"

没错儿，就是他 ↑

"

"

"

百因必有果

你的报应就是我

这位大佬是什么样的灵感

让他总结了这样一套理论的呢？

我们就不得而知了

"

"

"

"

"

"

cybertruck

特斯拉新推出的赛博皮卡

发布会车窗检测时

发生了上图的事情

"

"

emmm......

"

服务器计算中

请稍后

预计时间

2000小时......

----第二期----

"

"

"

这是传感器↓

"

"

"

"

黑客帝国-尼奥↓

"

"

----第三期----

在很久很久以前

（其实也没有多久）

兔子和老鹰有过一段

如胶似蜜的岁月时光

在这期间

老鹰邀请了一批兔子

到家里参观学习

而老鹰家里的大船

也让当时的兔子羡慕不已

"

光阴似箭 岁月如梭

历史的车轮碾过了无数人的脸

但也让前辈们种下的希望

破土出芽

开花结果

……

"

"

"

除了这些

最令人振奋的

无疑是当年“山东舰”的成果落水

中国

也终于有了自己的航母

而在航母的建造中

数字孪生技术

也有着丰富应用

"

将军，您再也不用垫脚看别人家的航母了！

"

"

"

"

"

"

"

----第四期----

任何科学理论从研究到应用

总是会伴随着无数的坎坷

对于数字孪生来说

目前挡在我们面前的

是“四大拦路虎”

理论挑战 ↓

"

信任挑战 ↓

"

管理挑战 ↓

安全挑战 ↓

"

"

对工业领域来讲

数字孪生体系是一套可以

嫁接到任何设备上的功能模块

其实目前很多智能制造设备的部分设备

已经有了数字孪生体系的影子

只是没有达到预想中

数字孪生体系的完整可靠而已

对于我们国家这样

全世界唯一一个

覆盖工业全产业链的国家来说

科研与科技的投入也在每年不断的加大

对于数字孪生来说

能达到的未来高度

也绝不仅仅只是在工厂流水线中

本期完

数字孪生系列科普

到今天也就告一段落了

在这一个月的交流中

我们从数字孪生的历史

应用等方面像大家展示了

这一项技术的内容

在未来

小智也将带给大家

更多好玩的工业技术与产品

虽然依依不舍

但还是要说再见

朋友们，我们下期再见

"

编者注：在制作这一期内容时，我们参考了那年那兔那些事，混知等内容的设定，在此表示衷心的感谢，谢谢。

此外，我们在制作数字孪生系列漫画时，也搜寻了国内外部分文献，大家如果对数字孪生体系想要有更深入的了解，可以在公众号对话界面留下你的联系方式，找小智来领取这些资料哦~

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[13]daqiang guo,ray y. zhong,peng lin,zhongyuan lyu,yiming rong,george q. huang. digital twin-enabled graduation intelligent manufacturing system for fixed-position assembly islands[j]. robotics and computer-integrated manufacturing,2020,63.

[14]attila piros,laura trautmann,ern? baka. error handling method for digital twin-based plasma radiation detection[j]. fusion engineering and design,2020,156.

[15]jiangfeng cheng,he zhang,fei tao,chia-feng juang. dt-ii:digital twin enhanced industrial internet reference framework towards smart manufacturing[j]. robotics and computer-integrated manufacturing,2020,62.

[16]graham c. goodwin,maria m. seron,adrian m. medioli,tenele smith,bruce r. king,carmel e. smart. a systematic stochastic design strategy achieving an optimal tradeoff between peak bgl and probability of hypoglycaemic events for individuals having type 1 diabetes mellitus[j]. biomedical signal processing and control,2020,57.

[17]liang hu,zhenyu liu,weifei hu,yueyang wang,jianrong tan,fei wu. petri-net-based dynamic scheduling of flexible manufacturing system via deep reinforcement learning with graph convolutional network[j]. journal of manufacturing systems,2020,55.

[18]pai zheng,abinav shankar sivabalan. a generic tri-model-based approach for product-level digital twin development in a smart manufacturing environment[j]. robotics and computer-integrated manufacturing,2020,64.

[19]kai zhang,ting qu,dajian zhou,hongfei jiang,yuanxin lin,peize li,hongfei guo,yang liu,congdong li,george q huang. digital twin-based opti-state control method for a synchronized production operation system[j]. robotics and computer-integrated manufacturing,2020,63.

[20]t.i. zohdi. a machine-learning framework for rapid adaptive digital-twin based fire-propagation simulation in complex environments[j]. computer methods in applied mechanics and engineering,2020,363.

[21]jiewu leng,qiang liu,shide ye,jianbo jing,yan wang,chaoyang zhang,ding zhang,xin chen. digital twin-driven rapid reconfiguration of the automated manufacturing system via an open architecture model[j]. robotics and computer-integrated manufacturing,2020,63.

[22]andreas bamberg,leon urbas,s?nke br?cker,norbert kockmann,michael bortz. was den digitalen zwilling zum genialen kompagnon macht[j]. chemie ingenieur technik,2020,92(3).

[23]chao fan,yucheng jiang,ali mostafavi. social sensing in disaster city digital twin: integrated textual–visual–geo framework for situational awareness during built environment disruptions[j]. journal of management in engineering,2020,36(3).

