A Bias Neural Network Based on Knowledge Distillation (original) (raw)

References

1. Lipikorn, R., Cooharojananone, N., Kijsupapaisan, S., et al.: Vehicle logo recognition based on interior structure using SIFT descriptor and neural network. In: International Conference on Information Science, Electronics and Electrical Engineering, pp. 1595–1599. IEEE (2014)
   Google Scholar
2. Da, P., Ping, S.: A method of TV logo recognition based on SIFT. In: 3rd International Conference on Multimedia Technology (ICMT-13), pp. 1571–1579. Atlantis Press (2013)
   Google Scholar
3. Llorca, D.F., Arroyo, R., Sotelo, M.A.: Vehicle logo recognition in traffic images using HOG features and SVM. In: International Conference on Intelligent Transportation Systems, pp. 2229–2234. IEEE (2014)
   Google Scholar
4. Lu, F., Liu, Y., Zhang, R.: An improved HOG-based vehicle logo location and recognition method. Study Opt. Commun. 5, 26–29 (2012)
   Google Scholar
5. Biswas, C., Mukherjee, J.: Logo recognition technique using sift descriptor, Surf descriptor and Hog descriptor. Int. J. Comput. Appl. 117(22), 34–37 (2014)
   Google Scholar
6. Hinton, G., Vinyals, O., Dean, J.: Distilling the knowledge in a neural network. Comput. Sci. 14(7), 38–39 (2015)
   Google Scholar
7. Bianco, S., Buzzelli, M., Mazzini, D., et al.: Deep learning for logo recognition. Neurocomputing 245, 23–30 (2017)
   Article Google Scholar
8. Shu-Kuo, S., Zen, C.: Robust logo recognition for mobile phone applications. J. Inf. Sci. Eng. 27(2), 545–559 (2014)
   Google Scholar
9. Hichem, S., Lamberto, B., Giuseppe, S., Alberto, D.: Context-dependent logo matching and recognition. IEEE Trans. Image Process. 22(3), 1018–1031 (2013)
   Article MathSciNet Google Scholar
10. Wang, Y., Yang, W., Zhang, H.: Deep learning single logo recognition with data enhancement by shape context. In: The 2018 International Joint Conference on Neural Networks (IJCNN). IEEE (2018)
    Google Scholar
11. FlickrLogos-32: http://www.multimedia-computing.de/flickrlogos/. Accessed 22 July 2018
12. Psyllos, A.P., Anagnostopoulos, C.N.E., Kayafas, E.: Vehicle logo recognition using a SIFT-based enhanced matching scheme. IEEE Trans. Intell. Transp. Syst. 11(2), 322–328 (2010)
    Article Google Scholar
13. Liu, X., Zhang, B.: Automatic collecting representative logo images from the internet. Tsinghua Sci. Technol. 18(6), 606–617 (2013)
    Article Google Scholar
14. Leonid, K., Joseph, S., Yochay, T., Asaf, T.: Fine-grained recognition of thousands of object categories with single-example training. In: 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR), pp. 965–974. IEEE (2017)
    Google Scholar
15. Ning, X., Zhu, W., Chen, S.: Recognition, object detection and segmentation of white background photos based on deep learning. In: 32nd Youth Academic Annual Conference of Chinese Association of Automation (YAC), pp. 182–187. IEEE (2017)
    Google Scholar
16. Chen, R., Matthew, H., Lyudmila, M., Xiao, J., Liu, W.: Vehicle logo recognition by spatial-SIFT combined with logistic regression. In: 19th International Conference on Information Fusion (FUSION), pp. 1228–1235. IEEE (2016)
    Google Scholar
17. Rajalida, L., Nagul, C., Suppassara, K., Tavinee, I.: Vehicle logo recognition based on interior structure using SIFT descriptor and neural network. In: 2014 International Conference on Information Science, Electronics and Electrical Engineering, pp. 1595–1599. IEEE (2014)
    Google Scholar
18. Apostolos, P., Christos-Nikolaos, A., Eleftherios, K.M.: A new method for Vehicle Logo Recognition. In: 2012 International Conference on Vehicular Electronics and Safety (ICVES 2012), pp. 261–266. IEEE (2012)
    Google Scholar
19. Apostolos, P., Psyllos, C.N., Anagnostopoulos, E.K.: Vehicle logo recognition using a SIFT-based enhanced matching scheme. IEEE Trans. Intell. Transp. Syst. 11(2), 322–328 (2010)
    Article Google Scholar
20. Xia, L., Qi, F., Zhou, Q.: A learning-based logo recognition algorithm using SIFT and efficient correspondence matching. In: 2008 International Conference on Information and Automation, pp. 1767–1772. IEEE (2008)
    Google Scholar
21. Sonawane, D.R., Apte, S.D.: Improved Context Dependent logo matching framework using FREAK method. In: 2016 IEEE International Conference on Advances in Electronics, Communication and Computer Technology (ICAECCT), pp. 362–366. IEEE (2016)
    Google Scholar
22. Tang, S., Zhang, Y.D., Chen, H.: Scalable logo recognition based on compact sparse dictionary for mobile devices. In: 17th International Workshop on Multimedia Signal Processing (MMSP), pp. 1–6. IEEE (2015)
    Google Scholar
23. Leonardo, B., Guillermo, C.C., Pedro, S.: Real-time single-shot brand logo recognition. In: 30th SIBGRAPI Conference on Graphics, Patterns and Images (SIBGRAPI), pp. 134–140. IEEE (2017)
    Google Scholar
24. Afsoon, A.S., Alireza, D., Hasan, F., Mehran, Y.: Persian logo recognition using local binary patterns. In: 3rd International Conference on Pattern Recognition and Image Analysis (IPRIA), pp. 258–261. IEEE (2017)
    Google Scholar
25. Matheel, E., Abdulmunim, H.K.: Logo matching in Arabic documents using region based features and SURF descriptor. In: 2017 Annual Conference on New Trends in Information & Communications Technology Applications (NTICT), pp. 75–79. IEEE (2017)
    Google Scholar
26. Bucilua, C., Caruana, R., Niculescu-Mizil, A.: Model compression. In: Proceedings of the 12th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining. KDD 2006, pp. 535–541. ACM, New York (2006)
    Google Scholar
27. He, K., Zhang, X., Ren, S., et al.: Deep residual learning for image recognition. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 770–778. IEEE (2016)
    Google Scholar
28. Simonyan, K., Zisserman, A.: Very deep convolutional networks for large-scale image recognition. arXiv preprint arXiv:1409.1556 (2014)

Download references