Exemplo n.º 1
0
Arquivo: Leveler.cs Projeto: NGCP/UUV
        public ThrustManager(IMU440 nav, Microcontroller u, PositionTracker p, log loger)
        {
            //Purpose: Constructor for thrustManager
            //Inputs: the IMU object, and the microcontroller object, which each have the serial communication functions within.
            lg           = loger;
            navigation   = nav;
            position     = p;
            uCon         = u;
            desiredPitch = 0;
            desiredRoll  = 0;
            desiredDepth = -0.5;
            desiredYaw   = 0;
            desiredSurge = 0;
            desiredSway  = 0;
            Tp           = 0; //pitch
            Tr           = 0; //roll
            Ty           = 0; //yaw
            Td           = 0; //depth
            Tsu          = 0; //surge
            Tsw          = 0; //sway

            uCon.sensorRequest();

            //gots to tune these pids
            ptch  = new PID(0, 0, 0, 60.0, -60.0, 40, -40, getActualPitch, getDesiredPitch, computeTp);
            rll   = new PID(.5, 0, .4, 60.0, -60.0, 40, -40, getActualRoll, getDesiredRoll, computeTr);
            surge = new PID(0.6, 0, 0, 3, -3, 75, -75, getActualSurge, getDesiredSurge, computeTsu);
            sway  = new PID(0.6, 0, 0, 3, -3, 75, -75, getActualSway, getDesiredSway, computeTsw);
            depth = new PID(0.8, 0.1, .8, 0, -9, 75, -75, getActualDepth, getDesiredDepth, computeTd);
            yaw   = new PID(0, 0, 0, 180, -180, 40, -40, getActualYaw, getDesiredYaw, computeTy);


            ptch.Enable();
            rll.Enable();
            //commented cause we dont have everything worked out for yaw, and i haven't written something to calculate velocity
            surge.Enable();
            sway.Enable();
            depth.Enable();
            yaw.Enable();

            backgroundThrustManager = new Thread(new ThreadStart(levelingTask));
            backgroundThrustManager.IsBackground = true;
            backgroundThrustManager.Start();
        }
Exemplo n.º 2
0
Arquivo: Leveler.cs Projeto: NGCP/UUV
        private void levelingTask()
        {
            //Purpose: background task to continuously send updated controller outputs thru serial to motorcontroller, and update PID vals
            //Inputs:
            while (true)
            {
                uCon.sensorRequest();
                if (Microcontroller.PIDupdates.Count > 0)
                {
                    foreach (pidConf d in Microcontroller.PIDupdates)
                    {
                        switch (d.index)
                        {
                        case 0:
                            desiredPitch = d.desval;
                            ptch.updateTerms(d);
                            //Ppitch = d;
                            break;

                        case 1:
                            desiredRoll = d.desval;
                            rll.updateTerms(d);
                            //Proll = d;
                            break;

                        case 2:
                            desiredSurge = d.desval;
                            surge.updateTerms(d);
                            Psurge = d;
                            break;

                        case 3:
                            desiredSway = d.desval;
                            sway.updateTerms(d);
                            Psway = d;
                            break;

                        case 4:
                            desiredDepth = d.desval;
                            depth.updateTerms(d);
                            Pdepth = d;
                            break;

                        case 5:
                            //desiredYaw = d.desval;
                            //yaw.updateTerms(d);
                            Pyaw = d;
                            break;
                        }
                    }//after we've gone through all of the pid updates, clear them
                    Microcontroller.PIDupdates.Clear();
                }

                //there will be some thread.pause in here, so we're not sending tooooo many updates.

                //send the message. check byte implementation in the works.

                //65 is byte val for A, identifying general thrust.
                //66 is the byte val for B, which identifies corner thruster offsets.
                //the thrust is from -81 to 81.

                //first message has surge, sway, depth and yaw. Yaw is applied to surge(as offset) in the microcontroller
                //uCon.Send(new byte[] { 65, (byte)(Tsu + 81), (byte)(Tsw + 81), (byte)(Td + 81), (byte)(Ty + 81), 88 });
                uCon.Send(new byte[] { 65, (byte)(Tsu), (byte)(Tsw), (byte)(Td), (byte)(Ty), 88 });

                Thread.Sleep(25);

                //second message has corner motor leveling, applied as offset on microcontroller.
                uCon.Send(new byte[] { 66, (byte)(((Tp + Tr) / 2) + 81), (byte)(((Tp - Tr) / 2) + 81), (byte)(((-Tr - Tp) / 2) + 81), (byte)((((Tr - Tp) / 2)) + 81), 88 });

                Thread.Sleep(25);
            }
        }
Exemplo n.º 3
0
        //public static Sonar sonar;
        //public static AutonomousBehaviour auto;

        static void Main(string[] args)
        {
            //we might consider switching the COM port references over to commandline input
            bool is_init  = false;
            bool init_imu = false;
            bool init_due = false;
            int  _try     = 0;

            ERRORLOG = new log();

            Dictionary <string, string> serials = parseSerialLocations();


            ERRORLOG.LOG(" Starting Program", 0);

            while (!is_init && _try < 5)
            {
                try
                {
                    //externals
                    ERRORLOG.LOG("F**k you jeff", 0);
                    ERRORLOG.LOG("Initialization: " + _try.ToString() + " of 6", 0);
                    if (!init_imu)
                    {
                        IMU = new IMU440(serials["IMU"], 57600, ERRORLOG, false);
                    }
                    init_imu = true;
                    ERRORLOG.LOG("Initialized IMU", 0);
                    if (!init_due)
                    {
                        uC = new Microcontroller(serials["DUE"], 115200, ERRORLOG);
                    }
                    init_due = true;
                    ERRORLOG.LOG("Initialized DUE", 0);
                    //sonar will make an appearance soon.
                    //sonar = new Sonar(serials["SONAR"], log);//port

                    //internals
                    pos = new PositionTracker(IMU, uC, ERRORLOG);
                    lev = new ThrustManager(IMU, uC, pos, ERRORLOG);
                    ERRORLOG.LOG("Initialized ThrustManager", 0);
                    //auto = new AutonomousBehaviour(IMU,uC,pos,lev,ERRORLOG);
                    is_init = true;
                }
                catch (Exception e)
                {
                    ERRORLOG.LOG(e.Message, 0);
                    Thread.Sleep(5000);
                    _try++;
                    is_init = false;
                }
            }
            //this is because communications issues:
            for (int l = 0; l < 15; l++)
            {
                uC.sensorRequest();
            }
            while (is_init)
            {
            }
            ERRORLOG.LOG("Exiting", 0);
            //while (true)
            //{//testing driver
            //    Console.WriteLine("pitch: " + Math.Round(IMU.pitchAngle*(180/Math.PI)));
            //    Console.WriteLine("roll: " + Math.Round(IMU.rollAngle * (180 /Math.PI)));
            //    Console.WriteLine("tp: " + Math.Round(lev.Tp,4));
            //    Console.WriteLine("tr: " + Math.Round(lev.Tr,4));
            //    Console.WriteLine(IMU.boardTemp);
            //    Thread.Sleep(200);
            //    Console.Clear();
            //}
        }