[1] LIU S, LIU Z. Multichannel CNNbased object detection f enhanced situation awareness[DBOL].[20200409]. https:arxiv.gabs1712.00075v1.
[3] BERTOZZI M, BROGGI A, GOMEZ C H, et al. Pedestrian detection in far infrared images based on the use of probabilistic templates[C]. 2007 IEEE Intelligent Vehicles Symposium, 2007, 2: 327332.
[4] DAVIS J W, KECK M A. A twostage template approach to person detection in thermal imagery[C]. 2005 Seventh IEEE Wkshops on Applications of Computer Vision (WACVMOTION''05), 2005, 1: 364369.
[5] JUNGLING K, ARENS M, JARVERS G, et al. Feature based person detection beyond the visible spectrum[C]. 2009 IEEE Computer Society Conference on Computer Vision Pattern Recognition Wkshops, 2009, 1: 3037.
[6] BAY H, TUYTELAARS T, VAN G L. Surf: Speeded up robust features[C]. European Conference on Computer Vision, Springer, Berlin, Heidelberg, 2006, 3951: 404417.
[9] CHEVALIER M, THOME N, CD M, et al. Low resolution convolutional neural wk f automatic target recognition[C]. 7th International Symposium on Optronics in Defence Security, 2016, 11: 11571161.
[10] RODGER I, CONN B, ROBERTSON N M. Classifying objects in LWIR imagery via CNNs[C]. ElectroOptical Infrared Systems: Technology Applications XⅢ, International Society f Optics Photonics, 2016, 9987: 9987099884.
[11] KRIZHEVSKY A, SUTSKEVER I, HINTON G E. Image classification with deep convolutional neural wks[C]. Advances in Neural Infmation Processing Systems, 2012, 25: 10971105.
[12] REDMON J, FARHADI A. Yolov3: an incremental improvement[DBOL].[20200409]. https: arxiv.gabs1804.02767.
[14] WAGNER J, FISCHER V, HERMAN M, et al. Multispectral pedestrian detection using deep fusion convolutional neural wks[C]. ESANN, 2016, 587: 509514.
[15] CHOI H, KIM S, PARK K, et al. Multispectral pedestrian detection based on accumulated object proposal with fully convolutional wks[C]. 2016 23rd International Conference on Pattern Recognition (ICPR), 2016, 23: 621626.
[16] KONIG D, ADAM M, JARVERS C, et al. Fully convolutional region proposal wks f multispectral person detection[C]. Proceedings of the IEEE Conference on Computer Vision Pattern Recognition Wkshops, 2017, 36: 243250.
[17] LIU J, ZHANG S, WANG S, et al. Multispectral deep neural wks f pedestrian detection[DBOL].[20200409]. https: arxiv.gabs1611.02644.
[18] CHAITANYA D, NINAD A, MANUJ M S, et al. Brow from anywhere: Pseudo multimodal object detection in thermal imagery[DBOL].[20200409]. https:arxiv.gabs1905.08789.
[19] REN S, HE K, GIRSHICK R, et al. FasterRCNN: Towards realtime object detection with region proposal wks[C]. Advances in Neural Infmation Processing Systems, 2015, 39: 9199.
[20] ZHU J Y, PARK T, ISOLA P, et al. Unpaired imagetoimage translation using cycleconsistent adversarial wks[C]. Proceedings of the IEEE International Conference on Computer Vision, 2017, 22: 22422251.
[21] BISHOP C M. Neural wks f pattern recognition[M]. Oxfd University Press, 1995, 12: 12351242.
[23] VEDALDI A, FULKERSON B. VLFeat: an open ptable library of computer vision algithms[C]. Proceedings of the 18th ACM International Conference on Multimedia, 2010, 18: 14691472.
[24] LIN M, CHEN Q, YAN S. wk in wk[DBOL].[20200409]. https:arxiv.gabs1312.4400.
[25] NAIR V, HINTON G E. Rectified linear units improve restricted boltzmann machines[C]. Proceedings of the 27th International Conference on Machine Learning (ICML10), 2010, 27: 807814.
[26] FA Group. FLIR thermal dataset f algithm training[DBOL].[20180726]. https:www.flir.cnoemadasadasdatasetagree.
[27] LI C L, XIA W, LUO B, et al. Segmenting objects in day night: edgeconditioned CNN f thermal image semantic segmentation[DBOL].[20200409]. https:arxiv.gabs1907.10303.
[28] Tzutalin. LabelImg[EBOL].[20180706]. https:github.comtzutalinlabelImg.
[29] LIU W, REED S, BERG A C, et al. SSD: Single shot multibox detect[DBOL].[20200409]. https:arxiv.gabs1512.02325.
