[1] J P Allebach. Selected Papers on Digital Halftoning[M]. Bellingham: SPIE Press, 1999.

[2] R W Floyd, L Steinberg. An adaptive algorithm for spatial grey-scale[J]. Proc SID, 1976, 17(2): 75-77.

[3] B E Bayer. An optimum method for two-level rendition of continuous-tone pictures[C]. IEEE Int Conf Commun, 1973, 1: 26.11-26.15.

[4] P Li, J Allebach. Look-up-table based halftoning algorithm[J]. IEEE Trans Image Processing, 2000, 9(9): 1593-1603.

[5] M Analoui, J Allebach. Model-based halftoning using direct binary search[C]. SPIE, 1992, 1666: 96-108.

[6] Sang Ho Kim, Jan P Allebach. Impact of HVS models on model-based halftoning[J]. IEEE Trans Image Process, 2002,11(3): 258-269.

[7] DL Neuhoff, T N Pappas, N Seshadri. One-dimensional least-squares model-based halftoning[C]. Proceedings of ICASSP-93, 1992, 3: 189-192.

[8] A Zakhor, S Lin, F Eskafi. A new class of B/W halftoning algorithms[J]. IEEE Trans Image Processing, 1993, 2(4): 499-509.

[9] A Sherstinsky, R W Picard. M-lattice: a novel non-linear dynamical system and its application to halftoning[C]. Proc IEEE Conf Acoustics, 1994, 2: 565-568.

[10] Thrasyvoulos N Pappas, David L Neuhoff. Least-quares model-based halftoning[J]. IEEE Trans Image Processing, 1999, 8(8): 1102-1116.

[11] A Haar. Zur Theorie der orthogonalen funktionensysteme[J]. Math Ann, 1910, 69(3): 331-371.

[12] A Likas, N Vlassis, J J Verbeekb. The global k-means clustering algorithm[J]. Pattern Recognition, 2003, 36(2): 451-461.

[13] J L Mannos , D J Sakrison. The effects of a visual fidelity criterion of the encoding of images[J]. IEEE Trans Information Theory,1974, 20(4): 525-536.

[14] W S Cleveland, S J Devlin. Locally weighted regression: an approach to regression analysis by local fitting[J]. J Am Stat Assoc,1988, 83(403): 596-610.

[15] F A Baqai, C C Taylor, J P Allebach. Halftoning via direct binary search using a hard circular dot overlap model[C]. Proc IS&T/OSA Optics & Imaging in the Information Age, 1996. 383-391.