gigabit的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列懶人包和總整理

Ltr 57(8): Using the Toward Gigabit Libraries Toolkit

為了解決gigabit的問題，作者Block, Carson 這樣論述：

Carson Block has led and loved library technology efforts for more than 25 years as an IT Director and Library Technology Consultant. Carson acted as a Director-At-Large for the American Library Association’s former Association of Specialized Government and Cooperative Library Agencies (ASGCLA) and

is a past Chair of ASGCLA’s Library Consultant’s Interest Group. He is a former member of the Future of Libraries advisory group to ALA’s Office of Information Technology Policy. Carson is also Past President of the Colorado Division of the Public Library Association.

gigabit進入發燒排行的影片

設計與分析具有遠端互傳功能之混合式被動光網路

為了解決gigabit的問題，作者温元慧 這樣論述：

本論文提出一基於5G行動網路架構的混合式被動光網路(Hybrid PON)且具有遠端單位相互通訊(Remote Unit Interconnection)之功能。 此架構利用了波導光柵路由器(Wavelength Grating Router)的波長路由以及其週期性的自由光譜範圍(Free Spectrum Range)特性，在一架構下含蓋了多種工作模式，成功地將分時多工、分波多工以及分時分波多工被動光網路架構整合在一起，此外，透過回授路由埠，提供多樣通訊服務的同時也實現了遠端單元間通訊的功能，所連接之遠端單元可以相互通訊且能滿足低時延的應用情境需求，本文提出的網路架構概念係以能再既有被動光

網路進行整合出發，以達現有光分配線網路(Optical Distribution Network)能有效再利用，預期可減少重新建置5G行動網路時所花費的成本以及時間。模擬實驗結果顯示，在設計好的波長配置下，本論文提出的混合式被動光網路，上行、下行以及遠端單元間相互傳輸，再採前向錯誤更正(Forward Error Correction)的傳輸誤碼率需求下，皆可成功傳輸25Gb/s的NRZ訊號，並透過功率的預算，在不考慮系統餘裕下，模擬出最長的光纖總長度為40公里，驗證了此網路架構的可行性。

Optical and Wireless Technologies: Proceedings of Owt 2020

為了解決gigabit的問題，作者 這樣論述：

Dr. Manish Tiwari received Ph.D. in Electronics and Communications Engineering (ECE) in the field of Photonics from MNIT Jaipur, India. Presently, he is Professor in Department of ECE at Manipal University Jaipur. He has been visiting researcher to City University, London under UKIERI project in Mic

rostructured Optical Fibers between 2010- 2011 and Tsinghua University, Beijing in 2016. Dr. Tiwari has presented talk in PolyU-Hong Kong, KMUT-Bangkok, Kasetsart University-Bangkok, City University- London and several UKIERI workshops. He has also served on panel of experts in various workshops by

CSTT, MHRD, Government of India. His current research interest includes Micro/Nano-structure photonic devices, nonlinear optics and photonic crystal fibers. Dr. Ravi Kumar Maddila did his Bachelors (Electronics & Communication Engineering) in 2000 from Utkal University, India. He obtained his Master

’s (Opto Electronics & Laser Technology) in 2005 from International School of Photonics, Cochin University of Science & Technology, Kochi, India. His Ph.D. on Optical CDMA codes was awarded by the G. S. Sanyal School of Telecommunications, Indian Institute of Technology (IIT) Kharagpur, India. His r

esearch interests include optical communication, integrated optics, visible light communication and daylighting. He has published more than 40 articles in various journals and conferences and is a reviewer of several journals and conferences. His publications have been cited by more than 140 article

s. He has guided two Ph.D. scholars, more than 15 M.Tech. theses and is currently supervising six Ph.D. scholars.Dr. Amit Kumar Garg is an assistant professor in department of Electronics & Communications Engineering, Indian Institute of Information Technology, Kota, India. He obtained his Ph.D. fro

m the Malaviya National Institute of Technology (MNIT), Jaipur, India in 2018. He received B.E. and M.Tech. in ECE from the University of Rajasthan and MNIT Jaipur in 2009 and 2013, respectively. His current research interest includes fiber optics and photonics including smart, flexible, energy-effi

cient and latency-aware optical access networks and high-speed gigabit passive optical networks. He also works on the latest information and communication technologies for developing smart cities, buildings, etc. He is an active member of SPIE and OSA.Dr. Ashok Kumar received his Ph.D. in Electronic

s and Communication Engineering from Rajasthan Technical University Kota, India (2019). He had completed his M.Tech. degree in Communication Stream from Malaviya National Institute of Technology Jaipur (MNIT), India (2011) and B.E. in Electronics and Communication Engineering from University of Raja

sthan, Jaipur, India (2008). Presently, he is working as Assistant Professor in the Department of Electronics and Communication Engineering at Government Mahila Engineering College Ajmer, India. He is the author/co-author of more than 50 research papers published in the refereed SCI/Scopus indexed i

nternational/national journals and conferences. His current research interest includes design and applications of microwave planar antennas, circularly polarized antennas, reconfigurable antennas, UWB antennas, VANETs etc.Dr. Preecha Yupapin received his Ph.D. degree in electrical engineering from t

he University of London, UK in 1993. He is currently the full Professor in the Computational Optics Research Group, Advanced Institute of Materials Science and member in the Faculty of Applied Sciences, Ton Duc Thang University, Ho Chi Minh City, Vietnam. He has 650 Scopus index, 15 international bo

ok editions. His current research interests are nano-devices and circuits, microring resonator, soliton communication, optical motor, quantum technologies, and quantum meditation.

基於自注入鎖定之非對稱式雙向無線光通訊之研究

為了解決gigabit的問題，作者徐哲謙 這樣論述：

本論文提出了基於自注入鎖定架構之非對稱式雙向無線光通訊系統，此系統為了改善非對稱式雙向無線光通訊系統上行傳輸功率不足的問題，在系統端以自注入鎖定技術作為提升上行傳輸功率的方式，並使用空間光調變器作為動態繞射元件，使傳輸光束產生繞射角度，達到增加用戶端移動範圍的效果。而在用戶端方面更透過設計貓眼系統作為調變式復歸反射器，將上行光束接收並調變後以平行於入射光之路徑返回系統端做接收，可以免去用戶端準值系統的設置成本等問題，進而降低用戶端的體積與重量，增加系統的可攜帶性，達成無線光通訊中的雙向傳輸。從實驗之量測結果分析得知本論文所提之架構在使用C-band光源時可以達到線寬減小 0.08 nm、調變

頻寬提升 9.82 GHz、側模抑制比為 26.58 dB、功率增益為 23 dB之效能。而鏈路速度在超過 1.5 Gbits / s的情況下進行上行與下行雙向鏈路數據傳輸，其品質因子皆超過12 dB。此外本論文亦針對目前使用軌道角動量多工技術來增加上行通道傳輸容量之非對稱式雙向無線光通訊系統所可能面臨的通道衝突等問題提出一具有OAM交換功能之節點之設計來避免上行通道衝突的問題。透過本論文所提之設計不僅將能避免OAM通道衝突之問題產生並且亦能同時達成OAM通道交換之功能，預期將能成為未來實現非對稱式雙向無線光通訊系統不可或缺之關鍵性技術。