1,722,060 research outputs found
Min shi lu
No full textAn enlargement of the compiler's Quan Min shi lu of which only the section Guo zhao shi lu was previously published.Five additional parts were projected but never published.Incomplete copy of an edition in 5 parts: Jia ji 6 juan 2 ji 4 juan bing ji 23 juan ding ji 1 juan wu ji 7 juan.Mode of access: Internet
Fan Wenzheng gong po yang yi shi lu
No full text卷一至二. 奏議 -- 卷三. 狀 -- 子 -- 卷四. 表 -- 卷五. 賦 -- 卷六至七. 詩 -- 詩餘 -- 卷八. 序 -- 記 -- 易義 -- 說 -- 論 -- 贊 -- 頌 -- 述 -- 卷九. 書 -- 啟 -- 卷十. 尺牘 -- 家書 -- 卷十一. 祭文 -- 碑銘 -- 墓誌銘 -- 卷十二. 墓誌銘 -- 墓表 -- 書碑陰 -- 附錄: 范文正公年譜序.Juan yi zhi er. Zou yi -- juan san. Zhuang -- Zi -- juan si. Biao -- juan wu. Fu -- juan liu zhi qi. Shi -- Shi yu -- juan ba. Xu -- Ji -- Yi yi -- Shuo -- Lun -- Zan -- Song -- Shu -- juan jiu. Shu -- Qi -- juan shi. Chi du -- Jia shu -- juan shi yi. Ji wen -- Bei ming -- Mu zhi ming -- juan shi er. Mu zhi ming -- Mu biao -- Shu bei yin -- fu lu: Fan Wenzheng gong nian pu xu.毛一鷺彙編.綫裝, 1函.框21.5x15公分, 9行20字, 小字雙行同. 白口, 四周單邊, 無魚尾. 版心上鐫題名, 中鐫卷次, 下鐫葉次及字數.毛序後鐫"天啟二年[1622]冬華亭縣學門人唐造國謹百拜書"見《香港中文大學圖書館古藉善本書錄》(2001, p. 223)前附: 范文正公鄱陽遺事錄 / 毛一鷺彙編.鈐有"北海狂士合清齋主人之印", "京兆禎夫", "禹山人", "隨齋", "大觀樓藏書", "蕭艾室藏"印.Xian zhuang, 1 han.Kuang 21.5 x 15 gong fen, 9 hang 20 zi, xiao zi shuang hang tong. Bai kou, si zhou dan bian, wu yu wei. Ban xin shang juan ti ming, zhong juan juan ci, xia juan ye ci ji zi shu.Mao xu hou juan "Tian qi er nian [1622] dong Huating Xian xue men ren Tang Zaoguo jin bai bai shu"Jian "Xianggang Zhong wen da xue tu shu guan gu ji shan ben shu lu" (2001, p. 223)Mao Yilu hui bian.Qian fu: Fan Wenzheng gong po yang yi shi lu / Mao Yilu hui bian.Qian you "Beihaikuangshi He qing zhai zhu ren zhi yin", "Jing zhao zhen fu", "Yu shan ren", "Sui zhai", "Da guan lou cang shu", "Xiao Ai shi cang" yin
Zhongqu shi lu
No full text李齊賢撰. 仲瞿詩錄 / 王曇撰 ; 徐渭仁輯.Date from preface.框13.1 x 9.1 cm., 9行21字, 黑口, 左右雙邊, 無魚尾, 版心中鐫分冊書名, 下鐫叢書名.Li Qixian zhuan. Zhongqu shi lu / Wang Tan zhuan ; Xu Weiren ji.Kuang 13.1 x 9.1 cm., 9 xing 21 zi, hei kou, zuo you shuang bian, wu yu wei, ban xin zhong juan fen ce shu ming, xia juan cong shu ming
Shanghai Xian zhong yi xiao di ci xing shi lu /
No full textSpecial collection from London Missionary Society.; On double leaves, oriental style, in case.; Also available in an electronic version via the Internet at http://nla.gov.au/nla.gen-vn1911398.880-02 Zhong yi xiao di ci xing shi lu
Geoff Wade (tr.) Southeast Asia in the Ming Shi-lu : An Open Access Resource
No full textPtak Roderich. Geoff Wade (tr.) Southeast Asia in the Ming Shi-lu : An Open Access Resource. In: Archipel, volume 70, 2005. pp. 309-312
Geoff Wade (tr.) Southeast Asia in the Ming Shi-lu : An Open Access Resource
No full textPtak Roderich. Geoff Wade (tr.) Southeast Asia in the Ming Shi-lu : An Open Access Resource. In: Archipel, volume 70, 2005. pp. 309-312
Molecular transceiver design and performance study in diffusive molecular communications
No full textMolecular communication (MC) is inspired by the nature, where chemical or biological molecules are used to transmit information instead of electronic or electromagnetic signals in the traditional wireless communications. Due to non toxic material and possible energy-efficient signal propagation, MC has been recognised to be the naturally fitting methods to provide communication inside the living bodies and other biological environments, including the applications in biomedical, industrial and consumer goods, military, environmental, etc. In this thesis, we focus on the diffusion-based molecular communication (DMC), where information molecules are only driven by the Brownian motion. In this thesis, we first provide an introduction for the research and development of DMC, as well as address the background in the research and development of DMC, including channel model, modulation schemes, receiver design, detection algorithm and multiple access technique. Based on the background, we realize that there is strong inter-symbol interference (ISI) in DMC systems due to the slow propagation speed and random movements of information molecules. Furthermore, it can be shown that on-off keying (OOK) modulation is lack of the capability to reduce ISI effect and is also hard to implement in practice. On the other hand, binary molecule shift keying (BMoSK) is a promising modulation technique, which employs some embedded capability to reduce ISI. Therefore, in this thesis we first propose a low-complexity ISI cancellation (ISIC) to improve the performance of DMC systems with either OOK or BMoSK modulation. In order to investigate the achievable performance of the DMC systems with OOK and BMoSK modulation and with/without ISIC, we then analyse the bit-error rate (BER) performance of DMC systems by introducing different analytical approaches. Specifically, we first consider the Poisson modelling of the DMC systems as the exact approach to analyse the BER of the DMC systems with OOK or BMoSK modulation. Then, the