关于OpenMV 与 msp432 串口通信的问题。

zgir

我写了一个关于OpenMV寻线的Python程序，想要通过串口把OpenMv获取到的数据（线的类型，坐标）发送给MSP432，再通过串口助手显示MSP432接收到的数据。但是我不知道OpenMV发送的数据的数据类型，导致我不知道如何将MSP432接收到的数据在串口助手显示。
下面是我OpenMV的程序：
import sensor, image, time
import network, usocket, sys
import sensor, image, time, network, usocket, sys
import math
from pyb import UART
from pyb import LED

WIFI_ENABLE = False
FIND_APRITAG_ENABLE = True

LED灯定义

red_led = LED(1)
green_led = LED(2)
blue_led = LED(3)

宏定义区

GRAYSCALE_THRESHOLD = [(0, 90)] # 灰度阈值
MIN_PIXELS = 100 # 最小像素
width = 80 # 宽度
height = 60 # 高度
RectHeight = 10 # 矩形高度
MAX_PIXEL = 200 # 最大像素

直线阈值定义

Line_Thr = 1000 # 线路宽度
Line_Theta_margin = 25 # 折线图
Line_Margin = 25 # 行距
Line_Min_degree = 0 # 两线最小夹角
Line_Max_degree = 179 # 两线最大夹角

感兴趣区域定义

Roi_Top = (0, 0, width, RectHeight)
Roi_Botton = (0, height - RectHeight, width, RectHeight)
Roi_Left = (0, 0, RectHeight, height)
Roi_Right = (width - RectHeight, 0, RectHeight, height)
Rois = [Roi_Top,Roi_Botton,Roi_Left,Roi_Right]

直线阈值定义

right_angle_threshold = (70, 90) # 直角阈值
Line_Thr = 2000
Line_Theta_margin = 25
Line_Margin = 25
Line_Min_degree = 0
Line_Max_degree = 179

def find_all_Line(img):
Line_All = img.find_lines(threshold = Line_Thr, theta_margin = Line_Theta_margin, rho_margin = Line_Margin)
return Line_All

From:http://makermare.com:60010//example/feature/right-angle-detection.html

def calculate_angle(line1, line2):
# 利用四边形的角公式， 计算出直线夹角
angle = (180 - abs(line1.theta() - line2.theta()))
if angle > 90:
angle = 180 - angle
return angle

def is_right_angle(line1, line2):
global right_angle_threshold
# 判断两个直线之间的夹角是否为直角
angle = calculate_angle(line1, line2)

if angle >= right_angle_threshold[0] and angle <=  right_angle_threshold[1]:
    # 判断在阈值范围内
    return True
return False

def calculate_intersection(line1, line2):
# 计算两条线的交点
a1 = line1.y2() - line1.y1()
b1 = line1.x1() - line1.x2()
c1 = line1.x2()*line1.y1() - line1.x1()*line1.y2()

a2 = line2.y2() - line2.y1()
b2 = line2.x1() - line2.x2()
c2 = line2.x2() * line2.y1() - line2.x1()*line2.y2()

if (a1 * b2 - a2 * b1) != 0 and (a2 * b1 - a1 * b2) != 0:
    cross_x = int((b1*c2-b2*c1)/(a1*b2-a2*b1))
    cross_y = int((c1*a2-c2*a1)/(a1*b2-a2*b1))
    return (cross_x, cross_y)
return (-1, -1)

此函数将所看到的线条整理成一个点或直线信息

def line_info_process(lines):
Cross_X = -1
Cross_Y = -1
line_info_list = [0,0,0,0,0,0,0]
line_info_list[0] = -1

# 如果有两条直线，此处不严谨，应该多判定两条直线
if len(lines) == 2:
    if is_right_angle(lines[0],lines[1]):
        Cross_X , Cross_Y = calculate_intersection(lines[0],lines[1])
        line_info_list[0] = 0
        line_info_list[1] = Cross_X
        line_info_list[2] = Cross_Y


# 如果有一条直线
if len(lines) == 1:
    if (lines[0].x1() == 0 and lines[0].x2() == 79) or (lines[0].x2() == 0 and lines[0].x1() == 79):
        # 横线
        line_info_list[0] = 1
        line_info_list[1] = lines[0].y1()
        line_info_list[2] = lines[0].y2()
        pass
    if (lines[0].y1() == 0 and lines[0].y2() == 59) or (lines[0].y2() == 0 and lines[0].y1() == 59):
        line_info_list[0] = 2
        line_info_list[1] = lines[0].x1()
        line_info_list[2] = lines[0].x2()
        pass

return line_info_list

def ExceptionVar(var):
data = []
data.append(0)
data.append(0)

if var == -1:
    data[0] = 0
    data[1] = 0
else:
    data[0] = var & 0xFF
    data[1] = var >> 8
return data

def ProcessImg(img):
Blobs = []

