go和nuc串口更换，根据位置自动发go的位置

Core/Src/usart.c

@@ -46,7 +46,7 @@ void MX_USART1_UART_Init(void)
 
   /* USER CODE END USART1_Init 1 */
   huart1.Instance = USART1;
-  huart1.Init.BaudRate = 115200;
+  huart1.Init.BaudRate = 4000000;
   huart1.Init.WordLength = UART_WORDLENGTH_8B;
   huart1.Init.StopBits = UART_STOPBITS_1;
   huart1.Init.Parity = UART_PARITY_NONE;
@@ -104,7 +104,7 @@ void MX_USART6_UART_Init(void)
 
   /* USER CODE END USART6_Init 1 */
   huart6.Instance = USART6;
-  huart6.Init.BaudRate = 4000000;
+  huart6.Init.BaudRate = 115200;
   huart6.Init.WordLength = UART_WORDLENGTH_8B;
   huart6.Init.StopBits = UART_STOPBITS_1;
   huart6.Init.Parity = UART_PARITY_NONE;

MDK-ARM/R2.uvoptx

@@ -223,27 +223,92 @@
         <Ww>
           <count>13</count>
           <WinNumber>1</WinNumber>
-          <ItemText>a</ItemText>
+          <ItemText>b</ItemText>
         </Ww>
         <Ww>
           <count>14</count>
           <WinNumber>1</WinNumber>
-          <ItemText>b</ItemText>
+          <ItemText>count,0x0A</ItemText>
         </Ww>
         <Ww>
           <count>15</count>
           <WinNumber>1</WinNumber>
-          <ItemText>count,0x0A</ItemText>
+          <ItemText>count</ItemText>
         </Ww>
         <Ww>
           <count>16</count>
           <WinNumber>1</WinNumber>
-          <ItemText>count</ItemText>
+          <ItemText>raw_rx1,0x0A</ItemText>
         </Ww>
         <Ww>
           <count>17</count>
           <WinNumber>1</WinNumber>
-          <ItemText>raw_rx1,0x0A</ItemText>
+          <ItemText>gyro_kp,0x0A</ItemText>
+        </Ww>
+        <Ww>
+          <count>18</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>nucbuf,0x0A</ItemText>
+        </Ww>
+        <Ww>
+          <count>19</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>vofa_send,0x0A</ItemText>
+        </Ww>
+        <Ww>
+          <count>20</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>SendBuffer,0x10</ItemText>
+        </Ww>
+        <Ww>
+          <count>21</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>NUC_StartSending,0x0A</ItemText>
+        </Ww>
+        <Ww>
+          <count>22</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>PIAN</ItemText>
+        </Ww>
+        <Ww>
+          <count>23</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>pid</ItemText>
+        </Ww>
+        <Ww>
+          <count>24</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>bmi088</ItemText>
+        </Ww>
+        <Ww>
+          <count>25</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>ist8310</ItemText>
+        </Ww>
+        <Ww>
+          <count>26</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>imu_eulr,0x0A</ItemText>
+        </Ww>
+        <Ww>
+          <count>27</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>imu_temp,0x0A</ItemText>
+        </Ww>
+        <Ww>
+          <count>28</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>htim10,0x0A</ItemText>
+        </Ww>
+        <Ww>
+          <count>29</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>pulse</ItemText>
+        </Ww>
+        <Ww>
+          <count>30</count>
+          <WinNumber>1</WinNumber>
+          <ItemText>imu_temp</ItemText>
         </Ww>
       </WatchWindow1>
       <Tracepoint>

User/Module/Chassis.c

@@ -81,13 +81,17 @@ int8_t Chassis_init(Chassis_t *c,const Chassis_Param_t *param,float target_freq)
 	 return CHASSIS_OK;
 }
 
-
+fp32 gyro_kp=1.0f;
+fp32 PIAN=0;
 void Chassis_speed_calculate(Chassis_t *c,fp32 Vx,fp32 Vy,fp32 Vw)  //底盘逆运动学的解算,
 {		
 	  fp64 Nor_Vx,Nor_Vy;//归一化后的数据
 	  normalize_vector(Vx,Vy,&Nor_Vx,&Nor_Vy);
 	
