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Evaluation of YOLOv8 Model Series with HOP for Object Detection in Complex Agriculture Domains

Yıl 2024, Cilt: 10 Sayı: 1, 162 - 173, 30.06.2024
https://doi.org/10.29132/ijpas.1448068

Öz

In recent years, many studies have been conducted in-depth investigating YOLO Models for object detection in the field of agriculture. For this reason, this study focused on four datasets containing different agricultural scenarios, and 20 dif-ferent trainings were carried out with the objectives of understanding the detec-tion capabilities of YOLOv8 and HPO (optimization of hyperparameters). While Weed/Crop and Pineapple datasets reached the most accurate measurements with YOLOv8n in mAP score of 0.8507 and 0.9466 respectively, the prominent model for Grapes and Pear datasets was YOLOv8l in mAP score of 0.6510 and 0.9641. This situation shows that multiple-species or in different developmental stages of a single species object YOLO training highlights YOLOv8n, while only object detection extracting from background scenario naturally highlights YOLOv8l Model.

Kaynakça

  • Jin, X., Sun, Y., Che, J., Bagavathiannan, M., Yu, J., & Chen, Y. (2022). A novel deep learning‐based method for detection of weeds in vegetables. Pest Management Science, 78(5), 1861-1869.
  • Andaç, İ. M. A. K., Doğan, G., ŞENGÜR, A., & Ergen, B. (2023). Asma Yaprağı Türünün Sınıflandırılması için Doğal ve Sentetik Verilerden Derin Öznitelikler Çıkarma, Birleştirme ve Seçmeye Dayalı Yeni Bir Yöntem. International Journal of Pure and Applied Sciences, 9(1), 46-55.
  • Dahirou, Z., & Zheng, M. (2021). Motion Detection and Object Detection: Yolo (You Only Look Once). In 2021 7th Annual International Conference on Network and Information Systems for Computers (ICNISC), Guiyang, China, IEEE, 250-257.
  • Strand, J. F. (2000). Some agrometeorological aspects of pest and disease management for the 21st century. Agricultural and Forest Meteorology, 103(1-2), 73-82.
  • Dominguez-Sanchez, A., Cazorla, M., & Orts-Escolano, S. (2018). A new dataset and per-for-mance evaluation of a region-based cnn for urban object detection. Electronics, 7(11), 301.
  • Joseph, E. C., Bamisile, O., Ugochi, N., Zhen, Q., Ilakoze, N., & Ijeoma, C. ( 2021). Systematic Advancement of Yolo Object Detector For Real-Time Detection of Objects. In 2021 18th In-ter-national Computer Conference on Wavelet Active Media Technology and Information Pro-cessing (ICCWAMTIP), Chengdu, China, IEEE, 279-284.
  • Sengupta, S., Basak, S., Saikia, P., Paul, S., Tsalavoutis, V., Atiah, F., ... & Peters, A. (2020). A review of deep learning with special emphasis on architectures, applications, and recent trends. Knowledge-Based Systems, 194, 105596.
  • Cheng, G., & Han, J. (2016). A survey on object detection in optical remote sensing images. ISPRS journal of photogrammetry and remote sensing, 117, 11-28.
  • Menikdiwela, M., Nguyen, C., Li, H., & Shaw, M. (2017). CNN-based small object detection and visualization with feature activation mapping. In 2017 international conference on image and vision computing, New Zealand (IVCNZ), IEEE, 1-5.
  • Girshick, R., Donahue, J., Darrell, T., & Malik, J. (2014). Rich feature hierarchies for accurate object detection and semantic segmentation. In Proceedings of the IEEE conference on computer vision and pattern recognition, 580-587.
