A. Boffet, Creating urban information for cartographic generalisation, 9th International Symposium on Spatial Data Handling (SDH'00), 2000.

K. Buchin, W. Meulemans, and B. Speckmann, A new method for subdivision simplification with applications to urban-area generalization, 2011.
DOI : 10.1145/2093973.2094009
URL : https://pure.tue.nl/ws/files/90842934/urbanareageneralization_cameraready.pdf

G. In, I. F. Cruz, D. Agrawal, and C. S. Jensen, , pp.261-270

W. S. Chan and F. Chin, Approximation of Polygonal Curves with Minimum Number of Line Segments or Minimum Error, International Journal of Computational Geometry & Applications, vol.06, pp.59-77, 1996.

O. Chaudhry and W. A. Mackaness, Automatic identification of urban settlement boundaries for multiple representation databases, Computers, Environment and Urban Systems, vol.32, pp.95-109, 2008.
DOI : 10.1016/j.compenvurbsys.2007.09.001

M. Chimani, T. C. Van-dijk, and J. Haunert, How to eat a graph: computing selection sequences for the continuous generalization of road networks, 22nd ACM SIGSPATIAL Int. Conf. on Advances in Geographic Information Systems (ACMGIS'14, pp.243-252, 2014.

J. Damen, B. Marc-van-kreveld, and . Spaan, High quality building generalization by extending the morphological operators, 12th ICA Workshop on Generalisation and Multiple Representation. 11th ICA Workshop on Generalization and Multiple Representation, 2008.

J. Danciger, L. Satyan, J. Devadoss, D. Mugno, R. Sheehy et al., Shape deformation in continuous map generalization, Geoinformatica, vol.13, pp.203-221, 2009.
DOI : 10.1007/s10707-008-0049-0

M. Deng and D. Peng, Morphing linear features based on their entire structures, Transactions in GIS, vol.19, pp.653-677, 2015.
DOI : 10.1111/tgis.12111

H. David, T. K. Douglas, and . Peucker, Algorithms for the reduction of the number of points required to represent a digitized line or its caricature, Cartographica, vol.10, pp.112-122, 1973.

G. Greiner and K. Hormann, Efficient Clipping of Arbitrary Polygons, ACM Trans. Graph, vol.17, pp.71-83, 1998.

J. Haunert and A. Wolff, Optimal and Topologically Safe Simplification of Building Footprints, 18th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems (ACMGIS'10, 2010.

H. Imai and M. Iri, Polygonal Approximations of a CurveFormulations and Algorithms, Computational Morphology: A Computational Geometric Approach to the Analysis Of Form, vol.6, pp.71-86, 1988.

A. Johnson, Clipper -an open source freeware library for clipping and offsetting lines and polygons, pp.2017-2025, 2014.

J. Li, T. Ai, P. Liu, and M. Yang, Continuous Scale Transformations of Linear Features Using Simulated Annealing-Based Morphing, ISPRS International Journal of Geo-Information, vol.6, 2017.

J. Li, X. Li, and T. Xie, Morphing of Building Footprints Using a Turning Angle Function, ISPRS International Journal of Geo-Information, vol.6, p.6, 2017.

M. Meijers, Building simplification using offset curves obtained from the straight skeleton, 19th ICA Workshop on Generalisation and Multiple Representation (ICAGW'16), 2016.

M. Nöllenburg, D. Merrick, A. Wolff, and M. Benkert, Morphing polylines: a step towards continuous Generalization, Computers, Environment and Urban Systems, vol.32, pp.248-260, 2008.

P. Palfrader and M. Held, Computing Mitered Offset Curves Based on Straight Skeletons, Computer-Aided Design and Applications, vol.12, pp.414-424, 2015.

D. Peng, J. Haunert, A. Wolff, and C. Hurter, Morphing polylines based on least squares adjustment, 16th ICA Workshop on Generalisation and Multiple Representation (ICAGW'13), 2013.

D. Peng, A. Wolff, and J. Haunert, Continuous Generalization of Administrative Boundaries Based on Compatible Triangulations, Geospatial Data in a Changing World: Selected papers of the 19th AGILE Conference on Geographic Information Science (AGILE'16) (Lecture Notes in Geoinformation and Cartography), pp.399-415, 2016.

D. Peng, A. Wolff, and J. Haunert, Using the A ? Algorithm to Find Optimal Sequences for Area Aggregation, Advances in Cartography and GIScience: Selections from the 28th International Cartographic Conference (ICC'17) (Lecture Notes in Geoinformation and Cartography: Publications of the International Cartographic Association (ICA), pp.389-404, 2017.

R. C. Prim, Shortest connection networks and some generalizations, The Bell System Technical Journal, vol.36, pp.1389-1401, 1957.

N. Regnauld, Contextual Building Typification in Automated Map Generalization, Algorithmica, vol.30, pp.312-333, 2001.

N. Regnauld and P. Revell, Automatic Amalgamation of Buildings for Producing Ordnance Survey 1:50 000 Scale Maps, The Cartographic Journal, vol.44, pp.239-250, 2007.

J. Stoter, D. Burghardt, C. Duchêne, B. Baella, N. Bakker et al., Methodology for evaluating automated map generalization in commercial software, Computers, Environment and Urban Systems, vol.33, pp.311-324, 2009.

F. Töpfer and W. Pillewizer, The Principles of Selection, The Cartographic Journal, vol.3, pp.10-16, 1966.

G. Touya and M. Dumont, Progressive Block Graying and Landmarks Enhancing as Intermediate Representations between Buildings and Urban Areas, 20th ICA Workshop on Generalisation and Multiple Representation, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02097486

R. Bala and . Vatti, A Generic Solution to Polygon Clipping, Commun. ACM, vol.35, pp.56-63, 1992.

R. Weibel, Generalization of spatial data: Principles and selected algorithms, Algorithmic Foundations of Geographic Information Systems, vol.1340, pp.99-152, 1997.