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基于EBAZ4205矿板的图像处理：12图像二值化(阈值可调)

我的项目是基于EBAZ4205矿板的阈值可调的图像阈值二值化处理，可以通过按键调整二值化的阈值，key1为阈值加1，key4为阈值减1，key2为阈值加10，key5为阈值减10，key54为阈值重置为128。

先看效果

拿我的pynq当模特

可以清晰的看到xilinx的商标被划分了出来


阈值过大和过小就不行了，这也是全局阈值二值化的缺点，接下来我会完成基于卷积的局部阈值二值化，它能得到更好的效果，尽请期待。

项目解读

我的blockdesign，你不按照我的接，按照正点原子的开源代码接也是可以的，只是我有强迫症，能接的我都接了。

就是在标准的ov5640->VDMA->DDR->VDMA->DVI_Driver->HDMI的流程（可以点击这个超链接看我说的标准流程）的第一个箭头哪里加了三个模块，一个负责将图像从RGB格式转化为灰度图像，一个负责对灰度图像进行二值化处理，最后一个为PS提供了访问PL端reg的AXILite端口，以便实时调整阈值。

下面的代码里我都添加了(* X_INTERFACE_IGNORE = “true” *) ，是禁用vivado的interface自动推断，可以不加

rgb2gray模块

该模块负责将图像从RGB格式转化为灰度图像
公式：
Y = 0.299R +0.587G + 0.114B
Y = (77 R + 150G + 29 *B)>>8

`timescale 1ns / 1ps
//作者：抢公主的大魔王
//功能：将来自ov5640视频流从RGB格式转化为灰度图像
//日期：24.5.5
//版本：1v0
//联系方式：2376635586@qq.com
module rgb2gray((* X_INTERFACE_IGNORE = "true" *)  input           cmos_frame_vsync,
(* X_INTERFACE_IGNORE = "true" *)  input [23:0]    cmos_frame_data,
(* X_INTERFACE_IGNORE = "true" *)  input           cmos_frame_href,(* X_INTERFACE_IGNORE = "true" *)  input           cmos_frame_clk,
(* X_INTERFACE_IGNORE = "true" *)  input           cmos_rstn,//同步复位
(* X_INTERFACE_IGNORE = "true" *)  input           cmos_frame_ce,(* X_INTERFACE_IGNORE = "true" *)  output          dataout_frame_vsync,
(* X_INTERFACE_IGNORE = "true" *)  output [23:0]   dataout_frame_data,
(* X_INTERFACE_IGNORE = "true" *)  output          dataout_frame_href,
(* X_INTERFACE_IGNORE = "true" *)  output          dataout_frame_ce);// Y = 0.299R +0.587G + 0.114B// Y = (77 *R + 150*G + 29 *B)>>8reg [15:0] r_gray1;reg [15:0] g_gray1;reg [15:0] b_gray1;reg [15:0] y1;reg [7:0] y2;reg [2:0] dataout_frame_vsync_r;reg [2:0] dataout_frame_href_r;reg [2:0] dataout_frame_ce_r;always@(posedge cmos_frame_clk)beginif(!cmos_rstn)beginr_gray1 <= 8'h00;g_gray1 <= 8'h00;b_gray1 <= 8'h00;endelse beginr_gray1 <= cmos_frame_data[23:16]  * 8'd77 ;g_gray1 <= cmos_frame_data[15:8]   * 8'd150;b_gray1 <= cmos_frame_data[7:0]    * 8'd29 ;endendalways@(posedge cmos_frame_clk)beginif(!cmos_rstn)beginy1 <= 16'h0000;endelse beginy1 <= r_gray1 + g_gray1 + b_gray1;endendalways@(posedge cmos_frame_clk)beginif(!cmos_rstn)beginy2 <= 8'h0000;endelse beginy2 <= y1[15:8];endendalways@(posedge cmos_frame_clk)beginif(!cmos_rstn)begindataout_frame_ce_r      <= 3'b000;dataout_frame_vsync_r   <= 3'b000;dataout_frame_href_r    <= 3'b000;endelse begindataout_frame_ce_r      <= {dataout_frame_ce_r[1:0]     ,cmos_frame_ce};dataout_frame_vsync_r   <= {dataout_frame_vsync_r[1:0]  ,cmos_frame_vsync};dataout_frame_href_r    <= {dataout_frame_href_r[1:0]   ,cmos_frame_href};endendassign dataout_frame_data = {y2,y2,y2};assign dataout_frame_ce = dataout_frame_ce_r[2];assign dataout_frame_vsync = dataout_frame_vsync_r[2];assign dataout_frame_href = dataout_frame_href_r[2];endmodule

