Relevant bibliographies by topics / Wu hou, China China

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Wu hou, China China'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Wu hou, China China"

1

GOLDSCHMIDT, TOM, KANTO NISHIKAWA, SHIMPEI F. HIRUTA, and SATOSHI SHIMANO. "Description of three new water mite species of Hygrobates Koch, 1837 (Lurchibates Goldschmidt & Fu, 2011) (Acari, Hydrachnidia, Hygrobatidae), parasitic in newts of the genera Paramesotriton and Pachytriton (Amphibia, Caudata, Salamandridae) from China." Zootaxa 4768, no. 1 (April 30, 2020): 25–42. http://dx.doi.org/10.11646/zootaxa.4768.1.3.

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Males and females of three new water mite species of the genus Hygrobates Koch, 1837, subgenus Lurchibates Goldschmidt & Fu, 2011 (Acari, Hydrachnidia, Hygrobatidae) are described. The diagnosis of the subgenus is extended based upon the new material. The new species were all just found on one newt species each: Hygrobates (Lurchibates) intermedius sp. nov. Goldschmidt, Nishikawa & Shimano was collected from newts of the species Paramesotriton qixilingensis Yuan, Zhao, Jiang, Hou, He, Murphy & Che, 2014 from Jiangxi Province, China; H. (L.) robustipalpis sp. nov. Goldschmidt, Nishikawa & Shimano on Pachytriton inexpectatus Nishikawa, Jiang, Matsui & Mo, 2011 from Guizhou Province, China and H. (L.) pilosus sp. nov. Goldschmidt, Nishikawa & Shimano on Paramesotriton yunwuensis Wu, Jiang & Hanken, 2010 found in a pet shop.
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2

Keightley, David N. "Neolithic and Shang Periods." Journal of Asian Studies 54, no. 1 (February 1995): 128–45. http://dx.doi.org/10.1017/s0021911800021604.

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The common occurrence of cults of the dead in Neolithic and early Bronze Age societies around the world raises at least one major question about early Chinese religion: what factors account for the elaboration of ancestor worship in China and for the degree to which—compared to its role in other cultures—it endured? The study of Chinese religion in the Neolithic and Shang periods (ca. 4000–1050 B.C.E.) can contribute to our understanding of such matters, but the bulk of recent scholarship is inevitably and properly focused on technical analyses of sites, artifacts, rituals, and spiritual Powers. Many studies address problems of definition, such as the nature of Ti, the high god of the Shang, and his cult (Akatsuka 1977:471–537; Ikeda 1981:25–39; Eno 1990); images of T'ien (Heaven, Sky) (Hayashi 1989a); the nature of the Earth Power and its associated altar of the soil (Tai Chia-hsiang 1986); the role of sun, bird, and other totems in Neolithic and Shang belief (Hu Hou-hsüan 1977; Allan 1981; Tu Chin-p'eng 1992; Wu Hung 1985; Paper 1986; Ch'ien Chihch'iang 1988; Juyü 1991; Wang Chi-huai 1992; Xiong Chuanxin 1992; Chang Teshui 1993; Chang Wen 1994; Wang Lu-ch'ang 1994); methods and objects of sacrifice (Ikeda 1980; Ch'iu Hsi-kuei 1985; Childs-Johnson 1987; Lien Shao-ming 1989; Itō 1990; Hao Pen-hsing 1992); the religious dimensions of illness (Takashima 1980) and of settlement building (Akatsuka 1977:494–99).
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Wu, Yuping, Shiyou Guan, and Guoxiu Wang. "Preface." Pure and Applied Chemistry 84, no. 12 (January 1, 2012): iv. http://dx.doi.org/10.1351/pac20128412iv.

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In 2005 at the centennial anniversary of Fudan University, Shanghai, China, a new conference venue began [1]. This venue, the International Conference on Novel Materials and Synthesis (NMS) together with the International Symposium on Fine Chemistry and Functional Polymers (FCFP), is targeted to provide high-level academic exchange for both local and international chemists, materialists, physicists, engineers, and technologists in the fields of materials and synthesis. The year 2011 was the International Year of Chemistry, and it is well known that chemistry is an essential creative science for the sustainable development of humankind. As a result, the joint NMSVII/ FCFP-XXI event (www.nms-iupac.org), held in Shanghai, China, 16-21 October 2011, was more important than ever. The Conference received much support from IUPAC, The National Natural Science Foundation of China, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, the Science and Technology Commission of the Shanghai Municipality, and the National Basic Research Program of China (2007CB209700), and was carried out under the auspices of IUPAC. The Conference was attended by 430 participants from 40 countries and areas. The scientific program comprised 10 plenary lectures, 56 keynote lectures, 206 invited lectures, and 94 posters. Detailed, active, and lively discussions were covered by the following themes: - innovative chiral and achiral compounds - innovative bio- and biobased materials and composites - innovative polymers such as conducting, semiconducting ones, supramolecular (supermolecular, dynamers) - innovative energy systems including fuel cells, solar cells, lithium batteries, and supercapacitors - innovative nanomaterials such as 1D, 2D, and 3D nanomaterials - new ceramic materials such as superconductors, electronic, diaelectronic, ferroelectric, piezoelectric, optoelectric, and magnetic materials - new metallic materials including alloys - other novel materials including drugs, perfumes, agricultural chemicals, and photosensitive materials, displaying materials and fine ceramics; and - neutron scattering and its application in fundamental and applied research on new materials. The program served to emphasize that novel materials and their preparation are dynamic research areas that are attracting growing interest from researchers, engineers, industries, and policy-makers. Furthermore, novel materials continue to find applications that serve the needs and interests of producers and consumers. A selection of 13 papers based on specially invited presentations at NMSVII/ FCFP-XXI is published in this issue to demonstrate the quality and scope of the themes of this Conference. During the Conference, the role and contributions of this high-level academic platform to novel materials and their synthesis are well realized by the participants, sponsors, and exhibitors. In addition, the organization committee established the Distinguished Award 2011 for Novel Materials and their Synthesis along with IUPAC; Prof. Guoxiu Wang (Australia), Dr. Dr. Fusayoshi Masuda (Japan), Prof. Dr. André-Jean Attias (France), and Prof. Bao-Lian Su (Belgium) received the award for their excellent work. The IUPAC Prof. Jiang Novel Materials Youth Prize was awarded to two winners, Prof. Zhibo Li (China) and Dr. Jr-Hau He (Taiwan, China), for the first time. This will next be awarded in 2013. Three winners for the IUPAC Poster Prize were also awarded. Yuping Wu, Shiyou Guan, and Guoxiu Wang Conference Editors [1] Y. P. Wu. Pure Appl. Chem. 78 (10), iii (2006).
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4

