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Handbook of Historical Japanese Linguistics

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This volume will be the first full-length exploration in any language of the details of the history of the Japanese language written by experts in the different subfields of linguistics. Overall, while including factual and background information, the volume will focus on presenting original researc

h of lasting value. This includes presenting the latest research on better studied topics, such as segmental phonology, accent or focus constructions, as well as both introducing areas of study which have traditionally been underrepresented, such as syntax or kanbun materials, and showing how they c

ontribute to a fuller understanding of all of the history of Japanese.Chapter titlesIntroductionPart I: Individual Periods of the Japanese LanguageSection 1: Prehistory and ReconstructionChapter 1: Comparison with other languages (John Whitman, NINJAL)Chapter 2: Reconstruction based on external sour

ces: Ainu, Chinese dynastic histories, and Korean chronicles (Alexander Vovin, University of Hawai'i at Mnoa)Chapter 3: Reconstruction from the standpoint of Ryukyuan (Thomas Pellard, CNRS)Chapter 4: (Morpho)phonological reconstruction (Teruhiro Hayata)Chapter 5: Morpho(phono)logical reconstruction

(Bjarke Frellesvig, University of Oxford)Chapter 6: Towards the accentual reconstruction of Japanese (Akiko Matsumori, NINJAL)Section II: Old JapaneseChapter 7: Word order and alignment (Yuko Yanagida, University of Tsukuba)Chapter 8: What mokkan can tell us about Old and pre-Old Japanese (Takashi I

nukai, Aichi Prefectural University)Chapter 9: Eastern Old Japanese (Kerri Russell)Section III: Early Middle Japanese Chapter 10: Morphosyntax (Yoshiyuki Takayama, Fukui University)Chapter 11: Varieties of kakarimusubi in Early Middle Japanese (Charles Quinn, The Ohio State University)Chapter 12: Li

nguistic variation (Takuya Okimori)Section IV: Late Middle JapaneseChapter 13: The morphosyntax of Late Middle Japanese (Hirofumi Aoki, Kyushu University)Chapter 14: Late Middle Japanese phonology, based on Korean materials (Sven Osterkamp, Bochum University)Chapter 15: Phonology, based on Christian

materials (Masayuki Toyoshima)Section V: Modern JapanChapter 16: The social context of materials on Early Modern Japanese (Michinao Morohoshi, Kokugakuin University)Chapter 17: Meiji language, including what sound recordings can tell us (Yasuyuki Shimizu)Chapter 18: Syntactic influence of European

languages on Japanese (Satoshi Kinsui, Osaka University)Part II: Materials and WritingSection VI: WritingChapter 19: Old and Early Middle Japanese writing (James Unger, The Ohio State University)Chapter 20: The continued use of kanji in writing Japanese (Shinji Konno, Seisen University)Chapter 21: H

istory of indigenous innovations in kanji and kanji usage particularly: kokuji and wasei kango] (Yoshihiko Inui) Chapter 22: From hentai kanbun to sorobun (Tsutomu Yada)Section VII: Kanbun-based MaterialsChapter 23: Kunten texts of Buddhist provenance (Masayuki Tsukimoto, Tokyo University)Chapter 2

4: Kunten Texts of Secular Chinese Provenance (Teiji Kosukegawa)Chapter 25: Vernacularized written Chinese (waka kanbun) (Shingo Yamamoto, Shirayuri Women's University)Chapter 26: Early modern kanbun and kanbun kundoku (Fumitoshi Saito, Nagoya University)Chapter 27: A comparison of glossing traditio

ns in Japan and Korea (John Whitman, NINJAL)Chapter 28: Influence of kanbun-kundoku on Japanese (Valerio Alberizzi, Waseda University)Part III: Broader Changes over TimeSection VIII: Lexis/PragmaticsChapter 29: History of basic vocabulary (John Bentley, University of Northern Illinois)Chapter 30: Hi

story of Sino-Japanese vocabulary (Seiya Abe and Akihiro Okajima)Chapter 31: The history of mimetics in Japanese (Masahiro Ono, Meiji University)Chapter 32: The history of honorifics and polite language (Yukiko Moriyama, Doshisha University)Chapter 33: History of demonstratives and pronouns (Tomoko

