连续4届均在会后3-4个月左右完成EI检索!
第七届IEEE通信、信息系统与计算机工程国际会议(CISCE 2025)
2025 IEEE 7th International Conference on Communications, Information System and Computer Engineering
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请现场参会者填写以下统计表,以便会务组统计人数以及准备物资餐食: 【腾讯文档】CISCE 2025参会统计 https://docs.qq.com/form/page/DSWJTUEpjQXdjZHdO | |
重要信息
大会官网:www.iccisce.com
大会时间:2025年5月9-11日
大会地点:中国-广州-广州华工大学城中心酒店
二轮截稿:2025年3月28日23:59
ISBN号:979-8-3315-0161-7
接受/拒稿通知:投稿后1周左右
收录检索:IEEE Xplore, EI Compendex, Scopus
大会简介
第七届IEEE通信、信息系统与计算机工程国际会议(CISCE 2025)将于2025年5月9-11日在中国广州举行。在当前快速发展的信息时代,通信、信息系统和计算机工程领域的研究和应用已经深入到社会的方方面面。此次会议涵盖了通信技术、信息安全、大数据分析、人工智能、物联网等多个热门主题,邀请来自该领域的知名专家和学者进行主题报告,分享他们在这些领域的最新研究成果和经验,与会人员就相关主题,可进行深入讨论和交流。组委会诚挚地邀请您参与,共同探讨通信、信息系统和计算机工程领域的未来发展。
组织单位
主办单位:IEEE、广东工业大学
承办单位:广东工业大学信息工程学院、IEEE信息论学会广州分会
协办单位:湘潭大学、五邑大学
主讲嘉宾
Prof. Yonghui Li, ARC Future Fellow, IEEE Fellow School of Electrical and Information Engineering, University of Sydney, Sydney Biography: Yonghui Li is now a Professor and Director of Wireless Engineering Laboratory in School of Electrical and Information Engineering, University of Sydney. He is the recipient of the Australian Research Council (ARC)Queen Elizabeth II Fellowship in 2008 and ARC Future Fellowship in 2012. He is an IEEE Fellow and Clarivate Highly cited researcher. His current research interests are in the area of wireless communications. Professor Li was an editor for IEEE transactions on communications, IEEE transactions on vehicular technology and guest editors for several special issues of IEEE journals, such as IEEE JSAC, IEEE IoT Journals, IEEE Communications Magazine. He received the best paper awards from several conferences. He has published one book, more than 300 papers in premier IEEE journals and more than 200 papers in premier IEEE conferences. His publications have been cited more than 25000 times. Speech Title: Beyond 5G towards a Super-connected World Abstract: Connected smart objects, platforms and environments have been identified as the next big technology development, enabling significant society changes and economic growth. The entire physical world will be connected to the Internet, referred to as Internet of Things (IoT). The intelligent IoT network for automatic interaction and processing between objects and environments will become an inherent part of areas such as electricity, transportation, industrial control, utilities management, healthcare, water resources management and mining. Wireless networks are one of the key enabling technologies of the IoT. They are likely to be universally used for last mile connectivity due to their flexibility, scalability and cost effectiveness. The attributes and traffic models of IoT networks are essentially different from those of conventional communication systems, which are designed to transmit voice, data and multimedia. IoT access networks face many unique challenges that cannot be addressed by existing network protocols; these include support for a truly massive number of devices, the transmission of huge volumes of data burst in large-scale networks over limited bandwidth, and the ability to accommodate diverse traffic patterns and quality of service (QoS) requirements. Some IoT applications have much stringent latency and reliability requirements which cannot be accommodated by existing wireless networks. Addressing these challenges requires the development of new wireless access technologies, underlying network protocols, signal processing techniques and security protocols. In this talk, I will present the IoT network development, architecture, key challenges, requirements, potential solutions and recent research progress in this area, particularly in 5G and beyond 5G. |
