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- 1、会议通知|GNSS电离层国际研讨会(IWGI2018)
- 2、电热水器哪个牌子好质量好又安全
1、会议通知|GNSS电离层国际研讨会(IWGI2018)
《测绘学报》
构建与学术的桥梁 拉近与权威的距离
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Background & Objectives
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- Ionospheric delay is one of main GNSS errors, which is still challenging to precisely correct and model the ionospheric error in positioning, navigation and timing (PNT). Nowadays, dual-frequency GNSS observations can precisely estimate ionoispheric delay, total electron content (TEC), electron density etc, which provide a unique opportunity to correct, monitor and understand ionospheric variations, particularly multi-GNSS, including US's GPS, Russia's GLONASS, China's BeiDou and EU's Galileo as well as regional systems, such as Japan's QZSS and India's IRNSS.
International Association of Geodesy (IAG)
German Aerospace Center (DLR)
Shanghai Astronomical Observatory (SHAO), China
Nanjing University of Information Science & Technology (NUIST)
The International Workshop on GNSS Ionosphere (IWGI2018) - Observations, Advances and Opportunities is jointly sponsored by the International Association of Geodesy (IAG), German Aerospace Center (DLR) and Shanghai Astronomical Observatory, CAS, China (SHAO). The IWGI2018 will be held on November 4-6, 2018, Shanghai, China. The IWGI2018 aims to provide a platform for GNSS scientists and engineers to communicate and exchange in GNSS ionosphere theory, methods, technologies, applications and future challenges. The IWGI2018 is open to all scientists who may have the latest results and developments in GNSS ionosphere, including ionospheric delay estimating theory, algorithms, modelling and applications in engineering and Earth/space science as well as combining multi-sensors. Manuscripts on new advances in GNSS ionosphere and space weather are also welcome.
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Sessions & Topics
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Session 1: Multi-GNSS Current Status and Advances
Session 2: GNSS Tropospheric Delay Estimation and Effects
Session 3: GNSS Ionospheric Delay Estimation and Modelling
Session 4: GNSS Ionospheric Tomography and Radio Occultation
Session 5: Ionospheric Delay Effects on Navigation and Positioning
Session 6: Ionospheric/Thermospheric Irregularities from GNSS
Session 7: GNSS Space Weather and Environment Variations
Session 8: Seismic-Ionospheric Disturbances and Warning
Session 9: Ionosphere and Space Environments from Multi-Sensors
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Sponsors
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Scientific Organizing Committee (SOC)
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Shuanggen Jin, Shanghai Astronomical Observatory, CAS, China (Chair)
Mainul Hoque, German Aerospace Center (DLR), Germany (Co-Chair)
Sergey Pulinets, Space Research Institute, RAS, Russia
Jens Berdermann, German Aerospace Center (DLR), Germany
Libo Liu, Institute of Geology and Geophysics, CAS, China
Andrzej Krankowski, University of Warmia & Mazury in Olszt, Poland
Charles Lin, National Cheng Kung University, Taiwan
Norbert Jakowski, German Aerospace Center (DLR), Germany
Yunbin Yuan, Institute of Geodesy and Geophysics, CAS, China
Yuichi Otsuka, Ins. Space-Earth Environ., Nagoya University, Japan
Yibin Yao, School of Geodesy & Geomatics, Wuhan Univrsity, China
Manuel Hernandez-Pajares, Universitat Politecnica de Catalunya, Spain
Hong Yuan, Academy of Opto-Electronics (AOE), CAS, China
Michael Schmidt, Technische Universitat Munchen (TUM), Germany
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Local Organizing Committee (LOC)
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Shuanggen Jin, Shanghai Astronomical Observatory, CAS, China (Chair)
Peng Guo, Shanghai Astronomical Observatory, CAS, China
Zhounan Dong, Shanghai Astronomical Observatory, CAS, China
Jiandong Liu, Shanghai Astronomical Observatory, CAS, China
Yang Yu, Shanghai Astronomical Observatory, CAS, China
International Workshop on GNSS Ionosphere (Nov. 5-6, 2018)
Program Handbook
Registration & Payment on-site (Nov. 4-6, 2018)
3rd floor of SHAO Building, Shanghai, China
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Abstract submission
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- Please email your abstract with Abstract_IWGI2018_xxx.doc to Mr. Jiandong Liu:
,
Registration without abstract
- Please email registration form or following information to Mr. Jiandong Liu:
First Name :_____________; Last Name: _____________; Title: _____________
Institute :_________________; Country :____________
Address:________________ ; Post code: __________
Email :_______________; Tel: _______________
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Payment Type
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Regular: 250$USD or 1500 RMB
Students: 150$USD or 1000 RMB
Payment by cash
Payment on site by Chinese Yuan, US Dollar or Euro cash
Payment by bank tranfer
Bank transfer (please note usage for IWGI2018). (English version)
Bank transfer (please note usage for IWGI2018). (Chinese version ?D??°?)
