94 lines
3.6 KiB
Python
94 lines
3.6 KiB
Python
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# yolo11_main.py
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import cv2
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import numpy as np
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from collections import deque
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import os
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# 导入模块(不是函数)
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from .aligment_inference import yolov11_cls_inference
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# 模型路径
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CLS_MODEL_PATH = os.path.join(os.path.dirname(os.path.abspath(__file__)), "yolov11_cls_640v6.rknn")
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class ClassificationStabilizer:
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"""分类结果稳定性校验器,处理瞬时噪声帧"""
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def __init__(self, window_size=5, switch_threshold=2):
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self.window_size = window_size # 滑动窗口大小(缓存最近N帧结果)
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self.switch_threshold = switch_threshold # 状态切换需要连续N帧一致
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self.result_buffer = deque(maxlen=window_size) # 缓存最近结果
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self.current_state = "盖板未对齐" # 初始状态
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self.consecutive_count = 0 # 当前状态连续出现的次数
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def stabilize(self, current_frame_result):
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"""
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输入当前帧的分类结果,返回经过稳定性校验的结果
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Args:
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current_frame_result: 当前帧的原始分类结果(str)
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Returns:
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str: 经过校验的稳定结果
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"""
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# 1. 将当前帧结果加入滑动窗口
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self.result_buffer.append(current_frame_result)
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# 2. 统计窗口内各结果的出现次数(多数投票基础)
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result_counts = {}
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for res in self.result_buffer:
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result_counts[res] = result_counts.get(res, 0) + 1 # 使用 result_counts 字典记录每个元素出现的总次数。
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# 3. 找到窗口中出现次数最多的结果(候选结果)
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candidate = max(result_counts, key=result_counts.get)
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# 4. 状态切换校验:只有候选结果连续出现N次才允许切换
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if candidate == self.current_state:
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# 与当前状态一致,重置连续计数
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self.consecutive_count = 0
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else:
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# 与当前状态不一致,累计连续次数
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self.consecutive_count += 1
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# 连续达到阈值,才更新状态
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if self.consecutive_count >= self.switch_threshold:
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self.current_state = candidate
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self.consecutive_count = 0
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return self.current_state
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# 初始化稳定性校验器(全局唯一实例,确保状态连续)
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cls_stabilizer = ClassificationStabilizer(
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window_size=5, # 缓存最近5帧
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switch_threshold=2 # 连续2帧一致才切换状态
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)
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# ====================== 分类接口(可选,保持原逻辑) ======================
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def run_yolo_classification(rgb_frame):
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"""
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YOLO 图像分类接口函数
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Args:
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rgb_frame: numpy array (H, W, 3), RGB 格式
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Returns:
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str: 分类结果("盖板对齐" / "盖板未对齐" / "异常")
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"""
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if not isinstance(rgb_frame, np.ndarray):
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print(f"[ERROR] 输入类型错误:需为 np.ndarray,当前为 {type(rgb_frame)}")
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return "异常"
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try:
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cover_cls = yolov11_cls_inference(CLS_MODEL_PATH, rgb_frame, target_size=(640, 640))
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except Exception as e:
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print(f"[WARN] 分类推理失败: {e}")
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cover_cls = "异常"
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raw_result = "盖板未对齐" # 默认值
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# 结果映射
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if cover_cls == "cover_ready":
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raw_result = "盖板对齐"
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elif cover_cls == "cover_noready":
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raw_result = "盖板未对齐"
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else:
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raw_result = "异常"
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# 通过稳定性校验器处理,返回最终结果
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stable_result = cls_stabilizer.stabilize(raw_result)
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print("raw_result, stable_result:",raw_result, stable_result)
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return stable_result
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