C# (CSharp) FNPlugin VanAllen.getRadiationLevel示例

编程语言: C# (CSharp)

命名空间/包名称: FNPlugin

类/类型: VanAllen

方法/功能: getRadiationLevel

hotexamples.com的示例: 2

C# (CSharp) FNPlugin VanAllen.getRadiationLevel - 已找到2个示例。这些是从开源项目中提取的最受好评的FNPlugin.VanAllen.getRadiationLevel现实C# (CSharp)示例。您可以评价示例，以帮助我们提高示例质量。

常用方法

显示隐藏

getBeltAntiparticles(4)

getBeltMagneticFieldMag(2)

getRadiationLevel(2)

getBeltMagneticFieldAzimuthal(1)

getBeltMagneticFieldRadial(1)

getRadiationDose(1)

示例#1

显示文件

文件： VanAllen.cs 项目： keichan34/KSPInterstellar

        public static double getRadiationDose(Vessel vessel, double rad_hardness)
        {
            double        radiation_level = 0;
            CelestialBody cur_ref_body    = FlightGlobals.ActiveVessel.mainBody;
            CelestialBody crefkerbin      = FlightGlobals.fetch.bodies[1];

            ORSPlanetaryResourcePixel res_pixel = ORSPlanetaryResourceMapData.getResourceAvailability(vessel.mainBody.flightGlobalsIndex, "Thorium", cur_ref_body.GetLatitude(vessel.transform.position), cur_ref_body.GetLongitude(vessel.transform.position));
            double ground_rad         = Math.Sqrt(res_pixel.getAmount() * 9e6) / 24 / 365.25 / Math.Max(vessel.altitude / 870, 1);
            double rad                = VanAllen.getRadiationLevel(cur_ref_body.flightGlobalsIndex, (float)FlightGlobals.ship_altitude, (float)FlightGlobals.ship_latitude);
            double divisor            = Math.Pow(cur_ref_body.Radius / crefkerbin.Radius, 2.0);
            double mag_field_strength = VanAllen.getBeltMagneticFieldMag(cur_ref_body.flightGlobalsIndex, (float)FlightGlobals.ship_altitude, (float)FlightGlobals.ship_latitude);
            // if (cur_ref_body.flightGlobalsIndex == PluginHelper.REF_BODY_KERBOL) {
            //    rad = rad * 1e6;
            //}

            double rad_level       = rad / divisor;
            double inv_square_mult = Math.Pow(Vector3d.Distance(FlightGlobals.Bodies[PluginHelper.REF_BODY_KERBIN].transform.position, FlightGlobals.Bodies[PluginHelper.REF_BODY_KERBOL].transform.position), 2) / Math.Pow(Vector3d.Distance(vessel.transform.position, FlightGlobals.Bodies[PluginHelper.REF_BODY_KERBOL].transform.position), 2);
            double solar_radiation = 0.19 * inv_square_mult;

            while (cur_ref_body.referenceBody != null)
            {
                CelestialBody old_ref_body = cur_ref_body;
                cur_ref_body = cur_ref_body.referenceBody;
                if (cur_ref_body == old_ref_body)
                {
                    break;
                }
                //rad = VanAllen.getBeltAntiparticles (cur_ref_body.flightGlobalsIndex, (float) (Vector3d.Distance(FlightGlobals.ship_position,cur_ref_body.transform.position)-cur_ref_body.Radius), 0.0f);
                //rad = VanAllen.getRadiationLevel(cur_ref_body.flightGlobalsIndex, (Vector3d.Distance(FlightGlobals.ship_position, cur_ref_body.transform.position) - cur_ref_body.Radius), 0.0);
                mag_field_strength += VanAllen.getBeltMagneticFieldMag(cur_ref_body.flightGlobalsIndex, (float)(Vector3d.Distance(FlightGlobals.ship_position, cur_ref_body.transform.position) - cur_ref_body.Radius), (float)FlightGlobals.ship_latitude);
                //rad_level += rad;
            }
            if (cur_ref_body.flightGlobalsIndex != PluginHelper.REF_BODY_KERBOL)
            {
                solar_radiation = solar_radiation * Math.Exp(-73840.56456662708394321273809886 * mag_field_strength) * Math.Exp(-vessel.atmDensity * 4.5);
            }
            radiation_level = (Math.Pow(rad_level / 3e-5, 3.0) * 3.2 + ground_rad + solar_radiation) / rad_hardness;
            return(radiation_level);
        }