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Participants
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| Number | NAME | AFFILIATION | COUNTRY | ABSTRACT | |
| 1 | Libo Liu | Institute of Geology and Geophysics, CAS | China | Ionospheric monitoring and physics: Recent progresses in China | liul@mail.iggcas.ac.cn |
| 2 | Norbert Jakowski/M. Mainul Hoque | German Aerospace Center (DLR) | Germany | Fast and improved ionospheric correction by NTCM models using GNSS broadcast coefficients The Nighttime Winter Anomaly (NWA) effect - a persistent feature of the mid-latitude ionospheres at the American and Asian longitude sectors | Norbert.Jakowski@dlr.de |
| 3 | Volkan Akgul | Bulent Ecevit University | Turkey | High-order ionopsheric effects on GPS-estimated tropospheric delay gradients | akgulvo@gmail.com |
| 4 | Manuel Hernandez-Pajares | UPC-IonSAT, Universitat Politecnica de Catalunya | Spain | Precise ionospheric electron content monitoring from single-frequency GNSS receivers | manuel.hernandez@upc.edu> |
| 5 | Qin Peng | Shanghai University & SHAO | China | Ionospheric delay effects on significant wave height estimation from CYGNSS GNSS-R observations | 79120615@qq.com |
| 6 | Shuanggen Jin | Shanghai Astronomical Observatory, CAS | China | GNSS cloudy platform for digital space: Advances, applications and opportunities | sgjin@shao.ac.cn |
| 7 | Y. Tony Song | NASA JPL | USA | xxx | Tony.Song@jpl.nasa.gov |
| 8 | Xiaodong Qian | Shanghai Astronomical Observatory, CAS | China | Ionospheric delay correction for mean sea level change from CYGNSS GNSS-R observations | xdqian@shao.ac.cn |
| 9 | Mainul Hoque | German Aerospace Center (DLR) | Germany | Estimates of higher order ionospheric effects for GNSS signals received onboard LEO satellites | Mainul.Hoque@dlr.de |
| 10 | Andres Calabia | Shanghai Astronomical Observatory, CAS | China | Variations of thermospheric air mass density derived from GRACE accelerations and GPS POD | andres@calabia.com |
| 11 | Jiandong Liu | Shangha Astronomical Observatory, CAS | China | Wave distribution and activities in the upper Mars atmosphere from multi-satellite accelerometer observations | jd_liu@shao.ac.cn |
| 12 | Jens Berdermann | German Aerospace Center (DLR) | Germany | xxx | Jens.Berdermann@dlr.de |
| 13 | Jiuhou Lei | University of Science and Technology of China | China | xxx | leijh@ustc.edu.cn |
| 14 | Ke Su | Shanghai Astronomical Observatory, CAS | China | Evaluation of ionospheric ionospheric effects on multi-GNSS PPP performances | ksu@shao.ac.cn |
| 15 | Yuichi Otsuka | Nagoya University | Japan | xxx | otsuka@isee.nagoya-u.ac.jp |
| 16 | Liangliang Yuan | Shanghai Astronomical Observatory, CAS | China | Thermospheric mass density variations following the September 2017 geomagnetic storm from GRACE and SWARM precise orbits | 18905648099@189.cn |
| 17 | Xin Liu | Shanghai University & SHAO | China | Ionospheric disturbances following the 2011 Tohoku-Oki Tsunami from GPS observations | 990528837@qq.com |
| 18 | Chao Gao | Shanghai Astronomical Observatory, CAS | China | High-order ionospheric effects on neutral atmospheric parameters estimation from FY-3C GPS Radio Occultation | 349827456@qq.com |
| 19 | Zhonnan Dong | Shanghai Astronomical Observatory, CAS | China | 3-D water vapor tomography in Wuhan from GPS, BDS and GLONASS observations | zndongcsu@163.com |
| 20 | Charles Lin | National Cheng Kung University | Taiwan, China | xxx | charles@mail.ncku.edu.tw |
| 21 | Ershen Wang | Shenyang Aerospace University | China | Satellite Selection Algorithm for Multi-constellation GNSS Positioning | wanges_2016@126.com |
| 22 | Yuhan Liu | Shanghai University & SHAO | China | Ionospheric disturbances following the 2018 Mw=7.9 Alaska earthquake from GPS observations | inuyasha471@qq.com |
