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題名 | 5G毫米波接取技術與挑戰=5Gmm-Wave Radio Access Technologies and Its Challenges |
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作者姓名(中文) | 陳文江; | 書刊名 | 電腦與通訊 |
卷期 | 162 2015.06[民104.06] |
頁次 | 頁16-21 |
專輯 | 5G:先進通訊技術探討專輯 |
分類號 | 448.84 |
關鍵詞 | 毫米波; 路徑傳輸損失; 雨中傳輸衰減; 傳輸損失; 多重輸入與多重輸出; 載波聚合; mm-Wave; Path loss; Rain fading; Propagation loss; Multiple-Input-Multiple-Output; MIMO; Carrier aggregation; |
語文 | 中文(Chinese) |
中文摘要 | 隨著各種多媒體應用在手機平台的普及,手機用戶對於頻寬需求也越來越大。世界許多國家包括政府與通訊大廠都已針對下世代第五代行動通訊的相關技術與標準積極投入,預計在 2018年完成標準的制定, 2020年商用推廣。目前 METIS (Mobile and wireless communications Enablers for the Twenty-twenty Information Society)已針對第五代行動通訊在 2020年之後的使用情境與技術需求完成討論,有鑒於現行 4G標準中相關技術已經將頻譜效率推近至理論極限,增加頻寬勢必無可避免。由於目前微波頻段已經相當擁擠,要獲取更大頻寬,毫米波頻段成為一熱門選項。在綜合空氣吸收率、波段使用現況以及可用連續頻寬之考量,38GHz被選為工研院 5G計畫的操作波段。雖然38GHz頻段能提供相當大的頻寬,但也包含許多新的技術與挑戰。 |
英文摘要 | As the population of variant multi-media applications on mobile phones, user terminal demands wider and wider bandwidth for it. Many main communication companies in the world-wide have devoted actively into the related technologies and standardization of 5G. It is planned to finalize the standardization of 5G by 2018 and to be commercialized from 2020. METIS has finished the discussion and definition of 5G scenario and technology needs. Since in the current 4G standard, the spectral efficiency has been pushed to approach the theoretical limit, it is inevitably to increase the bandwidth to achieve the defined peak data rate. And since the spectrum in the microwave band has been very crowded, mm-wave band is an important option to get the wide enough bandwidth. In the consideration of absorption rate of O2 and H2O, the available continuous spectrum and the path loss, 38GHz band is chosen as the potential operation band of ITRI’s 5G project. Although it can get the enough bandwidth in the 38GHz band, it also induces a lot of new technology challenges. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。