Helmholz, P., S. Zlatanova, J. Barton, and M. Aleksandrov. "GEOINFORMATION FOR DISASTER MANAGEMENT 2020 (Gi4DM2020): PREFACE." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XLIV-3/W1-2020 (November 18, 2020): 1–3. http://dx.doi.org/10.5194/isprs-archives-xliv-3-w1-2020-1-2020.

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Abstract. Across the world, nature-triggered disasters fuelled by climate change are worsening. Some two billion people have been affected by the consequences of natural hazards over the last ten years, 95% of which were weather-related (such as floods and windstorms). Fires swept across large parts of California, and in Australia caused unprecedented destruction to lives, wildlife and bush. This picture is likely to become the new normal, and indeed may worsen if unchecked. The Intergovernmental Panel on Climate Change (IPCC) estimates that in some locations, disaster that once had a once-in-a-century frequency may become annual events by 2050.Disaster management needs to keep up. Good cooperation and coordination of crisis response operations are of critical importance to react rapidly and adequately to any crisis situation, while post-disaster recovery presents opportunities to build resilience towards reducing the scale of the next disaster. Technology to support crisis response has advanced greatly in the last few years. Systems for early warning, command and control and decision-making have been successfully implemented in many countries and regions all over the world. Efforts to improve humanitarian response, in particular in relation to combating disasters in rapidly urbanising cities, have also led to better approaches that grapple with complexity and uncertainty.The challenges however are daunting. Many aspects related to the efficient collection and integration of geo-information, applied semantics and situational awareness for disaster management are still open, while agencies, organisations and governmental authorities need to improve their practices for building better resilience.Gi4DM 2020 marked the 13th edition of the Geoinformation for Disaster Management series of conferences. The first conference was held in 2005 in the aftermath of the 2004 Indian Ocean earthquake and tsunami which claimed the lives of over 220,000 civilians. The 2019-20 Australian Bushfire Season saw some 18.6 million Ha of bushland burn, 5,900 buildings destroyed and nearly three billion vertebrates killed. Gi4DM 2020 then was held during Covid-19 pandemic, which took the lives of more than 1,150,000 people by the time of the conference. The pandemic affected the organisation of the conference, but the situation also provided the opportunity to address important global problems.The fundamental goal of the Gi4DM has always been to provide a forum where emergency responders, disaster managers, urban planners, stakeholders, researchers, data providers and system developers can discuss challenges, share experience, discuss new ideas and demonstrate technology. The 12 previous editions of Gi4DM conferences were held in Delft, the Netherlands (March 2005), Goa, India (September 2006), Toronto, Canada (May 2007), Harbin, China (August 2008), Prague, Czech Republic (January 2009), Torino, Italy (February 2010), Antalya, Turkey (May 2011), Enschede, the Netherlands (December, 2012), Hanoi, Vietnam (December 2013), Montpellier, France (2015), Istanbul, Turkey (2018) and Prague, Czech Republic (2019). Through the years Gi4DM has been organised in cooperation with different international bodies such as ISPRS, UNOOSA, ICA, ISCRAM, FIG, IAG, OGC and WFP and supported by national organisations.Gi4DM 2020 was held as part of Climate Change and Disaster Management: Technology and Resilience for a Troubled World. The event took place through the whole week of 30th of November to 4th of December, Sydney, Australia and included three events: Gi4DM 2020, NSW Surveying and Spatial Sciences Institute (NSW SSSI) annual meeting and Urban Resilience Asia Pacific 2 (URAP2).The event explored two interlinked aspects of disaster management in relation to climate change. The first was geo-information technologies and their application for work in crisis situations, as well as sensor and communication networks and their roles for improving situational awareness. The second aspect was resilience, and its role and purpose across the entire cycle of disaster management, from pre-disaster preparedness to post-disaster recovery including challenges and opportunities in relation to rapid urbanisation and the role of security in improved disaster management practices.This volume consists of 22 scientific papers. These were selected on the basis of double-blind review from among the 40 short papers submitted to the Gi4DM 2020 conference. Each paper was reviewed by two scientific reviewers. The authors of the papers were encouraged to revise, extend and adapt their papers to reflect