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如何使用樹莓派控制手勢傳感器PAJ7620,很多新手對此不是很清楚,為了幫助大家解決這個難題,下面小編將為大家詳細講解,有這方面需求的人可以來學習下,希望你能有所收獲。
PAJ7620傳感器是原相科技(Pixart)的一款內部集成光學陣列式傳感器,以使復雜的手勢和光標模式輸出,內部集成了九種手勢的識別:上、下、左、右、向前、向后、順時針、逆時針以及揮動的手勢動作識別、模塊以i2c通信,傳感器功能很強大,更詳細模塊說明的可參考數據手冊。
VCC -> Pin1
GND -> Pin6
SDA -> Pin3
SCL -> Pin5
INT -> 目前使用查詢方式,可不接。
#!/usr/bin/env python
#
# GrovePi Library for using the Grove - Gesture Sensor v1.0(http://www.seeedstudio.com/depot/Grove-Gesture-p-2463.html)
#
# The GrovePi connects the Raspberry Pi and Grove sensors. You can learn more about GrovePi here: http://www.dexterindustries.com/GrovePi
#
# Have a question about this library? Ask on the forums here: http://forum.dexterindustries.com/c/grovepi
#
# History
# ------------------------------------------------
# Author Date Comments
# Karan 31 Dec 15 Initial Authoring
# Lambor 11 July 18 Use smbus2
#
# Code derived from the basic Arduino library for the Gesture Sensor by Seeed: https://github.com/Seeed-Studio/Gesture_PAJ7620
'''
## License
The MIT License (MIT)
GrovePi for the Raspberry Pi: an open source platform for connecting Grove Sensors to the Raspberry Pi.
Copyright (C) 2017 Dexter Industries
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
'''
import time,sys
import RPi.GPIO as GPIO
#from grove.i2c import Bus
from smbus import SMBus
# use the bus that matches your raspi version
rev = GPIO.RPI_REVISION
if rev == 2 or rev == 3:
bus = SMBus(1)
# bus = Bus(1)
else:
bus = SMBus(0)
# bus = Bus(0)
class gesture:
#Registers and variables for the gesture sensor
GES_REACTION_TIME =.500 # You can adjust the reaction time according to the actual circumstance.
GES_ENTRY_TIME =.800 # When you want to recognize the Forward/Backward gestures, your gestures' reaction time must less than GES_ENTRY_TIME(0.8s).
GES_QUIT_TIME =1.000
BANK0 = 0
BANK1 = 1
PAJ7620_ADDR_BASE =0x00
#REGISTER BANK SELECT
PAJ7620_REGITER_BANK_SEL =(PAJ7620_ADDR_BASE + 0xEF) #W
#DEVICE ID
PAJ7620_ID =0x73
#REGISTER BANK 0
PAJ7620_ADDR_SUSPEND_CMD =(PAJ7620_ADDR_BASE + 0x3) #W
PAJ7620_ADDR_GES_PS_DET_MASK_0 =(PAJ7620_ADDR_BASE + 0x41) #RW
PAJ7620_ADDR_GES_PS_DET_MASK_1 =(PAJ7620_ADDR_BASE + 0x42) #RW
PAJ7620_ADDR_GES_PS_DET_FLAG_0 =(PAJ7620_ADDR_BASE + 0x43) #R
PAJ7620_ADDR_GES_PS_DET_FLAG_1 =(PAJ7620_ADDR_BASE + 0x44) #R
