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Cited by

  1. R.A. Brualdi, Combinatorial Matrix Classes, Encyclopedia Math. Appl. 108, Cambridge University Press, 2006.

  2. W.Y.C. Chen, Integral matrices with given row and column sums, J. Combin. Theory Ser. A 61 (1992) 153-172.

  3. A.A. Chernyak and Z.A. Chernyak, Joint realization of (0,1) matrices revisited, Linear Algebra Appl. 174 (1992) 25-35.

  4. R.J. Gardner and P. Gritzmann, Uniqueness and complexity in discrete tomography, In: Discrete Tomography, 85-113, Appl. Numer. Harmon. Anal., Birkhäuser, Boston, 1999.

  5. R.J. Gardner, P. Gritzmann and D. Prangenberg, On the computational complexity of determining polyatomic structures by X-rays, Theoret. Comput. Sci. 233 (2000) 91-106.

  6. F. Guíñez, Disjoint realizations of degree sequences and some applications to discrete tomography, Ph.D. Thesis, Universidad de Chile, 2009.

  7. F. Guíñez, M. Matamala and S. Thomassé, Realizing disjoint degree sequences of span at most two: a tractable discrete tomography problem, Discrete Appl. Math. 159 (2011) 23-30.

  8. F. Guíñez, A formulation of the wide partition conjecture using the atom problem in discrete tomography, Discrete Appl. Math. 167 (2014) 121-130.

  9. 金晶晶, 关于 Brualdi-Anstee 猜想, 长沙大学学报 28 (2014) 6-8.