ComputeGroundCoordSys(void); void CrashDetect(void); void InitializeReporting(void); void ResetReporting(void); diff --git a/src/FDM/JSBSim/models/FGOutput.h b/src/FDM/JSBSim/models/FGOutput.h index 8b3d1403c..2aeef3ea6 100644 --- a/src/FDM/JSBSim/models/FGOutput.h +++ b/src/FDM/JSBSim/models/FGOutput.h @@ -83,7 +83,7 @@ CLASS DOCUMENTATION FLIGHTGEAR A socket is created for sending binary data packets to an external instance of FlightGear for visuals. Parameters defining the socket are given on the \ line. - TABULAR Columnar data. NOT IMPLEMENTED YET! + TABULAR Columnar data. TERMINAL Output to terminal. NOT IMPLEMENTED YET! NONE Specifies to do nothing. This setting makes it easy to turn on and off the data output without having to mess with anything else. @@ -91,7 +91,7 @@ CLASS DOCUMENTATION Examples: @code - + @endcode @code