Unmanned aerial vehicles (UAV) are used successfully in many application areas such as military, security, monitoring, emergency aid, tourism, agriculture, and forestry. This study aims to automatically count trees in designated areas on the Siirt University campus from high-resolution images obtained by UAV. Images obtained at 30 meters height with 20% overlap were stitched offline at the ground station using Adobe Photoshop's photo merge tool. The resulting image was denoised and smoothed by applying the 3x3 median and mean filter, respectively. After generating the orthophoto map of the aerial images captured by the UAV in certain regions, the bounding boxes of different objects on these maps were labeled in the modalities of HSV (Hue Saturation Value), RGB (Red Green Blue) and Gray. Training, validation, and test datasets were generated and then have been evaluated for classification success rates related to tree detection using various machine learning algorithms. In the last step, a ground truth model was established by obtaining the actual tree numbers, and then the prediction performance was calculated by comparing the reference ground truth data with the proposed model. It is considered that significant success has been achieved for tree count with an average accuracy rate of 87% obtained using the MLP classifier in predetermined regions.
翻译:在军事、安全、监测、紧急援助、旅游、农业和林业等许多应用领域成功使用无人驾驶航空飞行器(UAV),这一研究的目的是从UAV获得的高分辨率图像中自动计算锡尔特大学校园指定地区的树木。在30米高处获得的图像,重叠率为20%,在地面站使用Adobe Photoshop的照片合并工具缝合了30米高点和20%的图像,在地面站使用Adobe Photoshop的图片合并工具进行了缝合,结果的图像通过分别应用3x3中位和中位过滤器进行了脱色和平滑。在制作了无人驾驶航空飞行器在某些区域摄取的航空图像的正方形图后,这些地图上不同物体的捆绑盒在HSV(Hue Saturation 值)、RGB(Red Green Blue)和Gray等模式中贴上了标签。随后对使用各种机器学习算法对树木探测结果的成功率进行了评估。在最后一步,通过获取实际树数建立了地面真相模型,然后通过将参照地面实况数据与提议的M级计算得出了预测性结果。认为,在87-L区域取得了重大成功。
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