-	
+//		c->hopemotorout.OmniSpeedOut[0] = -Vx+Vy+Vw;//右前
+//		c->hopemotorout.OmniSpeedOut[1] = -Vx-Vy+Vw;//右后
+//		c->hopemotorout.OmniSpeedOut[2] = Vx-Vy+Vw;//左后
+//		c->hopemotorout.OmniSpeedOut[3] = Vx+Vy+Vw;//左前	
 //		c->hopemotorout.OmniSpeedOut[0] = -Nor_Vx+Nor_Vy+Vw  + c->pos088 .bmi088.gyro.z;//右前
 //		c->hopemotorout.OmniSpeedOut[1] = -Nor_Vx-Nor_Vy+Vw  + c->pos088 .bmi088.gyro.z;//右后
 //		c->hopemotorout.OmniSpeedOut[2] = Nor_Vx-Nor_Vy+Vw   + c->pos088 .bmi088.gyro.z;//左后
@@ -97,6 +101,14 @@ void Chassis_speed_calculate(Chassis_t *c,fp32 Vx,fp32 Vy,fp32 Vw)  //底盘逆
 		c->hopemotorout.OmniSpeedOut[2] = Nor_Vx-Nor_Vy+Vw   ;//左后
 		c->hopemotorout.OmniSpeedOut[3] = Nor_Vx+Nor_Vy+Vw   ;//左前
 	
+//	if(!Vw){
+//		PIAN = jiuzheng(c->pos088 .imu_eulr .yaw );		
+//	}
+//		c->hopemotorout.OmniSpeedOut[0] += PIAN   ;//右前
+//		c->hopemotorout.OmniSpeedOut[1] += PIAN   ;//右后
+//		c->hopemotorout.OmniSpeedOut[2] += PIAN   ;//左后
+//		c->hopemotorout.OmniSpeedOut[3] += PIAN   ;//左前
+
 }
 
 
@@ -173,32 +185,32 @@ int8_t Chassis_Control(Chassis_t *c,CMD_t *ctrl,CAN_Output_t *out)
 
 	    break;
 		 
-		 	case AUTO_PICK:  //自动视觉
+		 	case AUTO_NAVI_Pitch:  //自动视觉
 	    
-	    c->move_vec.Vx =ctrl->Vx*6000 ;
-	    c->move_vec.Vy =ctrl->Vy *6000;	
-	    c->move_vec .Vw = -ctrl->cmd_pick  .posx;
-	
-	
-	
-      if(abs_value(ctrl ->cmd_pick .posx )>20)
-			{
-			  c->move_vec.Vw =PID_calc(&(c->pid.chassis_PICKWzPID_HIGN),(c->move_vec .Vw) ,0);
-			
-			}
-			else if(abs_value(ctrl ->cmd_pick .posx )<0.1)
-			{
 	    c->move_vec.Vw =0;
-			}
-			else 
-				c->move_vec.Vw =PID_calc(&(c->pid.chassis_PICKWzPID_LOW),(c->move_vec .Vw) ,0);
-
-			  c->move_vec.Vw =LowPassFilter2p_Apply(&(c->filled[1]),c->move_vec.Vw);
+	    c->move_vec.Vy =0;
+	    c->move_vec.Vx =0 ;
 	
 	
-       	c->vofa_send[0]=c->move_vec.Vw;
-	      c->vofa_send[1]=-ctrl->cmd_pick .posx;
 	
+//      if(abs_value(ctrl ->cmd_pick .posx )>20)
+//			{
+//			  c->move_vec.Vw =PID_calc(&(c->pid.chassis_PICKWzPID_HIGN),(c->move_vec .Vw) ,0);
+//			
+//			}
+//			else if(abs_value(ctrl ->cmd_pick .posx )<0.1)
+//			{
+//				c->move_vec.Vw =0;
+//			}
+//			else 
+//				c->move_vec.Vw =PID_calc(&(c->pid.chassis_PICKWzPID_LOW),(c->move_vec .Vw) ,0);
+
+//			  c->move_vec.Vw =LowPassFilter2p_Apply(&(c->filled[1]),c->move_vec.Vw);
+
+//			
+//       	c->vofa_send[0]=c->move_vec.Vw;
+//	      c->vofa_send[1]=-ctrl->cmd_pick .posx;
+//		
 
 
 	