| 23 | Dasari Prasad | Andhra University | India | Longitudinal variation of GPS TEC and ROTI at equatorial and low latitude IGS stations during declining phase of Solar Cycle 24(presentation) | dsvvdprasad@gmail.com |
| 24 | Dasari Prasad | Andhra University | India | Variation of TEC over different longitudes and latitudes of North American sector during the 21st August 2017 total solar eclipse(poster) | dsvvdprasad@gmail.com |
| 25 | Virendra Patel | Sardar Vallabhbhai National Institute of Technology | India | Impact of ockhi cyclone on IRNSS/NavIC GNSS signal due to ionospheric and tropospheric variation | virendra369@gmail.com |
| 26 | Gopal Mondal | Jadavpur University | India | Ionospheric variation during El Nino and La Nina years over tropical Pacific Ocean | gopalmondal18@gmail.com |
| 27 | Feza Arikan | Hacettepe University | Turkey | Performance of IRI-Plas with GIM-TEC input as Compared to Ionosonde Data for Equinox Seasons | arikan@hacettepe.edu.tr |
| 28 | Solen Kumbay Yildiz | Hacettepe University | Turkey | Investigation of Spatio-Temporal Variability of Midlatitude Ionosphere Using GIM-TEC | solen@ee.hacettepe.edu.tr |
| 29 | K.D.Sriniuasu Vadlamurt | Andhra University | India | vkdsrinivasu@gmail.com | |
| 30 | Yue Deng | University of Texas at Arlington | USA | Large-scale traveling ionospheric disturbances (LSTIDs) and correlation with auroral activity and ion convection pattern: Comparison between GPS-TEC data and GITM simulation | yuedeng@uta.edu |
| 31 | Haiyang Fu | Fudan University | China | fuhaiyang@gmail.com | |
| 32 | Yanhong Chen | National space science center,CAS | China | Ionosphere modeling, specification and application from GNSS observation | chenyh@nssc.ac.cn |
| 33 | Shun Zhang | Shangqiu Normal University | China | Spatial and temporal patterns of ~27-day oscillation in ionospheric TEC | zhangshun@whu.edu.cn> |
| 34 | Wei Geng | National Space Science Center, CAS | China | Generation of Ionospheric Scintillation Maps over Southern China based on Kriging Method | 15201525096@163.com> |
| 35 | Yuxiang Peng | Virginia Tech Center for Space Science and Engineering Research | USA | Satellite Formation Flight Simulation Using Multi-constellation GNSS and Applications to Ionospheric Remote Sensing | yuxiang7@vt.edu> |
| 36 | Randa Natras | Department of Geodesy and Geoinformation, Vienna University of Technology | Austria | Local Ionosphere TEC Model for Bosnia and Herzegovina - Preliminary results | randa.natras1@gmail.com> |
| 37 | Randa Natras and Dzana Horozovic | Department of Geodesy and Geoinformation, Vienna University of Technology | Austria | Latitudinal and Seasonal Dependence of Geomagnetic Storm Effects on the Ionospheric TEC and Positioning Accuracy in Europe in 2015 | randa.natras1@gmail.com; dzana.horozovic@geo.tuwien.ac.at> |
| 38 | Liming He | Department of Geodesy and Geomatics, Northeastern University | China | Three-dimensional structure of ionospheric disturbance observed by dense GNSS network | heliming@mail.neu.edu.cn> |
| 39 | Zhihuai Guo | School of Geodesy and Geomatics, Wuhan University | China | The Accuracy Analysis of IRI-2016 and NeQuick2 at Antarctic Area | zihuai_Guo@163.com> |
| 40 | Zhou Chen | Institute of Space Science and Technology, Nanchang University | China | Improvement of Deep learning algorithm (DCGAN) for total electron content (TEC) maps | yuedeng@uta.edu |
| 41 | Wenfeng Nie | Institute of Space Sciences, Shandong University | China | Revisit the calibration errors on experimental slant total electron content (TEC) determined with GPS | wenfengnie@sdu.edu.cn> |
| 42 | Qingtao Wan | National Astronomical Observatories of China, Chinese Academy of Sciences | China | Analysis of GPS-TEC of the Equatorial Ionization Anomaly around 115oE longitude | qtwan@nao.cas.cn> |
| 43 | Dunyong Zheng | Hunan University of Science and Technology | China | xx | zdymath@163.com> |
