• 别称泉城、齐州、泺邑。济南市是国家历史文化名城,因地处古四渎之一“济水”之南而得名,济南因境内泉水众多,拥有“七十二名泉”,素有“天下第一泉”和“四面荷花三面柳,一城山色半城湖”的美誉。济南是拥有“山、泉、湖、河、城”独特风貌的旅游城市。

  • 济南大学位于山东省济南市,是山东省人民政府和教育部共建的综合性大学,首批山东省应用型人才培养特色名校、教育部“卓越工程师教育培养计划”高校、全国首批深化创新创业教育改革示范高校,入选国家“111计划”、国家级新工科研究与实践项目、国家级工程实践教育中心、为“一带一路”智库合作联盟理事单位。

  • 大明湖历史悠久,纪念古人政绩、行踪的建筑以及自然景观很多,诸如历下亭、铁公祠、小沧浪、北极阁、汇波楼、南丰祠、遐园、稼轩祠等,引得历代文人前来凭吊、吟咏。唐代以后的历代诗人,都留下了著名的诗篇。

  • 趵突泉,北临泺源堂,西傍观澜亭,东架来鹤桥,南有长廊围合。泉水从地下石灰岩溶洞中涌出,每天涌出7万立方米泉水,泉水有三个出水口,最大涌水量为16.2万立方米/天,趵突泉水一年四季恒定在18℃左右。

  • 千佛山古称历山。隋朝年间,山东佛教盛行,虔诚的教徒依山沿壁镌刻了为数较多的石佛,建千佛寺而得名千佛山。 登上一览亭,凭栏北望,近处大明湖如镜,远处黄河如带,泉城景色一览无遗。

  • 作为鲁菜发源地,大到九转大肠、黄河鲤鱼,小到油旋、甜沫,济南有无数拿的出手的美食。但只有把子肉,是所有济南人的心头肉,五花大绑,虽经炙烤却香而不腻,早已成为市民与游客餐桌上的下饭神器。

The 17th IWCFTA, Jinan, China, 25th-27th October, 2024 <--Click To Enter(点击进入)


The International Workshop on Complex-systems for Future Technologies and Applications (IWCFTA) will be the successor of the formerly successfully series of International Workshop on Chaos-Fractals Theories and Applications. The new workshop will cover topics beyond Chaos and Fractal Theory to general complex systems which are abundant in modern society.

With the exploration and research of natural science, great progress has been made in the study of complex systems. Recently, represented by complex networks, chaos and fractal theory, nonlinear science provides new horizons and tools for the research in the fields of cryptography, signal processing, multimedia, communication systems, biology and economic systems. Adhering to the tenet of the previous sixteen conferences, the 17th IWCFTA aims to provide a high-level international forum for scientists, scholars, researchers and engineers at home and abroad to exchange and discuss the latest discoveries of complex systems theory and its applications in various fields, including informatics.

It will provide a high-level international forum for researchers and scholars to present the latest research results and discuss trends in complex systems and interdisciplinary scientific fields. The purpose of the conference is to discuss the most relevant theories and approaches to understanding, modelling, simulating, predicting, evaluating and mastering various Scientifical, Societal, Ecological, Biological and Engineered Complex Systems.