@@ -232,17 +244,54 @@ int8_t Chassis_Control(Chassis_t *c,CMD_t *ctrl,CAN_Output_t *out)
 	}
 	
 
-//	c->vofa_send[0]=c->pos088.bmi088.gyro.x;
-//	c->vofa_send[1]=c->pos088.bmi088.gyro.y;
-//	c->vofa_send[2]=c->pos088.bmi088.gyro.z;
-//	c->vofa_send[3]=c->pos088.bmi088.accl.x;
-//	c->vofa_send[4]=c->pos088.bmi088.accl.y;
-//	c->vofa_send[5]=c->pos088.bmi088.accl.z;
+
+//	c->vofa_send[0]=c->pos088.bmi088.gyro.z;
+	
+//	c->vofa_send[1]=c->motorfeedback .rotor_rpm3508 [0];
+//	c->vofa_send[2]=c->motorfeedback .rotor_rpm3508 [1];
+//	c->vofa_send[3]=c->motorfeedback .rotor_rpm3508 [2];
+//  c->vofa_send[4]=c->motorfeedback .rotor_rpm3508 [3];
+//	
+//  c->vofa_send[0]=c->hopemotorout .OmniSpeedOut [0];
+//  c->vofa_send[1]=c->hopemotorout .OmniSpeedOut [0];
+////  c->vofa_send[2]=c->hopemotorout .OmniSpeedOut [2];
+//  c->vofa_send[3]=c->hopemotorout .OmniSpeedOut [3];
+
+////	c->vofa_send[4]=c->motorfeedback .rotor_rpm3508 [0];
+//	c->vofa_send[0]=c->motorfeedback .rotor_rpm3508 [0];
+////	c->vofa_send[6]=c->motorfeedback .rotor_rpm3508 [2];
+//  c->vofa_send[2]=c->motorfeedback .rotor_rpm3508 [3];	
+//	
+//	  c->vofa_send[5]=c->pos088 .imu_eulr .yaw  ;
 
 	return CHASSIS_OK;
 
 }
+	 pid_type_def pid;
+
+	pid_param_t pid_param={ 
+		.p = 0.50f,        
+    .i = 0.0f,         
+    .d = 0.0f,         
+    .i_limit = 50.0f,
+    .out_limit = 100.0f
+	};
+fp32  jiuzheng(fp32 yaw)
+{
+	static fp32 pian_yaw=0;
+	static fp32 shang_yaw=0;
+	static int is=0;
 
 	
+	if(is==0)
+	{
+		PID_init (&pid,PID_POSITION ,&pid_param);
+		is=1;
+	}
 	
+	pian_yaw+= (yaw - shang_yaw);	
+	shang_yaw=yaw ;
+	
+	return PID_calc(&pid,pian_yaw,0);
+}
 

User/Module/Chassis.h

@@ -190,6 +190,7 @@ int8_t Chassis_UpdateFeedback(Chassis_t *c, const CAN_t *can);
 int8_t Chassis_Control(Chassis_t *c,CMD_t *ctrl,CAN_Output_t *out);
 
 
+fp32  jiuzheng(fp32 yaw);
 
 
 

User/Module/config.c

@@ -110,7 +110,7 @@ static const ConfigParam_t param ={
 },
     /*投球*/
     .PitchConfig_Config = {
-    .m2006_init_angle =-170,    
+    .m2006_init_angle =-90,    
 	  .m2006_trigger_angle =0,
     .go1_init_position = -50, 
 		.go1_Receive_ball  = -5, //偏下	

User/Module/up.c

@@ -49,6 +49,8 @@ int8_t up_init(UP_t *u,const UP_Param_t *param,float target_freq)
 	}
 	
 	u->go_cmd =u->param ->go_cmd ;
+	LowPassFilter2p_Init(&(u->filled[0]),target_freq,100.0f);  
+
 	
 	// 初始化上层状态机
 	if (!u->DribbleContext .is_initialized) { //检查是否为第一次运行状态机，运球
@@ -97,6 +99,7 @@ int8_t UP_UpdateFeedback(UP_t *u, const CAN_t *can, CMD_t *c) {
 	u->DribbleContext .DribbleConfig .light_ball_flag =HAL_GPIO_ReadPin(LIGHT_C_GPIO_Port  ,LIGHT_C_Pin);
 	u->DribbleContext .DribbleConfig .light_3508_flag =HAL_GPIO_ReadPin(LIGHT_B_GPIO_Port  ,LIGHT_B_Pin);
 
