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【CanMV K230 AI视觉】 跌倒检测
- 跌倒检测
动态测试效果可以去下面网站自己看。
B站视频链接:已做成合集
抖音链接:已做成合集
跌倒检测
跌倒检测主要根据人体姿态来判断,可以用于老人、小孩跌倒监护。
'''
实验名称:跌倒检测
实验平台:01Studio CanMV K230
教程:wiki.01studio.cc
'''from libs.PipeLine import PipeLine, ScopedTiming
from libs.AIBase import AIBase
from libs.AI2D import Ai2d
import os
import ujson
from media.media import *
from time import *
import nncase_runtime as nn
import ulab.numpy as np
import time
import utime
import image
import random
import gc
import sys
import aicube# 自定义跌倒检测类,继承自AIBase基类
class FallDetectionApp(AIBase):def __init__(self, kmodel_path, model_input_size, labels, anchors, confidence_threshold=0.2, nms_threshold=0.5, nms_option=False, strides=[8,16,32], rgb888p_size=[224,224], display_size=[1920,1080], debug_mode=0):super().__init__(kmodel_path, model_input_size, rgb888p_size, debug_mode) # 调用基类的构造函数self.kmodel_path = kmodel_path # 模型文件路径self.model_input_size = model_input_size # 模型输入分辨率self.labels = labels # 分类标签self.anchors = anchors # 锚点数据,用于跌倒检测self.strides = strides # 步长设置self.confidence_threshold = confidence_threshold # 置信度阈值self.nms_threshold = nms_threshold # NMS(非极大值抑制)阈值self.nms_option = nms_option # NMS选项self.rgb888p_size = [ALIGN_UP(rgb888p_size[0], 16), rgb888p_size[1]] # sensor给到AI的图像分辨率,并对宽度进行16的对齐self.display_size = [ALIGN_UP(display_size[0], 16), display_size[1]] # 显示分辨率,并对宽度进行16的对齐self.debug_mode = debug_mode # 是否开启调试模式self.color = [(255,0, 0, 255), (255,0, 255, 0), (255,255,0, 0), (255,255,0, 255)] # 用于绘制不同类别的颜色# Ai2d实例,用于实现模型预处理self.ai2d = Ai2d(debug_mode)# 设置Ai2d的输入输出格式和类型self.ai2d.set_ai2d_dtype(nn.ai2d_format.NCHW_FMT, nn.ai2d_format.NCHW_FMT, np.uint8, np.uint8)# 配置预处理操作,这里使用了pad和resize,Ai2d支持crop/shift/pad/resize/affine,具体代码请打开/sdcard/app/libs/AI2D.py查看def config_preprocess(self, input_image_size=None):with ScopedTiming("set preprocess config", self.debug_mode > 0): # 计时器,如果debug_mode大于0则开启ai2d_input_size = input_image_size if input_image_size else self.rgb888p_size # 初始化ai2d预处理配置,默认为sensor给到AI的尺寸,可以通过设置input_image_size自行修改输入尺寸top, bottom, left, right = self.get_padding_param() # 获取padding参数self.ai2d.pad([0, 0, 0, 0, top, bottom, left, right], 0, [0,0,0]) # 填充边缘self.ai2d.resize(nn.interp_method.tf_bilinear, nn.interp_mode.half_pixel) # 缩放图像self.ai2d.build([1,3,ai2d_input_size[1],ai2d_input_size[0]],[1,3,self.model_input_size[1],self.model_input_size[0]]) # 构建预处理流程# 自定义当前任务的后处理,results是模型输出array的列表,这里使用了aicube库的anchorbasedet_post_process接口def postprocess(self, results):with ScopedTiming("postprocess", self.debug_mode > 0):dets = aicube.anchorbasedet_post_process(results[0], results[1], results[2], self.model_input_size, self.rgb888p_size, self.strides, len(self.labels), self.confidence_threshold, self.nms_threshold, self.anchors, self.nms_option)return dets# 绘制检测结果到画面上def draw_result(self, pl, dets):with ScopedTiming("display_draw", self.debug_mode > 0):if dets:pl.osd_img.clear() # 清除OSD图像for det_box in dets:# 计算显示分辨率下的坐标x1, y1, x2, y2 = det_box[2], det_box[3], det_box[4], det_box[5]w = (x2 - x1) * self.display_size[0] // self.rgb888p_size[0]h = (y2 - y1) * self.display_size[1] // self.rgb888p_size[1]x1 = int(x1 * self.display_size[0] // self.rgb888p_size[0])y1 = int(y1 * self.display_size[1] // self.rgb888p_size[1])x2 = int(x2 * self.display_size[0] // self.rgb888p_size[0])y2 = int(y2 * self.display_size[1] // self.rgb888p_size[1])# 绘制矩形框和类别标签pl.osd_img.draw_rectangle(x1, y1, int(w), int(h), color=self.color[det_box[0]], thickness=2)pl.osd_img.draw_string_advanced(x1, y1-50, 32," " + self.labels[det_box[0]] + " " + str(round(det_box[1],2)), color=self.color[det_box[0]])else:pl.osd_img.clear()# 获取padding参数def get_padding_param(self):dst_w = self.model_input_size[0]dst_h = self.model_input_size[1]input_width = self.rgb888p_size[0]input_high = self.rgb888p_size[1]ratio_w = dst_w / input_widthratio_h = dst_h / input_highif ratio_w < ratio_h:ratio = ratio_welse:ratio = ratio_hnew_w = int(ratio * input_width)new_h = int(ratio * input_high)dw = (dst_w - new_w) / 2dh = (dst_h - new_h) / 2top = int(round(dh - 0.1))bottom = int(round(dh + 0.1))left = int(round(dw - 0.1))right = int(round(dw - 0.1))return top, bottom, left, rightif __name__ == "__main__":# 显示模式,默认"hdmi",可以选择"hdmi"和"lcd"display_mode="lcd"if display_mode=="hdmi":display_size=[1920,1080]else:display_size=[800,480]# 设置模型路径和其他参数kmodel_path = "/sdcard/app/tests/kmodel/yolov5n-falldown.kmodel"confidence_threshold = 0.3nms_threshold = 0.45rgb888p_size = [1920, 1080]labels = ["Fall","NoFall"] # 模型输出类别名称anchors = [10, 13, 16, 30, 33, 23, 30, 61, 62, 45, 59, 119, 116, 90, 156, 198, 373, 326] # anchor设置# 初始化PipeLine,用于图像处理流程pl = PipeLine(rgb888p_size=rgb888p_size, display_size=display_size, display_mode=display_mode)pl.create()# 初始化自定义跌倒检测实例fall_det = FallDetectionApp(kmodel_path, model_input_size=[640, 640], labels=labels, anchors=anchors, confidence_threshold=confidence_threshold, nms_threshold=nms_threshold, nms_option=False, strides=[8,16,32], rgb888p_size=rgb888p_size, display_size=display_size, debug_mode=0)fall_det.config_preprocess()clock = time.clock()try:while True:os.exitpoint() # 检查是否有退出信号clock.tick()img = pl.get_frame() # 获取当前帧数据res = fall_det.run(img) # 推理当前帧fall_det.draw_result(pl, res) # 绘制结果到PipeLine的osd图像print(res) # 打印结果pl.show_image() # 显示当前的绘制结果gc.collect() # 垃圾回收print(clock.fps()) #打印帧率except Exception as e:sys.print_exception(e) # 打印异常信息finally:fall_det.deinit() # 反初始化pl.destroy() # 销毁PipeLine实例
| 使用类 | 说明 |
|---|---|
| FallDetectionApp | 跌倒检测类 |