PAJ7620_ADDR_STATE_INDICATOR =(PAJ7620_ADDR_BASE + 0x45) #R
PAJ7620_ADDR_PS_HIGH_THRESHOLD =(PAJ7620_ADDR_BASE + 0x69) #RW
PAJ7620_ADDR_PS_LOW_THRESHOLD =(PAJ7620_ADDR_BASE + 0x6A) #RW
PAJ7620_ADDR_PS_APPROACH_STATE =(PAJ7620_ADDR_BASE + 0x6B) #R
PAJ7620_ADDR_PS_RAW_DATA =(PAJ7620_ADDR_BASE + 0x6C) #R
#REGISTER BANK 1
PAJ7620_ADDR_PS_GAIN =(PAJ7620_ADDR_BASE + 0x44) #RW
PAJ7620_ADDR_IDLE_S1_STEP_0 =(PAJ7620_ADDR_BASE + 0x67) #RW
PAJ7620_ADDR_IDLE_S1_STEP_1 =(PAJ7620_ADDR_BASE + 0x68) #RW
PAJ7620_ADDR_IDLE_S2_STEP_0 =(PAJ7620_ADDR_BASE + 0x69) #RW
PAJ7620_ADDR_IDLE_S2_STEP_1 =(PAJ7620_ADDR_BASE + 0x6A) #RW
PAJ7620_ADDR_OP_TO_S1_STEP_0 =(PAJ7620_ADDR_BASE + 0x6B) #RW
PAJ7620_ADDR_OP_TO_S1_STEP_1 =(PAJ7620_ADDR_BASE + 0x6C) #RW
PAJ7620_ADDR_OP_TO_S2_STEP_0 =(PAJ7620_ADDR_BASE + 0x6D) #RW
PAJ7620_ADDR_OP_TO_S2_STEP_1 =(PAJ7620_ADDR_BASE + 0x6E) #RW
PAJ7620_ADDR_OPERATION_ENABLE =(PAJ7620_ADDR_BASE + 0x72) #RW
#PAJ7620_REGITER_BANK_SEL
PAJ7620_BANK0=0
PAJ7620_BANK1=1
#PAJ7620_ADDR_SUSPEND_CMD
PAJ7620_I2C_WAKEUP =1
PAJ7620_I2C_SUSPEND =0
#PAJ7620_ADDR_OPERATION_ENABLE
PAJ7620_ENABLE=1
PAJ7620_DISABLE=0
#ADC, delete
REG_ADDR_RESULT = 0x00
REG_ADDR_ALERT = 0x01
REG_ADDR_CONFIG = 0x02
REG_ADDR_LIMITL = 0x03
REG_ADDR_LIMITH = 0x04
REG_ADDR_HYST = 0x05
REG_ADDR_CONVL = 0x06
REG_ADDR_CONVH = 0x07
GES_RIGHT_FLAG =1<<0
GES_LEFT_FLAG =1<<1
GES_UP_FLAG =1<<2
GES_DOWN_FLAG =1<<3
GES_FORWARD_FLAG =1<<4
GES_BACKWARD_FLAG =1<<5
GES_CLOCKWISE_FLAG =1<<6
GES_COUNT_CLOCKWISE_FLAG =1<<7
GES_WAVE_FLAG =1<<0
#Gesture output
FORWARD = 1
BACKWARD = 2
RIGHT = 3
LEFT = 4
UP = 5
DOWN = 6
CLOCKWISE = 7
ANTI_CLOCKWISE = 8
WAVE = 9
#Initial register state
initRegisterArray=( [0xEF,0x00],
[0x32,0x29],
[0x33,0x01],
[0x34,0x00],
[0x35,0x01],
[0x36,0x00],
[0x37,0x07],
[0x38,0x17],
[0x39,0x06],
[0x3A,0x12],
[0x3F,0x00],
[0x40,0x02],
[0x41,0xFF],
[0x42,0x01],
[0x46,0x2D],
[0x47,0x0F],
[0x48,0x3C],
[0x49,0x00],
[0x4A,0x1E],
[0x4B,0x00],
[0x4C,0x20],
[0x4D,0x00],
[0x4E,0x1A],
[0x4F,0x14],
[0x50,0x00],
[0x51,0x10],
[0x52,0x00],
[0x5C,0x02],
[0x5D,0x00],
[0x5E,0x10],
[0x5F,0x3F],
[0x60,0x27],
[0x61,0x28],
[0x62,0x00],
[0x63,0x03],
[0x64,0xF7],
[0x65,0x03],
[0x66,0xD9],
[0x67,0x03],
[0x68,0x01],
[0x69,0xC8],
[0x6A,0x40],
[0x6D,0x04],
[0x6E,0x00],
[0x6F,0x00],