+
 	return 0;
 }
 
@@ -284,28 +287,30 @@ int8_t UP_control(UP_t *u,CAN_Output_t *out,CMD_t *c)
     u->motor_target .Dribble_translate_M3508_angle =u->DribbleContext .DribbleConfig .m3508_translate_angle;
 	  u->DribbleContext .DribbleState  = DRIBBLE_PREPARE; //重置最初状态
 			
+			
+
 				break;
 			
 		case Pitch :
-//				if (u->PitchContext .PitchState  ==PITCH_PREPARE) 
-//				{
-//		      u->PitchContext .PitchState=PITCH_START;//置标志位用于启动投篮
-//				}
-
-//			 Pitch_Process(u,out);
 				if (u->PitchContext .PitchState  ==PITCH_PREPARE) 
 				{
-				     u->CoContext .CoState =CoTRANSLATE_OUT;
+		      u->PitchContext .PitchState=PITCH_START;//置标志位用于启动投篮
 				}
-        Co_Process(u,out);
+
+			 Pitch_Process(u,out);
+//				if (u->PitchContext .PitchState  ==PITCH_PREPARE) 
+//				{
+//				     u->CoContext .CoState =CoTRANSLATE_OUT;
+//				}		
+//        Co_Process(u,out);
 
 				 break ;
 		case UP_Adjust: //测试用
 			
-				u->PitchContext.PitchConfig.go1_init_position += c->Vx ;
+				u->PitchContext.PitchConfig.go1_Receive_ball += c->Vx ;
 	      u->PitchContext.PitchConfig.Pitch_angle += c->Vy/100;
 	
-		    u->motor_target .go_shoot=u->PitchContext.PitchConfig.go1_init_position;
+		    u->motor_target .go_shoot=u->PitchContext.PitchConfig.go1_Receive_ball;
 		    u->motor_target .Shoot_Pitch_angle=u->PitchContext.PitchConfig.Pitch_angle;
 			break ;
 		case Dribble:
@@ -323,7 +328,32 @@ int8_t UP_control(UP_t *u,CAN_Output_t *out,CMD_t *c)
 	default:
 		break;
 	}
+	case AUTO:
+		switch(c-> CMD_mode)
+		{
+			case 	AUTO_NAVI_Pitch:
+		 u->PitchContext .PitchConfig .go1_Receive_ball=LowPassFilter2p_Apply(&u->filled[0],c->pos);
 
+			if (u->PitchContext .PitchState  ==PITCH_PREPARE) 
+				{
+		      u->PitchContext .PitchState=PITCH_START;//置标志位用于启动投篮
+				}
+				/*根据距离实时计算所需pos*/
+				
+//       u->PitchContext .PitchConfig .go1_release_threshold=c->pos;
+			 Pitch_Process(u,out);
+			break ;
+				
+			case AUTO_NAVI:
+						u->motor_target .Shoot_M2006_angle =u->PitchContext .PitchConfig .m2006_init_angle ;
+
+						u->PitchContext .PitchState   = PITCH_PREPARE;  
+
+			
+			
+				break ;
+			
+		}
 			
 			
 return 0;
@@ -372,14 +402,14 @@ int8_t Pitch_Process(UP_t *u, CAN_Output_t *out)
 				u->PitchContext .PitchState=PITCH_LAUNCHING;			
 			  }
 			}
-		  
-
-			
 			break ;
 		
 		case PITCH_LAUNCHING: //等待发射	
+			u->PitchContext .PitchState=PITCH_COMPLETE;	
 		break ;
 		case PITCH_COMPLETE:  //发射完成
+			
+		
 	  break ;
 		
 	