[24]youngjib ham,jaeyoon kim. participatory sensing and digital twin city: updating virtual city models for enhanced risk-informed decision-making[j]. journal of management in engineering,2020,36(3).

[25]qiuchen lu,ajith kumar parlikad,philip woodall,gishan don ranasinghe,xiang xie,zhenglin liang,eirini konstantinou,james heaton,jennifer schooling. developing a digital twin at building and city levels: case study of west cambridge campus[j]. journal of management in engineering,2020,36(3).

[26]saikumar r. yeratapally,patrick e. leser,jacob d. hochhalter,william p. leser,timothy j. ruggles. a digital twin feasibility study (part i): non-deterministic predictions of fatigue life in aluminum alloy 7075-t651 using a microstructure-based multi-scale model[j]. engineering fracture mechanics,2020,228.

[27]maria m. papathanasiou,cleo kontoravdi. engineering challenges in therapeutic protein product and process design[j]. current opinion in chemical engineering,2020,27.

[28]caterina bigoni,jan s. hesthaven. simulation-based anomaly detection and damage localization: an application to structural health monitoring[j]. computer methods in applied mechanics and engineering,2020,363.

[29]chao liu,pingyu jiang,wenlei jiang. web-based digital twin modeling and remote control of cyber-physical production systems[j]. robotics and computer-integrated manufacturing,2020,64.

[30]蒋融融,翁正秋,陈铁明.工业互联网平台及其安全技术发展[j].电信科学,2020,36(03):3-10.

[31]暖阳.2019年度解决方案[j].互联网周刊,2020(06):36-40.

[32]吴淼,李瑞,王鹏江,沈阳,郑伟雄,王东杰.基于数字孪生的综掘巷道并行工艺技术初步研究[j/ol].煤炭学报:1-8[2020-04-02]
.https://doi.org/10.13225/j.cnki.jccs.yg19.1453.

[33]孟松鹤,叶雨玫,杨强,黄震,解维华.数字孪生及其在航空航天中的应用[j/ol].航空学报:1-13[2020-04-02]
.https://kns.cnki.net/kcms/detail/11.1929.v.20200316.0946.006.html.

[34]fabian dembski,uwe w?ssner,mike letzgus,michael ruddat,claudia yamu. urban digital twins for smart cities and citizens: the case study of herrenberg, germany[j]. sustainability,2020,12(6).

[35]roberto rocca,paolo rosa,claudio sassanelli,luca fumagalli,sergio terzi. integrating virtual reality and digital twin in circular economy practices: a laboratory application case[j]. sustainability,2020,12(6).

[36]vincenzo arrichiello,paola gualeni. systems engineering and digital twin: a vision for the future of cruise ships design, production and operations[j]. international journal on interactive design and manufacturing (ijidem),2020,14(1).

[37]a. abadías llamas,n. j. bartie,m. heibeck,m. stelter,m. a. reuter. simulation-based exergy analysis of large circular economy systems: zinc production coupled to cdte photovoltaic module life cycle[j]. journal of sustainable metallurgy,2020,6(1).

[38]david jones,chris snider,aydin nassehi,jason yon,ben hicks. characterising the digital twin: a systematic literature review[j]. cirp journal of manufacturing science and technology,2020.

[39]fang ruiming,wu minling,guo xinhua,shang rongyan,shao pengfei. identifying early defects of wind turbine based on scada data and dynamical network marker[j]. renewable energy,2020.

[40]张旭辉,张雨萌,王岩,杜昱阳,王妙云,谢楠,鞠佳杉.数字孪生驱动的设备维修mr辅助指导技术[j/ol].计算机集成制造系统:1-13[2020-04-02]
.https://kns.cnki.net/kcms/detail/11.5946.tp.20200312.1004.002.html.

写在最后

我们是谁？

“和智空间”是由北京经开区管委会推荐并经中关村管委会审核，获得“智能制造硬科技孵化平台”称号，且受和利时集团委托，由和泰通公司负责运营，围绕集团“3+1+n”发展战略，构建“一体三翼”的孵化平台，为智能制造细分领域中小企业、优质项目提供“专业垂直、链条完整、流程统一”的孵化加速服务。我们的智能制造全链条孵化体系（增值服务）包含了投融资服务、技术创新服务及导师辅导服务。
我们具有专业的服务、国际和产业资源，并与多所高校进行深度合作，目的打造更完善、更专业、更全面的孵化平台。

我们为什么要做科普漫画？

作为一家硬科技孵化平台，我们希望能够通过我们的努力，将世界上先进的科技，理念用更接地气的方式传递给大家，帮助大家更好的了解国内外的前端工业科技与技术。并以此为发展方向进行科技研究与双创革新，和智空间也会对相关的企业，团队予以全力的政策补贴与孵化支持。

我们还做了哪些工作？

除了我们每周五更新的科普漫画外，每周一到周四，我们还会将创投领域的新闻时事，国家双创最新政策解读，科技报道等内容分享给大家。此外，我们会不定期推出各类科技主题，创投主题活动，欢迎来撩~

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