| 44 | Guiwen Lan and Kaiwen Feng | College of Geomatics and Geoinformation | China | 3D Visualization of Urban Underground Pipelines with SuperMap and 3DS MAX | 290371393@qq.com> |
| 45 | Ningbo Wang | Academy of Opto-Electronics,Chinese Academy of Sciences | China | BDSMART: BDS/GNSS ionospheric Monitoring And Retrieval Terminal for ionosphere sensing | wangningbo@aoe.ac.cn> |
| 46 | Ningbo Wang and Zishen Li | Academy of Opto-Electronics,Chinese Academy of Sciences | China | Benefits of IGS RTS for real time ionospheric space weather monitoring | wangningbo@aoe.ac.cn> |
| 47 | Wei Shang | SHAO,Chinese Academy of Sciences | China | XX | 907912215@qq.com> |
| 48 | Xiaolan Wang | National Astronomical Observatories of China, Chinese Academy of Sciences | China | Comparison of global ionospheric GPS-TEC measurements with IRI-TEC | xlwang@nao.cas.cn> |
| 49 | Chendong Li | Department of Civil Engineering, the University of Nottingham | China | Further Statistical Analysis of the Correlation between Scintillation Parameters and MP&ROTI | Chendong.LI@nottingham.edu.cn> |
| 50 | Chengli She | Institute of Geology and Geophysics, Chinese Academy of Sciences | China | GNSS Ionospheric Delay Estimation from an Individual Multi-GNSS Station | certainly@mail.iggcas.ac.cn> |
| 51 | Haixia Lyu | GNSS Research Center, Wuhan University; UPC GNSS Research Center, Universitat Politecnica de Catalunya; | China/Spain | xx | haixia.lyu@upc.edu> |
| 52 | Michael Jehle | u-blox AG | Switzerland | XX | Michael.Jehle@u-blox.com |
| 53 | Yangyi Sun | China University of Geosciences (Wuhan) | China | El Nino - Southern Oscillation signature in ionosphere observed by FORMOSAT-3/COSMIC radio occultation | sunyy@cug.edu.cn |
| 54 | Kunpeng Shi | College of Geodesy and Geomatics, Shandong University of Science and Technology | China | Temporal-spatial variations of plasma electron content in high and low solar activity year | 514026949@qq.com |
| 55 | Jun Chen | School of Geodesy and Geomatics, Wuhan University | China | Modeling and analysis of a new ionospheric mapping function | cj_snake@whu.edu.cn |
| 56 | Hongda Miao | Xidian University | China | A GPU Model of the Ionosphere Based on Sami2 | 1925059579@qq.com |
| 57 | Hongda Miao | Xidian University | China | A GPU Model of the Ionosphere Based on Sami2 | 1925059579@qq.com |
| 58 | XiangXiang Yan | Hubei Subsurface Multi-scale Imaging Key Laboratory, China University of Geosciences | China | Vertical structure of the earthquake-induced ionospheric perturbations based on FORMOSAT-3/COSMIC data | yanxxcug@foxmail.com |
| 59 | Yongxing Zhu | Information Engineering University | China | Accuracy analysis of broadcasting ionospheric parameters for the latest BDS-3 experimental satellites | 18049269002@126.com |
| 60 | Weijun Lu | National Astronomical Observatories, CAS | China | A preliminary result of ionospheric TEC derivation from GPS carrier phase observations | luweijun14@mails.ucas.ac.cn |
| 61 | Guoqiang Pang | University Of Electronic Science And Technology Of China | China | A new study of ionospheric delay based on dual-frequency BeiDou reference station | GuoqiangPang15@163.com |
| 62 | Conglin Zhou | Geomatic Center of Guangxi | China | Analysis of the application of GNSS technology in seismic research | 573014033@qq.com |
| 63 | Jinghua Li | National Astronomical Observatories, CAS | China | Evaluation of the Klobuchar model in TaiWan | jhli@nao.cas.cn |
| 64 | Shuaimin Wang | Institute of Space Science, Shandong University | China | Establishment of weighted mean temperature model in the polar region | wsm1949@sina.com |
| 65 | Biao Jin | Institute: Space star technology co., LTD | China | SBAS Ionospheric Spatial Threat Model and the Integrity in China Area | 617630427@qq.com |
| 66 | Mingzhe Li | Institute of Geology and Geophysics, CAS | China | Characterization of the residual ionospheric errors in neutral radio occultation retrievals | limingzhe@mail.iggcas.ac.cn |