global_binary模块

负责根据阈值对灰度图像进行二值化处理

`timescale 1ns / 1ps
//作者：抢公主的大魔王
//功能：根据阈值对灰度图像进行二值化处理
//日期：24.5.5
//版本：1v0
//联系方式：2376635586@qq.com
module global_binary(
(* X_INTERFACE_IGNORE = "true" *)  input           datain_vsync,
(* X_INTERFACE_IGNORE = "true" *)  input [23:0]    datain,
(* X_INTERFACE_IGNORE = "true" *)  input           datain_href,(* X_INTERFACE_IGNORE = "true" *)  input           datain_clk,
(* X_INTERFACE_IGNORE = "true" *)  input           datain_rstn,//同步复位
(* X_INTERFACE_IGNORE = "true" *)  input           datain_frame_ce,(* X_INTERFACE_IGNORE = "true" *)  input      [7:0]threshold,(* X_INTERFACE_IGNORE = "true" *)  output          dataout_vsync,
(* X_INTERFACE_IGNORE = "true" *)  output reg [23:0]   dataout,
(* X_INTERFACE_IGNORE = "true" *)  output          dataout_vaild,(* X_INTERFACE_IGNORE = "true" *)  output          dataout_frame_ce);reg [1:0] dataout_vsync_r;
reg [1:0] dataout_valid_r;
reg [1:0] dataout_frame_ce_r;
always@(posedge datain_clk)beginif(!datain_rstn)dataout <= 24'hff_ff_ff;else if(datain[7:0]>=threshold)dataout <= 24'hff_ff_ff;elsedataout  <= 24'h00_00_00;
end
always@(posedge datain_clk)beginif(!datain_rstn) begindataout_vsync_r     <=  3'b000;dataout_valid_r     <=  3'b000;dataout_frame_ce_r  <=  3'b000;endelse begindataout_vsync_r     <=  {dataout_vsync_r[0]     , datain_vsync};dataout_valid_r     <=  {dataout_valid_r[0]     , datain_href};dataout_frame_ce_r  <=  {dataout_frame_ce_r[0]  , datain_frame_ce};end
endassign dataout_vsync        = dataout_vsync_r[1];
assign dataout_vaild        = dataout_valid_r[1];
assign dataout_frame_ce     = dataout_frame_ce_r[1];endmodule

AXICtrlThreshold模块

这个就是自己打包的标准的AXILite IP核，然后加了两句代码，一句是将threshold的0到7为连接到这个IP内部的第一个reg的低八位，另一句就是让这个reg复位是被复位为128，而不是0，因为我的图像阈值二值化算法的缺省阈值为128。
打包过程如下


下面要改名字和描述哦。


然后到了这个AXILite IP内部添加下面的代码

assign threshold = slv_reg0[7:0];

然后更改复位值

	  if ( S_AXI_ARESETN == 1'b0 )beginslv_reg0 <= 32'd128;slv_reg1 <= 0;slv_reg2 <= 0;slv_reg3 <= 0;end 

最后把它output出去

output wire [7:0] threshold

IP代码本身，和她的top层都要output

然后在这一栏，所有不是对号的要挨个点一遍，挨个更新一下，最后全是对号之后，就可以打包了。

vitis端代码

IntrHandler是中断回调函数，触发中断后会调用这个函数。
SetupInterruptSystem负责初始化中断，配置触发中断方式，使能中断。
Gpio_Init初始化GPIO，包括key1-5，led1-3和sccb总线（配置OV5640的）
binary_threshold就是我的图像阈值二值化的阈值啦，可以通过按键进行调整。

