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source: flair-src/trunk/demos/SimpleFleet/uav/src/SimpleFleet.cpp@ 89

Last change on this file since 89 was 38, checked in by Bayard Gildas, 8 years ago
Modif. pour ajour manette émulée (EmulatedController)
File size: 11.3 KB

Rev	Line
[33]	1	// created: 2015/11/05
	2	// filename: SimpleFleet.cpp
	3	//
	4	// author: Guillaume Sanahuja
	5	// Copyright Heudiasyc UMR UTC/CNRS 7253
	6	//
	7	// version: $Id: $
	8	//
	9	// purpose: demo fleet
	10	//
	11	//
	12	/*********************************************************************/
	13
	14	#include "SimpleFleet.h"
[38]	15	#include <TargetController.h>
[33]	16	#include <Uav.h>
	17	#include <GridLayout.h>
	18	#include <PushButton.h>
	19	#include <DataPlot1D.h>
	20	#include <Ahrs.h>
	21	#include <MetaUsRangeFinder.h>
	22	#include <MetaDualShock3.h>
	23	#include <FrameworkManager.h>
	24	#include <VrpnClient.h>
	25	#include <MetaVrpnObject.h>
	26	#include <TrajectoryGenerator2DCircle.h>
	27	#include <Vector3D.h>
	28	#include <Vector2D.h>
	29	#include <PidThrust.h>
	30	#include <Euler.h>
	31	#include <cvmatrix.h>
	32	#include <AhrsData.h>
	33	#include <Ahrs.h>
	34	#include <DoubleSpinBox.h>
	35	#include <stdio.h>
	36	#include <cmath>
	37	#include <Tab.h>
	38	#include <Pid.h>
	39	#include <Socket.h>
	40	#include <string.h>
	41
	42	#define PI ((float)3.14159265358979323846)
	43
	44	using namespace std;
	45	using namespace flair::core;
	46	using namespace flair::gui;
	47	using namespace flair::sensor;
	48	using namespace flair::filter;
	49	using namespace flair::meta;
	50
	51
[38]	52	SimpleFleet::SimpleFleet(flair::meta::Uav* uav,string broadcast,TargetController *controller): UavStateMachine(uav,controller), behaviourMode(BehaviourMode_t::Default), vrpnLost(false) {
[33]	53	uav->SetupVRPNAutoIP(uav->ObjectName());
	54
	55	circle=new TrajectoryGenerator2DCircle(uav->GetVrpnClient()->GetLayout()->NewRow(),"circle");
	56	uav->GetVrpnObject()->xPlot()->AddCurve(circle->Matrix()->Element(0,0),0,0,255);
	57	uav->GetVrpnObject()->yPlot()->AddCurve(circle->Matrix()->Element(0,1),0,0,255);
	58	uav->GetVrpnObject()->VxPlot()->AddCurve(circle->Matrix()->Element(1,0),0,0,255);
	59	uav->GetVrpnObject()->VyPlot()->AddCurve(circle->Matrix()->Element(1,1),0,0,255);
	60
	61	xCircleCenter=new DoubleSpinBox(uav->GetVrpnClient()->GetLayout()->NewRow(),"x circle center"," m",-5,5,0.1,1,0);
	62	yCircleCenter=new DoubleSpinBox(uav->GetVrpnClient()->GetLayout()->NewRow(),"y circle center"," m",-5,5,0.1,1,0);
	63	yDisplacement=new DoubleSpinBox(uav->GetVrpnClient()->GetLayout()->NewRow(),"y displacement"," m",0,2,0.1,1,0);
	64
	65	//parent->AddDeviceToLog(Uz());
	66
	67	u_x=new Pid(setupLawTab->At(1,0),"u_x");
	68	u_x->UseDefaultPlot(graphLawTab->NewRow());
	69	u_y=new Pid(setupLawTab->At(1,1),"u_y");
	70	u_y->UseDefaultPlot(graphLawTab->LastRowLastCol());
	71
	72	message=new Socket(uav,"Message",broadcast,10);
	73
	74	customReferenceOrientation= new AhrsData(this,"reference");