Gaussian and Gamma approximation approaches are introduced to reduce the computation complexity. Moreover, the simplified Poisson, simplified Gaussian and MonteCarlo approaches are proposed to further reduce the computation burden for BER. We demonstrate that all the approximation and simplified approaches can provide near-accurate estimation of the BER performance of DMC systems. As ISI is a main factor affecting the performance of DMC systems, following the above studies, a range of linear equalisers, including matched-filter (MF), zero-forcing (ZF) and minimum mean- square error(MMSE) equalisers, are introduced to the BMoSK-modulated DMC systems, in order to mitigate the effect of ISI. Our studies show that ZF and MMSE equalisers can significantly reduce the effect of ISI. Furthermore, we propose and study a molecular code-division multiple access (MoCDMA) systems with BMoSK modulation, in order to allow multiple nano-machines to simultaneously communicate with an access-point receiver. We mirror the proposed MoCDMA to the conventional radio-based CDMA with binary phase-shift keying (BPSK) modulation, based on which we derive the various expressions for received signals, so that the information conveyed by different nano-users can be flexibly detected on either symbol-by-symbol or block-by-block basis. For signal detection in MoCDMA systems, a range of detectors are proposed, which include the symbol-based, block-based and frequency-domain detectors that are operated in the principles of MF, ZF, and MMSE. Furthermore, the performance of the MoCDMA systems with various detection schemes is studied and compared, showing that the MoCDMA with these detection schemes are capable of providing required communications in multiple user environments. Finally, we conclude the thesis and propose some possible future research issues
Equalisation and performance of diffusive molecular communication systems with binary molecular-shift keying modulation
No full textThis study investigates the equalisation techniques for the diffusive molecular communication (DMC) systems with binary molecular-shift keying (BMoSK) modulation, referred to as the BMoSK-DMC systems, in order to mitigate the effect of inter-symbol interference (ISI). The authors first show that in terms of receiving equalisation, a BMoSK-DMC system is in fact equivalent to a conventional binary phase-shift keying modulated radio communication system encountering ISI. Hence, a wealth of equalisation techniques developed with the conventional radio communication systems may be introduced for equalisation of BMoSK-DMC signals. However, considering the limited capability of molecular transceivers on computation and storage, in this study, the authors investigate only the linear equalisers (LEQ) in the principles of matched-filtering, zero-forcing (ZF) and minimum mean-square error (MMSE). They characterise the effects of the different aspects related to DMC signalling and propagation on the achievable performance of the BMoSK-DMC systems with these LEQ. Their studies and performance results demonstrate that both the ZF- and MMSE-LEQ are capable of efficiently suppressing the ISI and attaining promising performance, while still have low-complexity to facilitate implementation
Error performance analysis of diffusive molecular communication systems with on-off keying modulation
No full textIn this paper, we analyze the bit error rate (BER) of the diffusive molecular communication (DMC) systems employing on-off keying (OOK) modulation. We also analyze the BER of the OOK-modulated DMC systems with inter-symbol interference cancellation (ISIC). Our main motivation is to introduce alternative tools for analyzing and efficiently computing the BER of the DMC systems without or with ISIC. Specifically, for the OOK-modulated DMC systems without ISIC, we first derive an exact BER expression based on the Poisson modeling of DMC systems. Then, the Gaussian- and Gamma-approximation approaches are introduced to approximate the discrete Poisson distribution, and based on the approximation approaches, the corresponding BER expressions are derived. Furthermore, in order to reduce the computation complexity imposed by long ISI, we propose the Monte-Carlo, simplified Poisson, simplified Gaussian and the simplified Gamma approaches for BER computation. In the context of the OOK-modulated DMC systems with ISIC, we consider both the Poisson and Gaussian-approximation approaches for BER analysis. Again, exact and approximate BER expressions are derived under the Poisson, Gaussian-approximation, simplified Poisson and simplified Gaussian approaches. Finally, the considered approaches are compared and validated by a range of performance results obtained from evaluation of the derived expressions or by simulations. Our studies show that the alternative approaches are in generaleffective for providing near-accurate BER estimation
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