迈赫迪·穆萨伊德提示您:看后求收藏(350中文350zw.com),接着再看更方便。
Von Ahn L., Maurer B., McMillen C., Abraham D., et Blum M.,“reCAPTCHA: Human-based Character Recognition via Web Security Measures”, Science, vol.321, septembre 2008, pp.1465-1468.
大众示威游行的人工统计法参见:
大众参与美国国家航空航天局研究的例子:
González M.C., Hidalgo C.A., et Barabási A.L., “Understanding Inpidual Human Mobility Patterns”, Nature, vol.453, juin 2008, pp.779-782.
Westphal A.J., Simionovici A.S., et al., “Evidence for Interstellar Origin of Seven Dust Particles Collected by the Stardust Spacecraft”, Science,vol.345, août 2014, pp. 786-791.
关于利用GPS数据跟踪行人的研究:
众包式科研的成果:
Wikelski M., et Tertitski G., “Living Sentinels for Climate Change Efects”, Science, vol.352, mai 2016, pp. 775-776.
Cooper S., Foldit players, et al., “Predicting Protein Structures with a Multiplayer Online Game”, Nature, vol. 466, août 2010, pp.756-760.
马丁·维克尔斯基发起的太空辅助动物研究国际合作项目(ICARUS)介绍:
Khatib F., Baker D., et al., “Crystal Structure of a Monomeric Retroviral Protease Solved by Protein Folding Game Players”, Nature Structural &Molecular Biology, vol.18, septembre 2011, pp.1175-1177.
3.行人·粒子
Sørensen J.J.W., Sherson J.F., et al., “Exploring the Quantum Speed Limit with Computer Games”, Nature, vol.532, avril 2016, pp.210-213.
Helbing D., et Molnar P., “Social Force Model for Pedestrian Dynamics”, Physical Review E, vol.51, mai 1995, pp.4282-4286.
Gowers T., et Nielsen M., “Massively Collaborative Mathematics”,Nature, vol.461, octobre 2009, pp.879-881.
德克·赫尔宾关于行人自组织的论文:
对维基百科编辑质量的研究:
Vicsek T., Czirók A., Ben-Jacob E., Cohen I., et Shochet O., “Novel Type of Phase Transition in a System of Self- driven Particles”, Physical Review Letters, vol.75, août 1995, pp.1226-1229.
Casebourne I., Davies C., Fernandes M., et Norman N., Assessing the Accuracy and Quality of Wikipedia Entries Compared to Popular Online Encyclopaedias: A Comparative Preliminary Study across Disciplines in English, Spanish and Arabic, Brighton, Epic UK, 2012.
从事大众研究的物理学家关注的粒子相变的相关基础文献:
蚂蚁和白蚁巢穴的构造:
Couzin I.D., et Franks N.R., “Self-organized Lane Formation and Optimized Trafic Flow in Army Ants”, Proceedings of the Royal Society of London B: Biological Sciences, vol. 270, janvier 2003, pp.139-146.
Moreira A.A., Ramos V.M., et al., “External and Internal Structure of Atta bisphaerica Forel (Hymenoptera: Formicidae) Nests”, Journal of Applied Entomology, vol. 128, avril 2004, pp.204-211.
Gotwald W.H., Army Ants: The Biology of Social Predation, Ithaca, Cornell University Press, 1995.
Perna A., Theraulaz G., et al., “The Structure of Gallery Networks in the Nests of Termite Cubitermes spp. Revealed by X-ray Tomography”,Naturwissenschaften, vol.95, mai 2008, pp.877-884.
关于行军蚁以及它们的猎食方阵:
群居型昆虫的建筑行为:
Moussaïd M., Theraulaz G., et al., “Trafic Instabilities in Self-organized Pedestrian Crowds”, PLoS Computational Biology, vol. 8, mars 2012.
Grassé P.P., “La théorie de la stigmergie: essai d’interprétation du comportement des termites constructeurs”, Insectes Sociaux, vol.6, 1959,pp.41-81.
关于环形走廊实验:
后记
2.行人、蚂蚁和米粒
关于大众监测仪的灵感来源“地球神经系统”,它是在2012年欧洲的“信息通信未来”(FutureICT)项目框架下提出的:
Helbing D., Molnár P., Farkas I. J., et Bolay K., “Self-organizing Pedestrian Movement”, Environment and Planning B: Planning and Design,vol.28, juin 2001, pp.361-383.
Giannotti F., Helbing D., et al., “A Planetary Nervous System for Social Mining and Collective Awareness”, The European Physical Journal Special Topics, vol. 214, novembre 2012, pp.49-75.
有关行人靠右避让现象的其他资料:
有关步行加速器的设想:
Moussaïd M., Theraulaz G., et al.,“Experimental Study of the Behavioural Mechanisms Underlying Self-Organization in Human Crowds”,Proceedings of the Royal Society of London B: Biological Sciences, vol. 276,mai 2009, pp.2755-2762.
Marti S., “On va bientôt marcher sur le trottoir intelligent”, La Dépêche,mars 2011.
我的第一篇发表物,关于波尔多的走廊实验:
蜜蜂舞蹈的研究:
1.我的入行洗礼
Von Frisch K., The Dance Language and Orientation of Bees,Cambridge, Harvard University Press, 1967.