User/bsp/bsp_usart.c

@@ -9,9 +9,9 @@ static BSP_UART_t UART_Get(UART_HandleTypeDef *huart) {
   if (huart->Instance == USART3)
     return BSP_UART_REMOTE;
   else if (huart->Instance == USART1)
-    return BSP_UART_NUC;
-  else if (huart->Instance == USART6)
     return BSP_UART_RS485;
+  else if (huart->Instance == USART6)
+    return BSP_UART_NUC;
   /*
   else if (huart->Instance == USARTX)
                   return BSP_UART_XXX;
@@ -95,9 +95,9 @@ UART_HandleTypeDef *BSP_UART_GetHandle(BSP_UART_t uart) {
     case BSP_UART_REMOTE:
       return &huart3;
     case BSP_UART_RS485:
-      return &huart6;
-    case BSP_UART_NUC:
       return &huart1;
+    case BSP_UART_NUC:
+      return &huart6;
     /*
     case BSP_UART_XXX:
             return &huartX;

User/bsp/bsp_usart.h

@@ -13,6 +13,7 @@ typedef enum {
   BSP_UART_REMOTE,
   BSP_UART_RS485,
   BSP_UART_NUC,
+	BSP_UART_VOFA,
   /* BSP_UART_XXX, */
   BSP_UART_NUM,
   BSP_UART_ERR,

User/bsp/pwm.c

@@ -19,11 +19,11 @@ int8_t BSP_PWM_Start(BSP_PWM_Channel_t ch) {
   return BSP_OK;
 }
 
+      uint16_t pulse;
 
 int8_t BSP_PWM_Set(BSP_PWM_Channel_t ch, float duty_cycle) {
   if (duty_cycle < 0.0f) duty_cycle = 0.f;
 
-      uint16_t pulse;
   /* 通过PWM通道对应定时器重载值和给定占空比，计算PWM周期值 */
   switch (ch) {
     case BSP_PWM_IMU_HEAT:
@@ -38,7 +38,9 @@ int8_t BSP_PWM_Set(BSP_PWM_Channel_t ch, float duty_cycle) {
         break;
     }
   } else {
-//    BSP_PWM_Stop(ch);
+    pulse =0;
+		__HAL_TIM_SET_COMPARE(&htim10, TIM_CHANNEL_1, pulse);
+    //BSP_PWM_Stop(ch);
   }
   return BSP_OK;
 }

User/device/cmd.c

@@ -102,6 +102,8 @@ int8_t CMD_ParseNuc(CMD_t *cmd,CMD_NUC_t *n){
 			cmd->cmd_MID360.posx = n->navi.vx;
 			cmd->cmd_MID360.posy = n->navi.vy;
 			cmd->cmd_MID360.posw = n->navi.wz;
+			
+			cmd->pos =n->navi .pos ;
 			break;
 			
 			case PICK :
@@ -155,7 +157,7 @@ int8_t CMD_DR16(CMD_t *cmd,const CMD_RC_t *rc) {
 		
 		if(rc->dr16.sw_r ==CMD_SW_MID) cmd ->CMD_mode =Normal; //左中，右中，无模式	
 		
-	  if(rc->dr16.sw_r ==CMD_SW_DOWN) cmd ->CMD_mode =AUTO_PICK; //左中，右下，视觉
+	  if(rc->dr16.sw_r ==CMD_SW_DOWN) cmd ->CMD_mode =AUTO_NAVI_Pitch; //左中，右下，视觉
 		
 	}
 	else if(rc->dr16.sw_l==CMD_SW_DOWN)
@@ -189,8 +191,9 @@ int8_t CMD_LD(CMD_t *cmd,const CMD_RC_t *rc){
 	if(cmd ->CMD_CtrlType ==AUTO){
 	
 /*自动下的*/	
-	if(rc->LD.key_E ==CMD_SW_DOWN ) cmd ->CMD_mode =AUTO_NAVI; 
-	else if(rc->LD.key_E ==CMD_SW_UP) cmd ->CMD_mode =AUTO_PICK;
+	if(rc->LD.key_E ==CMD_SW_DOWN ) cmd ->CMD_mode =Normal; 
+	else if(rc->LD.key_E ==CMD_SW_UP) cmd ->CMD_mode =AUTO_NAVI_Pitch;
+	else if(rc->LD .key_E ==CMD_SW_MID )	 cmd ->CMD_mode =AUTO_NAVI;
 	else cmd ->CMD_mode =Normal ;
 	
 	}

User/device/cmd.h

@@ -9,6 +9,7 @@
 
 #define MID (0x09)
 #define PICK (0x06)
+#define NUC (0x08)
 
 typedef enum{
 	RCcontrol,//遥控器控制，左按键上，控制上层
@@ -23,7 +24,7 @@ typedef  enum{
 		Normal,    //无模式
 	