the comments of the reviewers and fit the goals of this volume. The selected papers concentrate on monitoring and analysis of various aspects related to Covid-19 (4), emergency response (4), earthquakes (3), flood (2), forest fire, landslides, glaciers, drought, land cover change, crop management, surface temperature, address standardisation and education for disaster management. The presented methods range from remote sensing, LiDAR and photogrammetry on different platforms to GIS and Web-based technologies. Figure 1 illustrates the covered topics via wordcount of keywords and titles.The Gi4DM 2020 program consisted of scientific presentations, keynote speeches, panel discussions and tutorials. The four keynotes speakers Prof Suzan Cutter (Hazard and Vulnerability Research Institute, USC, US), Jeremy Fewtrell (NSW Fire and Rescue, Australia), Prof Orhan Altan (Ad-hoc Committee on RISK and Disaster Management, GeoUnions, Turkey) and Prof Philip Gibbins (Fenner School of Environment and Society, ANU, Australia) concentrated on different aspects of disaster and risk management in the context of climate change. Eight tutorials offered exciting workshops and hands-on on: Semantic web tools and technologies within Disaster Management, Structure-from-motion photogrammetry, Radar Remote Sensing, Dam safety: Monitoring subsidence with SAR Interferometry, Location-based Augmented Reality apps with Unity and Mapbox, Visualising bush fires datasets using open source, Making data smarter to manage disasters and emergency situational awareness and Response using HERE Location Services. The scientific sessions were blended with panel discussions to provide more opportunities to exchange ideas and experiences, connect people and researchers from all over the world.The editors of this volume acknowledge all members of the scientific committee for their time, careful review and valuable comments: Abdoulaye Diakité (Australia), Alexander Rudloff (Germany), Alias Abdul Rahman (Malaysia), Alper Yilmaz (USA), Amy Parker (Australia), Ashraf Dewan (Australia), Bapon Shm Fakhruddin (New Zealand), Batuhan Osmanoglu (USA), Ben Gorte (Australia), Bo Huang (Hong Kong), Brendon McAtee (Australia), Brian Lee (Australia), Bruce Forster (Australia), Charity Mundava (Australia), Charles Toth (USA), Chris Bellman (Australia), Chris Pettit (Australia), Clive Fraser (Australia), Craig Glennie (USA), David Belton (Australia), Dev Raj Paudyal (Australia), Dimitri Bulatov (Germany), Dipak Paudyal (Australia), Dorota Iwaszczuk (Germany), Edward Verbree (The Netherlands), Eliseo Clementini (Italy), Fabio Giulio Tonolo (Italy), Fazlay Faruque (USA), Filip Biljecki (Singapore), Petra Helmholz (Australia), Francesco Nex (The Netherlands), Franz Rottensteiner (Germany), George Sithole (South Africa), Graciela Metternicht (Australia), Haigang Sui (China), Hans-Gerd Maas (Germany), Hao Wu (China), Huayi Wu (China), Ivana Ivanova (Australia), Iyyanki Murali Krishna (India), Jack Barton (Australia), Jagannath Aryal (Australia), Jie Jiang (China), Joep Compvoets (Belgium), Jonathan Li (Canada), Kourosh Khoshelham (Australia), Krzysztof Bakuła (Poland), Lars Bodum (Denmark), Lena Halounova (Czech Republic), Madhu Chandra (Germany), Maria Antonia Brovelli (Italy), Martin Breunig (Germany), Martin Tomko (Australia), Mila Koeva (The Netherlands), Mingshu Wang (The Netherlands), Mitko Aleksandrov (Australia), Mulhim Al Doori (UAE), Nancy Glenn (Australia), Negin Nazarian (Australia), Norbert Pfeifer (Austria), Norman Kerle (The Netherlands), Orhan Altan (Turkey), Ori Gudes (Australia), Pawel Boguslawski (Poland), Peter van Oosterom (The Netherlands), Petr Kubíček (Czech Republic), Petros Patias (Greece), Piero Boccardo (Italy), Qiaoli Wu (China), Qing Zhu (China), Riza Yosia Sunindijo (Australia), Roland Billen (Belgium), Rudi Stouffs (Singapore), Scott Hawken (Australia), Serene Coetzee (South Africa), Shawn Laffan (Australia), Shisong Cao (China), Sisi Zlatanova (Australia), Songnian Li (Canada), Stephan Winter (Australia), Tarun Ghawana (Australia), Ümit Işıkdağ (Turkey), Wei Li (Australia), Wolfgang Reinhardt (Germany), Xianlian Liang (Finland) and Yanan Liu (China).The editors would like to express their gratitude to all contributors, who made this volume possible. Many thanks go to all supporting organisations: ISPRS, SSSI, URAP2, Blackash, Mercury and ISPRS Journal of Geoinformation. The editors are grateful to the continued support of the involved Universities: The University of New South Wales, Curtin University, Australian National University and The University of Melbourne.
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5

Helmholz, P., S. Zlatanova, J. Barton, and M. Aleksandrov. "GEOINFORMATION FOR DISASTER MANAGEMENT 2020 (GI4DM2020): PREFACE." ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences VI-3/W1-2020 (November 17, 2020): 1–2. http://dx.doi.org/10.5194/isprs-annals-vi-3-w1-2020-1-2020.

