0. 寫在前面:
一兩個月前偶然得到一個樹莓派一代,發(fā)現(xiàn)還是挺強大的,然后就考慮著自己實現(xiàn)一個四驅(qū)小車。因為本身是學軟件的,所以利用軟件來控制實實在在可見的硬件一直是自己的一個夢想。所以當時也是花了很多時間來琢磨、實驗小車控制方面的東西。因為時間過去比較久了,這里也就只是記錄一下當時踩過的坑、實現(xiàn)的一些思路以及絕大部分源代碼。截止當前,我的樹莓派小車實現(xiàn)的主要功能是:
控制小車前進、后退、左轉(zhuǎn)、右轉(zhuǎn)、后退左轉(zhuǎn)、后退右轉(zhuǎn) 攝像頭兩路舵機控制(實現(xiàn)攝像頭上下左右旋轉(zhuǎn)) 網(wǎng)頁版小車控制程序(小車控制程序、實時監(jiān)控、攝像頭旋轉(zhuǎn)控制) 微信小程序版小車控制程序(功能基本同上)(本文只是介紹上述的第一個功能,其他功能的實現(xiàn)在后續(xù)的博文中介紹)
1. 準備:
給樹莓派安裝系統(tǒng)(這個網(wǎng)上資料太多,一搜一大把,我裝的是raspbian) 安裝python3 準備四個步進電機,電機驅(qū)動,并組裝連接好(我都是在某寶上買的,電機及其組件是在“亞博智能科技”買的,驅(qū)動是在“深圳市艾爾賽科技”上買的L298N四路電機驅(qū)動)一些可能遇到的坑:
首先要注意電機驅(qū)動的輸入電壓,電壓過低很可能無法帶動電機(當然也不可過高) 電機驅(qū)動輸入有一個GND,這個一定要連接樹莓派的一個GND輸出,否則可能出現(xiàn)電機驅(qū)動異常(我當時遇到的情況是:手接觸驅(qū)動電路中的金屬電機就可以正常轉(zhuǎn)動,手一松開電機就不能正常運轉(zhuǎn)了)2. 基本思路:
將連接端口作為一個配置文件,該配置文件定義小車需要使用的端口 控制程序讀取配置文件,并實現(xiàn)小車的方向控制 小車控制程序定義了私有的向各個方向移動的方法,然后定義一個方法接受方向參數(shù),該方法內(nèi)部再調(diào)用具體的移動方法需要說明的是:由于使用引腳的不同,以及電機安裝位置的差異,所以不能保證以下程序能夠直接使用。
3. 配置文件內(nèi)容如下(文件名為:config.ini):
[car]# This is the parmaters that will control the car's wheels# The number is the interface number of GPIO (GPIO.BOARD)LEFT_FRONT_1 = 7LEFT_FRONT_2 = 11 RIGHT_FRONT_1 = 13RIGHT_FRONT_2 = 15 LEFT_BEHIND_1 = 31LEFT_BEHIND_2 = 33 RIGHT_BEHIND_1 = 35RIGHT_BEHIND_2 = 37
4. 小車控制程序(文件名為:car_controler.py):
# coding=utf-8import RPi.GPIO as GPIOimport timeimport configparser class FourWheelDriveCar(): # Define the number of all the GPIO that will used for the 4wd car def __init__(self): ''' 1. Read pin number from configure file 2. Init all GPIO configureation ''' config = configparser.ConfigParser() config.read("config.ini") self.LEFT_FRONT_1 = config.getint("car", "LEFT_FRONT_1") self.LEFT_FRONT_2 = config.getint("car", "LEFT_FRONT_2") self.RIGHT_FRONT_1 = config.getint("car", "RIGHT_FRONT_1") self.RIGHT_FRONT_2 = config.getint("car", "RIGHT_FRONT_2") self.LEFT_BEHIND_1 = config.getint("car", "LEFT_BEHIND_1") self.LEFT_BEHIND_2 = config.getint("car", "LEFT_BEHIND_2") self.RIGHT_BEHIND_1 = config.getint("car", "RIGHT_BEHIND_1") self.RIGHT_BEHIND_2 = config.getint("car", "RIGHT_BEHIND_2") GPIO.setmode(GPIO.BOARD) GPIO.setwarnings(False) GPIO.setup(self.LEFT_FRONT_1, GPIO.OUT) GPIO.setup(self.LEFT_FRONT_2, GPIO.OUT) GPIO.setup(self.RIGHT_FRONT_1, GPIO.OUT) GPIO.setup(self.RIGHT_FRONT_2, GPIO.OUT) GPIO.setup(self.LEFT_BEHIND_1, GPIO.OUT) GPIO.setup(self.LEFT_BEHIND_2, GPIO.OUT) GPIO.setup(self.RIGHT_BEHIND_1, GPIO.OUT) GPIO.setup(self.RIGHT_BEHIND_2, GPIO.OUT) def reset(self): # Rest all the GPIO as LOW GPIO.output(self.LEFT_FRONT_1, GPIO.LOW) GPIO.output(self.LEFT_FRONT_2, GPIO.LOW) GPIO.output(self.RIGHT_FRONT_1, GPIO.LOW) GPIO.output(self.RIGHT_FRONT_2, GPIO.LOW) GPIO.output(self.LEFT_BEHIND_1, GPIO.LOW) GPIO.output(self.LEFT_BEHIND_2, GPIO.LOW) GPIO.output(self.RIGHT_BEHIND_1, GPIO.LOW) GPIO.output(self.RIGHT_BEHIND_2, GPIO.LOW) def __forword(self): self.reset() GPIO.output(self.LEFT_FRONT_1, GPIO.HIGH) GPIO.output(self.LEFT_FRONT_2, GPIO.LOW) GPIO.output(self.RIGHT_FRONT_1, GPIO.HIGH) GPIO.output(self.RIGHT_FRONT_2, GPIO.LOW) GPIO.output(self.LEFT_BEHIND_1, GPIO.HIGH) GPIO.output(self.LEFT_BEHIND_2, GPIO.LOW) GPIO.output(self.RIGHT_BEHIND_1, GPIO.HIGH) GPIO.output(self.RIGHT_BEHIND_2, GPIO.LOW) def __backword(self): self.reset() GPIO.output(self.LEFT_FRONT_2, GPIO.HIGH) GPIO.output(self.LEFT_FRONT_1, GPIO.LOW) GPIO.output(self.RIGHT_FRONT_2, GPIO.HIGH) GPIO.output(self.RIGHT_FRONT_1, GPIO.LOW) GPIO.output(self.LEFT_BEHIND_2, GPIO.HIGH) GPIO.output(self.LEFT_BEHIND_1, GPIO.LOW) GPIO.output(self.RIGHT_BEHIND_2, GPIO.HIGH) GPIO.output(self.RIGHT_BEHIND_1, GPIO.LOW) def __turnLeft(self): ''' To turn left, the LEFT_FRONT wheel will move backword All other wheels move forword ''' self.reset() GPIO.output(self.LEFT_FRONT_2, GPIO.HIGH) GPIO.output(self.LEFT_FRONT_1, GPIO.LOW) GPIO.output(self.RIGHT_FRONT_1, GPIO.HIGH) GPIO.output(self.RIGHT_FRONT_2, GPIO.LOW) GPIO.output(self.LEFT_BEHIND_1, GPIO.HIGH) GPIO.output(self.LEFT_BEHIND_2, GPIO.LOW) GPIO.output(self.RIGHT_BEHIND_1, GPIO.HIGH) GPIO.output(self.RIGHT_BEHIND_2, GPIO.LOW) def __turnRight(self): ''' To turn right, the RIGHT_FRONT wheel move backword All other wheels move forword ''' self.reset() GPIO.output(self.LEFT_FRONT_1, GPIO.HIGH) GPIO.output(self.LEFT_FRONT_2, GPIO.LOW) GPIO.output(self.RIGHT_FRONT_2, GPIO.HIGH) GPIO.output(self.RIGHT_FRONT_1, GPIO.LOW) GPIO.output(self.LEFT_BEHIND_1, GPIO.HIGH) GPIO.output(self.LEFT_BEHIND_2, GPIO.LOW) GPIO.output(self.RIGHT_BEHIND_1, GPIO.HIGH) GPIO.output(self.RIGHT_BEHIND_2, GPIO.LOW) def __backLeft(self): ''' To go backword and turn left, the LEFT_BEHIND wheel move forword All other wheels move backword ''' self.reset() GPIO.output(self.LEFT_FRONT_2, GPIO.HIGH) GPIO.output(self.LEFT_FRONT_1, GPIO.LOW) GPIO.output(self.RIGHT_FRONT_2, GPIO.HIGH) GPIO.output(self.RIGHT_FRONT_1, GPIO.LOW) GPIO.output(self.LEFT_BEHIND_1, GPIO.HIGH) GPIO.output(self.LEFT_BEHIND_2, GPIO.LOW) GPIO.output(self.RIGHT_BEHIND_2, GPIO.HIGH) GPIO.output(self.RIGHT_BEHIND_1, GPIO.LOW) def __backRight(self): ''' To go backword and turn right, the RIGHT_BEHIND wheel move forword All other wheels move backword ''' self.reset() GPIO.output(self.LEFT_FRONT_2, GPIO.HIGH) GPIO.output(self.LEFT_FRONT_1, GPIO.LOW) GPIO.output(self.RIGHT_FRONT_2, GPIO.HIGH) GPIO.output(self.RIGHT_FRONT_1, GPIO.LOW) GPIO.output(self.LEFT_BEHIND_2, GPIO.HIGH) GPIO.output(self.LEFT_BEHIND_1, GPIO.LOW) GPIO.output(self.RIGHT_BEHIND_1, GPIO.HIGH) GPIO.output(self.RIGHT_BEHIND_2, GPIO.LOW) def __stop(self): self.reset() def carMove(self, direction): ''' Car move according to the input paramter - direction ''' if direction == 'F': self.__forword() elif direction == 'B': self.__backword() elif direction == 'L': self.__turnLeft() elif direction == 'R': self.__turnRight() elif direction == 'BL': self.__backLeft() elif direction == 'BR': self.__backRight() elif direction == 'S': self.__stop() else: print("The input direction is wrong! You can just input: F, B, L, R, BL,BR or S") if __name__ == "__main__": raspCar = FourWheelDriveCar() while(True): direction = input("Please input direction: ") raspCar.carMove(direction)
新聞熱點
疑難解答