 	  AUTO_NAVI,
-	  AUTO_PICK,
+	  AUTO_NAVI_Pitch,
 	
 	  UP_Adjust,//上层调整
 
@@ -41,6 +42,11 @@ typedef struct {
   fp32 vx;
   fp32 vy;
   fp32 wz;
+		
+	fp32 pos;
+	fp32 angle;
+	char  flag;	
+		
   }navi;
  struct 
  {
@@ -52,6 +58,8 @@ typedef struct {
 	{
 		fp32 angle;
 	}sick_cali;
+	
+
 } CMD_NUC_t;
 /* 拨杆位置 */
 typedef enum {
@@ -122,6 +130,8 @@ typedef struct {
    fp32 key_ctrl_l;
    fp32 key_ctrl_r;
 	
+	fp32 pos;//雷达反馈go位置
+	
 	 fp32 Vx;
    fp32 Vy;
    fp32 Vw;

User/device/nuc.c

@@ -8,6 +8,7 @@ static osThreadId_t thread_alert;
 
 uint8_t nucbuf[31];
 
+
 static void NUC_IdleCallback(void) {	
 	osThreadFlagsSet(thread_alert,SIGNAL_NUC_RAW_REDY);
 	detect_hook(NUC_TOE);
@@ -26,6 +27,35 @@ int8_t NUC_StartReceiving() {
                            sizeof(nucbuf)) == HAL_OK)
     return DEVICE_OK;
   return DEVICE_ERR;
+}
+  char SendBuffer[19];
+
+int8_t NUC_StartSending(fp32 *data) {
+
+   	union 
+	{
+		float x[4];
+		char data[16];
+	}instance;
+  
+
+      for (int i = 0; i < 4; i++) {
+        instance.x[i] = data[i];
+    }
+
+  SendBuffer[0] = 0xFC; //发送ID
+  SendBuffer[1] = 0x01; //控制帧
+  for(int i = 2; i < 18; i++)
+  {
+    SendBuffer[i] = instance.data[i-2];
+  }
+  SendBuffer[18] = 0xFD; //结束符
+
+    if (HAL_UART_Transmit_DMA(BSP_UART_GetHandle(BSP_UART_NUC),
+                              (uint8_t *)SendBuffer,
+                              sizeof(SendBuffer)) == HAL_OK)
+    return DEVICE_OK;
+  return DEVICE_ERR;
 }
 int8_t NUC_Restart(void) {
   __HAL_UART_DISABLE(BSP_UART_GetHandle(BSP_UART_NUC));
@@ -42,8 +72,8 @@ int8_t NUC_RawParse(CMD_NUC_t *n){
 	if(n ==NULL) return DEVICE_ERR_NULL;
  	union 
 	{
-		float x[3];
-		char data[12];
+		float x[5];
+		char data[20];
 	}instance;
   if(nucbuf[0]!=HEAD) goto error;  //发送ID不是底盘
   else{
@@ -51,7 +81,34 @@ int8_t NUC_RawParse(CMD_NUC_t *n){
 		n->ctrl_status =nucbuf[2];
     switch (n->status_fromnuc)
     {
-		case MID://控制帧0x09
+//		case MID://控制帧0x09
+//				/* 协议格式 
+//		   0xFF  HEAD
+//		   0x09  控制帧
+//		   0x01  相机帧
+//		   vx    fp32
+//		   vy    fp32
+//		   wz    fp32
+//		   0xFE  TAIL
+//		  */
+////		if(nucbuf[15]!=TAIL)goto error;
+//       instance.data[3] = nucbuf[6];
+//       instance.data[2] = nucbuf[5];
+//       instance.data[1] = nucbuf[4];
+//       instance.data[0] = nucbuf[3];
+//      n->navi.vx = instance.x[0]; //
+//       instance.data[7] = nucbuf[10];
+//       instance.data[6] = nucbuf[9];
+//       instance.data[5] = nucbuf[8];
+//       instance.data[4] = nucbuf[7];
+//      n->navi.vy = instance.x[1];//
+//       instance.data[11] = nucbuf[14];
+//       instance.data[10] = nucbuf[13];
+//       instance.data[9] = nucbuf[12];
+//       instance.data[8] = nucbuf[11];
+//      n->navi.wz = instance.x[2];//
+//      break;
+		case MID ://控制帧0x08
 				/* 协议格式 
 		   0xFF  HEAD
 		   0x09  控制帧
