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人脸识别

前言

前面学习过的人脸检测,只检测出人脸,而本实验要做的人脸识别,会学习人脸特征,然后比对,实现区分不同人脸。比如常用的人脸考勤机就是这样的原理。

实验目的

实现不同人脸识别。

实验讲解

本实验通过KPU模块直接加载YOLO2网络,再结合人脸检测和特征提取模型来实现人脸识别。KPU对象说明参考KPU简介章节内容,这里不再重复。

检测到人脸后我们可以通过按键按下来实现提前当前人脸特征,实现录入人脸。具体编程思路如下:

参考代码

#实验名称:人脸识别
#实验平台:01Studio CanMV K210
#说明:本例程对内存需求较大,如提示内存不足请烧录CanMV_K210_lite(精简版)固件。

#导入相关模块
import sensor, image, time, lcd
from maix import KPU
import gc
from maix import GPIO, utils
from fpioa_manager import fm
from board import board_info

#按键初始化
fm.register(board_info.BOOT_KEY, fm.fpioa.GPIOHS0)
key_gpio = GPIO(GPIO.GPIOHS0, GPIO.IN)

lcd.init()
#sensor.reset(dual_buff=True) # improve fps
sensor.reset() # Reset and initialize the sensor. It will
# run automatically, call sensor.run(0) to stop

sensor.set_vflip(1) #将摄像头设置成后置方式(所见即所得)
sensor.set_hmirror(1) #GC0328摄像头(如果使用ov2640摄像头,注释此行。)

sensor.set_pixformat(sensor.RGB565) # Set pixel format to RGB565 (or GRAYSCALE)
sensor.set_framesize(sensor.QVGA) # Set frame size to QVGA (320x240)
sensor.skip_frames(time = 1000) # Wait for settings take effect.
clock = time.clock() # Create a clock object to track the FPS.

feature_img = image.Image(size=(64,64), copy_to_fb=False)
feature_img.pix_to_ai()

FACE_PIC_SIZE = 64
dst_point =[(int(38.2946 * FACE_PIC_SIZE / 112), int(51.6963 * FACE_PIC_SIZE / 112)),
(int(73.5318 * FACE_PIC_SIZE / 112), int(51.5014 * FACE_PIC_SIZE / 112)),
(int(56.0252 * FACE_PIC_SIZE / 112), int(71.7366 * FACE_PIC_SIZE / 112)),
(int(41.5493 * FACE_PIC_SIZE / 112), int(92.3655 * FACE_PIC_SIZE / 112)),
(int(70.7299 * FACE_PIC_SIZE / 112), int(92.2041 * FACE_PIC_SIZE / 112)) ]

anchor = (0.1075, 0.126875, 0.126875, 0.175, 0.1465625, 0.2246875, 0.1953125, 0.25375, 0.2440625,
0.351875, 0.341875, 0.4721875, 0.5078125, 0.6696875, 0.8984375, 1.099687, 2.129062, 2.425937)

#构建KPU对象
kpu = KPU()
kpu.load_kmodel("/sd/face_detect_320x240.kmodel")#人脸检测模型
kpu.init_yolo2(anchor, anchor_num=9, img_w=320, img_h=240, net_w=320 , net_h=240 ,layer_w=10 ,
layer_h=8, threshold=0.5, nms_value=0.2, classes=1)

#加载KPU模型,放在SD卡根目录
ld5_kpu = KPU()
print("ready load model")
ld5_kpu.load_kmodel("/sd/ld5.kmodel")

fea_kpu = KPU()
print("ready load model")
fea_kpu.load_kmodel("/sd/feature_extraction.kmodel")#特征提取模型

start_processing = False
BOUNCE_PROTECTION = 50

#按键按下执行函数
def set_key_state(*_):
global start_processing
start_processing = True
time.sleep_ms(BOUNCE_PROTECTION)

key_gpio.irq(set_key_state, GPIO.IRQ_RISING, GPIO.WAKEUP_NOT_SUPPORT)