Okazaki)Chapter 34: History of yakuwarigo (Satoshi Kinsui, Osaka University)Chapter 35: 'Subject-Object Merger' and 'Subject-Object Opposition' as the speaker's stance: 'Subjective Construal' as 'a fashion of speaking' for Japanese speakers (Yoshihiko Ikegami, University of Tokyo)Section IX: Phonolo

gyChapter 36: Syllable structure, phonological typology, and outstanding issues in the chronology of sound changes (Bjarke Frellesvig, Sven Osterkamp and John WhitmanChapter 37: Sino-Japanese (Marc Miyake)Chapter 38: Development of accent, based on historical sources, Heian period onwards: The forma

tion of Ibuki-jima accent (Makoto Yanaike, Keio University)Chapter 39: The Ramsey hypothesis (Elisabeth De Boer)Section X: SyntaxChapter 40: Generative diachronic syntax of Japanese (John Whitman, NINJAL)Chapter 41: On the merger of the conclusive/adnominal distinction (Satoshi Kinsui, Osaka Univers

ity)Chapter 42: Development of case marking (Takashi Nomura, University of Tokyo)Chapter 43: Loss of Wh movement (Akira Watanabe, University of Tokyo)Chapter 44: Development of delimiter/semantic particles (Tomohide Kinuhata)Chapter 45: Electronic corpora as a tool for investigating syntactic change

(Yasuhiro Kondo, Aoyama Gakuin/NINJAL)Part IV: The History of Research on JapanChapter 46: Early Japanese dictionaries (Shoju Ikeda, Hokkaido University)Chapter 47: The great dictionary of Japanese: Vocabulario ... (Toru Maruyama, Nanzan University)Chapter 48: Pre-Meiji research on Japanese (Toru K

uginuki)Chapter 49: Meiji period research on Japanese (Isao Santo) Bjarke Frellesvig, University of Oxford, UK; Satoshi Kinsui, Osaka University, Japan; John Whitman, NINJAL, Japan.

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消費者5G資費方案選擇性之分析研究

為了解決Use of electronic de的問題，作者古勝年 這樣論述：

在電信產業中世代的進步，已由4G進步到5G，擴展至今已普及5G基地建設。在各家電信業者投入大量資本在5G中，又在NCC建議下制訂出資費方案，對於提高消費者使用5G資費方案。本研究透過彙整相關文獻，挑選各大電信資費方案制訂對於消費者轉換5G意願，再進一步探討消費者轉換5G受何種負面的影響。 本論文採取Google問卷調查法，於2022年05月18日至2022年06月08日，以網路問卷進行問卷填答，總共回收有效樣本306份。本論文採用SPSS軟體進行驗證，由基本人口統計分析、信度分析、因素分析、相關分析，最後再將感知價值與基本人口統計兩者交叉分析，研究出T電信在轉換5G升級轉換程度上，大幅

領先各家電信。本研究進一步分析在各大電信修正行銷策略下，造成了感知犧牲只有微幅負面影響，有影響5G轉換意願不大，並且探討出網路速度及流量對於消費者使用意願都有正面影響。 最後，本論文將各種影響感知價值構面加以分析，給予建議給業者些許理論面和實際面的建議。

Predictive Maintenance in Smart Factories: Architectures, Methodologies, and Use-Cases