TopBlobs = img.find_blobs(GRAYSCALE_THRESHOLD, roi = Roi_Top[0:4], merge=True)
BottonBlobs = img.find_blobs(GRAYSCALE_THRESHOLD, roi = Roi_Botton[0:4], merge=True)
LeftBlobs = img.find_blobs(GRAYSCALE_THRESHOLD, roi = Roi_Left[0:4], merge=True)
RightBlobs = img.find_blobs(GRAYSCALE_THRESHOLD, roi = Roi_Right[0:4], merge=True)


Blobs.append(TopBlobs)
Blobs.append(BottonBlobs)
Blobs.append(LeftBlobs)
Blobs.append(RightBlobs)

return Blobs

def CalcVerticalCross(x0,y0,x1,y1,x2,y2):
if y1 != y0:
k1 = (y1 - y0)/(x1-x0)
k2 = -1/k1
x = (-k1x0 + y0 +x2k2 - y2)/(k2 - k1)
y = k1 * x - k1*x0 + y0
return x,y
else:
return x2,y1

def CalcCross(x0,y0,x1,y1,x2,y2,x3,y3):
# 计算两条线的交点
a1 = y1 - y0
b1 = x0 - x1
c1 = x1y0 - x0y1

a2 = y3 - y2
b2 = x2 - x3
c2 = x3 * y2 - x2*y3

if (a1 * b2 - a2 * b1) != 0 and (a2 * b1 - a1 * b2) != 0:
    cross_x = int((b1*c2-b2*c1)/(a1*b2-a2*b1))
    cross_y = int((c1*a2-c2*a1)/(a1*b2-a2*b1))
    return (cross_x, cross_y)
return (-1, -1)

def FindMaxBlobs(BlobList):
most_pixels = 0
largest_blob = 0
if BlobList:
for i in range(len(BlobList)):
if BlobList[i].pixels() > most_pixels:
most_pixels = BlobList[i].pixels()
largest_blob = i
return BlobList[largest_blob]
return None

def GetRectMoreInfo_V(Rect):
x0 = Rect.x() + Rect.w()/2
y0 = Rect.y()
x1 = Rect.x() + Rect.w()/2
y1 = Rect.y() + Rect.h()
return x0,x1,y0,y1
pass

def GetRectMoreInfo_H(Rect):
x0 = Rect.x() + Rect.w()/2
y0 = Rect.y()
x1 = Rect.x() + Rect.w()/2
y1 = Rect.y() + Rect.h()
return x0,x1,y0,y1
pass

def GetLtype(x0):

pass

BlobLocation = [[0, 0], [0, 0], [0, 0], [0, 0]]
Blobs = []
def RecognitionForm(Blobs,img):
Top = 0
Botton = 1
Left = 2
Right = 3
cx = 0
cy = 1
MAX_WITH = 20
MIN_WITH = 6
MIN_HIGH = 6
MAX_HIGH = 20

FormType = 0xFF
Loaction0 = 0
Location1 = 0

TopValid = False
BottonValid = False
LeftValid = False
RightValid = False

TopBlob = FindMaxBlobs(Blobs[0])
BottonBlob = FindMaxBlobs(Blobs[1])
LeftBlob = FindMaxBlobs(Blobs[2])
RightBlob = FindMaxBlobs(Blobs[3])

if TopBlob:
    if TopBlob.w() < MAX_WITH and TopBlob.h() > MIN_HIGH:
        BlobLocation[Top][cx] = TopBlob.cx()
        BlobLocation[Top][cy] = TopBlob.cy()
        img.draw_rectangle(TopBlob.rect())
        img.draw_cross(BlobLocation[Top][cx],BlobLocation[Top][cy])
    else:
        TopBlob = None

if BottonBlob:
    if BottonBlob.w() < MAX_WITH and BottonBlob.h() > MIN_HIGH:
        BlobLocation[Botton][cx] = BottonBlob.cx()
        BlobLocation[Botton][cy] = BottonBlob.cy()
        img.draw_rectangle(BottonBlob.rect())
        img.draw_cross(BlobLocation[Botton][cx],BlobLocation[Botton][cy])
    else:
        BottonBlob = None
        pass

if LeftBlob:
    if LeftBlob.w() > MIN_WITH and LeftBlob.h() < MAX_HIGH and LeftBlob.h() > MIN_HIGH:
        BlobLocation[Left][cx] = LeftBlob.cx()
        BlobLocation[Left][cy] = LeftBlob.cy()
        img.draw_rectangle(LeftBlob.rect())
        img.draw_cross(BlobLocation[Left][cx],BlobLocation[Left][cy])
    else:
        LeftBlob = None

if RightBlob:
    if RightBlob.w() > MIN_WITH and RightBlob.h() < MAX_HIGH and RightBlob.h() > MIN_HIGH:

