Mochida, A. and Lun, Y.F. (2006) Prediction of Wind Environment and Thermal Comfort at Pedestrian Level in Urban Area. 4th International Symposium on Numerical Wind Engineering (CWE 2006), Yokohama, July 2006, 33-60.
 Gong, J.Z., Liu, Y.S., Xia, B.C. and Zhao, G.W. (2009) Urban Ecological Security Assessment and Forecasting, Based on a Cellular Automata Model: A Case Study of Guangzhou, China. Ecological Modeling, 220, 3612-3620.
 Chen, H., Ooka, R. and Murakami, S. (2001), Study on Air Quality in Urban Area Using Scale for Ventilation Efficiency. The Effect of Building Shape and Its Arrangement on Ventilation Efficiency in Urban Area. Annual Technical Meetings of Architectural Institute of Japan, Japan, 933-934.
 Ashie, Y., Murakammi, S. and Morigawa, T. (2002) CFD Analyses on Effects of Wind from Rivers on Outdoor Thermal Environment. Part 2: Control of Thermal Environment Based on Building Layout. Annual Technical Meetings of Architectural Institute of Japan, Japan, 881-882.
 Ooka, R., Chen, H. and Kato, S. (2008) Study on Optimum Arrangement of Trees for Design of Pleasant Outdoor Environment Using Multi-Objective Genetic Algorithm and Coupled Simulation of Convection, Radiation and Conduction. Journal of Wind Engineering and Industrial Aerodynamics, 96, 1733-1748.
 Yoshida, S., Murakami, S., Ooka, R., Mochida, A. and Tominaga, Y. (2000) CFD Prediction of Thermal Comfort in Microscale Wind Climate. The International Symposium on Numerical Wind Engineering (CWE 2000), Birmingham, 27-30.
 Shashua-Bar, L. and Hoffman, M. (2000) Vegetation as a Climatic Component in the Design of an Urban Street: An Empirical Model for Predicting the Cooling Effect of Urban Green Areas with Trees. Energy and Buildings, 31, 221-235.
 Lin, B.R., Li, X.F., Zhu, Y.X. and Qin, Y.G. (2008) Numerical Simulation Studies of the Different Vegetation Patterns’ Effect on Outdoor Pedestrian Thermal Comfort. Journal of Wind Engineering and Industrial Aerodynamics, 96, 1707-1718.
 Mochida, A., Tabata, Y., Iwata, T. and Yoshino, H. (2008) Examining Tree Canopy Models for CFD Prediction of Wind Environment at Pedestrian Level. Journal of Wind Engineering and Industrial Aerodynamics, 96, 1667-1677.
 Schilling, V. (1991) A Parameterization for Modeling the Meteorological Effects of Tall Forests—A Case Study of a Large Clearing. Boundary-Layer Meteorology, 55, 283-304.
 Omori, T., Yamaguchi, S. and Taniguchi, H. (1998) Accurate Monte Carlo Simulation of Radiative Heat Transfer with Unstructured Grid Systems. 11th International Symposium on Transport Phenomena, 567-573.
 Hong, B., Lin, B.R., Wang, B. and Li, S.H. (2012) Optimal Design of Vegetation in Residential District with Numerical Simulation and Field Experiment. Journal of Central South University, 19, 688-695.
 Tominaga, Y., Mochida, A., Yoshie, R., Kataoka, H., Nozu, T., Yoshikawa, M. and Shirasawa, T. (2008) AIJ Guidelines for Practical Application of CFD to Pedestrian Wind Environment around Buildings. Journal of Wind Engineering and Industrial Aerodynamics, 96, 1749-1761.
 Hong, B., Lin, B.R., Hu, L.H. and Li, S.H. (2011) Optimal Tree Design for Sunshine and Ventilation in Residential District Using Geometrical Models and Numerical Simulation. Building Simulation, 4, 351-363.