| 67 | Mingzhe Li | Institute of Geology and Geophysics, CAS | China | Characterization of the residual ionospheric errors in neutral radio occultation retrievals | limingzhe@mail.iggcas.ac.cn |
| 68 | Hang Liu | Xi'an University of Science and Technology | China | xx | 673290038@qq.com |
| 69 | Xiaohua Xu | School of Geodesy and Geomatics, Wuhan University | China | the Influence of the Spatial and Temporal Collocation Windows on the Comparisons of the Ionospheric Characteristic Parameters Derived from COSMIC Radio Occultation and Digisondes | xhxu@sgg.whu.edu.cn |
| 70 | Jinmei Guo | University of Electronic Science and Technology Of China | China | Estimation of Carrier Phase Deviation of Geometric-free Linear Combination of Beidou Tri-Frequency Signals for Ionospheric TEC Modeling | jinmeiguo112@163.com |
| 71 | Yue Hong | University of Electronic Science and Technology Of China | China | Evaluate and mitigate the effects of ionospheric interference on the accuracy and integrity of the BeiDou system | 2284434734@qq.com |
| 72 | Xinying Zhong | Geomatic Center of Guangxi | China | PERFORMANCE ANALYSIS OF BEIBU GULF OF GUANGXI BEIDOU NAVIGATION GROUND-BASED AUGMENTATION SYSTEM | 351942387@qq.com |
| 73 | Yong Wang | Shandong University | China/Canada | Polar cap structures and dynamics revealed by TEC keograms extracted from TEC maps | wangyong180@163.com> |
| 74 | Yong Wang | Shandong University | China | Experimental evidence on the dependence of the standard GPS phase scintillation index on the ionospheric plasma drift around noon sector of the polar ionosphere | wangyong180@163.com> |
| 75 | Pornchai Supnithi | King Mongkut's Institute of Technology Ladkrabang | Thailand | Relationship between Spread -F Events and the Rate of Total Electron Content Change Index (ROTI) in Equatorial Region at Thailand Chumphon Station, Thailand | pornchai.su@kmitl.ac.th> |
| 76 | Jiaqi Zhao and Chen Zhou | School of Electronic Information, Wuhan University | China | On the Optimal Height of Ionospheric Shell for Single-Site TEC Estimation | chenzhou@whu.edu.cn; zhaojiaqi@whu.edu.cn> |
| 77 | Dedalo Marchetti | Istituto Nazionale di Geofisica e Vulcanologia Nanjing University of Information Science and Technology, | China/Italy | Possible pre-earthquake ionospheric anomalies detected by Swarm satellites and a preliminary integration with the new CSES Zhangheng 1 satellite data | dedalo_marchetti@yahoo.it |
| 78 | Takashi MARUYAMA | National Astronomical Observatories, CAS National Institute of Information and Communications Technology | China/Japan | Precise estimation of total electron content by double thin-shell model at equatorial and low latitudes using local receiver network | tmaru@nict.go.jp |
| 79 | Jinghua Li | National Astronomical Observatories, CAS | China | Evaluation of the Klobuchar model in TaiWan | jhli@nao.cas.cn |
| 80 | Ning Wang | National Key Laboratory of Electromagnetic Environment, China Research Institute of Radio-wave Propagation | China | Observations of GPS ionospheric scintillation over Guangzhou in China during the 23rd solar cycle | wn_22s_cetc@163.com |
| 81 | Jinyun Guo | Shandong University of Science and Technology | China | xx | jinyunguo1@126.com |
| 82 | Shunrong Zhang | MIT Haystack Observatory | USA | The 2017 Great America Eclipse induced ionospheric bow waves | shunrong@mit.edu |
| 83 | Jianfeng Li | School of Earth Science and Environmental Engineering, Southwest Jiaotong University | China | Coupling Characteristics analysis for Ionospheric Storm and Geomagnetic Storm | jianfengli@my.swjtu.edu.cn |
| 84 | Guanyi Chen | Ionosphere Laboratory, School of Electronic Information, Wuhan University | China | A Statistical Analysis of Medium-scale Traveling Ionospheric Disturbances during 2014-2017 by using data from CORS Network in Hong Kong | chenguanyi@whu.edu.cn |