	75	uav->GetAhrs()->AddPlot(customReferenceOrientation,DataPlot::Yellow);
	76	AddDataToControlLawLog(customReferenceOrientation);
	77
	78	customOrientation=new AhrsData(this,"orientation");
	79	/*
	80	//check init conditions
	81	Vector3D uav_pos;
	82	Euler vrpn_euler;
	83	GetVrpnObject()->GetPosition(uav_pos);
	84	GetVrpnObject()->GetEuler(vrpn_euler);
	85
	86	if(name=="x8_0") {
	87	//x8_0 should be on the left, with 0 yaw
	88	if(uav_pos.y>yCircleCenter->Value() \|\| vrpn_euler.yaw>20 \|\| vrpn_euler.yaw<-20) Thread::Err("wrong init position\n");
	89	}
	90	if(name=="x8_1") {
	91	//x8_1 should be on the right, with 180 yaw
	92	if(uav_pos.y<yCircleCenter->Value() \|\| (vrpn_euler.yaw<160 && vrpn_euler.yaw>-160)) Thread::Err("wrong init position %f %f\n",yCircleCenter->Value(),vrpn_euler.yaw);
	93	}
	94	*/
	95	}
	96
	97	SimpleFleet::~SimpleFleet() {
	98	}
	99
	100	const AhrsData *SimpleFleet::GetOrientation(void) const {
	101	//get yaw from vrpn
	102	Euler vrpnEuler;
	103	GetUav()->GetVrpnObject()->GetEuler(vrpnEuler);
	104
	105	//get roll, pitch and w from imu
	106	Quaternion ahrsQuaternion;
	107	Vector3D ahrsAngularSpeed;
	108	GetDefaultOrientation()->GetQuaternionAndAngularRates(ahrsQuaternion, ahrsAngularSpeed);
	109
	110	Euler ahrsEuler=ahrsQuaternion.ToEuler();
	111	ahrsEuler.yaw=vrpnEuler.yaw;
	112	Quaternion mixQuaternion=ahrsEuler.ToQuaternion();
	113
	114	customOrientation->SetQuaternionAndAngularRates(mixQuaternion,ahrsAngularSpeed);
	115
	116	return customOrientation;
	117	}
	118
	119	void SimpleFleet::AltitudeValues(float &z,float &dz) const {
	120	Vector3D uav_pos,uav_vel;
	121
	122	GetUav()->GetVrpnObject()->GetPosition(uav_pos);
	123	GetUav()->GetVrpnObject()->GetSpeed(uav_vel);
	124	//z and dz must be in uav's frame
	125	z=-uav_pos.z;
	126	dz=-uav_vel.z;
	127	}
	128
	129	const AhrsData *SimpleFleet::GetReferenceOrientation(void) {
	130	Vector2D pos_err, vel_err; // in uav coordinate system
	131	float yaw_ref;
	132	Euler refAngles;
	133
	134	PositionValues(pos_err, vel_err, yaw_ref);
	135
	136	refAngles.yaw=yaw_ref;
	137
	138	u_x->SetValues(pos_err.x, vel_err.x);
	139	u_x->Update(GetTime());
	140	refAngles.pitch=u_x->Output();
	141
	142	u_y->SetValues(pos_err.y, vel_err.y);
	143	u_y->Update(GetTime());
	144	refAngles.roll=-u_y->Output();
	145
	146	customReferenceOrientation->SetQuaternionAndAngularRates(refAngles.ToQuaternion(),Vector3D(0,0,0));
	147
	148	return customReferenceOrientation;
	149	}
	150
	151	void SimpleFleet::PositionValues(Vector2D &pos_error,Vector2D &vel_error,float &yaw_ref) {
	152	Vector3D uav_pos,uav_vel; // in VRPN coordinate system
	153	Vector2D uav_2Dpos,uav_2Dvel; // in VRPN coordinate system
	154	Euler vrpn_euler; // in VRPN coordinate system
	155
	156	GetUav()->GetVrpnObject()->GetPosition(uav_pos);
	157	GetUav()->GetVrpnObject()->GetSpeed(uav_vel);
	158	GetUav()->GetVrpnObject()->GetEuler(vrpn_euler);
	159
	160	uav_pos.To2Dxy(uav_2Dpos);
	161	uav_vel.To2Dxy(uav_2Dvel);
	162
