[1]結合邊緣AI自主化 5G專網加速智慧工廠轉型。Available: https://www.2cm.com.tw/2cm/zh-tw/market/F3F20F0A9C9B4DA7B7201C469FB9646F
[2]V. A. Zyulin, A. N. Semenova, A. K. Brazhnikova and D. A. Burilov, "Features of Building MESH Networks Based on Bluetooth Low Energy 5.1 Technology," 2021 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (ElConRus), 2021, pp. 81-84, doi: 10.1109/ElConRus51938.2021.9396530.
[3]P. Mohaghegh, A. Boegli and Y. Perriard, "Bluetooth Low Energy Direction Finding Principle," 2021 24th International Conference on Electrical Machines and Systems (ICEMS), 2021, pp. 830-834, doi: 10.23919/ICEMS52562.2021.9634353.
[4]一次看懂「藍牙5.2」!2021 真無線藍牙耳機最新主流與規格趨勢Available: https://xroundaudio.com/blog/blog_detail.php?id=115
[5]James C. Lin, Konstantina S. Nikita(2011)。Wireless Mobile Communication and Healthcare: Second International ICST Conference, MobiHealth 2010, Ayia Napa, Cyprus, October 18 - 20, 2010. James C. Lin ; Revised Selected Papers。Spain: Springer。
[6]低功耗藍牙規範-架構 Available: https://tingchuchi.github.io/2018/11/30/ble_ch3/
[7]低功耗藍牙規範-鏈結層(1) Available:
https://tingchuchi.github.io/2018/11/30/ble_ch4_1/
[8]藍牙筆記 Available: https://medium.com/@yuchunlin/003-%E8%97%8D%E8%8A%BD%E7%AD%86%E8%A8%98-975b4f44ccc8
[9]藍牙低功耗介紹 Available: https://hackmd.io/@ShenTengTu/H1aUE5ltV?type=view
[10]C. Yoon, H. Choi, J. Cho and Y. W. Kim, "CoAP over BLE-GATT for OCF," 2017 International Conference on Information and Communication Technology Convergence (ICTC), 2017, pp. 32-34, doi: 10.1109/ICTC.2017.8190936.
[11]藍牙GATT:如何設計自定義服務和特性 Available: https://hackmd.io/@ShenTengTu/SkPltNmiE?type=view
[12]藍牙技術-L2CAP介紹Available:https://tingchuchi.github.io/2018/01/30/bluetooth-ch6/
[13]PHY Available: https://zh.m.wikipedia.org/zh-tw/PHY
[14]BT Mesh淺談 Available :https://www.wpgdadatong.com/cn/blog/detail/41560
[15]Direction Finding Available : https://infocenter.nordicsemi.com/pdf/nwp_036.pdf
[16]藍牙技術官網-測向功能描述 Available : https://www.bluetooth.com/zh-cn/learn-about-bluetooth/recent-enhancements/direction-finding/
[17]U. Hamid, R. A. Qamar and K. Waqas, "Performance comparison of time-domain and frequency-domain beamforming techniques for sensor array processing," Proceedings of 2014 11th International Bhurban Conference on Applied Sciences & Technology (IBCAST) Islamabad, Pakistan, 14th - 18th January, 2014, 2014, pp. 379-385, doi: 10.1109/IBCAST.2014.6778172.
[18]相位陣列波束成形IC簡化天線設計 Available : https://www.analog.com/cn/design-center/landing-pages/002/tech-articles-taiwan/phased-array-beamforming-ics-simplify-antenna-design.html
[19]曹軼博,“應用於藍牙無線通訊之 GFSK 低電壓解調器電路設計” M.S. thesis, Dept. 電子工程, 龍華科技大學, 桃園, 臺灣, 2013
[20]低功耗藍牙規範-鏈結層(2) Available:https://tingchuchi.github.io/2018/11/30/ble_ch4_2/
[21]S. Chakrabarty and D. W. Engels, "Black networks for Bluetooth Low Energy," 2016 IEEE International Conference on Consumer Electronics (ICCE), 2016, pp. 11-14, doi: 10.1109/ICCE.2016.7430504.
[22]Bluetooth Direction Finding Available:https://www.bluetooth.com/wp-content/uploads/Files/developer/RDF_Technical_Overview.pdf
[23]AN1297: Custom Direction-Finding Solutions using the Silicon Labs Bluetooth Stack Available:https://www.silabs.com/documents/public/application-notes/an1297-custom-direction-finding-solutions-silicon-labs-bluetooth.pdf
[24]相位陣列天線方向圖—第1部分:線性陣列波束特性和陣列因數 Available:https://www.analog.com/cn/design-center/landing-pages/002/tech-articles-taiwan/phased-array-antenna-patterns-part1.html
[25]陳晏羚。「基於藍牙網狀網路技術智慧型燈具控制物聯網系統之設計與實作」。碩士論文,國立虎尾科技大學電機工程系碩士班,2021。