//作者：抢公主的大魔王
//功能：阈值可调的图像二值化
//日期：24.5.5
//版本：1v0
//联系方式：2376635586@qq.com
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "xil_types.h"
#include "xil_cache.h"
#include "xparameters.h"
#include "xgpiops.h"
#include "xscugic.h"
#include "xil_exception.h"
#include "xplatform_info.h"
#include "xaxivdma.h"
#include "xaxivdma_i.h"
#include "display_ctrl_hdmi/display_ctrl.h"
#include "vdma_api/vdma_api.h"
#include "emio_sccb_cfg/emio_sccb_cfg.h"
#include "ov5640/ov5640_init.h"
#include "sleep.h"//宏定义
#define DYNCLK_BASEADDR  	XPAR_AXI_DYNCLK_0_BASEADDR  //动态时钟基地址
#define VDMA_ID          	XPAR_AXIVDMA_0_DEVICE_ID    //VDMA器件ID
#define DISP_VTC_ID      	XPAR_VTC_0_DEVICE_ID        //VTC器件ID
#define THRESHOLD_BASEADDR 	XPAR_AXICTRLTHRESHOLD_0_S00_AXI_BASEADDR#define EMIO_SCL_NUM 54
#define EMIO_SDA_NUM 55
#define KEY1 56 //T19
#define KEY2 57 //P19
#define KEY3 58 //U20
#define KEY4 59 //U19
#define KEY5 60 //V20
#define LED1 61 //H18
#define LED2 62 //K17
#define LED3 63 //E19#define GPIO_DEVICE_ID  	XPAR_XGPIOPS_0_DEVICE_ID
XGpioPs Gpio;
#define GPIO_BANK	XGPIOPS_BANK0  /* Bank 0 of the GPIO Device */
#define INTC_DEVICE_ID		XPAR_SCUGIC_SINGLE_DEVICE_ID
#define GPIO_INTERRUPT_ID	XPAR_XGPIOPS_0_INTR//全局变量
//frame buffer的起始地址
unsigned int const frame_buffer_addr = (XPAR_PS7_DDR_0_S_AXI_BASEADDR+ 0x1000000);
u8 binary_threshold = 128;
XAxiVdma     vdma;
DisplayCtrl  dispCtrl;
VideoMode    vd_mode;static XScuGic Intc; /* The Instance of the Interrupt Controller Driver */static void IntrHandler(void *CallBackRef, u32 Bank, u32 Status)
{XGpioPs *Gpio_cb = (XGpioPs *)CallBackRef;if (XGpioPs_IntrGetStatusPin(Gpio_cb, KEY1)){binary_threshold++;Xil_Out32(THRESHOLD_BASEADDR, binary_threshold);xil_printf("The threshold has been changed\n\rThe threshold now is %d\n\r",binary_threshold);XGpioPs_IntrClearPin(Gpio_cb, KEY1);}else if (XGpioPs_IntrGetStatusPin(Gpio_cb, KEY4)){binary_threshold--;Xil_Out32(THRESHOLD_BASEADDR, binary_threshold);xil_printf("The threshold has been changed\n\rThe threshold now is %d\n\r",binary_threshold);XGpioPs_IntrClearPin(Gpio_cb, KEY4);}else if (XGpioPs_IntrGetStatusPin(Gpio_cb, KEY2)){binary_threshold = binary_threshold+10;Xil_Out32(THRESHOLD_BASEADDR, binary_threshold);xil_printf("The threshold has been changed\n\rThe threshold now is %d\n\r",binary_threshold);XGpioPs_IntrClearPin(Gpio_cb, KEY2);}else if (XGpioPs_IntrGetStatusPin(Gpio_cb, KEY5)){binary_threshold = binary_threshold-10;Xil_Out32(THRESHOLD_BASEADDR, binary_threshold);xil_printf("The threshold has been changed\n\rThe threshold now is %d\n\r",binary_threshold);XGpioPs_IntrClearPin(Gpio_cb, KEY5);}else if (XGpioPs_IntrGetStatusPin(Gpio_cb, KEY3)){binary_threshold = 128;Xil_Out32(THRESHOLD_BASEADDR, binary_threshold);xil_printf("The threshold has been reset\n\rThe threshold now is %d\n\r",binary_threshold);XGpioPs_IntrClearPin(Gpio_cb, KEY3);}XGpioPs_WritePin(&Gpio, LED1, !XGpioPs_ReadPin(&Gpio, LED1));