	163	if (behaviourMode==BehaviourMode_t::PositionHold1 \|\| behaviourMode==BehaviourMode_t::PositionHold2
	164	\|\| behaviourMode==BehaviourMode_t::PositionHold3 \|\| behaviourMode==BehaviourMode_t::PositionHold4) {
	165	pos_error=uav_2Dpos-pos_hold;
	166	vel_error=uav_2Dvel;
	167	yaw_ref=yaw_hold;
	168	} else { //Circle
	169	Vector2D circle_pos,circle_vel;
	170	Vector2D target_2Dpos;
	171
	172	//circle center
	173	target_2Dpos.x=xCircleCenter->Value();
	174	target_2Dpos.y=yCircleCenter->Value();
	175	circle->SetCenter(target_2Dpos);
	176
	177	//circle reference
	178	circle->Update(GetTime());
	179	circle->GetPosition(circle_pos);
	180	circle->GetSpeed(circle_vel);
	181
	182	//error in optitrack frame
	183	pos_error=uav_2Dpos-circle_pos;
	184	vel_error=uav_2Dvel-circle_vel;
	185	yaw_ref=PI/2+atan2(uav_pos.y-target_2Dpos.y,uav_pos.x-target_2Dpos.x);
	186	}
	187	//error in uav frame
	188	Quaternion currentQuaternion=GetCurrentQuaternion();
	189	Euler currentAngles;//in vrpn frame
	190	currentQuaternion.ToEuler(currentAngles);
	191	pos_error.Rotate(-currentAngles.yaw);
	192	vel_error.Rotate(-currentAngles.yaw);
	193	}
	194
	195	void SimpleFleet::SignalEvent(Event_t event) {
	196	UavStateMachine::SignalEvent(event);
	197
	198	switch(event) {
	199	case Event_t::EmergencyStop:
	200	message->SendMessage("EmergencyStop");
	201	break;
	202	case Event_t::TakingOff:
	203	//behaviourMode=BehaviourMode_t::Default;
	204	message->SendMessage("TakeOff");
	205	VrpnPositionHold();
	206	behaviourMode=BehaviourMode_t::PositionHold1;
	207	break;
	208	case Event_t::StartLanding:
	209	VrpnPositionHold();
	210	behaviourMode=BehaviourMode_t::PositionHold4;
	211	message->SendMessage("Landing");
	212	break;
	213	case Event_t::EnteringControlLoop:
	214	CheckMessages();
	215	if ((behaviourMode==BehaviourMode_t::Circle1) && (!circle->IsRunning())) {
	216	VrpnPositionHold();
	217	behaviourMode=BehaviourMode_t::PositionHold2;
	218	if(pos_hold.y<0) {
	219	pos_hold.y-=yDisplacement->Value();
	220	} else {
	221	pos_hold.y+=yDisplacement->Value();
	222	}
	223	posWait=GetTime();
	224	Printf("Circle1 -> PositionHold2\n");
	225	}
	226	if (behaviourMode==BehaviourMode_t::PositionHold2 && GetTime()>(posWait+3*(Time)1000000000)) {
	227	behaviourMode=BehaviourMode_t::PositionHold3;
	228	if(pos_hold.y<0) {
	229	pos_hold.y+=yDisplacement->Value();
	230	} else {
	231	pos_hold.y-=yDisplacement->Value();
	232	}
	233	posWait=GetTime();
	234	Printf("PositionHold2 -> PositionHold3\n");
	235	}
	236	if (behaviourMode==BehaviourMode_t::PositionHold3 && GetTime()>(posWait+3*(Time)1000000000)) {
	237	behaviourMode=BehaviourMode_t::Circle2;
	238	StartCircle();
	239	Printf("PositionHold3 -> Circle2\n");
	240	}
	241	if ((behaviourMode==BehaviourMode_t::Circle2) && (!circle->IsRunning())) {
	242	Printf("Circle2 -> Land\n");
	243	behaviourMode=BehaviourMode_t::PositionHold4;
	244	Land();
	245	}
	246
	247	break;
	248	case Event_t::EnteringFailSafeMode:
	249	behaviourMode=BehaviourMode_t::Default;