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Abstract. Across the world, nature-triggered disasters fuelled by climate change are worsening. Some two billion people have been affected by the consequences of natural hazards over the last ten years, 95% of which were weather-related (such as floods and windstorms). Fires swept across large parts of California, and in Australia caused unprecedented destruction to lives, wildlife and bush. This picture is likely to become the new normal, and indeed may worsen if unchecked. The Intergovernmental Panel on Climate Change (IPCC) estimates that in some locations, disaster that once had a once-in-a-century frequency may become annual events by 2050.Disaster management needs to keep up. Good cooperation and coordination of crisis response operations are of critical importance to react rapidly and adequately to any crisis situation, while post-disaster recovery presents opportunities to build resilience towards reducing the scale of the next disaster. Technology to support crisis response has advanced greatly in the last few years. Systems for early warning, command and control and decision-making have been successfully implemented in many countries and regions all over the world. Efforts to improve humanitarian response, in particular in relation to combating disasters in rapidly urbanising cities, have also led to better approaches that grapple with complexity and uncertainty.The challenges however are daunting. Many aspects related to the efficient collection and integration of geo-information, applied semantics and situational awareness for disaster management are still open, while agencies, organisations and governmental authorities need to improve their practices for building better resilience.Gi4DM 2020 marked the 13th edition of the Geoinformation for Disaster Management series of conferences. The first conference was held in 2005 in the aftermath of the 2004 Indian Ocean earthquake and tsunami which claimed the lives of over 220,000 civilians. The 2019-20 Australian Bushfire Season saw some 18.6 million Ha of bushland burn, 5,900 buildings destroyed and nearly three billion vertebrates killed. Gi4DM 2020 then was held during Covid-19 pandemic, which took the lives of more than 1,150,000 people by the time of the conference. The pandemic affected the organisation of the conference, but the situation also provided the opportunity to address important global problems.The fundamental goal of the Gi4DM has always been to provide a forum where emergency responders, disaster managers, urban planners, stakeholders, researchers, data providers and system developers can discuss challenges, share experience, discuss new ideas and demonstrate technology. The 12 previous editions of Gi4DM conferences were held in Delft, the Netherlands (March 2005), Goa, India (September 2006), Toronto, Canada (May 2007), Harbin, China (August 2008), Prague, Czech Republic (January 2009), Torino, Italy (February 2010), Antalya, Turkey (May 2011), Enschede, the Netherlands (December, 2012), Hanoi, Vietnam (December 2013), Montpellier, France (2015), Istanbul, Turkey (2018) and Prague, Czech Republic (2019). Through the years Gi4DM has been organised in cooperation with different international bodies such as ISPRS, UNOOSA, ICA, ISCRAM, FIG, IAG, OGC and WFP and supported by national organisations.Gi4DM 2020 was held as part of Climate Change and Disaster Management: Technology and Resilience for a Troubled World. The event took place through the whole week of 30th of November to 4th of December, Sydney, Australia and included three events: Gi4DM 2020, NSW Surveying and Spatial Sciences Institute (NSW SSSI) annual meeting and Urban Resilience Asia Pacific 2 (URAP2).The event explored two interlinked aspects of disaster management in relation to climate change. The first was geo-information technologies and their application for work in crisis situations, as well as sensor and communication networks and their roles for improving situational awareness. The second aspect was resilience, and its role and purpose across the entire cycle of disaster management, from pre-disaster preparedness to post-disaster recovery including challenges and opportunities in relation to rapid urbanisation and the role of security in improved disaster management practices.This volume consists of 16 peer-reviewed scientific papers. These were selected on the basis of double-blind review from among the 25 full papers submitted to the Gi4DM 2020 conference. Each paper was reviewed by three scientific reviewers. The authors of the papers were encouraged to revise, extend and adapt their papers to reflect the comments of the reviewers and fit the goals of this volume. The selected papers concentrate on monitoring and analysis of forest fire (3), landslides (3), flood (2), earthquake, avalanches, water pollution, heat, evacuation and urban sustainability, applying a variety of remote sensing, GIS and Web-based technologies. Figure 1 illustrates the scope of the covered topics though the word count of keywords and titles.The Gi4DM 2020 program consisted of scientific presentations, keynote speeches, panel discussions and tutorials. The four keynotes speakers Prof Suzan Cutter (Hazard and Vulnerability Research Institute, USC, US), Jeremy Fewtrell (NSW Fire and Rescue, Australia), Prof Orhan Altan (Ad-hoc Committee on RISK and Disaster Management, GeoUnions, Turkey) and Prof Philip Gibbins (Fenner School of Environment and Society, ANU, Australia) concentrated on different aspects of disaster and risk management in the context of climate change. Eight tutorials offered exciting workshops and hands-on on: Semantic web tools and technologies within Disaster Management, Structure-from-motion photogrammetry, Radar Remote Sensing, Dam safety: Monitoring subsidence with SAR Interferometry, Location-based Augmented Reality apps with Unity and Mapbox, Visualising bush fires datasets using open source, Making data smarter to manage disasters and emergency situational awareness and Response using HERE Location Services. The scientific sessions were blended with panel discussions to provide more opportunities to exchange ideas and experiences, connect people and researchers from all over the world.The editors of this volume acknowledge all members of the scientific committee for their time, careful review and valuable comments: Abdoulaye Diakité (Australia), Alexander Rudloff (Germany), Alias Abdul Rahman (Malaysia), Alper Yilmaz (USA), Amy Parker (Australia), Ashraf Dewan (Australia), Bapon Shm Fakhruddin (New Zealand), Batuhan Osmanoglu (USA), Ben Gorte (Australia), Bo Huang (Hong Kong), Brendon McAtee (Australia), Brian Lee (Australia), Bruce Forster (Australia), Charity Mundava (Australia), Charles Toth (USA), Chris Bellman (Australia), Chris Pettit (Australia), Clive Fraser (Australia), Craig Glennie (USA), David Belton (Australia), Dev Raj Paudyal (Australia), Dimitri Bulatov (Germany), Dipak Paudyal (Australia), Dorota Iwaszczuk (Germany), Edward Verbree (The Netherlands), Eliseo Clementini (Italy), Fabio Giulio Tonolo (Italy), Fazlay Faruque (USA), Filip Biljecki (Singapore), Petra Helmholz (Australia), Francesco Nex (The Netherlands), Franz Rottensteiner (Germany), George Sithole (South Africa), Graciela Metternicht (Australia), Haigang Sui (China), Hans-Gerd Maas (Germany), Hao Wu (China), Huayi Wu (China), Ivana Ivanova (Australia), Iyyanki Murali Krishna (India), Jack Barton (Australia), Jagannath Aryal (Australia), Jie Jiang (China), Joep Compvoets (Belgium), Jonathan Li (Canada), Kourosh Khoshelham (Australia), Krzysztof Bakuła (Poland), Lars Bodum (Denmark), Lena Halounova (Czech Republic), Madhu Chandra (Germany), Maria Antonia Brovelli (Italy), Martin Breunig (Germany), Martin Tomko (Australia), Mila Koeva (The Netherlands), Mingshu Wang (The Netherlands), Mitko Aleksandrov (Australia), Mulhim Al Doori (UAE), Nancy Glenn (Australia), Negin Nazarian (Australia), Norbert Pfeifer (Austria), Norman Kerle (The Netherlands), Orhan Altan (Turkey), Ori Gudes (Australia), Pawel Boguslawski (Poland), Peter van Oosterom (The Netherlands), Petr Kubíček (Czech Republic), Petros Patias (Greece), Piero Boccardo (Italy), Qiaoli Wu (China), Qing Zhu (China), Riza Yosia Sunindijo (Australia), Roland Billen (Belgium), Rudi Stouffs (Singapore), Scott Hawken (Australia), Serene Coetzee (South Africa), Shawn Laffan (Australia), Shisong Cao (China), Sisi Zlatanova (Australia), Songnian Li (Canada), Stephan Winter (Australia), Tarun Ghawana (Australia), Ümit Işıkdağ (Turkey), Wei Li (Australia), Wolfgang Reinhardt (Germany), Xianlian Liang (Finland) and Yanan Liu (China).The editors would like to express their gratitude to all contributors, who made this volume possible. Many thanks go to all supporting organisations: ISPRS, SSSI, URAP2, Blackash, Mercury and ISPRS Journal of Geoinformation. The editors are grateful to the continued support of the involved Universities: The University of New South Wales, Curtin University, Australian National University and The University of Melbourne.
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Cheng, L., S. X. Zhang, S. Song, C. Zheng, X. Sun, S. Feng, T. Kong, et al. "POS0458 IDENTIFICATION OF HUB GENES AND MOLECULAR PATHWAYS IN PATIENTS WITH RHEUMATOID ARTHRITIS BY BIOINFORMATICS ANALYSIS." Annals of the Rheumatic Diseases 80, Suppl 1 (May 19, 2021): 460.1–460. http://dx.doi.org/10.1136/annrheumdis-2021-eular.1938.