}void SetupInterruptSystem(XScuGic *GicInstancePtr, XGpioPs *Gpio,u16 GpioIntrId){XScuGic_Config *IntcConfig;Xil_ExceptionInit();IntcConfig = XScuGic_LookupConfig(INTC_DEVICE_ID);XScuGic_CfgInitialize(GicInstancePtr, IntcConfig,IntcConfig->CpuBaseAddress);Xil_ExceptionRegisterHandler(XIL_EXCEPTION_ID_INT,(Xil_ExceptionHandler)XScuGic_InterruptHandler,GicInstancePtr);XScuGic_Connect(GicInstancePtr, GpioIntrId,(Xil_ExceptionHandler)IntrHandler,(void *)Gpio);XScuGic_Enable(GicInstancePtr, GpioIntrId);XGpioPs_SetIntrTypePin(Gpio, KEY1,  XGPIOPS_IRQ_TYPE_EDGE_FALLING);XGpioPs_SetIntrTypePin(Gpio, KEY2,  XGPIOPS_IRQ_TYPE_EDGE_FALLING);XGpioPs_SetIntrTypePin(Gpio, KEY3,  XGPIOPS_IRQ_TYPE_EDGE_FALLING);XGpioPs_SetIntrTypePin(Gpio, KEY4,  XGPIOPS_IRQ_TYPE_EDGE_FALLING);XGpioPs_SetIntrTypePin(Gpio, KEY5,  XGPIOPS_IRQ_TYPE_EDGE_FALLING);XGpioPs_IntrEnablePin(Gpio, KEY1);XGpioPs_IntrEnablePin(Gpio, KEY2);XGpioPs_IntrEnablePin(Gpio, KEY3);XGpioPs_IntrEnablePin(Gpio, KEY4);XGpioPs_IntrEnablePin(Gpio, KEY5);Xil_ExceptionEnableMask(XIL_EXCEPTION_IRQ);
}void Gpio_Init(void){XGpioPs_Config *ConfigPtr;ConfigPtr = XGpioPs_LookupConfig(GPIO_DEVICE_ID);XGpioPs_CfgInitialize(&Gpio, ConfigPtr,ConfigPtr->BaseAddr);XGpioPs_SetDirectionPin(&Gpio, LED1, 1);XGpioPs_SetOutputEnablePin(&Gpio, LED1, 1);XGpioPs_WritePin(&Gpio, LED1, 0);XGpioPs_SetDirectionPin(&Gpio, LED2, 1);XGpioPs_SetOutputEnablePin(&Gpio, LED2, 1);XGpioPs_WritePin(&Gpio, LED2, 0);XGpioPs_SetDirectionPin(&Gpio, LED3, 1);XGpioPs_SetOutputEnablePin(&Gpio, LED3, 1);XGpioPs_WritePin(&Gpio, LED3, 0);XGpioPs_SetDirectionPin(&Gpio, KEY1, 0);XGpioPs_SetDirectionPin(&Gpio, KEY2, 0);XGpioPs_SetDirectionPin(&Gpio, KEY3, 0);XGpioPs_SetDirectionPin(&Gpio, KEY4, 0);XGpioPs_SetDirectionPin(&Gpio, KEY5, 0);SetupInterruptSystem(&Intc, &Gpio, GPIO_INTERRUPT_ID);}int main(void)
{u32 status;u16 cmos_h_pixel;                    //ov5640 DVP 输出水平像素点数u16 cmos_v_pixel;                    //ov5640 DVP 输出垂直像素点数u16 total_h_pixel;                   //ov5640 水平总像素大小u16 total_v_pixel;                   //ov5640 垂直总像素大小cmos_h_pixel = 1280;cmos_v_pixel = 720;total_h_pixel = 2570;total_v_pixel = 980;emio_init();status = ov5640_init( cmos_h_pixel,  //初始化ov5640cmos_v_pixel,total_h_pixel,total_v_pixel);//设置OV5640输出分辨率为1280*720  PCLK = 72Mhzif(status == 0)xil_printf("OV5640 detected successful!\r\n");elsexil_printf("OV5640 detected failed!\r\n");vd_mode = VMODE_1280x720;//配置VDMArun_vdma_frame_buffer(&vdma, VDMA_ID, vd_mode.width, vd_mode.height,frame_buffer_addr,0,0,BOTH);//初始化Display controllerDisplayInitialize(&dispCtrl, DISP_VTC_ID, DYNCLK_BASEADDR);//设置VideoModeDisplaySetMode(&dispCtrl, &vd_mode);DisplayStart(&dispCtrl);Gpio_Init();while(1){XGpioPs_WritePin(&Gpio, LED3, !XGpioPs_ReadPin(&Gpio, LED3));sleep(1);}return 0;
}