[0x70,0x80],
[0x71,0x00],
[0x72,0x00],
[0x73,0x00],
[0x74,0xF0],
[0x75,0x00],
[0x80,0x42],
[0x81,0x44],
[0x82,0x04],
[0x83,0x20],
[0x84,0x20],
[0x85,0x00],
[0x86,0x10],
[0x87,0x00],
[0x88,0x05],
[0x89,0x18],
[0x8A,0x10],
[0x8B,0x01],
[0x8C,0x37],
[0x8D,0x00],
[0x8E,0xF0],
[0x8F,0x81],
[0x90,0x06],
[0x91,0x06],
[0x92,0x1E],
[0x93,0x0D],
[0x94,0x0A],
[0x95,0x0A],
[0x96,0x0C],
[0x97,0x05],
[0x98,0x0A],
[0x99,0x41],
[0x9A,0x14],
[0x9B,0x0A],
[0x9C,0x3F],
[0x9D,0x33],
[0x9E,0xAE],
[0x9F,0xF9],
[0xA0,0x48],
[0xA1,0x13],
[0xA2,0x10],
[0xA3,0x08],
[0xA4,0x30],
[0xA5,0x19],
[0xA6,0x10],
[0xA7,0x08],
[0xA8,0x24],
[0xA9,0x04],
[0xAA,0x1E],
[0xAB,0x1E],
[0xCC,0x19],
[0xCD,0x0B],
[0xCE,0x13],
[0xCF,0x64],
[0xD0,0x21],
[0xD1,0x0F],
[0xD2,0x88],
[0xE0,0x01],
[0xE1,0x04],
[0xE2,0x41],
[0xE3,0xD6],
[0xE4,0x00],
[0xE5,0x0C],
[0xE6,0x0A],
[0xE7,0x00],
[0xE8,0x00],
[0xE9,0x00],
[0xEE,0x07],
[0xEF,0x01],
[0x00,0x1E],
[0x01,0x1E],
[0x02,0x0F],
[0x03,0x10],
[0x04,0x02],
[0x05,0x00],
[0x06,0xB0],
[0x07,0x04],
[0x08,0x0D],
[0x09,0x0E],
[0x0A,0x9C],
[0x0B,0x04],
[0x0C,0x05],
[0x0D,0x0F],
[0x0E,0x02],
[0x0F,0x12],
[0x10,0x02],
[0x11,0x02],
[0x12,0x00],
[0x13,0x01],
[0x14,0x05],
[0x15,0x07],
[0x16,0x05],
[0x17,0x07],
[0x18,0x01],
[0x19,0x04],
[0x1A,0x05],
[0x1B,0x0C],
[0x1C,0x2A],
[0x1D,0x01],
[0x1E,0x00],
[0x21,0x00],
[0x22,0x00],
[0x23,0x00],
[0x25,0x01],
[0x26,0x00],
[0x27,0x39],
[0x28,0x7F],
[0x29,0x08],
[0x30,0x03],
[0x31,0x00],
[0x32,0x1A],
[0x33,0x1A],
[0x34,0x07],
[0x35,0x07],
[0x36,0x01],
[0x37,0xFF],
[0x38,0x36],
[0x39,0x07],
[0x3A,0x00],
[0x3E,0xFF],
[0x3F,0x00],
[0x40,0x77],
[0x41,0x40],
[0x42,0x00],
[0x43,0x30],
[0x44,0xA0],
[0x45,0x5C],
[0x46,0x00],
[0x47,0x00],
[0x48,0x58],
[0x4A,0x1E],
[0x4B,0x1E],
[0x4C,0x00],
[0x4D,0x00],
[0x4E,0xA0],
[0x4F,0x80],
[0x50,0x00],
[0x51,0x00],
[0x52,0x00],
[0x53,0x00],
[0x54,0x00],
[0x57,0x80],
[0x59,0x10],
[0x5A,0x08],
[0x5B,0x94],
[0x5C,0xE8],
[0x5D,0x08],
[0x5E,0x3D],
[0x5F,0x99],
[0x60,0x45],
[0x61,0x40],
[0x63,0x2D],
[0x64,0x02],
[0x65,0x96],
[0x66,0x00],
[0x67,0x97],
[0x68,0x01],
[0x69,0xCD],
[0x6A,0x01],
[0x6B,0xB0],
[0x6C,0x04],
[0x6D,0x2C],
[0x6E,0x01],
[0x6F,0x32],
[0x71,0x00],
[0x72,0x01],
[0x73,0x35],
[0x74,0x00],
[0x75,0x33],
[0x76,0x31],
[0x77,0x01],
[0x7C,0x84],
[0x7D,0x03],
[0x7E,0x01])
#Enable debug message