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Background:Rheumatoid arthritis (RA) is a chronic, inflammatory synovitis based systemic disease of unknown etiology1. The genes and pathways in the inflamed synovium of RA patients are poorly understood.Objectives:This study aims to identify differentially expressed genes (DEGs) associated with the progression of synovitis in RA using bioinformatics analysis and explore its pathogenesis2.Methods:RA expression profile microarray data GSE89408 were acquired from the public gene chip database (GEO), including 152 synovial tissue samples from RA and 28 healthy synovial tissue samples. The DEGs of RA synovial tissues were screened by adopting the R software. The Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis were performed. Protein-protein interaction (PPI) networks were assembled with Cytoscape software.Results:A total of 654 DEGs (268 up-regulated genes and 386 down-regulated genes) were obtained by the differential analysis. The GO enrichment results showed that the up-regulated genes were significantly enriched in the biological processes of myeloid leukocyte activation, cellular response to interferon-gamma and immune response-regulating signaling pathway, and the down-regulated genes were significantly enriched in the biological processes of extracellular matrix, retinoid metabolic process and regulation of lipid metabolic process. The KEGG annotation showed the up-regulated genes mainly participated in the staphylococcus aureus infection, chemokine signaling pathway, lysosome signaling pathway and the down-regulated genes mainly participated in the PPAR signaling pathway, AMPK signaling pathway, ECM-receptor interaction and so on. The 9 hub genes (PTPRC, TLR2, tyrobp, CTSS, CCL2, CCR5, B2M, fcgr1a and PPBP) were obtained based on the String database model by using the Cytoscape software and cytoHubba plugin3.Conclusion:The findings identified the molecular mechanisms and the key hub genes of pathogenesis and progression of RA.References:[1]Xiong Y, Mi BB, Liu MF, et al. Bioinformatics Analysis and Identification of Genes and Molecular Pathways Involved in Synovial Inflammation in Rheumatoid Arthritis. Med Sci Monit 2019;25:2246-56. doi: 10.12659/MSM.915451 [published Online First: 2019/03/28][2]Mun S, Lee J, Park A, et al. Proteomics Approach for the Discovery of Rheumatoid Arthritis Biomarkers Using Mass Spectrometry. Int J Mol Sci 2019;20(18) doi: 10.3390/ijms20184368 [published Online First: 2019/09/08][3]Zhu N, Hou J, Wu Y, et al. Identification of key genes in rheumatoid arthritis and osteoarthritis based on bioinformatics analysis. Medicine (Baltimore) 2018;97(22):e10997. doi: 10.1097/MD.0000000000010997 [published Online First: 2018/06/01]Acknowledgements:This project was supported by National Science Foundation of China (82001740), Open Fund from the Key Laboratory of Cellular Physiology (Shanxi Medical University) (KLCP2019) and Innovation Plan for Postgraduate Education in Shanxi Province (2020BY078).Disclosure of Interests:None declared
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Hongkang, Chi. "Vegetation mapping in China." Geobotanical mapping, no. 1994-1995 (1996): 55–58. http://dx.doi.org/10.31111/geobotmap/1994-1995.55.

