Associate Professor
Department: Environmental Engineering
Research interests: Executive Information System (EIS) /Environmental engineering simulation
Tel/fax: 86-10-62754290
E-mail: xuean@pku.edu.cn


Ph.D., Cartography and Remote Sensing, Peking University, 1997
M.S., Signal and Information Processing, Peking University, 1994
B.S., Cartography and Geography Information System, Nanjing University, 1991


2001.7-present, Associate Professor, Department of Environmental Engineering, Peking University
1997.7, Department of Urban and Environmental Sciences, Peking University


Undergraduate course:  Environmental Information Systems
Graduate course:  Visualization of Environmental Information; Environmental Decision Support System


Simulation analysis algorithm and process control of water and sediment environment by computing technology such as 3S and numerical simulation


1. Zhong C., Zhang B.G., Kong L.C., Xue A., Ni J.R. Electricity generation frommolasses wastewater by an anaerobic baffled stacking microbial fuel cell. J Chem Technol Biotechnol, 86(3):406-413, 2011.
2. Sun J.J., Zhao H.Z., Yang Q.Z., Song J., Xue A. A novel layer-by-layer self-assembled carbon nanotube-based anode: Preparation, characterization, and application in microbial fuel cell. Electrochimica Acta, 55: 3041-3047, 2010.
3. Huang W., Xue A., Niu H., Jia Z., Wang J.W. Optimised ultrasonic-assisted extraction of flavonoids from Folium eucommiae and evaluation of antioxidant activity in multi-test systems in vitro. J Food Chem, 114(3): 1147-1154, 2009.
4. Zhao H.Z., Peng J.X., Xue A., Ni J.R. Distribution and transformation of Al species in organic silicate aluminumhybrid coagulants. Composites Science and Technology, 69(10):1629-1634, 2009.
5. Xue A., Ni J.R. Algorithm and dynamic modeling of sediment disaster information. International Journal of Sediment Research, 18(2):331-335, 2003.
6. Ni J.R., Xue A. Application of artificial neural network to the rapid feedback of potential ecological risk in flood diversion zone. Engineering Applications of Artificial Intelligence, 16(2): 105-119, 2003 .
7. Ni J.R., Zhang H.W., Xue A. Modelling of Hyperconcentrated Sediment-Laden Floods in Lower Yellow River. Journal of Hydraulic Engineering, 130(10) :1025-1032, 2004.
8. Li T.H., Sun Y.X., Xue A. Integration of fertilizing models with GIS using minimum units. Environmental modeling and Software, 18(3):221-229, 2003.
9. Luo S.B., Xue A. Research on emergency response system for sudden air pollution accidents based on rule engine.  Acta Scientiarum Naturalium Universitatis Pekinensis,48(2):296-302, 2012.
10. Xu L.M., Xue A.  Terrain reconstruction from contours by skeleton extraction using delaunay triangulation and voronoi diagram. Acta Scientiarum Naturalium Universitatis Pekinensis, 45(4):647-652, 2009.


1. Wen X.Y., Li Z.S., Xue A., Ma S.H., Li J.Q., Yin H.Y. Layout strategy of strong wind monitoring stations for high speed railway.  ZL 201010506850.0.
2. Li Z.S., Xue A., Wen X.Y., Zeng Q.L., Ma S.H., Li J.Q., Yin H.Y. Prediction method for wind speed along high speed railway, ZL 201010506846.4.


1. J.R. Ni, Y.T. Li, E.H. Jiang, T.H. Li, P. Hang, A. Xue, L.J. Zhao, Y.K. Li, R.Z. Liu, X.X. Li, Second Prize of National Science-Technology Progress Prize, Mechanisms and control stragegies of river disasters induced by sediment movement, 2010.
2. J.R. Ni, G.Q. Wang, P. Hang, T.H. Li, A. Xue,Z.S. Li, W.L. Sun,Y.K. Li,L. Liang,R.Z. Liu,X.X. Li,W.X.Ju,X.L. Mao,L.Y. Sun,X.J. Meng, First Prize of science and technology progress prize, Ministry of Education of China, The key technology of water and sediment disasters rapid assessment and prediction, 2008.


Dr. Xue’s research focuses on environmental engineering simulation and environmental information systems. In environmental engineering simulation aspects, based on CFD, AI and visualization techniques, he developed water and sediment pollution simulation analysis algorithms and water and sediment pollution process control systems. In the area of environmental information system, an integrated platform of environmental model and environment information system were developed for multi-scale comprehensive analysis for water and sediment.