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Tania Cerquitelli has been Associate Professor at the Department of Control and Computer Engineering of the Politecnico di Torino, Italy, since March 2018. Her research activities have been mainly devoted to fostering and sharing research and innovation on automated data science and machine learning

solutions, explainable artificial intelligence strategies, and interpretable predictive and descriptive modeling techniques. Tania has designed and developed novel, scalable and general-purpose algorithms to extract new forms of knowledge patterns in different industrial settings, from robotics ind

ustry to energy-related applications. She has been serving on the program committee of some major international conferences (e.g., KDD since 2018; ECML-PKDD since 2017, ICDM since 2020) on data mining and machine learning research area. Tania is a co-editor of a Springer book titled ＂Transparent Dat

a Mining for Big and Small Data＂ with Dr Daniele Quercia and Prof. Frank Pasquale. Tania has published more than 100 scientific publications and has served as referee for many international journals. Tania has been a member of the editorial board of the Future Generation Computer Systems journal (El

sevier) and the Computer Networks journal (Elsevier) since March 2020, and a member of the editorial board of the Knowledge and Information Systems journal (Springer) since November 2020. Tania has been involved in many European and Italian research projects addressing different research issues rela

ted to machine learning and data analytics. Tania has been Professor of courses in Introduction to Databases and Business Intelligence for Big Data courses at the Politecnico di Torino since 2011. She got the master’s degree with honours in Computer Engineering (in 2003) from both Politecnico di Tor

ino, Italy, and the Universidad De Las Américas Puebla, Mexico, and the Ph.D. degree (in 2007) from the Politecnico di Torino, Italy.Nikolaos Nikolakis has been working as a Research Engineer at the Laboratory for Manufacturing Systems & Automation in the Mechanical Engineering Department of the Uni

versity of Patras (UPAT) in Greece, since 2014. His primary research activities focus on design, planning and control of production systems. He participated in various EU-funded research projects, such as Know4Car, INTERACT, SYMBIO-TIC, SERENA, Sense&Mine4.0, RAMEN and MAS4AI. He has served as a Rev

iewer in several journals (RCIM, IET, JMS, IJCIM). He holds a Diploma (M.Sc. equivalent) in Electrical & Computer Engineering from UPAT (2014), a Ph.D. in Cyber-Physical Production Systems from UPAT (2020) and an MBA from Hellenic Open University (2020).Niamh O’Mahony is Principal Research Scientist

with Dell EMC Research Europe, based in the Centre of Excellence in Ireland. Her primary research interests include building solutions that apply machine learning and AI to domains like security, networking and industrial processes and leveraging edge-to-cloud infrastructure to host those solutions

. She completed a Ph.D. in Verification Strategies for CDMA Acquisition in 2010, under joint supervision from University College Cork, Ireland, and the University of Calgary, Canada. Prior to joining Dell EMC, Niamh worked at Universidad Carlos III de Madrid as Postdoctoral Researcher, focusing on h

ealth-related applications of inertial sensors, and led the team responsible for wearable sensor data processing algorithms and applications at Shimmer, Dublin, Ireland. She has participated in various EU-funded and national research projects, such as TERAPOD, SERENA, CUTLER (H2020), SOLAS, SPARKS (

FP7), uService (ITEA 2) and COMONSENS (CONSOLIDER-INGENIO 2010).Enrico Macii was born in Torino, Italy, on February 7, 1966. He is Full Professor of Computer Engineering at Politecnico di Torino. Prior to that, he was Associate Professor (from 1998 to 2001) and Assistant Professor (from 1993 to 1998

) at the same institution. From 1991 to 1997, he was also Adjunct Faculty at the University of Colorado at Boulder. He holds a Laurea Degree in Electrical Engineering from Politecnico di Torino (1990), a Laurea Degree in Computer Science from Università di Torino (1991) and a Ph.D. degree in Compute

r Engineering from Politecnico di Torino (1995). From 2009 to 2016, he was Vice Rector for Research at Politecnico di Torino; he was also Vice Rector for European Affairs (2007-2009), Vice Rector for Technology Transfer (2009-2015) and Rector’s Delegate for International Affairs (2012-2015). His res

earch interests are in the design of electronic digital circuits and systems, with particular emphasis on low power consumption aspects. In the last decade, he has extended his research activities to areas such as energy efficiency in buildings, districts and cities, sustainable urban mobility, and