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The article gives the brief outline of the history of vegetation mapping in China. Three periods in the development of Chinese vegetation cartography are distinguished. 1. The primary period (before 1957) is characterized by schematic, mostly regionalization, small-scale maps based on a physiognomic approach with few divisions of the legend. An example is the Vegetation Map of China at 1 : 18 000 000, published in 1957 which showed basic reguliarities of the geographic distribution of vegetation in China, its legend having included 13 numbers. 2. The period of maturation (from 1958 up to 1979). The extensive field investigations and rapid development of theory and methodology promoted the creation of some important cartographic works. The most significant of them are: Vegetation Map of China at 1 : 10 000 000 (Hou Hsiohyu et al., 1965), Vegetation Regionalization Map of China (Hou Hsiohyu, 1965), Vegetation Map of People s Republic of China at 1 : 4 000 000 (Hou Hsiohyu at al., 1980). These maps are notable for a great deal of various data involved, the hierarchic complex legends of almost two hundred divisions, the application of some new scientific approaches: showing the latitudinal, longitudinal and altitudinal differentiation, the edaphic variation of and the dynamic phenomena in vegetation. In this period some regional maps were published as well: vegetation maps of North-East China at 1 : 500 000 and of Zun Ge Er at 1 : 2 000 000. 3. The period of rapid and intensive development (after 1980). Owing to remote sensing technique numerous small-scale maps were prepared and published. The basic one is the Vegetation Map of China at 1 : 1 000 000. For its preparing a great deal of field materials, satellite images and literature data were involved. About 300 researches took part in this work.
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Hou, Cheng-Lin, Ying-Ren Lin, and Meike Piepenbring. "Species of Rhytismataceae on needles of Juniperus spp. from China." Canadian Journal of Botany 83, no. 1 (January 1, 2005): 37–46. http://dx.doi.org/10.1139/b04-149.

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Five species in three different genera of Rhytismataceae are described from needles of junipers from China. Hypoderma junipericola C.-L. Hou, Y.-R. Lin, & M. Piepenbr., Lophodermium jianchuanense C.L. Hou & M. Piepenbr., and Soleella junipericola C.L. Hou & M. Piepenbr. are species new to science, while Lophodermium juniperinum (Fr.: Fr.) de Not. and Lophodermium harbinense Y.-R. Lin are species already known for China. This paper provides descriptions and illustrations for these species as well as a key for the eight species of Rhytismataceae now known on junipers worldwide.Key words: Ascomycota, plant pathogens, needle cast, Rhytismatales.
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Nivison, David S., and Edward L. Shaughnessy. "The Jin Hou Su Bells Inscription and its Implications for the Chronology of Early China." Early China 25 (2000): 29–48. http://dx.doi.org/10.1017/s0362502800004260.

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Since the Jin Hou Su chime-bells from the cemetery of the Jin lords at Tianma-Qucun, Shanxi, became known to the scholarly world, the problem of the dates contained in its inscription has attracted the attention of scholars both in and outside of China. In this article we discuss two aspects of this problem. First, while the “thirty-third year” date of the inscription must certainly refer to King Xuan's reign, which is to say 795 B.C., the four full date notations of the inscription are incompatible with this year, but are instead compatible with the following year, 794 B.C. This article suggests two ways to reconcile this discrepancy. Second, while there can be no doubt that Jin Hou Su is Jin Xian Hou, the “Jin shijia” chapter of the Shi ji gives his dates of reign as 822 to 812 B.C., which is in turn incompatible with either 795 or 794 B.C. However, in the Shi ji's genealogy of Jin lords, the son of Xian Hou is Mu Hou and the grandson of Mu Hou is Zhao Hou, which contradicts the zhao-mu structure of the Zhou ancestral system. Therefore, we propose that the Shiji has reversed the order of Xian Hou and Mu Hou, such that Xian Hou's reign actually extended from King Xuan's thirty-third year through his forty-third year (795-785 B.C.). Not only does this simple change in the genealogy of the Jin lords resolve the problem of the dates in the Jin Hou Su bells inscription, but it also serves to explain an entire array of problems in the chronology of early China.
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Shen, Yu-fei. "The China affection of Ray Wu." Science in China Series C: Life Sciences 52, no. 2 (February 2009): 119–24. http://dx.doi.org/10.1007/s11427-009-0025-4.

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Dissertations / Theses on the topic "Wu hou, China China"

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Yang, Hua. "Empress Wu and her principles of appointment and dismissal of officials, 652-705 Wu Zetian de tong zhi yu yong ren zheng ce /." Click to view the E-thesis via HKUTO, 1999. http://sunzi.lib.hku.hk/hkuto/record/B31952513.

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Chau, Wai-kwan. "Empress Qi and Late Yuan politics Qi huang hou yu Yuan mo zheng zhi /." Click to view the E-thesis via HKUTO, 2005. http://sunzi.lib.hku.hk/hkuto/record/B31786352.

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Chen, Jiang. "Ming dai zhong hou qi de jiang nan she hui yu she hui sheng huo /." Shanghai : Shanghai she hui ke xue yuan chu ban she, 2006. http://www.loc.gov/catdir/toc/fy10pdf02/2008488426.html.

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Chen, Zhang. "Wu Yue zhan zheng xin tan /." View abstract or full-text, 2009. http://library.ust.hk/cgi/db/thesis.pl?HUMA%202009%20CHEN.