        BlobLocation[Right][cx] = RightBlob.cx()
        BlobLocation[Right][cy] = RightBlob.cy()
        img.draw_rectangle(RightBlob.rect())
        img.draw_cross(BlobLocation[Right][cx],BlobLocation[Right][cy])
    else:
        RightBlob = None

if TopBlob:
    TopValid = True
if BottonBlob:
    BottonValid = True
if LeftBlob:
    LeftValid = True
if RightBlob:
    RightValid = True

# 竖线
if TopValid and BottonValid and (not LeftValid) and (not RightValid):
    Loaction0 = (BlobLocation[Top][cx] + BlobLocation[Botton][cx])//2
    Location1 = BlobLocation[Botton][cy]//2
    FormType = 0

# 横线
if (not TopValid) and (not BottonValid) and LeftValid and RightValid:
    Loaction0 = BlobLocation[Right][cx]//2
    Location1 = (BlobLocation[Left][cy] + BlobLocation[Right][cy])//2
    FormType = 1

# 十字
if TopValid and BottonValid and LeftValid and RightValid:
    (Loaction0,Location1) = CalcCross(BlobLocation[Left][cx],BlobLocation[Left][cy],
                                      BlobLocation[Right][cx],BlobLocation[Right][cy],
                                      BlobLocation[Top][cx],BlobLocation[Top][cy],
                                      BlobLocation[Botton][cx],BlobLocation[Botton][cy])

    FormType = 2

# T字型
if (not TopValid) and BottonValid and LeftValid and RightValid:
    x,y = CalcVerticalCross(BlobLocation[Left][cx],BlobLocation[Left][cy],
                            BlobLocation[Right][cx],BlobLocation[Right][cy],
                            BlobLocation[Botton][cx],BlobLocation[Botton][cy])
    # print(BlobLocation[Left][cx],BlobLocation[Right][cx],BlobLocation[Botton][cx])
    Loaction0 = int(x)
    Location1 = int(y)
    FormType = 3

# 倒T字型
if (TopValid) and (not BottonValid) and LeftValid and RightValid:
    x,y = CalcVerticalCross(BlobLocation[Left][cx],BlobLocation[Left][cy],
                            BlobLocation[Right][cx],BlobLocation[Right][cy],
                            BlobLocation[Top][cx],BlobLocation[Top][cy])
    Loaction0 = int(x)
    Location1 = int(y)

    FormType = 4

# 粗略的检测，对YAW值要求严格
# L字形
if  TopValid and (not BottonValid) and (not LeftValid) and RightValid:
    FormType = 5
    return FormType,BlobLocation[Top][cx],BlobLocation[Right][cy]

#    |
#    |
# ___|  字形
if TopValid and (not BottonValid) and ( LeftValid) and (not RightValid):
    FormType = 6
    return FormType,BlobLocation[Top][cx],BlobLocation[Left][cy]
    pass

#    ____
#    |
#    |  字形
#    |
if not TopValid and (BottonValid) and (not LeftValid) and (RightValid):
    FormType = 7
    return FormType,BlobLocation[Botton][cx],BlobLocation[Right][cy]


#    ____
#       |
#       |  字形
#       |
if not TopValid and ( BottonValid) and ( LeftValid) and (not RightValid):
    FormType = 8
    return FormType,BlobLocation[Botton][cx],BlobLocation[Left][cy]
    pass

#       |
#  _____|
#       |  字形
#       |
if ( TopValid) and ( BottonValid) and ( LeftValid) and (not RightValid):
    FormType = 9
    return FormType,BlobLocation[Top][cx],BlobLocation[Botton][cx],BlobLocation[Right][cy]

#  |
#  |_____
#  |       字形
#  |
if ( TopValid) and ( BottonValid) and (not LeftValid) and ( RightValid):
    FormType = 10
    return FormType,BlobLocation[Top][cx],BlobLocation[Botton][cx]#,BlobLocation[Right][cy]


return FormType,Loaction0,Location1

寻找Apriltags

def Find_Apriltags(img):
X = -1
Y = -1
FormType = 0xff
for tag in img.find_apriltags(families=image.TAG16H5):
img.draw_rectangle(tag.rect(), color = (255, 0, 0)) #在图像上绘制一个矩形。
img.draw_cross(tag.cx(), tag.cy(), color = (0, 255, 0)) #在图像上绘制一个十字
X = tag.cx() #
Y = tag.cy() #
FormType = 100
return FormType,X,Y