  • Sa, I., Ge, Z., Dayoub, F., Upcroft, B., Perez, T., & McCool, C. (2016). Deepfruits: A fruit detec-tion system using deep neural networks. Sensors, 16(8), 1222.
  • Wang, N., Liu, H., Li, Y., Zhou, W., & Ding, M. (2023). Segmentation and Phenotype Calculation of Rapeseed Pods Based on YOLO v8 and Mask R-Convolution Neural Net-works. Plants, 12(18), 3328.
  • Liu, K., Tang, H., He, S., Yu, Q., Xiong, Y., & Wang, N.( 2021). Performance validation of YOLO variants for object detection. In Proceedings of the 2021 International Conference on Bioinfor-matics and intelligent computing, New York, NY, United States,239-243.
  • Zhu, R., Hao, F., & Ma, D. (2023). Research on Polygon Pest-Infected Leaf Region De-tection Based on YOLOv8. Agriculture, 13(12), 2253.
  • Zhang, K., Wu, Q., & Chen, Y. (2021). Detecting soybean leaf disease from synthetic image using multi-feature fusion faster R-CNN. Computers and Electronics in Agriculture, 183.
  • Mu, Y., Feng, R., Ni, R., Li, J., Luo, T., Liu, T., ... & Hu, T. (2022). A Faster R-CNN-Based Model for the Identification of Weed Seedling. Agronomy, 12(11).
  • Quan, L., Feng, H., Lv, Y., Wang, Q., Zhang, C., Liu, J., & Yuan, Z. (2019). Maize seedling detection under different growth stages and complex field environments based on an improved Faster R–CNN. Biosystems Engineering, 184.
  • Jabir, B., Moutaouakil, K. E., & Falih, N. (2023). Developing an Efficient System with Mask R-CNN for Agricultural Applications. Agris on-line Papers in Economics and Informatics, 15(1).
  • Dang, F., Chen, D., Lu, Y., & Li, Z. (2023). YOLOWeeds: A novel benchmark of YOLO object detectors for multi-class weed detection in cotton production systems. Computers and Electron-ics in Agriculture, 205.
  • Gallo, I., Rehman, A. U., Dehkordi, R. H., Landro, N., La Grassa, R., & Boschetti, M. (2023). Deep Object Detection of Crop Weeds: Performance of YOLOv7 on a Real Case Dataset from UAV Images. Remote Sensing, 15(2).
  • Wang, F., Fu, X., Duan, W., Wang, B., & L, H. (2023). Visual Detection of Lost Ear Tags in Breeding Pigs in a Production Environment Using the Enhanced Cascade Mask R-CNN. Agriculture, 13(10), 2011.
  • Altun, S., & Talu, M. F. (2021). Derin sinir ağları için hiperparametre metodlarının ve kit-lerinin incelenmesi. Dicle Üniversitesi Mühendislik Fakültesi Mühendislik Dergisi, 12(2), 187-199.
  • Wang, C.-Y.,Bochkovskiy, A., Liao, H.-Y.M.(2022). YOLOv7: Trainable bag-of-freebies sets new state-of-the-art for real-time object detectors. In Proceedings of the IEEE/CVF conference on computer vision and pattern recognition, 7464-7475.
  • Sozzi, M., Cantalamessa, S., Cogato, A., Kayad, A., & Marinello, F. (2022). Automatic bunch detection in white grape varieties using YOLOv3, YOLOv4, and YOLOv5 deep learning algo-rithms. Agronomy, 12(2), 319.
  • Giakoumoglou, N., Pechlivani, E. M., & Tzovaras, D. (2023). Generate-Paste-Blend-Detect: Synthetic dataset for object detection in the agriculture domain. Smart Agricultural Tech-nology, 5, 100258.
  • Yang, S., Wang, W., Gao, S., & Deng, Z. (2023). Strawberry ripeness detection based on YOLOv8 algorithm fused with LW-Swin Transformer. Computers and Electronics in Agri-culture, 215, 108360.
Yıl 2024, Cilt: 10 Sayı: 1, 162 - 173, 30.06.2024
https://doi.org/10.29132/ijpas.1448068