	250	break;
	251	case Event_t::ZTrajectoryFinished:
	252	Printf("PositionHold1 -> Circle1\n");
	253	StartCircle();
	254	behaviourMode=BehaviourMode_t::Circle1;
	255	break;
	256	}
	257	}
	258
	259	void SimpleFleet::CheckMessages(void) {
	260	char msg[64];
	261	char src[64];
	262	size_t src_size=sizeof(src);
	263	while(message->RecvMessage(msg,sizeof(msg),TIME_NONBLOCK,src,&src_size)>0) {
	264	//printf("%s %s\n",GetUav()->ObjectName().c_str(),src);
	265	if(strcmp(src,GetUav()->ObjectName().c_str())!=0) {
	266	/*
	267	if(strcmp(msg,"StopMotors")==0 && orientation_state!=OrientationState_t::Stopped)
	268	{
	269	joy->FlashLed(DualShock3::led1,10,10);
	270	joy->Rumble(0x70);
	271	GetBldc()->SetEnabled(false);
	272	GetUavMultiplex()->UnlockUserInterface();
	273	altitude_state=AltitudeState_t::Stopped;
	274	orientation_state=OrientationState_t::Stopped;
	275	GetAhrs()->UnlockUserInterface();
	276	}
	277	*/
	278	if(strcmp(msg,"TakeOff")==0) {
	279	Printf("TakeOff fleet\n");
	280	TakeOff();
	281	}
	282	if(strcmp(msg,"Landing")==0) {
	283	Printf("Landing fleet\n");
	284	Land();
	285	}
	286	if(strcmp(msg,"EmergencyStop")==0) {
	287	Printf("EmergencyStop fleet\n");
	288	EmergencyStop();
	289	}
	290	}
	291	}
	292	}
	293
	294	void SimpleFleet::ExtraSecurityCheck(void) {
	295	if (!vrpnLost && behaviourMode!=BehaviourMode_t::Default) {
	296	if (!GetUav()->GetVrpnObject()->IsTracked(500)) {
	297	Thread::Err("Optitrack, uav lost\n");
	298	vrpnLost=true;
	299	EnterFailSafeMode();
	300	Land();
	301	}
	302	}
	303	}
	304
	305	void SimpleFleet::ExtraCheckJoystick(void) {
	306
	307	}
	308
	309	void SimpleFleet::StartCircle(void) {
	310	if (SetOrientationMode(OrientationMode_t::Custom)) {
	311	Thread::Info("Demo flotte: start circle\n");
	312	} else {
	313	Thread::Warn("Demo flotte: could not start circle\n");
	314	return;
	315	}
	316	Vector3D uav_pos;
	317	Vector2D uav_2Dpos,target_2Dpos;
	318
	319	//circle center
	320	target_2Dpos.x=xCircleCenter->Value();
	321	target_2Dpos.y=yCircleCenter->Value();
	322	circle->SetCenter(target_2Dpos);
	323
	324	GetUav()->GetVrpnObject()->GetPosition(uav_pos);
	325	uav_pos.To2Dxy(uav_2Dpos);
	326	circle->StartTraj(uav_2Dpos,1);
	327
	328	u_x->Reset();
	329	u_y->Reset();
	330	}
	331
	332	void SimpleFleet::StopCircle(void) {
	333	circle->FinishTraj();
	334	//joy->Rumble(0x70);
	335	Thread::Info("Demo flotte: finishing circle\n");
	336	}
	337
	338	void SimpleFleet::VrpnPositionHold(void) {
	339	Euler vrpn_euler;
	340	Vector3D vrpn_pos;
	341
	342	if (SetOrientationMode(OrientationMode_t::Custom)) {
	343	Thread::Info("Demo flotte: holding position\n");
	344	} else {
	345	Thread::Info("Demo flotte: could not hold position\n");
	346	//return;
	347	}
	348
	349	GetUav()->GetVrpnObject()->GetEuler(vrpn_euler);
	350	yaw_hold=vrpn_euler.yaw;
	351
	352	GetUav()->GetVrpnObject()->GetPosition(vrpn_pos);
	353	vrpn_pos.To2Dxy(pos_hold);
	354
	355	u_x->Reset();
	356	u_y->Reset();
	357	}

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