def IS_FindApriTag(img):
GetApriTag = False

for tag in img.find_apriltags(families=image.TAG16H5):
    GetApriTag = True

return GetApriTag

Frame_Cnt = 0
fCnt_tmp = [0,0]
def UART_Send(FormType, Loaction0, Location1):
global Frame_Cnt
global fCnt_tmp
Frame_Head = [170,170]
Frame_End = [85,85]
fFormType_tmp = [FormType]
Frame_Cnt += 1

if Frame_Cnt > 65534 :
    FrameCnt = 0

fHead = bytes(Frame_Head)

fCnt_tmp[0] = Frame_Cnt & 0xFF
fCnt_tmp[1] = Frame_Cnt >> 8
fCnt = bytes(fCnt_tmp)

fFormType = bytes(fFormType_tmp)
fLoaction0 = bytes(ExceptionVar(Loaction0))
fLoaction1 = bytes(ExceptionVar(Location1))
fEnd = bytes(Frame_End)

OpenMV串口发送的数据结构

FrameBuffe = fHead + fCnt + fFormType + fLoaction0 + fLoaction1 + fEnd
return FrameBuffe

sensor.reset() # 初始化相机传感器Initialize the camera sensor.
#sensor.set_vflip(True)
sensor.set_pixformat(sensor.GRAYSCALE) # 使用灰度use grayscale.
sensor.set_framesize(sensor.QQVGA) # 使用QVGA获得速度use QVGA for speed. 80 * 60
sensor.skip_frames(30) # 让新设置生效Let new settings take affect.
sensor.set_auto_gain(False) # 必须关闭才能进行颜色跟踪must be turned off for color tracking
sensor.set_auto_whitebal(False) # must be turned off for color tracking
uart = UART(3, 115200, timeout_char = 1000)
clock = time.clock()
i = 0

WIFI调试配置

SSID ='OPENMV_AP' # Network SSID网络名称
KEY ='1234567890' # Network key (must be 10 chars)网络密钥（必须是10个字符）
HOST = '' # Use first available interface使用第一个可用界面
PORT = 8080 # Arbitrary non-privileged port任意非特权端口

Init wlan module in AP mode.

THRESHOLD = (0, 100) # 暗物质的灰度阈值
BINARY_VISIBLE = True # 首先是二进制，所以你可以看到正在运行的线性回归...可能会降低FPS。

CountDown = 100
Find_ApriTag_ENABLE = False # 寻找ApriTag
Find_Line_ENABLE = False # 找线
while(True):
CountDown -= 1
img = sensor.snapshot() # 获取图像
#sensor.snapshot()-使用相机拍摄一张照片，并返回image对象
(Type,P0,P1) = Find_Apriltags(img)

if Type == 100:
    Find_ApriTag_ENABLE = True
    Find_Line_ENABLE = False
    break
else:
    Find_Line_ENABLE = True
    Find_ApriTag_ENABLE = False

if CountDown <= 0:
    red_led.off()
    green_led.off()
    break

i+=1
if i % 5 == 0:
    green_led.on()
    red_led.on()
if i % 10 == 0:
    green_led.off()
    red_led.off()
pass

if Find_Line_ENABLE:
sensor.reset() # Initialize the camera sensor.
#sensor.set_vflip(True)
sensor.set_pixformat(sensor.GRAYSCALE) # use grayscale.
sensor.set_framesize(sensor.QQQVGA) # use QVGA for speed. 80 * 60
sensor.skip_frames(30) # Let new settings take affect.
sensor.set_auto_gain(False) # must be turned off for color tracking
sensor.set_auto_whitebal(False)

while(True):
img = sensor.snapshot()

if Find_Line_ENABLE:
    All_Line = find_all_Line(img)
    Line_Info = line_info_process(All_Line)

    (Type,P0,P1) = RecognitionForm(ProcessImg(img),img)

    if Line_Info[0] == 0:
        img.draw_circle(Line_Info[1],Line_Info[2], 3, color = 200, thickness = 2, fill = False)
    if All_Line:
        for ii in All_Line:
            img.draw_line(ii.line())

if Find_ApriTag_ENABLE:
    (Type,P0,P1) = Find_Apriltags(img)
    pass

print(Type,P0,P1)
uart.write(UART_Send(Type,P0,P1))

i+=1
if i % 5 == 0:
    if Find_ApriTag_ENABLE:
        green_led.on()
    else:
        red_led.on()
if i % 10 == 0:
    if Find_ApriTag_ENABLE:
        green_led.off()
    else:
        red_led.off()

kidswong999

https://singtown.com/learn/50235/

zgir

OpenMV可以用其他串口助手吧？

kidswong999

@zgir 串口助手都一样，但是推荐使用星瞳串口助手。