debug=0
#Initialize the sensors
def init(self):
time.sleep(.001)
self.paj7620SelectBank(self.BANK0)
self.paj7620SelectBank(self.BANK0)
data0 = self.paj7620ReadReg(0, 1)[0]
data1 = self.paj7620ReadReg(1, 1)[0]
if self.debug:
print("data0:",data0,"data1:",data1)
if data0 != 0x20 :#or data1 <> 0x76:
print("Error with sensor")
#return 0xff
if data0 == 0x20:
print("wake-up finish.")
for i in range(len(self.initRegisterArray)):
self.paj7620WriteReg(self.initRegisterArray[i][0],self.initRegisterArray[i][1])
self.paj7620SelectBank(self.BANK0)
print("Paj7620 initialize register finished.")
#Write a byte to a register on the Gesture sensor
def paj7620WriteReg(self,addr,cmd):
bus.write_word_data(self.PAJ7620_ID, addr, cmd)
#Select a register bank on the Gesture Sensor
def paj7620SelectBank(self,bank):
if bank==self.BANK0:
self.paj7620WriteReg(self.PAJ7620_REGITER_BANK_SEL, self.PAJ7620_BANK0)
#Read a block of bytes of length "qty" starting at address "addr" from the Gesture sensor
def paj7620ReadReg(self,addr,qty):
return bus.read_i2c_block_data(self.PAJ7620_ID, addr,qty)
#Print the values from the gesture sensor
def print_gesture(self):
data=self.paj7620ReadReg(0x43,1)[0]
if data==self.GES_RIGHT_FLAG:
time.sleep(self.GES_ENTRY_TIME)
data=self.paj7620ReadReg(0x43, 1)[0]
if data == self.GES_FORWARD_FLAG:
print("Forward")
time.sleep(self.GES_QUIT_TIME)
elif data == self.GES_BACKWARD_FLAG:
print("Backward")
time.sleep(self.GES_QUIT_TIME)
else:
print("Right")
elif data==self.GES_LEFT_FLAG:
time.sleep(self.GES_ENTRY_TIME)
data=self.paj7620ReadReg(0x43, 1)[0]
if data == self.GES_FORWARD_FLAG:
print("Forward")
time.sleep(self.GES_QUIT_TIME)
elif data == self.GES_BACKWARD_FLAG:
print("Backward")
time.sleep(self.GES_QUIT_TIME)
else:
print("Left")
elif data==self.GES_UP_FLAG:
time.sleep(self.GES_ENTRY_TIME)
data=self.paj7620ReadReg(0x43, 1)[0]
if data == self.GES_FORWARD_FLAG:
print("Forward")
time.sleep(self.GES_QUIT_TIME)
elif data == self.GES_BACKWARD_FLAG:
print("Backward")
time.sleep(self.GES_QUIT_TIME)
else:
print("Up")
elif data==self.GES_DOWN_FLAG:
time.sleep(self.GES_ENTRY_TIME)
data=self.paj7620ReadReg(0x43, 1)[0]
if data == self.GES_FORWARD_FLAG:
print("Forward")
time.sleep(self.GES_QUIT_TIME)
elif data == self.GES_BACKWARD_FLAG:
print("Backward")