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Wong, Wai-yi Winnie. "A study of Empress Lu (241 B.C.-180 B.C.) Lü hou yan jiu /." Click to view the E-thesis via HKUTO, 1999. http://sunzi.lib.hku.hk/hkuto/record/B31952471.

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Li, Pei. "Sui Tang wu dai dao jiao mei xue si xiang yan jiu." Chengdu Shi : Sichuan chu ban ji tuan Ba Shu shu she, 2005.

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Ho, Mei Yuk. "Empress Lu a re-assessment = Lü hou ji qi li shi ping jia/." Click to view the E-thesis via HKUTO, 1987. http://sunzi.lib.hku.hk/hkuto/record/B31949058.

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Wu, Yong [Verfasser]. "Die betriebsbedingte Kündigung in Deutschland und China / Yong Wu." Baden-Baden : Nomos Verlagsgesellschaft mbH & Co. KG, 2019. http://d-nb.info/1192101170/34.

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Ho, Fong-lei. "A study of the imperial military examination system during the reign of the Empress Wu, 690-704 Wuzhou shi dai (690-704) wu ju zhi du yan jiu /." Click to view the E-thesis via HKUTO, 2009. http://sunzi.lib.hku.hk/hkuto/record/B4292568X.

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Yau, Ho Charles. "Restructuring Lo Wu Transtition." Hong Kong : University of Hong Kong, 2001. http://sunzi.lib.hku.hk/hkuto/record.jsp?B25949226.

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Books on the topic "Wu hou, China China"

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Zhao, Guisen. Hou fang qin wu zhi yan jiu. [Beijing: Beijing zhong xian tuo fang ke ji fa zhan you xian gong si, 2012.

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Jiajin, Zhu, Xu Qixian, Li Wenshan, Guo Fuxiang, Guan Xueling, and Yun Limei, eds. Ming Qing di hou bao xi. Beijing Shi: Zi jin cheng chu ban she, 2008.

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Fan tan bao gao: Gong he guo di yi ge fan tan wu hui lu gong zuo ju dan sheng de qian qian hou hou. Beijing Shi: Fa lü chu ban she, 2009.

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Fan tan bao gao: Gong he guo di yi ge fan tan wu hui lu gong zuo ju dan sheng de qian qian hou hou. Beijing Shi: Fa lü chu ban she, 2009.

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Ai zai Zhongguo: Wenchuan da di zhen zai hou fu wu qin li gu shi. Beijing Shi: Zhongguo she hui chu ban she, 2008.

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Shi xue ying quan: Da te wu de zui hou jie ju. Beijing Shi: Zhong gong dang shi chu ban she, 2005.

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Rothschild, N. Harry. Wu Zhao: China's only woman emperor. New York: Pearson Longman, 2008.

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Sung, Yu, Hu-pei sheng po wu kuan., and San Diego Museum of Art., eds. Ringing thunder: Tomb treasures from ancient China : selections of Eastern Zhou Dynasty material form the Hubei Provincial Museum, People's Republic of China. San Diego: San Diego Museum of Art, 1999.

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Shi du yu qing du: Zhan shi hua xue zhan yu zhan hou hua xue wu qi de chu li. Haerbin Shi: Heilongjiang ren min chu ban she, 2011.

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The novel and theatrical imagination in early modern China. Boston: Brill, 2011.

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Book chapters on the topic "Wu hou, China China"

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Yue, Daiyun. "Looking at Yangtze River Culture Through the Legend of the Goddess of Mount Wu." In China Academic Library, 233–38. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-1116-0_21.

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Tian, Felicia F., and Lin Chen. "WU, the Prestigious Path, and Initial Difference." In Higher Education and Career Prospects in China, 41–63. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-15-1510-1_3.

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von Haselberg, Clemens. "Zwischen Identifikation mit Hongkong und Rückkehr zum chinesischenFestland: Der postklassische Wuxia-Film (hou jingdian wuxia dianying 后经典武侠电影), 1980er-1990er Jahre." In Erzählen von China, 179–213. Wiesbaden: Springer Fachmedien Wiesbaden, 2019. http://dx.doi.org/10.1007/978-3-658-24858-1_6.

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Zhao, Zhiwei. "Recruiting and Managing Labour for the Global Shipping Industry in China." In The World of the Seafarer, 23–35. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-49825-2_3.

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AbstractChina’s economy has experienced dramatic growth in the last 30 years and in relation to seafaring labour supply many expected that Chinese seafarers would eventually come to dominate the world seafarers’ labour market. In fact, although the number of Chinese seafarers in the international fleet has grown steadily since the 1990s, the increase has been slower than many international shipping industry commentators and academics predicted (BIMCO/ISF 1995; Li and Wonham 1999; Sharma 2002; Wu 2004; Wu et al. 2007; Zhao 2017).
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Li, Si, Defeng Yang, and Zhouxiang Yuan. "The Design of a Check Gate in Wu Village’s Branch Canal." In Sustainable Development of Water Resources and Hydraulic Engineering in China, 241–49. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-319-61630-8_20.

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Dai, Wusan. "Tian Gong Kai Wu (《天工开物》): Heyday of Agriculture and Handicraft Industry in Ancient China." In A New Phase of Systematic Development of Scientific Theories in China, 379–413. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-7844-1_12.

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Nickel, Lukas. "China and Bactria during the reign of Emperor Wu in written tradition and in archaeology." In The Graeco-Bactrian and Indo-Greek World, 106–24. New York: Routledge, 2021. | Series: Routledge worlds: Routledge, 2020. http://dx.doi.org/10.4324/9781315108513-7.

