電機資訊學院: 電信工程學研究所指導教授: 鐘嘉德張又今Chang, You-ChinYou-ChinChang2017-03-062018-07-052017-03-062018-07-052015http://ntur.lib.ntu.edu.tw//handle/246246/276045由於現今無線通訊裝置日趨普遍，頻譜成了寶貴的資源，如何提高頻譜使用效率是現今通訊重要的議題。部分響應訊號為頻譜有限訊號，因為可以達到最大的頻譜使用效率，而被廣泛的應用及研究。由於頻譜有限訊號在時域上為無限長的脈波，因此不適用於叢發傳輸。 在此篇論文，我們結合多載波調變以及先前提出的正交多速率調變提出了多載波正交多速率調變系統，藉由設計數位濾波器，可以使的正交多速率調變訊號擁有能量集中的特性，如此一來，在實做上，若使用截波訊號來取代原訊號也不會造成太大的失真，且可適用於叢發傳輸。 此外，我們針對正交多速率調變訊號的能量分布特性提出兩種截波方法，為了降低實做的複雜度，我們也提出了高效能的架構。With the increasing number of wireless communication devices, bandwidth becomes the precious resource. How to improve the bandwidth ef ciency is the important issue. Partial response (PR) signaling is bandlimited signaling. Because PR signaling can achieve maximum bandwidth ef ciency, PR signaling is widely applied to the wireless communication. However, because the impulse response of the bandlimited signal is in nite, it is not suitable for the burst transmission and low latency scenarios. In this thesis, we propose the multicarrier orthogonal multirate (MC-OMR) modulation which combines multicarrier modulation and OMR modulation which has been proposed. The MC-OMR waveform can have high energy compactness by designing the digital lter. By doing so, in practice, if the transmitted waveform is the truncation version of the MC-OMR waveform, the impact of the truncation on the data loss will be less signi cant. Therefore, the MC-OMR is suitable for the burst transmission. Moreover, according to the energy distribution property of MC-OMR signal, we propose the two truncation methods. In order to decrease the implementation complexity, we propose the ef cient structure of MC-OMR system.1369004 bytesapplication/pdf論文公開時間: 2020/8/20論文使用權限: 同意有償授權(權利金給回饋學校)多載波濾波有限頻寬傳輸部分響應信號區塊編碼截波Filter Bank Multicarrierbandlimited communicationpartial response signalingblock precodingpulse truncationthesishttp://ntur.lib.ntu.edu.tw/bitstream/246246/276045/1/ntu-104-R02942049-1.pdf