| 85 | Chao Xiong | GFZ German Research Centre for Geosciences Potsdam | Germany | The GPS signal interruption of Swarm satellites caused by ionospheric plasma irregularities | bear@gfz-potsdam.de |
| 86 | Shunzu Gao | Electronic Information School, Wuhan University | China | Integrated Algorithm for TEC Measurement with GPS and BDS Receivers | gaoshz@whu.edu.cn |
| 87 | Kaixuan Zhang | University Of Electronic Science And Technology Of China | China | Accurate ionospheric delay model for real time BDS base positioning of LEO satellites using horizontal VTEC gradient estimatio | shaoqiankai@foxmail.com |
| 88 | Yufei Wu | University Of Electronic Science And Technology Of China | China | Ionospheric Disturbance Monitoring Based on Convolution Neural Networks | 120020435@qq.com |
| 89 | zhengxie Zhang | University Of Electronic Science And Technology Of China | China | Real-Time Extracting Ionospheric Delays and Establishing Regional Model by CORS | 15651975330@163.com |
| 90 | Guangyuan Tan | National Space Science Center, Chinese Academy of Sciences | China | Error Analysis on NmF2 and HmF2 Parameter of IRI-2016 Model during Magnetically Quiet and Storm Periods | tgy8080@126.com |
| 91 | Weihua Bai | National Space Science Center, Chinese Academy of Sciences | China | The validation and application of ionospheric radio occultation products derived from FY3C/GNOS | bjbwh@163.com |
| 92 | Guozhu Li | Institute of Geology and Geophysics, Chinese Academy of Sciences | China | An introduction to the ionospheric observation network for irregularity and scintillation in East/Southeast Asia (IONISE) | gzlee@mail.iggcas.ac.cn |
| 93 | Jieqing Yu | School of Environment Science and Spatial Inofrmatics,China University of Mining & Technology | China | Ionospheric tomography by image reconstruction based on hybrid grids | yujieqing@cumt.edu.cn |
| 94 | Wenxiang Li | Research Institute of Electronic Science and Technology, UESTC | China | Review of Ionospheric TEC and NmF2 Perturbations Before Wenchuan Earthquake | LWX_UESTC@163.com |
| 95 | Shenwei Shi | Nanjing University of Information Science & Technology | China | xx | t1142430226@163.com |
| 96 | Jiabing Guo | Nanjing University of Information Science & Technology | China | xx | 1292196066@qq.com |
| 97 | Yiduo Wen | Nanjing University of Information Science & Technology | China | xx | 1505006362@qq.com |
| 98 | Naifeng Fu | Shanghai Astronomical Observatory, CAS | China | xx | nffu@shao.ac.cn |
| 99 | Peng Guo | Shanghai Astronomical Observatory, CAS | China | xxx | gp@shao.ac.cn |
| 100 | Mengjie Wu | Shanghai Astronomical Observatory, CAS | China | xxx | mjwu@shao.ac.cn |
| 101 | Sergey Pulinets | Space Research Institute, RAS | Russia | xxx | pulse1549@gmail.com |
| 102 | Hui Qiu | Shanghai Astronomical Observatory, CAS | China | xxx | ws2834825886@163.com |
| 103 | Michael Schmidt | Technische Universitat Munchen (TUM) | Germany | xxx | mg.schmidt@tum.de |
| 104 | Zhaoyang Hong | ShanghaiTech University & SHAO | China | xxx | 504218720@qq.com |
| 105 | Jie Chen | Xiangtan University & SHAO | China | xxx | 422061442@qq.com |
| 106 | Andrzej Krankowski | University of Warmia & Mazury in Olszt | Poland | xxx | kand@uwm.edu.pl |
| 107 | Qiang Chen | Xiangtan University & SHAO | China | xxx | 422061442@qq.com |
| 108 | Wei Shang | Shanghai University & SHAO | China | xxx | 90791215@qq.com |
| 109 | Zengji Zheng | Shanghai Astronomical Observatory, CAS | China | xxx | 13488316276@126.com |
| 110 | Bahruz Ahadov | Shanghai Astronomical Observatory, CAS | China | xxx | geofizik608@mail.ru |
| 111 | Shuhua Ye | Shanghai Astronomical Observatory, CAS | China | xxx | ysh@shao.ac.cn |
| 112 | Yang Yu | Shanghai Astronomical Observatory, CAS | China | xxx | yuyang@shao.ac.cn |
| 113 | Qinyun Zhang | Shanghai University & SHAO | China | xxx | 915424294@qq.com |