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Schwermann, Christian. "Konfliktmanagement im antiken China. Der Han-Kaiser Wu (reg. 141– 87 v. Chr.) im Urteil von Zeitgenossen und Nachwelt." In Transkulturelle Annäherungen an Phänomene von Macht und Herrschaft, 33–60. Göttingen: V&R unipress, 2019. http://dx.doi.org/10.14220/9783737010863.33.

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Zhao, Juan, Michael Zhengmeng Hou, and Wei Xing. "Parameter Determination for the Constitutive Model Lubby2 and Strength Model Hou Based on Laboratory Tests on Rock Salt Samples from Jintan, P.R. China." In Springer Series in Geomechanics and Geoengineering, 293–304. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-37849-2_24.

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Gransow, Bettina. "“Bewitched by the History Behind the Walls”." In The City in China, 17–40. Policy Press, 2019. http://dx.doi.org/10.1332/policypress/9781529205473.003.0002.

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This chapter examines how urban sociology in and of China is interconnected in historical and disciplinary terms with Robert Park and the Chicago School. It analyses four dimensions thereof: 1) personal relations between Robert Park and Chinese students and colleagues who enabled his visit to China, namely Xu Shilian, Wu Jingchao and Wu Wenzao; 2) institutional embeddedness of the sociology departments at both the University of Chicago and Yanjing University within the funding structures and strategies of the Rockefeller Foundation in the 1920s and 1930s and amongst competing approaches to research in (urban) sociology; 3) empirical fieldwork and comparative community studies in the form of Fei Xiaotong’s research on small towns in China (early 1980s) and his conceptualization of rural urbanization which built on his earlier classic rural community study and influenced official Chinese urbanization strategies until the recent National Plan on New Urbanization (2014-2020); and 4) theorizing China’s “villages in the city” (城中村‎) in light of previous debates inspired by the Chicago School on “cities within cities” (Park 2015), the “slum” and “urban villages”. Based on these four perspectives the chapter addresses questions of legacy, creative impetus and possible limitations arising from Park’s program vis-à-vis urban sociology in China today.
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Conference papers on the topic "Wu hou, China China"

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LIU, ANTONY K., YUNHE ZHAO, and MING-KUANG HSU. "NONLINEAR INTERNAL WAVE STUDY IN THE SOUTH CHINA SEA." In Advances in Engineering Mechanics - Reflections and Outlooks - In Honor of Theodore Y.-T. Wu. WORLD SCIENTIFIC, 2005. http://dx.doi.org/10.1142/9789812702128_0022.

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Li, Guowu. "Information Philosophy in China--Professor Wu Kun 30 years of academic thinking in information philosophy." In The 4th International Conference on the Foundations of Information Science. Basel, Switzerland: MDPI, 2010. http://dx.doi.org/10.3390/fis2010-00309.

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Liang, Feng, Qingtian Lü, Danian Shi, Jiayong Yan, Zhendong Liu, Miao Yu, Bin Li, and Wang Jichun. "Deep Structural Features beneath Magnetite–apatite Deposits in the Southern Ning-Wu Volcanic Basin, Lower Yangtze River Valley, SE China: Implications for Resources Potential." In Near Surface Geophysics Asia Pacific Conference, Beijing, China 17-19 July 2013. Society of Exploration Geophysicists, Australian Society of Exploration Geophysicists, Chinese Geophysical Society, Korean Society of Earth and Exploration Geophysicists, and Society of Exploration Geophysicists of Japan, 2013. http://dx.doi.org/10.1190/nsgapc2013-152.

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Jiang, Wen. "The enlightenment of exploring the thought of learning from things("Ge Wu Zhi Zhi" )to modern education in China." In 2019 International Conference on Education Science and Economic Development (ICESED 2019). Paris, France: Atlantis Press, 2020. http://dx.doi.org/10.2991/icesed-19.2020.72.

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Wang, Liguo, Wenhu Huang, and Chao Hu. "Application of Mechanized Mathematics in Rotor Dynamics." In ASME 2001 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2001. http://dx.doi.org/10.1115/detc2001/vib-21628.

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Abstract The mechanized mathematics-Wu elimination method is a vigorous method in solving nonlinear algebraic equations in China, but it is still not so popular in the West. In this paper the mechanized mathematics-Wu elimination method is introduced in brief and is used to solve the problem of dynamic behavior of a rotor-bearing system with nonlinear supports. The whirl equations of a short bearing-rotor system with two disks considering gyro-moment are studied. The idea of the characteristic set of Wu method is combined with Maple’s symbolic calculation. The whirl parameter of a rotor mounted on two supports are analyzed. The analytical results showing the relations of the bearing parameters and instability speed are presented.
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Yan, Hong-Sen, and Kuo-Hung Hsiao. "The Development of Ancient Earthquake Instruments." In ASME 2006 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2006. http://dx.doi.org/10.1115/detc2006-99107.

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This paper studies sensing element designs in ancient seismometers and describes the developments of ancient earthquake instruments. A basic seismograph comprises a seismometer, a recording system, and a timing system. The major difficulty in the development of a seismograph was the design of the seismometer. And, the break through was the use of a pendulum system as a sensing element that responded to ground motion and did not move with the ground. Early seismoscopes were primarily intended to determine that an earthquake had happened. The first seismoscope invented by Zhang Heng was Hou Feng Di Dong Yi made in ancient China around the year 132 AD. The truly successful seismographs were first designed and built in the 1880s by a group of British scientists in Japan. In 1906, Boris Galitzin developed a working electromagnetic seismograph with a great sensitivity. Finally, a comparison with the recording systems of ancient seismographs is concluded.
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