clean and intelligent manufacturing. In the fields above, he has authored over 550 scientific publications (H-index = 44, G-index = 82, total citations: 9109, most cited paper: 941 citations--Source: Google Scholar, April 29, 2019).Massimo Ippolito currently holds the position of Head of Digital Inn

ovation & Infrastructures at Comau, where he has been working since 2012. He is also Member of the Board of Directors of the European Factories of the Future Research Association (EFFRA) from 2015. Ippolito holds a Ph.D. in ＂Industrial Production Engineering＂ from Parma University and a M.Sc. in ＂Co

mputer Sciences＂ at the University of Milan. He has extensive experience in methodologies and tools for product and production system design. Since 2000, he has been involved in various international research projects in the product design and manufacturing area, ranging from methodologies for produ

ct design for manufacturing to process design for energy efficiency. From 2007 to 2012, within Centro Ricerche Fiat, he was responsible of an innovation research program related to manufacturing topics.Dr. Sotiris Makris, owns a Diploma (Degree Master of Science) in Mechanical Engineering and Aerona

utics from the University of Patras, Greece and a PhD in Engineering of the Department of Mechanical Engineering and Aeronautics, University of Patras. He worked as a Research Associate for the Laboratory for Manufacturing Systems and Automation, in the Department of Mechanical Engineering and Aeron

autics from 1997 to present. His main research interests are focused on the field of Robots, Automation and Virtual reality in Manufacturing. He is an Associate Member of the International Academy for Production Research (CIRP), a member of IFAC, a member of the European Manufacturing and Innovation

Research Association, a member of the Institute of Electrical and Electronics Engineers (IEEE) and a member of the Technical Chamber of Greece and of the Technical Chamber of Mechanical and Electrical Engineers. He has been serving as the Vice-chair of the CIRP Research affiliates from 2008 to 2011

. He is member of the European Factories of the Future Research association (EFFRA) and the European Partnership for Robotics (SPARC).He has been involved in more than fifty RTD projects funded by the EC, acting as Senior Researcher, Project and Technical Manager in major EC funded projects in the t

opic of reconfigurable and flexible manufacturing systems. He has been an Associate editor for three (3) International Scientific Journals and a reviewer for more than thirty (30) International Journals and a large number of International Conferences. He has published more than 140 articles. He has

given a number of invited talks to the Industry and several scientific presentations and invited talks in International Workshops organised by the European Commission.

用於染料敏化電池的無金屬有機染料之結構設計

為了解決Use of electronic de的問題，作者吳杰畢 這樣論述：

摘要第三代光伏的染料敏化太陽能電池 (DSSC)的興起，造成在過去的三十年中被廣泛地探索，因為它們具有的獨特特性，例如成本低、製造工藝簡單、輕巧、柔韌性好、對環境友善，並且在弱光條件下，仍具備突破性的高效率。儘管， DSSCs 依然有許多須待優化的部分，但藉由光捕獲染料光敏劑的分子結構設計，在優化 DSSCs 性能參數方面扮演關鍵的作用。因此，尋找符合DSSC需求的光敏染料，是該研究領域的關鍵研究方向之一。本論文的最終目標是在標準日照和弱光條件下，尋找高效穩定的有機光敏染料。這項工作是藉由無金屬有機光敏劑的系統結構工程來完成的，針對分子結構設計與光電特性的關聯及DSSC的效能表現。在本論文中

，我們已經合成了各種新型光敏染料，並對這些無金屬有機光敏染料進行了逐步的結構修飾，例如在單個敏化染料中引入一對輔助受體，在 D-A-π-A 框架中引入龐大的芴基實體，並增加共平面性以及延伸喹喔啉染料主要框架的共軛。通過使用各種光譜、電化學和理論計算來研究這些光敏染料的結構性質，以符合它們在DSSC主要特徵之應用前景。最後，在本論文中，我們展示了一組無金屬有機光敏劑，其元件效率高，在標準太陽照射下的效率超過 9%，在 6000 lux 的弱光照下，效率超過 30%，這將是一個具有未來發展潛力的結構設計，可以在沒有共吸附劑的情況下實現高效率。