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Biography
Since December 1st 2010, I have joined ASML of lithography systems as a software engineer.
On January 26th 2011 (my defense day), I have obtained my Doctorate Degree after 4 years' working in the visualization group led by Professor Jack van Wijk in the Technische Universiteit of Eindhoven (TU/e). My research focus is to model visual sensation quantitatively for Information Visualization, and then to improve or automate the encoding schemes of information visualization by the models. I aim at improving the visual analytic process by involving human perception, psychophysical results as early as possible in the design of visualization systems, or even in an interactive manner. The models can also be applied to evaluate visualization methods.
Before joining the group of Jack, I have obtained a Dutch postgraduate diploma "Professoinal Doctorate in Eingneering" (PDEng.) funded by Stan Ackermans Institute in TU/e under the program of User System Interaction (USI). My master degree was obtained in 2004 in Leiden University (Leiden Institute of Advanced Computer Science, LIACS) the Netherlands, under the program ICT in Business. My earlier education for the Bachelor degree was obtained in NanJing, China (Southeast University) under applied mathematics department.
In the way of my study, I had worked on different projects in different fields. For instance, the application of fuzzy logic algorithms, customer life time value model, business combination research in the ICT industry, affective computing involved design for Philips Ambi-Light TV, social video selection supported interface etc. However, they all guide me to an even thorough consideration of human factors and user interest when design interfaces and functions of computer applications or systems.
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Research
My current research is under the Expression of Interest (EOI) project sponsored by the VIEW program of the Netherlands Organization for Scientific Research (NWO).
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Publication
A Model of Symbol Size Discrimination in Scatterplots Jing Li, Martens, J.-B., van Wijk, J.J.. ACM Conference on Human Factors in Computing Systems, CHI 2010, Atlanta USA.
A Model of Symbol Lightness Discrimination in Scatterplots Jing Li, van Wijk, J.J., Martens, J.-B.. Visualization Symposium, 2010. PacificVis '10.IEEE Pacific, Taipei, 2-5 March 2010.
Evaluation of symbol contrast in scatterplots Jing Li, van Wijk, J.J., Martens, J.-B. Visualization Symposium, 2009. PacificVis '09. IEEE Pacific, Beijing, 20-23 April 2009.
Judging correlation from scatterplots and parallel coordinate plots Jing Li, Jean-Bernard Martens and Jarke J van Wijk. Information Visualization Journal 9(1), 13–30 (2010). (Palgrave Journal online publication on May 1st 2008)
Application of fuzzy comprehensive judgement for city development level Jing Li, Lei Hu. Journal of Southeast University(Natural Science Edition) issue 2, 2002 China.
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Poster
Judging Correlation from Scatterplots and Parallel Coordinate Plots Jing Li, Jack van Wijk. InfoVis 2007, Sacramento CA USA. (28 Oct - 1 Nov)
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Graduation Projects
User Preferences on AmbiLight TV Jing Li, Stan Achermans Institute, 2006 (Philips Innovation Lab project) Supervisors: Prof. Dr. Don Bouwhuis, ir. John de Vet
Market Based Accounting Study on Components of Goodwill in Acquisitions. An Empirical Study in ICT Industry Jing Li, Leiden Institute of Advance Computer Science, 2004. Supervisor: Dr. Maaike Lycklama à Nijeholt
Fuzzy Logic Application in the Bidding Process of Construction Industry Jing Li, Southeast University Mathematics Department, 2002. Supervisor: Prof. Zhengzong Han
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Colloquium
Presentation at ASCI Conference 2008 (the 14th annual conference, 13-15 th June), CenterParcs Heijen, the Netherlands
Presentation at ASCI Conference 2009 (the 15th annual conference, 3-5 th June), CenterParcs Zeewolde, the Netherlands
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Parallel Coordinate Plots Parallel Coordinates (||-coords) were firstly studied by Maurice d'Ocagne in 1885 (mostly for 2-D use in Nomography) and were popularised by Al Inselberg. The first Multidimensional Coordinate System was developed by Al Inselberg in 1977 based on his independent rediscovery in 1959. Since then, ||-coords aim at visualizing high-dimensional geometry and analyze multivariate data. Many people contributed to the development and popularization of ||-coords. Among them, Ed Wegman (1990) applied ||-coords to data exploration, and particularly visualize correlations in datasets. The modern trends for ||-coords are to concentrate relational information in datasets into patterns without any display clutter. There is a basic point <--> line duality for 2-D representations for lines, planes, curves, surfaces, proximities (A book on Parallel Coordinates by Al Inselberg is being released by Springer in Feb. 2009). Thus a isomorphic mapping between scatterplots and ||-coords based on the basic point-line duality. Because of such geometric property, many 2D patterns in scatterplots that are characterized for visual analytics can be found characterized in ||-coords as well (of course in different patterns). For instance, the characteristic patterns of correlation. The main challenge for this visualization method is the visual clutter when dealing with large sample data. Many successive visualization researches have been done to tackle this problem in Information Visualization. Many methods turn out to efficiently reduce the clutter and improve the perception. Some recent research results show that complex relations can be visualized as clear patterns without any clutter. It has been accepted that ||-coords can support a continuous overview of multi-dimensional data. However, the exaustive combinations can only be obtained by changing the axes order interactively. At the same time, many visual misperception in scatterplots might also exist in parallel coordinates. So far, not much work has been done for the evaluation work. In our research, we have compared the scatterplots with ||-coords for correlation analysis. A user judgment process is parameterized in a statistic model. Parameters were estimated based on the experimental data collected from 25 subjects. Finally, the judge accuracy and biases were derived from those parameter values. Our results show that with ||-coords, peoples cannot judge more than 5 levels constantly(correlation coefficient from -1 to +1) and an obvious negative bias exists because of the strong peceptual effect from intersection patterns of negative correlations. At the same time with scatterplots, a lot more levels can be distinguished constantly (up to 22 levels when sample dataset is large) and no obvious biases being found. Even though, ||-coords may still have some merits for cluster detection, especially detecting the continuous changing of clusters among different dimensions. Therefore some medical visualization tools start to take benefit from it. However, my expectation is that we might make comparatively rough estimations or general hypotheses out from Parallel Coordinates but we should not rely on it for a higher quality (high precision) analysis or pattern detection.
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