Representative
Publications
- Gao, P., Zhang,
H. and Li Zhilin, 2017. A hierarchy-based solution to calculate the
configurational entropy of landscape gradients. Landscape Ecology, 32(6): 1133-1146.
- Liu, Q., Li, Zhilin,
Deng, M., Tang, J. and Mei X., 2015. Modeling
the effect of scale on clustering of spatial points. Computers, Environment and Urban
Systems, 52, 81-92.
- Ti, P. and Li Zhilin,
2014. Generation of schematic
network maps with automated detection and enlargement of congested
areas. International Journal of
Geographical Information Science, 28(3): 521-540.
- Li Zhilin and Zhou, Q. 2012.
Integration of linear- and Areal-hierarchies for continuous multi-scale
representation of road networks. International
Journal of Geographical Information Science. 46(5): 855-880.
- Zhang, H. and Li,
Zhilin, 2011. Weighted Ego Network for Forming Hierarchical Structure
of Road Networks. International Journal of Geographical Information Science, 25(2): 255-272.
- Li, Zhilin and Dong Weihua, 2010. A stroke-based method for automated generation of
schematic network maps. International Journal of Geographical
Information Science, 24(10): 1631-1647.
- Li, Zhilin, Yan, H., Ai, T. and Chen, J., 2004. Automated
Building Generalization Based on Urban Morphology and Gestalt Theory. International
Journal
of Geographical Information Science, 18(5): 513–534.
- LI, Zhilin, Huang P., 2002. Quantitative measures for spatial
information of maps. International Journal of Geographical Information
Science, 16(7): 699-709. (pdf
file)
- LI, Zhilin, Zhao, R.L. and Chen, Jun, 2002. A Voronoi-based Spatial
Algebra for Spatial Relations, Progress in Natural Science, 12(7):
528-536. (pdf
file)
- Li, Zhilin and Sui, H.G., 2000. An Integrated Technique for Automated
Generalisation of Contour Maps. The Cartographic Journal, 37(1):
29-37. (pdf file).
- Su, B., Li, Zhilin, Lodwick, G. and
Muller, J.-C., 1997. Algebraic models for the aggregation of area
features based on morphological operators. International Journal of
Geographical Information Science, 11(3): 233-246. (pdf
file)
- Li, Zhilin and Su, B., 1996. Algebraic models for feature displacement
in the generalization of digital map data using morphological techniques. Cartographica,
32(3): 39-56. (pdf
file)
- Li, Zhilin, 1994. A comparative study of the accuracy of digital terrain models
based on various data models. ISPRS Journal of Photogrammetry and
Remote Sensing, 49(1): 2-11. (pdf
file)
- Li, Zhilin, 1993. Mathematical models of the accuracy of digital terrain model
surfaces linearly constructed from gridded data. Photogrammetric Record,
14(82): 661-674. (pdf
file)
- Li, Zhilin & Openshaw, S., 1993. A natural principle for objective
generalisation of digital map data. Cartography and Geographic
Information Systems, 20(1): 19-29. (pdf
file)
- Li, Zhilin & Openshaw, S., 1992. Algorithms for objective
generalization of line features based on the natural principle. International
Journal of Geographical Information Systems, 6(5): 373-389. (pdf
file)
- Li, Zhilin, 1992. Variations of the accuracy of digital terrain models with sampling
interval. Photogrammetric Record, 14(79): 113-128. (pdf
file)