| 114 | Oufang Luo | Shanghai Astronomical Observatory, CAS | China | xxx | ofluo@hotmail.com |
| 115 | Xiaojuan Tian | Shanghai Astronomical Observatory, CAS | China | xxx | xjtian@shao.ac.cn |
| 116 | Xuerui Wu | Shanghai Astronomical Observatory, CAS | China | xxx | xrwu@shao.ac.cn |
| 117 | Mostafa S. Abd-Elbaky | Shanghai Astronomical Observatory, CAS | China | xxx | mstabdelbaky@gmail.com |
| 118 | Sheng Liu | XAO/SHAO, CAS | China | xxx | liusheng17@mails.ucas.ac.cn |
| 119 | Hugo Carreno-Luengo | Centre Tecnologic de Telecomunicacions de Catalunya (CTTC) | Spain | xxx | hugo.carreno.luengo@gmail.com |
| 120 | Chun Li | Xiangtan University & SHAO | China | xxx | 422061442@qq.com |
| 121 | Yang He | Shanghai University & SHAO | China | xxx | 1137353689@qq.com |
| 122 | Hong Lu | Institute of High Energy Physics,CAS | China | xx | luh@ihep.ac.cn |
| 123 | Ming Ou | China Research Institute of Radiowave Propagation | China | xx | ohm1122@163.com |
| 124 | Jian Feng | China Research Institute of Radiowave Propagation | China | xx | fengjian428@163.com |
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Registration & abstract submission deadline
- September 15, 2018 (Extended)
Invitation Letter for Visa deadline
September 15, 2018
Pay registration fee deadline (bank transfer)
October 20, 2018
Hotel reservation
October 31, 2018
Notification of acceptance & preliminary programme
September 30, 2018
Registration & Payment on site by Chinese Yuan, US Dollar or Euro cash
November 4, 2018
Conference time
November 5-6, 2018
Social Program
Travelling in Shanghai
Shanghai City
Travelling in China
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inviation&visa
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IWGI2018 Annoucement
Announcement
Invitation Letter
Invitation Letter
Invitation for Visa
One easy way is to apply for Tourist Visa without Invitation Letter for most countries
The other needs more detailed personal information to apply for the official authorized Invitation Letter, please send the following information to Jiandong Liu (jd_liu@shao.ac.cn) (Tel: 86-21-34775291) by September 15, 2018.
Passport copy
Full name as in passport :________________
Passport Number :_____________
Nationality :_______________
Date of Birth :_______________
Position Title :_________________(Post-Doc, Prof. or Head/Director)
Detailed Itinerary From ____ (MM) _____(DD) _______(YYYY)To ____ (MM) _____(DD) _______(YYYY)
Which city/country will you apply for the visa :_____________
Postal address (where to send this I.L.) :_______________
Contact telephone :_______________
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Student travel grants
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- Young scientists with an age below 35, who are presenting a paper or poster, can apply for a travel award at the International Association of Geodesy (IAG).
The application form with all information can be accessed here.
The deadline for application is 31 July 2018.
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Conference location
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3rd floor of SHAO Building
80 Nandan Road, Shanghai 200030, China
Map of SHAO and Hotels:
Take Metro/Subway to SHAO:
At Pudong International Airport, please take Line 2 to Century Avenue Station (êà?o′óμà??) and then trasfer line 9 to Xujiahui Station (Dì?ò????), exit at Gate 1 and then can see SHAO.
At Hongqiao International Airport/train station, please take line 10 to Jiaotong University Station (??í¨′ó?§??) and then transfer line 11 with one stop to Xujiahui Station (Dì?ò????), exit at Gate 1 and then can see SHAO.
Take a taxi to Jianguo Hotel:
Please follow the signs at the airport and find official taxi as well as ask taxi driver to take you to 80 Nandan Road, Shanghai Astronomical Observatory, CAS, Shanghai.£¨Dì??????μ¤?·80o?£?é?o£ìì??쨣?