Öz

Kaynakça

  • Jin, X., Sun, Y., Che, J., Bagavathiannan, M., Yu, J., & Chen, Y. (2022). A novel deep learning‐based method for detection of weeds in vegetables. Pest Management Science, 78(5), 1861-1869.
  • Andaç, İ. M. A. K., Doğan, G., ŞENGÜR, A., & Ergen, B. (2023). Asma Yaprağı Türünün Sınıflandırılması için Doğal ve Sentetik Verilerden Derin Öznitelikler Çıkarma, Birleştirme ve Seçmeye Dayalı Yeni Bir Yöntem. International Journal of Pure and Applied Sciences, 9(1), 46-55.
  • Dahirou, Z., & Zheng, M. (2021). Motion Detection and Object Detection: Yolo (You Only Look Once). In 2021 7th Annual International Conference on Network and Information Systems for Computers (ICNISC), Guiyang, China, IEEE, 250-257.
  • Strand, J. F. (2000). Some agrometeorological aspects of pest and disease management for the 21st century. Agricultural and Forest Meteorology, 103(1-2), 73-82.
  • Dominguez-Sanchez, A., Cazorla, M., & Orts-Escolano, S. (2018). A new dataset and per-for-mance evaluation of a region-based cnn for urban object detection. Electronics, 7(11), 301.
  • Joseph, E. C., Bamisile, O., Ugochi, N., Zhen, Q., Ilakoze, N., & Ijeoma, C. ( 2021). Systematic Advancement of Yolo Object Detector For Real-Time Detection of Objects. In 2021 18th In-ter-national Computer Conference on Wavelet Active Media Technology and Information Pro-cessing (ICCWAMTIP), Chengdu, China, IEEE, 279-284.
  • Sengupta, S., Basak, S., Saikia, P., Paul, S., Tsalavoutis, V., Atiah, F., ... & Peters, A. (2020). A review of deep learning with special emphasis on architectures, applications, and recent trends. Knowledge-Based Systems, 194, 105596.
  • Cheng, G., & Han, J. (2016). A survey on object detection in optical remote sensing images. ISPRS journal of photogrammetry and remote sensing, 117, 11-28.
  • Menikdiwela, M., Nguyen, C., Li, H., & Shaw, M. (2017). CNN-based small object detection and visualization with feature activation mapping. In 2017 international conference on image and vision computing, New Zealand (IVCNZ), IEEE, 1-5.
  • Girshick, R., Donahue, J., Darrell, T., & Malik, J. (2014). Rich feature hierarchies for accurate object detection and semantic segmentation. In Proceedings of the IEEE conference on computer vision and pattern recognition, 580-587.
  • Sa, I., Ge, Z., Dayoub, F., Upcroft, B., Perez, T., & McCool, C. (2016). Deepfruits: A fruit detec-tion system using deep neural networks. Sensors, 16(8), 1222.
  • Wang, N., Liu, H., Li, Y., Zhou, W., & Ding, M. (2023). Segmentation and Phenotype Calculation of Rapeseed Pods Based on YOLO v8 and Mask R-Convolution Neural Net-works. Plants, 12(18), 3328.
  • Liu, K., Tang, H., He, S., Yu, Q., Xiong, Y., & Wang, N.( 2021). Performance validation of YOLO variants for object detection. In Proceedings of the 2021 International Conference on Bioinfor-matics and intelligent computing, New York, NY, United States,239-243.
  • Zhu, R., Hao, F., & Ma, D. (2023). Research on Polygon Pest-Infected Leaf Region De-tection Based on YOLOv8. Agriculture, 13(12), 2253.
  • Zhang, K., Wu, Q., & Chen, Y. (2021). Detecting soybean leaf disease from synthetic image using multi-feature fusion faster R-CNN. Computers and Electronics in Agriculture, 183.
  • Mu, Y., Feng, R., Ni, R., Li, J., Luo, T., Liu, T., ... & Hu, T. (2022). A Faster R-CNN-Based Model for the Identification of Weed Seedling. Agronomy, 12(11).
  • Quan, L., Feng, H., Lv, Y., Wang, Q., Zhang, C., Liu, J., & Yuan, Z. (2019). Maize seedling detection under different growth stages and complex field environments based on an improved Faster R–CNN. Biosystems Engineering, 184.
  • Jabir, B., Moutaouakil, K. E., & Falih, N. (2023). Developing an Efficient System with Mask R-CNN for Agricultural Applications. Agris on-line Papers in Economics and Informatics, 15(1).
  • Dang, F., Chen, D., Lu, Y., & Li, Z. (2023). YOLOWeeds: A novel benchmark of YOLO object detectors for multi-class weed detection in cotton production systems. Computers and Electron-ics in Agriculture, 205.
  • Gallo, I., Rehman, A. U., Dehkordi, R. H., Landro, N., La Grassa, R., & Boschetti, M. (2023). Deep Object Detection of Crop Weeds: Performance of YOLOv7 on a Real Case Dataset from UAV Images. Remote Sensing, 15(2).
  • Wang, F., Fu, X., Duan, W., Wang, B., & L, H. (2023). Visual Detection of Lost Ear Tags in Breeding Pigs in a Production Environment Using the Enhanced Cascade Mask R-CNN. Agriculture, 13(10), 2011.
  • Altun, S., & Talu, M. F. (2021). Derin sinir ağları için hiperparametre metodlarının ve kit-lerinin incelenmesi. Dicle Üniversitesi Mühendislik Fakültesi Mühendislik Dergisi, 12(2), 187-199.
  • Wang, C.-Y.,Bochkovskiy, A., Liao, H.-Y.M.(2022). YOLOv7: Trainable bag-of-freebies sets new state-of-the-art for real-time object detectors. In Proceedings of the IEEE/CVF conference on computer vision and pattern recognition, 7464-7475.
  • Sozzi, M., Cantalamessa, S., Cogato, A., Kayad, A., & Marinello, F. (2022). Automatic bunch detection in white grape varieties using YOLOv3, YOLOv4, and YOLOv5 deep learning algo-rithms. Agronomy, 12(2), 319.
  • Giakoumoglou, N., Pechlivani, E. M., & Tzovaras, D. (2023). Generate-Paste-Blend-Detect: Synthetic dataset for object detection in the agriculture domain. Smart Agricultural Tech-nology, 5, 100258.
  • Yang, S., Wang, W., Gao, S., & Deng, Z. (2023). Strawberry ripeness detection based on YOLOv8 algorithm fused with LW-Swin Transformer. Computers and Electronics in Agri-culture, 215, 108360.
Toplam 26 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Bilgisayar Görüşü, Bilgisayar Görüşü ve Çoklu Ortam Hesaplama (Diğer)
Bölüm Makaleler
Yazarlar