@@ -61,7 +118,7 @@ int8_t NUC_RawParse(CMD_NUC_t *n){
 		   wz    fp32
 		   0xFE  TAIL
 		  */
-		if(nucbuf[15]!=TAIL)goto error;
+		if(nucbuf[24]!=TAIL)goto error;
        instance.data[3] = nucbuf[6];
        instance.data[2] = nucbuf[5];
        instance.data[1] = nucbuf[4];
@@ -77,53 +134,21 @@ int8_t NUC_RawParse(CMD_NUC_t *n){
        instance.data[9] = nucbuf[12];
        instance.data[8] = nucbuf[11];
       n->navi.wz = instance.x[2];//
+			 instance.data[15] = nucbuf[18];
+       instance.data[14] = nucbuf[17];
+       instance.data[13] = nucbuf[16];
+       instance.data[12] = nucbuf[15];
+      n->navi.pos = instance.x[3];//
+			 instance.data[19] = nucbuf[22];
+       instance.data[18] = nucbuf[21];
+       instance.data[17] = nucbuf[20];
+       instance.data[16] = nucbuf[19];
+      n->navi.angle  = instance.x[4];//
+
+      n->navi.flag = nucbuf[23];//
       break;
-    case PICK:
-			/* 协议格式 
-		   0xFF  HEAD
-		   0x0X  控制帧
-		   0x01  相机帧
-		   cmd   8位
-		   dis   相机深度值
-		   posx  相机yaw轴值
-		   posy  相机pitch轴值
-		   0xFE  TAIL
-		  */
-//		  if(nucbuf[15]!=TAIL)goto error;
-       instance.data[3] = nucbuf[6];
-       instance.data[2] = nucbuf[5];
-       instance.data[1] = nucbuf[4];
-       instance.data[0] = nucbuf[3];
-      n->pick.posx = instance.x[0]; //距离球中心的角度值
-       instance.data[7] = nucbuf[10];
-       instance.data[6] = nucbuf[9];
-       instance.data[5] = nucbuf[8];
-       instance.data[4] = nucbuf[7];
-		 n->pick.posy = instance.x[1];// 相机yaw轴
-		   instance.data[11]  = nucbuf[14];
-		   instance.data[10]  = nucbuf[13];
-		   instance.data[9]  = nucbuf[12];
-		   instance.data[8]  = nucbuf[11];
-		 n->pick.posw= instance.x[2];// 暂未用到
-       break;
-//		case SICK_CAIL:
-//			if(nucbuf[15]!=TAIL)goto error;
-//       instance.data[3] = nucbuf[14];
-//       instance.data[2] = nucbuf[13];
-//       instance.data[1] = nucbuf[12];
-//       instance.data[0] = nucbuf[11];
-//      n->sick_cali.angle = instance.x[0]; //
-//       instance.data[7] = nucbuf[10];
-//       instance.data[6] = nucbuf[9];
-//       instance.data[5] = nucbuf[8];
-//       instance.data[4] = nucbuf[7];
-//		 n->sick_cali.isleft = instance.x[1];// 
-//		   instance.data[11]  = nucbuf[14];
-//		   instance.data[10]  = nucbuf[13];
-//		   instance.data[9]  = nucbuf[12];
-//		   instance.data[8]  = nucbuf[11];
-//		 n->pick.posw= instance.x[2];// 暂未用到
-//		   break;
+
+
     }
      return DEVICE_OK;
   }

User/device/nuc.h

@@ -23,12 +23,13 @@ typedef struct {
   NUC_UpPackageMCU_t to_nuc; //发送的数据协议
 
   uint8_t status;//控制状态
-	uint8_t pit_status;//pit相机朝向
+
 } NUC_t;
 
 
 int8_t NUC_Init(NUC_t *nuc);
 int8_t NUC_StartReceiving(void);
+int8_t NUC_StartSending(fp32 *data) ;
 bool_t NUC_WaitDmaCplt(void);
 int8_t NUC_RawParse(CMD_NUC_t *n);
 int8_t NUC_HandleOffline(CMD_NUC_t *cmd);