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Contact information
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Questions on invitation letter and payment, please contact Zhounan Dong (+86-21-15116401991; zndong@shao.ac.cn)
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Full papers
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Full papers for Remote Sensing Spcial Issue on "Latest Results and Developments in GNSS Ionosphere Theory, Methods, Technologies, Applications and Future Challenges" (SCI/ISI):
All abstracts accepted and presented at the Conference (oral or poster) are welcome to submit as papers for publication in the International Journal of "Remote Sensing" Spcial Issue on GNSS Ionosphere. More submission information can be found at http://www.mdpi.com/journal/remotesensing/special_issues/IWGI_2018
Deadline of full paper submission
30 June 2019
Contacts on full paper submission
M Mainul Hoque (mainul.hoque@dlr.de)
Shuanggen Jin (sgjin@shao.ac.cn)
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《测绘学报》2018年第9期网刊发布
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权威 | 专业 | 学术 | 前沿
2、电热水器哪个牌子好质量好又安全
电热水器牌子好质量好又安全的有海尔、A.O.史密斯、万和、阿里斯顿Ariston、万家乐、美的热水器等。电热水器是指以电作为能源进行加热的热水器。它按加热功率大小可分为储水式、即热式、速热式三种。
电热水器是指以电作为能源进行加热的热水器。是与燃气热水器、太阳能热水器相并列的三大热水器之一。电热水器按加热功率大小可分为储水式(又称容积式或储热式)、即热式、速热式(又称半储水式)三种。普通速热式电热水器与双模电热水器虽然体积差不多,但内部结构却大相径庭,速热式电热水器与储水式电热水器比仅仅是体积较小,功率更大,所以在加热速度上确实比储水式电热水器更快,但它在春季、秋季都不能达到即热,还要预热,即需要等待,而双模电热水器在春、夏、秋三个季节可用即热模式,即开即热。
牌子好质量好又安全的热水器如下:
1、海尔
中国驰名商标,世界级家电品牌,中国企业500强,世界白色家电第一品牌,中国最具价值品牌之一,海尔集团公司。“安全为本”是海尔热水器的基本理念。多年以来公司秉承高科技、高品位、高差异化的企业宗旨,以国际领先的安全技术引导行业潮流,以不断创新的产品满足消费需求。像海尔超短型速热防电墙热水器(ES60H-PLUS5),使用的是第三代专利防电墙技术——防电墙3.0,不但可以实现漏电情况下的有效防电,保障用户用电安全,实时监控全屋用电环境安全、实时安全警示,还增加了防火墙专利技术。不仅能防电,还能防止因电路故障导致插头过热起火。
2、A.O.史密斯
始创于1874年美国,世界知名品牌,行业领导性品牌,最有价值品牌之一。史密斯电热水器将时尚和现代科技相结合,将使用者的需求融合到了热水器的研发中,也是热水器产品中的热门品牌。拥有漏保插头功能,针对中国普遍存在的地线隐患研发,灵敏感应地线异常,瞬间三级断电,从根源免除带电洗浴风险,保障用电安全。但使用时经常自动断电,要经常测试复位键是否正常。
3、万和
中国驰名商标,中国名牌,国家重点高新技术企业,广东省著名商标,广东名牌,广东万和新电气股份有限公司。万和电热水器采用专利双防电盾,在防电墙技术的基础上增加了防电闸技术。双防电盾既解决了水体带电问题,也解决了因线路漏电引发的安全问题。防电闸的技术原理在于IC芯片实时监控电热水器电源线的火线、零线、地线,当某种原因导致电源线任一旦路线发生异常,系统可在0.1秒内切断电源线路,防止线路漏电。其不断创新的产品更加巩固了其品牌领先的地位。
4、阿里斯顿Ariston
始创于1930年意大利,专业生产供暖和热水产品的全球领先企业,跨国公司,阿里斯顿热能产品(中国)有限公司。ARTES系列-意大利殿堂级设计师Umberto Palermo亲自执笔,颠覆性的轻薄娇小外观设计,将意大利艺术精髓完美融入产品设计中。双胆瞬热技术革新传统加热模式,带来极致速热沐浴享受。
5、万家乐
始创于1988年,中国驰名商标,中国名牌产品,国家高新技术企业,广东省名牌产品,广东万家乐燃气具有限公司。万家乐股份有限公司是“国家火炬计划重点高新技术企业”、“全国CAD应用工程示范企业”和“广东省技术创新优势企业”。拥有APS主动安全防护系统,能在干烧、超压及超温的异常情况下主动断电保护;在不停止供电的情况下,在热水器内部水温过低机器有冻坏危险时,自动加热到较低的温度,防止热水器被冻坏。深受广大消费者的好评。
6、美的
美的即热式电热水器所具有的性能是非常地优越,不但在使用安全性方面有着很好的保障,而且在节能环保方面更是有着显著化的表现,是一款性价比非常高的即热式电热水器,值得人们进行选择与信赖。
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