Massive body proxy used for doing orbital approximations and traces.
Inheritance: SpaceSim.Physics.GravitationalBodyBase, IMassiveBody
Exemplo n.º 1
0
        /// <summary>
        /// Traces a massive body orbit by re-centering the world around the parent.
        /// </summary>
        public static OrbitTrace TraceMassiveBody(MassiveBodyBase body)
        {
            IMassiveBody parent = body.GravitationalParent;

            DVector2 initialPosition = body.Position - parent.Position;

            var proxyParent = new MassiveBodyProxy(DVector2.Zero, DVector2.Zero, parent);
            var proxySatellite = new MassiveBodyProxy(initialPosition, body.Velocity - parent.Velocity, body);

            double orbitalTerminationRadius;
            double altitude = body.GetRelativeAltitude();

            double orbitalDt = GetOrbitalDt(initialPosition, proxySatellite.Velocity, out orbitalTerminationRadius);

            var trace = new OrbitTrace(body.Position, altitude);

            for (int i=0; i < 300; i++)
            {
                proxySatellite.ResetAccelerations();

                proxySatellite.ResolveGravitation(proxyParent);

                proxySatellite.Update(orbitalDt);

                altitude = proxyParent.GetRelativeHeight(proxySatellite.Position);

                // Check expensive termination conditions after half of the iterations
                if (i > 150)
                {
                    DVector2 offsetVector = proxySatellite.Position - initialPosition;

                    double distanceFromStart = offsetVector.Length();

                    // Terminate and add the end point
                    if (distanceFromStart < orbitalTerminationRadius)
                    {
                        trace.AddPoint(proxySatellite.Position + parent.Position, altitude);
                        break;
                    }
                }

                trace.AddPoint(proxySatellite.Position + parent.Position, altitude);
            }

            return trace;
        }
Exemplo n.º 2
0
        /// <summary>
        /// Traces a space craft orbit by re-centering the world around the parent.
        /// </summary>
        public static OrbitTrace TraceSpaceCraft(SpaceCraftBase satellite)
        {
            IMassiveBody parent = satellite.GravitationalParent;

            DVector2 initialPosition = satellite.Position - parent.Position;

            var shipOffset = new DVector2(Math.Cos(satellite.Rotation) * (satellite.TotalWidth - satellite.Width),
                                          Math.Sin(satellite.Rotation) * (satellite.TotalHeight - satellite.Height)) * 0.5;

            initialPosition -= shipOffset;

            var proxyParent = new MassiveBodyProxy(DVector2.Zero, DVector2.Zero, parent);
            var proxySatellite = new SpaceCraftProxy(initialPosition, satellite.Velocity - parent.Velocity, satellite);

            int stepCount;

            double targetDt;
            double proximityDt;
            double orbitalDt = 0;

            bool isOrbiting;
            double orbitalTerminationRadius = 0;

            double altitude = proxyParent.GetRelativeHeight(proxySatellite.Position);
            double proximityAltitude = proxyParent.SurfaceRadius * 0.15;

            if (altitude < proximityAltitude)
            {
                stepCount = 1000;

                isOrbiting = false;

                proximityDt = GetProximityDt(altitude, proximityAltitude);

                targetDt = proximityDt;
            }
            else
            {
                stepCount = 300;

                isOrbiting = true;

                orbitalDt = GetOrbitalDt(initialPosition, proxySatellite.Velocity, out orbitalTerminationRadius);

                targetDt = orbitalDt;
            }

            var trace = new OrbitTrace(satellite.Position - shipOffset, altitude);

            // Simulate 300 orbital steps, more for proximity
            for (int step = 0; step < stepCount; step++)
            {
                proxySatellite.ResetAccelerations();

                proxySatellite.ResolveGravitation(proxyParent);
                proxySatellite.ResolveAtmopsherics(proxyParent);

                proxySatellite.Update(targetDt);

                altitude = proxyParent.GetRelativeHeight(proxySatellite.Position);

                // Check if reference frame shifting needs to occur in atmosphere
                if (altitude < proxyParent.AtmosphereHeight)
                {
                    double offsetFactor = 1.0 - (altitude / proxyParent.AtmosphereHeight);

                    DVector2 difference = proxyParent.Position - proxySatellite.Position;
                    difference.Normalize();

                    var surfaceNormal = new DVector2(-difference.Y, difference.X);

                    double altitudeFromCenter = altitude + proxyParent.SurfaceRadius;

                    // Distance of circumference at this altitude ( c= 2r * pi )
                    double pathCirumference = 2 * Math.PI * altitudeFromCenter;

                    double rotationalSpeed = pathCirumference / parent.RotationPeriod;