User/device/rc.c

@@ -99,10 +99,25 @@ int8_t LD_ParseRaw( LD_raw_t *raw, LD_Data_t *LD)
 		raw->ch[3] = 0.5*(raw->ch[3]);		//w
 		
 		
-		raw->map_ch[0]=map_fp32(raw->ch[0],-719,680,-1,1);
-		raw->map_ch[1]=map_fp32(raw->ch[1],-653,746,-1,1);
-		raw->map_ch[2]=map_fp32(raw->ch[2],95,1482,0,1);
-		raw->map_ch[3]=map_fp32(raw->ch[3],-317,375,-1,1);
+if (raw->ch[0] < 0)
+    raw->map_ch[0] = map_fp32(raw->ch[0], -696, 2, -1, 0);
+else
+    raw->map_ch[0] = map_fp32(raw->ch[0], 2, 704, 0, 1);
+
+// ch[1]
+if (raw->ch[1] < 0)
+    raw->map_ch[1] = map_fp32(raw->ch[1], -638, 5, -1, 0);
+else
+    raw->map_ch[1] = map_fp32(raw->ch[1], 5, 762, 0, 1);
+
+    raw->map_ch[2] = map_fp32(raw->ch[2], 2, 1377, 0, 1);
+
+// ch[3]
+if (raw->ch[3] < 0)
+    raw->map_ch[3] = map_fp32(raw->ch[3], -344, 0, -1, 0);
+else
+    raw->map_ch[3] = map_fp32(raw->ch[3], 0, 348, 0, 1);
+
 		
 		/*非线性映射*/
 		raw->map_ch[0]=expo_map(raw->map_ch[0],0.7f);

User/device/vofa.c

@@ -28,13 +28,14 @@ void vofa_tx_main(float *data)
 	
 		
 	/*在下面使用对应的串口发送函数*/
+//	CDC_Transmit_FS( ( uint8_t *)fdata, sizeof(fdata));
+//	osDelay(1);
+//	CDC_Transmit_FS( tail, 4);
 //	HAL_UART_Transmit_DMA(&huart1, ( uint8_t *)fdata, sizeof(fdata));
 //	osDelay(1);
-//	HAL_UART_Transmit_DMA(BSP_UART_GetHandle(BSP_UART_VOFA), tail, 4);
+//	HAL_UART_Transmit_DMA(&huart1, tail, 4);
 //	osDelay(1);
-	CDC_Transmit_FS( ( uint8_t *)fdata, sizeof(fdata));
-	osDelay(1);
-//	CDC_Transmit_FS( tail, 4);
+
 		
 }
 

User/task/nuc_task.c

@@ -11,7 +11,7 @@ static CMD_NUC_t cmd_fromnuc;
 
 
 #endif
-
+fp32 send[4]={11.0f,45.0,1.f,4.0f};
 void Task_nuc(void *argument){
  (void)argument; /**/
 
@@ -29,6 +29,7 @@ void Task_nuc(void *argument){
     task_runtime.stack_water_mark.nuc= osThreadGetStackSpace(osThreadGetId());
 #endif
 			NUC_StartReceiving();
+			 NUC_StartSending(send);
       if (NUC_WaitDmaCplt()){
          NUC_RawParse(&cmd_fromnuc);
       }

User/task/up_task.c

@@ -70,7 +70,6 @@ void Task_up(void *argument)
 			ALL_Motor_Control(&UP,&UP_CAN_out);
 
 		osDelay(1);
-			
 	/*can上设备数据获取*/	
 	osMessageQueueGet(task_runtime.msgq.can.feedback.UP_CAN_feedback, &can, NULL, 0);
 					
@@ -92,8 +91,8 @@ void Task_up(void *argument)
 		osMessageQueuePut(task_runtime.msgq.can.output.shoot5065 ,&UP_CAN_out.chassis5065, 0, 0); 
 	
 
-   vofa_send [0]=UP.vofa_send [0];
-   vofa_send [1]=UP.vofa_send [1];
+//   vofa_send [0]=UP.vofa_send [0];
+//   vofa_send [1]=UP.vofa_send [1];
 	 vofa_tx_main (vofa_send);
 	 
 	tick += delay_tick;