Jale Bektaş 0000-0002-8793-1486

Erken Görünüm Tarihi 28 Haziran 2024
Yayımlanma Tarihi 30 Haziran 2024
Gönderilme Tarihi 6 Mart 2024
Kabul Tarihi 9 Mayıs 2024
Yayımlandığı Sayı Yıl 2024 Cilt: 10 Sayı: 1

Kaynak Göster

APA Bektaş, J. (2024). Evaluation of YOLOv8 Model Series with HOP for Object Detection in Complex Agriculture Domains. International Journal of Pure and Applied Sciences, 10(1), 162-173. https://doi.org/10.29132/ijpas.1448068
AMA Bektaş J. Evaluation of YOLOv8 Model Series with HOP for Object Detection in Complex Agriculture Domains. International Journal of Pure and Applied Sciences. Haziran 2024;10(1):162-173. doi:10.29132/ijpas.1448068
Chicago Bektaş, Jale. “Evaluation of YOLOv8 Model Series With HOP for Object Detection in Complex Agriculture Domains”. International Journal of Pure and Applied Sciences 10, sy. 1 (Haziran 2024): 162-73. https://doi.org/10.29132/ijpas.1448068.
EndNote Bektaş J (01 Haziran 2024) Evaluation of YOLOv8 Model Series with HOP for Object Detection in Complex Agriculture Domains. International Journal of Pure and Applied Sciences 10 1 162–173.
IEEE J. Bektaş, “Evaluation of YOLOv8 Model Series with HOP for Object Detection in Complex Agriculture Domains”, International Journal of Pure and Applied Sciences, c. 10, sy. 1, ss. 162–173, 2024, doi: 10.29132/ijpas.1448068.
ISNAD Bektaş, Jale. “Evaluation of YOLOv8 Model Series With HOP for Object Detection in Complex Agriculture Domains”. International Journal of Pure and Applied Sciences 10/1 (Haziran 2024), 162-173. https://doi.org/10.29132/ijpas.1448068.
JAMA Bektaş J. Evaluation of YOLOv8 Model Series with HOP for Object Detection in Complex Agriculture Domains. International Journal of Pure and Applied Sciences. 2024;10:162–173.
MLA Bektaş, Jale. “Evaluation of YOLOv8 Model Series With HOP for Object Detection in Complex Agriculture Domains”. International Journal of Pure and Applied Sciences, c. 10, sy. 1, 2024, ss. 162-73, doi:10.29132/ijpas.1448068.
Vancouver Bektaş J. Evaluation of YOLOv8 Model Series with HOP for Object Detection in Complex Agriculture Domains. International Journal of Pure and Applied Sciences. 2024;10(1):162-73.

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