示例#2

显示文件

文件： FNModuleRadiation.cs 项目： wandyrer/KSPInterstellar

        public override void OnUpdate()
        {
            Fields["radiationLevel"].guiActive = true;
            double rad_level_yr = radiation_level * 24 * 365.25;

            if (radiation_level >= 1000)
            {
                radiationLevel = (radiation_level / 1000).ToString("0.00") + " Sv/h";
            }
            else
            {
                if (radiation_level >= 1)
                {
                    radiationLevel = radiation_level.ToString("0.00") + " mSv/hr";
                }
                else
                {
                    if (radiation_level >= 0.001)
                    {
                        radiationLevel = (radiation_level * 1000.0).ToString("0.00") + " uSv/h";
                    }
                    else
                    {
                        radiationLevel = (radiation_level * 1000000.0).ToString("0.00") + " nSv/h";
                    }
                }
            }


            if (rad_level_yr >= 1e9)
            {
                radiationLevel = radiationLevel + " " + (rad_level_yr / 1e9).ToString("0.00") + " MSv/yr";
            }
            else
            {
                if (rad_level_yr >= 1e6)
                {
                    radiationLevel = radiationLevel + " " + (rad_level_yr / 1e6).ToString("0.00") + " KSv/yr";
                }
                else
                {
                    if (rad_level_yr >= 1e3)
                    {
                        radiationLevel = radiationLevel + " " + (rad_level_yr / 1e3).ToString("0.00") + " Sv/yr";
                    }
                    else
                    {
                        radiationLevel = radiationLevel + " " + (rad_level_yr).ToString("0.00") + " mSv/yr";
                    }
                }
            }

            CelestialBody cur_ref_body = FlightGlobals.ActiveVessel.mainBody;
            CelestialBody crefkerbin   = FlightGlobals.fetch.bodies[1];

            ORSPlanetaryResourcePixel res_pixel = ORSPlanetaryResourceMapData.getResourceAvailability(vessel.mainBody.flightGlobalsIndex, "Thorium", cur_ref_body.GetLatitude(vessel.transform.position), cur_ref_body.GetLongitude(vessel.transform.position));
            double ground_rad = Math.Sqrt(res_pixel.getAmount() * 9e6) / 24 / 365.25 / Math.Max(vessel.altitude / 870, 1);
            double rad        = VanAllen.getRadiationLevel(cur_ref_body.flightGlobalsIndex, (float)FlightGlobals.ship_altitude, (float)FlightGlobals.ship_latitude);
            double divisor    = Math.Pow(cur_ref_body.Radius / crefkerbin.Radius, 2.0);

            if (cur_ref_body.flightGlobalsIndex == PluginHelper.REF_BODY_KERBOL)
            {
                rad = rad * 1e6;
            }

            double rad_level = rad / divisor;

            while (cur_ref_body.referenceBody != null)
            {
                CelestialBody old_ref_body = cur_ref_body;
                cur_ref_body = cur_ref_body.referenceBody;
                if (cur_ref_body == old_ref_body)
                {
                    break;
                }
                //rad = VanAllen.getBeltAntiparticles (cur_ref_body.flightGlobalsIndex, (float) (Vector3d.Distance(FlightGlobals.ship_position,cur_ref_body.transform.position)-cur_ref_body.Radius), 0.0f);
                rad = VanAllen.getRadiationLevel(cur_ref_body.flightGlobalsIndex, (Vector3d.Distance(FlightGlobals.ship_position, cur_ref_body.transform.position) - cur_ref_body.Radius), 0.0);
                if (cur_ref_body.flightGlobalsIndex == PluginHelper.REF_BODY_KERBOL)
                {
                    rad = rad * 1e6;
                }
                rad_level += rad;
            }

            radiation_level = (Math.Pow(rad_level / 3e-5, 3.0) * 5.2 + ground_rad) / rad_hardness;
            //print(radiation_level);

            List <ProtoCrewMember> crew_members = part.protoModuleCrew;

            if (!vessel.isEVA)
            {
                foreach (ProtoCrewMember crewmember in crew_members)
                {
                    if (VanAllen.crew_rad_exposure.ContainsKey(crewmember.name))
                    {
                        double current_rad = VanAllen.crew_rad_exposure[crewmember.name];
                        VanAllen.crew_rad_exposure[crewmember.name] = current_rad + radiation_level * TimeWarp.deltaTime;
                    }
                    else
                    {
                        VanAllen.crew_rad_exposure.Add(crewmember.name, radiation_level * TimeWarp.deltaTime);
                    }
                }
            }
            else
            {
                if (VanAllen.crew_rad_exposure.ContainsKey(vessel.vesselName))
                {
                    double current_rad = VanAllen.crew_rad_exposure[vessel.vesselName];
                    VanAllen.crew_rad_exposure[vessel.vesselName] = current_rad + radiation_level * TimeWarp.deltaTime;
                }
                else
                {
                    VanAllen.crew_rad_exposure.Add(vessel.vesselName, radiation_level * TimeWarp.deltaTime);
                }
            }
        }