Comparison of target detection algorithms.

Comparison of target detection algorithms.

<div><p>Fires are characterized by their sudden onset, rapid spread, and destructive nature, often causing irreversible damage to ecosystems. To address the challenges in forest fire detection, including the varying scales and complex features of flame and smoke, as well as false positiv...

وصف كامل

محفوظ في:
التفاصيل البيبلوغرافية
المؤلف الرئيسي: Diansheng Zhang (22640973) (author)
مؤلفون آخرون: Yueyuan Zhang (10025813) (author), Leilei Dong (8044145) (author), Shifeng Ruan (22640976) (author), Zhiwei Liu (151279) (author)
منشور في: 2025
الموضوعات:
Biological Sciences not elsewhere classified
Information Systems not elsewhere classified
xlink "> fires
missed detections caused
incomplete data collected
feature extraction structure
effectively mitigating issues
missed detection rates
forest fire detection
model &# 8217
key fire features
experimental results demonstrate
ssd backbone network
improved ssd algorithm
smoke texture along
cbam </ p
ssd model
time detection
results indicate
complex features
world scenarios
varying scales
sudden onset
substantially improving
spatial dimension
significantly enhances
rapid spread
lower false
increase compared
false positives
environmental interference
destructive nature
deep learning
color transformations
channel dimension
cbam module
accurate solution
80 %.
61 %,
49 %,
40 %;
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الوصف
الملخص:<div><p>Fires are characterized by their sudden onset, rapid spread, and destructive nature, often causing irreversible damage to ecosystems. To address the challenges in forest fire detection, including the varying scales and complex features of flame and smoke, as well as false positives and missed detections caused by environmental interference, we propose a novel object detection model named CBAM-SSD. Firstly, data augmentation techniques involving geometric and color transformations are employed to enrich the dataset, effectively mitigating issues of insufficient and incomplete data collected in real-world scenarios. This significantly enhances the SSD model’s ability to detect flames, which exhibit highly variable morphological characteristics. Furthermore, the CBAM module is integrated into the SSD backbone network to reconstruct its feature extraction structure. This module adaptively weights flame color and smoke texture along the channel dimension and highlights critical fire regions in the spatial dimension, substantially improving the model’s perception of key fire features. Experimental results demonstrate that the CBAM-SSD model is lightweight and suitable for real-time detection, achieving a mAP@0.5 of 97.55% for flames and smoke, a 1.53% improvement over the baseline SSD. Specifically, the AP50 for flame detection reaches 96.61%, a 3.01% increase compared to the baseline, with a recall of 96.40%; while the AP50 for smoke detection reaches 98.49%, with a recall of 98.80%. These results indicate that the improved model delivers higher detection accuracy and lower false and missed detection rates, offering an efficient, convenient, and accurate solution for forest fire detection.</p></div>

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