• Title/Summary/Keyword: Arena Fragmentation Test

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A New Image Processing-Based Fragment Detection Approach for Arena Fragmentation Test (Arena 시험을 위한 영상처리 기반 탄두 파편 검출 기법)

  • Lee, Hyukzae;Jung, Chanho;Park, Yongchan;Park, Woong;Son, Jihong
    • Journal of the Korea Institute of Military Science and Technology
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    • v.22 no.5
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    • pp.599-606
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    • 2019
  • The Arena Fragmentation Test(AFT) is one of the important tasks for designing a high-explosive warhead. In order to measure the statistics of a warhead in the test, fragments of a warhead that penetrate steel plates are detected by using complex and expensive measuring equipment. In this paper, instead of using specific hardware to measure the statistics of a warhead, we propose to use an image processing based object detection algorithm to detect fragments in AFT. To this end, we use a hard-thresholding method with a brightness feature and apply a morphology filter to remove noise components. We also propose a simple yet effective temporal filtering method to detect only the first penetrating fragments. We show that the performance of the proposed method is comparable to that of a hardware system under the same experimental conditions. Furthermore, the proposed method can produce better results in terms of finding exact positions of fragments.

Analysis of the Effect of Deep-learning Super-resolution for Fragments Detection Performance Enhancement (파편 탐지 성능 향상을 위한 딥러닝 초해상도화 효과 분석)

  • Yuseok Lee
    • Journal of the Korea Institute of Military Science and Technology
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    • v.26 no.3
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    • pp.234-245
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    • 2023
  • The Arena Fragmentation Test(AFT) is designed to analyze warhead performance by measuring fragmentation data. In order to evaluate the results of the AFT, a set of AFT images are captured by high-speed cameras. To detect objects in the AFT image set, ResNet-50 based Faster R-CNN is used as a detection model. However, because of the low resolution of the AFT image set, a detection model has shown low performance. To enhance the performance of the detection model, Super-resolution(SR) methods are used to increase the AFT image set resolution. To this end, The Bicubic method and three SR models: ZSSR, EDSR, and SwinIR are used. The use of SR images results in an increase in the performance of the detection model. While the increase in the number of pixels representing a fragment flame in the AFT images improves the Recall performance of the detection model, the number of pixels representing noise also increases, leading to a slight decreases in Precision performance. Consequently, the F1 score is increased by up to 9 %, demonstrating the effectiveness of SR in enhancing the performance of the detection model.