 Prof. Feifei Gao, IEEE Fellow Department of Automation, Tsinghua University, China Biography: Feifei Gao (Fellow, IEEE) received the B.Eng. degree from Xi'an Jiaotong University, Xi'an, China in 2002, the M.Sc. degree from McMaster University, Hamilton, ON, Canada in 2004, and the Ph.D. degree from National University of Singapore, Singapore in 2007. Since 2011, he joined the Department of Automation, Tsinghua University, Beijing, China, where he is currently a tenured full professor. Prof. Gao's research interests include signal processing for communications, array signal processing, convex optimizations, and artificial intelligence assisted communications. He has authored/coauthored more than 200 refereed IEEE journal papers and more than 150 IEEE conference proceeding papers that are cited more than 18000 times in Google Scholar. Prof. Gao has served as an Editor of IEEE Transactions on Wireless Communications, IEEE Journal of Selected Topics in Signal Processing (Lead Guest Editor), IEEE Transactions on Cognitive Communications and Networking, IEEE Signal Processing Letters (Senior Editor), IEEE Communications Letters (Senior Editor), IEEE Wireless Communications Letters, and China Communications. He has also served as the symposium co-chair for 2019 IEEE Conference on Communications (ICC), 2018 IEEE Vehicular Technology Conference Spring (VTC), 2015 IEEE Conference on Communications (ICC), 2014 IEEE Global Communications Conference (GLOBECOM), 2014 IEEE Vehicular Technology Conference Fall (VTC), as well as Technical Committee Members for more than 50 IEEE conferences. Speech Title: Key Technologies and Prototype Design for Integrated Sensing and Communications System Abstract: In the future, millions of base stations (BSs) and billions of users (UEs) will natively build an integrated sensing and communications (ISAC) system, which can utilize intelligent ubiquitous methods to realize the ultimate goal of sensing, i.e., constructing the global mapping from real physical world to digital twin world, while providing communications services at the same time. For this purpose, we conduct a series of theoretical and technical researches on ISAC, in which we decompose the real physical world into static environment, dynamic targets, and various object materials. The ubiquitous static environment occupies the vast majority of the physical world, for which we design static environment reconstruction (SER) scheme to obtain the layout and point cloud information of static buildings. The dynamic targets floating in static environments create the spatiotemporal transition of the physical world, for which we design comprehensive dynamic target sensing (DTS) scheme to detect, estimate, track, image and recognize the dynamic targets in real-time. The object materials enrich the electromagnetic laws of the physical world, for which we develop object material recognition (OMR) scheme to estimate the electromagnetic coefficient of the objects. Finally, based on these theoretical researches, we build an ISAC hardware prototype platform working in millimeter wave frequency band, realizing high-precision SER, DTS, and basic OMR, which provides preliminary verification for building the digital twin for communications networks. |
 Prof Kang Li, Chair of Smart Energy Systems School of Electronic and Electrical Engineering, University of Leeds, UK Biography: Prof Kang Li holds the Chair of Smart Energy Systems and the Director of the Institute of Communication and Power Networks at School of Electronic and Electrical Engineering, University of Leeds. His recent research interest lies in the development of machine learning and control technologies to support transport decarbonization, funded by over 50 research projects, totaling £20M. He has published over 200 papers in international journals, winning 20 prizes and awards, and has been invited to give over 100 keynotes and invited talks worldwide. Speech Title: Machine Learning in Green Transportation – Some Case Studeis Abstract: The transport decarbonization increases the coupling of the transport and energy systems, demanding a holistic and data-driven approach to manage and operate the systems with increased complexity. This talk presents several case studies in the application of machine learning techniques in holograph based state estimation and management of electric vehicles in complex urban traffic environments. |