                    DVector2 atmopshereVelocity = surfaceNormal * rotationalSpeed;

                    proxySatellite.ApplyFrameOffset(atmopshereVelocity * offsetFactor * targetDt);

                    // Return early if the trace goes into a planet
                    if (altitude <= 0)
                    {
                        trace.AddPoint(proxySatellite.Position + parent.Position, altitude);
                        break;
                    }
                }

                // Determine the correct change overs from orbital to surface proximity
                if (isOrbiting)
                {
                    if (altitude < proximityAltitude)
                    {
                        proximityDt = GetProximityDt(altitude, proximityAltitude);

                        targetDt = MathHelper.Lerp(targetDt, proximityDt, 0.75);

                        isOrbiting = false;

                        stepCount = 1000;
                    }
                    else
                    {
                        targetDt = MathHelper.Lerp(targetDt, orbitalDt, 0.1);
                    }
                }
                else
                {
                    if (altitude > proximityAltitude)
                    {
                        orbitalDt = GetOrbitalDt(proxySatellite.Position, proxySatellite.Velocity, out orbitalTerminationRadius);

                        targetDt = MathHelper.Lerp(targetDt, orbitalDt, 0.1);

                        isOrbiting = true;

                        stepCount = 300;
                    }
                    else
                    {
                        proximityDt = GetProximityDt(altitude, proximityAltitude);

                        targetDt = MathHelper.Lerp(targetDt, proximityDt, 0.75);
                    }
                }

                // Check expensive termination conditions after half of the iterations
                if (isOrbiting && step > 100)
                {
                    DVector2 offsetVector = proxySatellite.Position - initialPosition;

                    double distanceFromStart = offsetVector.Length();

                    // Terminate and add the end point
                    if (distanceFromStart < orbitalTerminationRadius)
                    {
                        trace.AddPoint(proxySatellite.Position + parent.Position, altitude);
                        break;
                    }
                }

                trace.AddPoint(proxySatellite.Position + parent.Position, altitude);
            }

            return trace;
        }
Exemplo n.º 3
0
        private void PredictTargetThrottle(SpaceCraftBase spaceCraft)
        {
            double optimalThrust = _currentThrust;
            double optimalLandingSpeed = double.PositiveInfinity;

            for (int i = -1; i <= 1; i++)
            {
                double thrust = 40;
                // double thrust = 65;

                if (_currentThrust > 0)
                {
                    thrust = _currentThrust;
                }

                thrust += i * 0.5;

                if (thrust < 40 || thrust > 100)
                //if (thrust < 60 || thrust > 100)
                {
                    continue;
                }

                IMassiveBody parent = spaceCraft.GravitationalParent;

                DVector2 initialPosition = spaceCraft.Position - parent.Position;

                var proxyParent = new MassiveBodyProxy(DVector2.Zero, DVector2.Zero, parent);
                var proxySatellite = new SpaceCraftProxy(initialPosition, spaceCraft.Velocity - parent.Velocity, spaceCraft);

                foreach (int id in _engineIds)
                {
                    proxySatellite.Engines[id].Startup();
                    proxySatellite.Engines[id].AdjustThrottle(thrust);
                }

                proxySatellite.SetGravitationalParent(proxyParent);

                // Simulate until the rocket runs out of fuel or touches down
                for (int step = 0; step < 1000; step++)
                {
                    proxySatellite.ResetAccelerations();
                    proxySatellite.ResolveGravitation(proxyParent);
                    proxySatellite.ResolveAtmopsherics(proxyParent);

                    if (proxySatellite.PropellantMass <= 0)
                    {
                        break;
                    }

                    if (proxySatellite.OnGround)
                    {
                        double landingSpeed = proxySatellite.RelativeVelocity.Length();

                        // If the rocket is in motion search for the best speed always
                        if (_currentThrust > 0)
                        {
                            if (landingSpeed < optimalLandingSpeed)
                            {
                                optimalLandingSpeed = landingSpeed;
                                optimalThrust = thrust;

                                break;
                            }
                        }
                        // Otherwise enforce the landing speed is very good to start
                        else if (landingSpeed < 5)
                        {
                            optimalLandingSpeed = landingSpeed;
                            optimalThrust = thrust;

                            break;
                        }
                    }

                    proxySatellite.Update(0.05);
                }
            }

            // Set the target engines to the optimal computed thrust
            if (_engineIds != null)
            {
                // Startup the required landing engines
                foreach (int id in _engineIds)
                {
                    IEngine engine = spaceCraft.Engines[id];

                    engine.AdjustThrottle(optimalThrust);
                }

                if (optimalThrust > 0)
                {
                    _currentThrust = optimalThrust;
                }
            }
        }