record_ftrs = []
THRESHOLD = 80.5

RATIO = 0
def extend_box(x, y, w, h, scale):
x1_t = x - scale*w
x2_t = x + w + scale*w
y1_t = y - scale*h
y2_t = y + h + scale*h
x1 = int(x1_t) if x1_t>1 else 1
x2 = int(x2_t) if x2_t<320 else 319
y1 = int(y1_t) if y1_t>1 else 1
y2 = int(y2_t) if y2_t<240 else 239
cut_img_w = x2-x1+1
cut_img_h = y2-y1+1
return x1, y1, cut_img_w, cut_img_h

recog_flag = False

while 1:
gc.collect()
#print("mem free:",gc.mem_free())
#print("heap free:",utils.heap_free())
clock.tick() # Update the FPS clock.
img = sensor.snapshot()
kpu.run_with_output(img)
dect = kpu.regionlayer_yolo2()
fps = clock.fps()

if len(dect) > 0: #检测到人脸

for l in dect :
x1, y1, cut_img_w, cut_img_h= extend_box(l[0], l[1], l[2], l[3], scale=RATIO)
face_cut = img.cut(x1, y1, cut_img_w, cut_img_h)
#a = img.draw_rectangle(l[0],l[1],l[2],l[3], color=(255, 255, 255))
# img.draw_image(face_cut, 0,0)
face_cut_128 = face_cut.resize(128, 128)
face_cut_128.pix_to_ai()
out = ld5_kpu.run_with_output(face_cut_128, getlist=True)
face_key_point = []
for j in range(5):
x = int(KPU.sigmoid(out[2 * j])*cut_img_w + x1)
y = int(KPU.sigmoid(out[2 * j + 1])*cut_img_h + y1)
# a = img.draw_cross(x, y, size=5, color=(0, 0, 255))
face_key_point.append((x,y))
T = image.get_affine_transform(face_key_point, dst_point)
a = image.warp_affine_ai(img, feature_img, T)
# feature_img.ai_to_pix()
# img.draw_image(feature_img, 0,0)
feature = fea_kpu.run_with_output(feature_img, get_feature = True)
del face_key_point
scores = []
for j in range(len(record_ftrs)):
score = kpu.feature_compare(record_ftrs[j], feature)
scores.append(score)
if len(scores):
max_score = max(scores)
index = scores.index(max_score)
if max_score > THRESHOLD:
a=img.draw_string(0, 195, "persion:%d,score:%2.1f" %(index, max_score), color=(0, 255, 0), scale=2)
recog_flag = True
else:
a=img.draw_string(0, 195, "unregistered,score:%2.1f" %(max_score), color=(255, 0, 0), scale=2)
del scores

#按键按下则录入新人脸
if start_processing:
record_ftrs.append(feature)
print("record_ftrs:%d" % len(record_ftrs))
start_processing = False

if recog_flag:
a = img.draw_rectangle(l[0],l[1],l[2],l[3], color=(0, 255, 0))
recog_flag = False
else:
a = img.draw_rectangle(l[0],l[1],l[2],l[3], color=(255, 255, 255))
del (face_cut_128)
del (face_cut)

a = img.draw_string(0, 0, "%2.1ffps" %(fps), color=(0, 60, 255), scale=2.0)
a = img.draw_string(0, 215, "press boot key to regist face", color=(255, 100, 0), scale=2.0)
lcd.display(img)


kpu.deinit()
ld5_kpu.deinit()
fea_kpu.deinit()

实验结果

在资料包教程代码文件夹路径中找到本节代码目录,将里面的 face_detect_320x240.kmodelld5.kmodelfeature_extraction.kmodel文件通过读卡器拷贝到SD卡,然后将SD卡插入开发板,在IDE运行上述代码即可。

face_recognition

运行代码,将摄像头正对下方人脸,分别按下按键记录特征:

原图:

人脸1:

face_recognition

人脸2:

face_recognition

依次按下按键学习上面2个人脸,从0开始记录,也就是第一个人脸编号为0,如此类推:

face_recognition

face_recognition

学习完成后将摄像头正对着刚才学习的人脸,可以看到识别出来了对应的人脸编号和可信度值。

face_recognition