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CityScope Shenzhen Bay

Confronting the complex community design challenges, we demonstrated a novel paradigm of addressing the complexity by leveraging Augmented Reality incorporating information visualizations and the CityScope tangible interface. We next deployed CityScope Shenzhen Bay (CSB) as a practical case to quantify the entrepreneurial vitality of the Bay Area community.

 

CSB incorporates information visualization toolkits, tangible interface for the rapid community design together with the simulation matrix of the community performance, which creates a crowd-sourcing platform to engage diverse stakeholders into the design and decision-making process towards the complexity of establishing an entrepreneurial community.

 

Teamwork with Ma Ke, Yixiang Zhang, Guo Xingda​​

YiFunZhi: Cultural creative design

There are one thousand reasons to our homeland, why are we still here? We would like to find the answer of the question with every child. YiFunZhi is a local cultural education course kit. It radically changed the traditional local courses that is boring and lack of design. What's more, it transformed the rich geographical and historical resources of each place into vivid educational resources and supporting tools. Through the exquisite design to stimulate the children's local resonance, the local cultural education curriculum will be more interesting.

 

Individual work

Mentor: Jing Liang

Wukong: Canoe design

The aesthetic design of the concrete canoe WUKONG is inspired by the story of "Journey to the West". It is difficult to concentrate all the scenes into one pattern, thus I only choose the most representative content to present. The outer wall pattern specifically includes elements such as the face mask of Wukong, the golden hoop, the sharp eye, the somersault cloud, the gold cudgel, and some sea wave. After deconstructing and reorganizing these elements, they are transformed into a scene that Wukong speed across the sky and sea. Although the pattern is highly abstract, it is still closely related to the image of Wukong, so that one can easily associate with it.

 

Teamwork with students from College of Civil Engineering in Tongji University.

Decode Streets and Emotions

In this project, we evaluated urban environments applying on-site EEG data, quantified and correlated the emotions and street views applying OpenVibe and Bayesian SegNet and visualized the correlation between subjects' emotions and street views.

 

Teamwork with Duarte Torre do Valle, Huang Xingtai, Olga Bialczak

Mentor: Ercument Gorgul

Disney City

Nowadays, the basic concerns of urban planning are the internal form, structure, function and appearance of urban areas. Physical aspects such as buildings, infrastructures, land use, etc., also play an important role in urban design. At the same time, social, economic and technological forces should be considered to create a sustainable environment in the city. In order to help modern urban designers and engineers to deal with these tasks, the DisneyCity project was embarked on to build a human- centered tool, which incorporates engineering-based multidisciplinary design optimization into the urban planning process. This project is combined with four parts: housing and work, spatial layout, heating and greywater. Our objective is to quantify interactions in an integrated urban infrastructure system and evaluate the scale of economics and efficiency.

Teamwork with Disney Research Center

Siemens GUC

TFT-LCD have been widely used in the most electronic products, including TVs, smartphones, Car Display and so on, therefore the market is also developing explosively. With the ever-increasing development of machine learning and artificial intelligence, we hope to predict the quality of products from machine production parameters to achieve real-time and comprehensive production results.

For the App console, it consist of four parts: the query and prediction view, the basic parameter view, the real time data view and the overview of the assembly-line.In the query and prediction view, user can input chamber ID or tool ID to check the prediction of product. For the heatmap, it shows the prediction. Green means the product will be qualified and red will not be qualified. Moreover, the opacity indicates the credibility of the prediction. In the overview, blue means this stage is normal while red means anomalous. This parallel coordinate shows the detail info for the selected stage, blue means this step is normal while red means anomalous.

Teamwork with Qiming Wang, Zhenye Tan.

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