往届检索情况
CISCE会议前几届均已顺利见刊检索,CISCE 2024 /CISCE 2023 /CISCE 2022/ CISCE 2021 均在会后3-4个月即完成检索,会议历史良好!以下为往届会议数据库检索历史, 供参考:
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CISCE 2024-IEEE Xplore CISCE 2024-EI Compendex CISCE 2024-Scopus
CISCE 2024 | IEEE Xplore 丨EI Compendex丨Scopus
CISCE 2023 丨IEEE Xplore 丨EI Compendex丨Scopus
CISCE 2022 丨IEEE Xplore 丨EI Compendex丨Scopus
CISCE 2021 丨IEEE Xplore 丨EI Compendex丨Scopus
CISCE 2020 丨IEEE Xplore 丨EI Compendex丨Scopus
CISCE 2019 丨IEEE Xplore 丨EI Compendex丨Scopus
征稿主题
通信技术 | 信息系统 |
•5G/6G通信系统与网络 •无线通信与移动网络 •光纤通信与光网络 •卫星与空间通信 •通信信号处理与编码 •无线传感器网络 •物联网(IoT)通信协议 •车联网(V2X)通信技术 •量子通信与安全 | •大数据处理与管理 •数据挖掘与知识发现 •云计算与边缘计算 •分布式系统与并行处理 •信息检索与推荐系统 •信息安全与隐私保护 •区块链技术与应用 •数字图书馆与档案管理 •企业资源规划(ERP)系统 |
| 计算机工程 | 跨学科融合 |
•人工智能与机器学习 •计算机视觉与模式识别 •自然语言处理与理解 •人机交互与用户体验 •嵌入式系统与实时操作系统 •计算机体系结构与高性能计算 •软件工程与敏捷开发 •生物信息学与计算生物学 •绿色计算与可持续信息技术 | •智慧城市与智能交通 •工业4.0与智能制造 •电子健康与远程医疗 •教育信息化与在线学习 •环境监测与灾害预警 •社交媒体分析与舆情监控 •虚拟现实(VR)与增强现实(AR) |
EI会议论文投稿
CISCE 2025所有的投稿都必须经过2-3位组委会专家审稿,经过严格的审稿之后,会议所录用论文将由IEEE(ISBN:979-8-3315-0161-7)出版,出版后提交 EI Compendex, Scopus检索。
投稿注意事项:
◆ 会议仅接受全英稿件。如需翻译服务,请联系会议老师。
◆ 论文应具有学术或实用价值,未在国内外学术期刊或会议发表过。发表论文的作者需提交全文进行同行评审,仅做报告不发表论文,只需提交摘要。
◆ 作者可通过CrossCheck, iThenticate或其他查询系统自费查重,否则由文章重复率引起的被拒稿,将由作者自行承担,涉嫌抄袭的论文将不被出版。
◆ 论文格式需按出版社要求的模板进行排版,会议论文模板下载→ 前往“会议资料”查看
◆ EI会议的稿件排版后不得少于4页。
◆ 投稿流程全程在艾思科蓝线上完成,可点击下方图标直达投稿页面
期刊推荐
 | 我们很高兴向大家推荐Information Systems期刊。本次大会的优秀稿件将会被推荐到该期刊投稿。
Information Systems (ISSN: 0306-4379) 是一本经过同行评审的混合出版期刊,发表有关信息系统语言、数据模型、过程模型、算法、软件和硬件的设计和应用的文章,由爱思唯尔(Elsevier)出版。
l 高可见性:收录于Science Citation Index Expanded (SCIE)、Ei Compendex、Scopus等国际知名数据库 l 期刊排名:JCR – Q2(Information Systems)/ CiteScore - Q1(Hardware and Architecture, Information Systems, Software)/ CAS -Q2(Information Systems) l 快速出版:手稿经过同行评审,在提交后5天向作者提供初步决定;审稿时间113天;投稿到接收253天;接收后6天见刊发表(数据为平均值,源自期刊官网) l 最新影响因子:3(2023);5年影响因子:2.9(2023) |
会议议程
| 日期 | 时间 | 内容 |
| 2025年5月9日 | 13:00-17:00 | 报名注册 |
| 2025年5月10日 | 09:00-12:00 | 大会主题报告 |
| 12:00-14:00 | 午餐时间 | |
| 14:00-17:30 | 口头报告 | |
| 18:00-19:30 | 晚宴 | |
| 2025年5月11日 | 09:00-18:00 | 学术考察活动 |
酒店信息
第七届IEEE通信、信息系统与计算机工程国际会议(CISCE 2025)将于2025年5月9-11日在广州华工大学城中心酒店举行。具体酒店信息和预定方式如下:
Ⅰ广州华工大学城中心酒店:
酒店官网:查看
酒店电话:+86-20-39388888-1
酒店地址:广州番禺区华工北路68号华南理工大学北门
>> 大床房:420元 含1张床/无线网络/1份早餐
>> 双床房:420元 含2张床/无线网络/ 2份早餐
Ⅱ. 房间预定方式:
1. 可编辑短信“ CISCE2025 +姓名+入住日期+退房日期+房型+入住人数”,发送至13560247991(梁经理)。
2.
2. 请勿重复预定。请尽快在5月6日前完成预定(逾期无法保证房间安排,需视酒店房态而定),如有变动或取消预定需提前一周告知酒店经理。酒店费用将由酒店直接收取并开具发票。
Ⅲ. 交通指南:
*广州白云国际机场:53 km,70mins
*广州南站:25km,40mins
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注册费用
| 类别 | 注册费(人民币) |
| 早鸟(2025年3月25日前投稿) | 3600RMB/篇(双栏4页) |
| 投稿(双栏4页) | 4200RMB/篇 |
| IEEE会员/学生投稿(双栏4页) | 3900RMB/篇 |
| 超页费(第5页起算) | 400RMB/页 |
| 仅参会不投稿 | 1800RMB/人 |
| 仅参会不投稿(团队) | 1500RMB/团队参会3人以上 |
| 加购论文集 | 500RMB/本 |
* 早鸟价、老客户/学生优惠价需提前联系会议老师出示证件并改价,优惠不可叠加使用。
退款须知
如果与会者因个人原因要求取消会议并退款,适用以下退款政策。
*在会议召开前60天。退还70%的款项
*会议前30-60天。50%的款项退款
*会议前30天内。退还30%的款项
*会议结束后:不退款
取消和退款请求必须通过电子邮件正式提出。组委会保留因不可抗力而改变会议日期和地点的权利。因不可抗力事件造成的损失不承担任何责任,退款政策也不适用。
参会须知
CISCE 2025开设口头演讲/海报展示/听众参会三种方式,专家学者可选其中一种进行报名参会,会后均可领取参会证明(投稿作者,待论文录用后可享一名作者免费参会名额)
1、口头演讲:申请口头报告,时间为10-15分钟;
2、海报展示:制作A1尺寸彩色海报,线上/线下展示;
3、听众参会:不投稿仅参会,可与现场嘉宾/学者进行交流互动。
汇报PPT和海报,请于会议前一周提交至大会邮箱 (iccisce@163.com)
本会议由艾思科蓝支持在线报名,可点击以下链接报名参会:
联系我们
联系手机(微信同号):15217204403 咨询邮箱:iccisce@163.com QQ咨询:3309133821 添加微信 备注“CISCE咨询” | 联系手机(微信同号):18922115477 咨询邮箱:iccisce@163.com QQ咨询:1357553551 添加微信 备注“CISCE咨询” | 其他联系方式 |
吴老师(邀请码W588) |
黄老师(邀请码H8213) |  |
