一、中文部分
[1] "無線射頻辨識.”Retrieved December 1, 2020, from https://zh.wikipedia.org/wiki/%E5%B0%84%E9%A2%91%E8%AF%86%E5%88%AB.
[2] Ben Wu, M. C. "完整解析工業4.0的定義、九大科技、以及八大應用領域." from https://oosga.com/industry4-0/
[3] remanented (2018). "Mask-RCNN 算法及其实现详解." Retrieved December 1, 2020, from https://blog.csdn.net/remanented/article/details/79564045?utm_medium=distribute.pc_relevant.none-task-blog-title-6&spm=1001.2101.3001.4242.
[4] 李文祥 (2005). 以無線射頻識別技術導入物流中心作業流程之研究. 資訊管理學系. 新北市, 輔仁大學. 碩士: 164.[5]林泊宏 (2018). 基於遮罩區域卷積類神經網路之木節偵測暨分類演算法. 統計學研究所, 國立中興大學: 1-44.
[6]彭秋辰 and 宋亦旭 (2019). "基于Mask R-CNN 的物体识别和定位."
[7]楊清喬、陳威良 (March 2012). "國際物流中心業者貨物安全管理之研究." 航運季刊 第二十一卷第一期: 49-69.
[8]葉宜倫 (2016). 自走車在廠區盤點與監控之應用. 工程科學系碩士在職專班. 台南市, 國立成功大學. 碩士: 75.[9]詹巧同 (2019). 使⽤Mask-cycle GAN 重建物體的結構. 電機與控制工程系所, 國立交通大學: 1-82.
[10]嘉益仕 (2018). "智能倉儲就是無人倉庫嗎?正確理解很重要.” Retrieved December 1, 2020, from https://kknews.cc/zh-tw/tech/9oa6vbl.html.
[11]鄭吉宏 (2005). "Wal-Mart掀起RFID的蓋頭來." Retrieved December 1, 2020, from https://www.ithome.com.tw/node/27360.
[12]魏文戈, 谭晓阳. (2019, 14(4)). "密集堆叠下的高相似度木块横截面检测." 智能系统学报: 642-649.
[13] 在路上DI蜗牛 (2018). "实例分割--Mask RCNN详解(ROI Align / Loss Fun)." Retrieved December 1, 2020, from https://blog.csdn.net/qinghuaci666/article/details/80900882?utm_medium=distribute.pc_relevant_t0.none-task-blog-BlogCommendFromMachineLearnPai2-1.compare&depth_1-utm_source=distribute.pc_relevant_t0.none-task-blog-BlogCommendFromMachineLearnPai2-1.compare.
[14]勞動部勞動及職業安全衛生研究所職業安全研究組(August 12, 2014, May 19, 2016). "怎麼擺、怎麼放、怎麼堆,才安全." from https://www.ilosh.gov.tw/menu/1169/1172/%E6%80%8E%E9%BA%BC%E6%93%BA-%E6%80%8E%E9%BA%BC%E6%94%BE-%E6%80%8E%E9%BA%BC%E5%A0%86-%E6%89%8D%E5%AE%89%E5%85%A8/.
[15]yairobot (July 29, 2018). "ROI Pooling与ROI Align." Retrieved December 1, 2020, from http://www.yairobot.com/index.php/2018/07/29/272/.
[16]勞動部 (March 2, 2020). "職業安全衛生設施規則." Retrieved December 1, 2020, from https://law.moj.gov.tw/LawClass/LawAll.aspx?pcode=N0060009.
[17] 伍庭曄. (2010). "疊書問題." 數學傳播34卷2期, pp. 3-26.
二、英文部分
[17]ALLEN, W. (OCTOBER 19TH, 2020). "Guide to warehouse robots: types of warehouse robots, uses, navigation & more." from https://6river.com/guide-to-warehouse-robots/.
[18]Bae, S. M., et al. (2016). Development of inventory checking system based on UAV and RFID in open storage yard. 2016 International Conference on Information Science and Security (ICISS), IEEE.
[19]Chen, F.-J., et al. (2006). RFID system and method for ensuring safety of hazardous or dangerous substances, Google Patents.
[20]Chen, J. C., et al. (2013). "Warehouse management with lean and RFID application: a case study." The International Journal of Advanced Manufacturing Technology 69(1): 531-542.
[21]Chow, H. K., et al. (2006). "Design of a RFID case-based resource management system for warehouse operations." Expert systems with applications 30(4): 561-576.
[22]Companik, E., et al. (2018). "“Feasibility of Warehouse Drone Adoption and Implementation”."
[23]Day, J. (2017). "RFly: Drones that find missing objects using battery-free RFIDs." from https://www.media.mit.edu/projects/wireless-sensing-for-drones-agile-robots-robotics/overview/.
[24]Dewa, P., et al. (2017). "Human errors in warehouse operations: an improvement model." International Journal of Logistics Systems and Management 27: 298.
[25]Garcia-Garcia, A., et al. (2017). "A Review on Deep Learning Techniques Applied to Semantic Segmentation." ArXiv abs/1704.06857.
[26]Halawa, F., et al. (2020). "Introduction of a real time location system to enhance the warehouse safety and operational efficiency." International Journal of Production Economics 224: 107541.
[27]He, K., et al. (2017). Mask R-CNN. 2017 IEEE International Conference on Computer Vision (ICCV).
[28]Hubbard, B., et al. (2015). Feasibility study of UAV use for RFID material tracking on construction sites. 51st ASC Annual international conference proceedings.
[29]Jones, A., et al. (2015). Modular drone and methods for use, Google Patents.
[30]Lim, M. K., et al. (2013). "RFID in the warehouse: A literature analysis (1995–2010) of its applications, benefits, challenges and future trends." International Journal of Production Economics 145(1): 409-430.
[31]Liu, X. C., J.; Yang, Y.; Jiang, S. (2018). "CPS-Based Smart Warehouse for Industry 4.0: A Survey of the Underlying Technologies." Computers 7(1): 13.
[32]Mostafa, N., et al. (2018). Towards a Smart Warehouse Management System.
[33]Trab, S., et al. (2015). "Product Allocation Planning with Safety Compatibility Constraints in IoT-based Warehouse." Procedia Computer Science 73: 290-297.
[34]Wang, H., et al. (2010). "An RFID-based digital warehouse management system in the tobacco industry: a case study." International Journal of Production Research 48(9): 2513-2548.
[35]Xue, Y. and H. Liu (2012). "Intelligent Storage and Retrieval Systems Based on RFID and Vision in Automated Warehouse." Journal of Networks 7(2): 365-369.
[36]Zhou, W., et al. (2017). "RFID-enabled flexible warehousing." Decision Support Systems 98: 99-112.
[37]Zuehlke, D. (2009). "SmartFactory – A Vision becomes Reality." IFAC Proceedings Volumes 42(4): 31-39.
[38]Zuehlke, D. (2010). "SmartFactory—Towards a factory-of-things." Annual Reviews in Control 34(1): 129-138.
[39] Bobba, R. (December 14, 2019). "Taming the Hyper-Parameters of Mask RCNN." Retrieved December 1, 2020, from https://medium.com/analytics-vidhya/taming-the-hyper-parameters-of-mask-rcnn-3742cb3f0e1b
[40] Lin, T.-Y., et al. (2017). Feature pyramid networks for object detection. Proceedings of the IEEE conference on computer vision and pattern recognition.