time.sleep(self.GES_QUIT_TIME)
else:
print("Down")
elif data==self.GES_FORWARD_FLAG:
print("Forward")
time.sleep(self.GES_QUIT_TIME)
elif data==self.GES_BACKWARD_FLAG:
print("Backward")
time.sleep(self.GES_QUIT_TIME)
elif data==self.GES_CLOCKWISE_FLAG:
print("Clockwise")
elif data==self.GES_COUNT_CLOCKWISE_FLAG:
print("anti-clockwise")
else:
data1=self.paj7620ReadReg(0x44, 1)[0]
if (data1 == self.GES_WAVE_FLAG):
print("wave")
#Return a vlaue from the gestire sensor which can be used in a program
# 0:nothing
# 1:Forward
# 2:Backward
# 3:Right
# 4:Left
# 5:Up
# 6:Down
# 7:Clockwise
# 8:anti-clockwise
# 9:wave
def return_gesture(self):
data=self.paj7620ReadReg(0x43,1)[0]
if data==self.GES_RIGHT_FLAG:
time.sleep(self.GES_ENTRY_TIME)
data=self.paj7620ReadReg(0x43, 1)[0]
if data == self.GES_FORWARD_FLAG:
return 1
time.sleep(self.GES_QUIT_TIME)
elif data == self.GES_BACKWARD_FLAG:
return 2
time.sleep(self.GES_QUIT_TIME)
else:
return 3
elif data==self.GES_LEFT_FLAG:
time.sleep(self.GES_ENTRY_TIME)
data=self.paj7620ReadReg(0x43, 1)[0]
if data == self.GES_FORWARD_FLAG:
return 1
time.sleep(self.GES_QUIT_TIME)
elif data == self.GES_BACKWARD_FLAG:
return 2
time.sleep(self.GES_QUIT_TIME)
else:
return 4
elif data==self.GES_UP_FLAG:
time.sleep(self.GES_ENTRY_TIME)
data=self.paj7620ReadReg(0x43, 1)[0]
if data == self.GES_FORWARD_FLAG:
return 1
time.sleep(self.GES_QUIT_TIME)
elif data == self.GES_BACKWARD_FLAG:
return 2
time.sleep(self.GES_QUIT_TIME)
else:
return 5
elif data==self.GES_DOWN_FLAG:
time.sleep(self.GES_ENTRY_TIME)
data=self.paj7620ReadReg(0x43, 1)[0]
if data == self.GES_FORWARD_FLAG:
return 1
time.sleep(self.GES_QUIT_TIME)
elif data == self.GES_BACKWARD_FLAG:
return 2
time.sleep(self.GES_QUIT_TIME)
else:
return 6
elif data==self.GES_FORWARD_FLAG:
return 1
time.sleep(self.GES_QUIT_TIME)
elif data==self.GES_BACKWARD_FLAG:
return 2
time.sleep(self.GES_QUIT_TIME)
elif data==self.GES_CLOCKWISE_FLAG:
return 7
elif data==self.GES_COUNT_CLOCKWISE_FLAG:
return 8
else:
data1=self.paj7620ReadReg(0x44, 1)[0]
if (data1 == self.GES_WAVE_FLAG):
return 9
return 0
if __name__ == "__main__":
g=gesture()
g.init()
while True:
g.print_gesture()
time.sleep(.1)
# print g.return_gesture()
# time.sleep(.1)運行效果如下:
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