Generalized blockmodeling explained

In generalized blockmodeling, the blockmodeling is done by "the translation of an equivalence type into a set of permitted block types", which differs from the conventional blockmodeling, which is using the indirect approach.[1] It's a special instance of the direct blockmodeling approach.[2]

Generalized blockmodeling was introduced in 1994 by Patrick Doreian, Vladimir Batagelj and Anuška Ferligoj.[3]

Definition

Generalized blockmodeling approach is a direct one, "where the optimal partition(s) is (are) identified based on minimal values of a compatible criterion function defined by the difference between empirical blocks and corresponding ideal blocks".[4] At the same time, the much broader set of block types is introduced (while in conventional blockmodeling only certain types are used). The conventional blockmodeling is inductive due to nonspecification of neither the clusters or the location of block types, while in generalized blockmodeling the blockmodel is specified with more detail than just the permition of certain block types (e.g., prespecification). Further, it's possible to define departures from the permitted (ideal) blocktype, using criterion function.[5]

Using local optimization procedure, firstly the initial clustering (with specified number of clusters is done, based on random creation. How the clusters are neighboring to each other, is based on two transformations: 1) a vertex is moved from one to another cluster or 2) a pair of vertices is interchanged between two different clusters.This process of transformation steps is repeated many times, until only the best fitting partitions (with the minimized value of the criterion function) are kept as blockmodels for the future exploration of the network.[1]

Different types of generalized blockmodeling are:[3]

Benefits

According to Patrick Doreian, the benefits of generalized blockmodeling, are as follows:[1]

Problems

According to Doreian, the benefits of generalized blockmodeling, are as follows:[1]

Book

The book with the same title, Generalized blockmodeling, written by Patrick Doreian, Vladimir Batagelj and Anuška Ferligoj, was in 2007 awarded the Harrison White Outstanding Book Award by the Mathematical Sociology Section of American Sociological Association.[7]

See also

Selected bibliography

Notes and References

  1. Book: Doreian, Patrick . 2006 . Batagelj . Vladimir . Data Science and Classification . Springer . 119-130 . Some Open Problem Sets for Generalized Blockmodeling . 978-3-540-34415-5.
  2. [Miha Matjašič]
  3. Žiberna . Aleš . 2009 . Evaluation of Direct and Indirect Blockmodeling of Regular Equivalence in Valued Networks by Simulations . Metodološki zvezki . 6 . 2 . 99-134 .
  4. Žnidaršič . Anja . Doreian . Patrick . Ferligoj . Anuška . 2012 . Absent Ties in Social Networks, their Treatments, and Blockmodeling Outcomes . Metodološki zvezki . 9 . 2 . 119-138 .
  5. Book: Doreian . Patrick . Batagelj . Vladimir . Ferligoj . Anuška . 2004 . Generalized Blockmodeling (Structural Analysis in the Social Sciences) . Cambridge University Press . 0-521-84085-6.
  6. Žiberna . Aleš . 2013 . Generalized blockmodeling of sparse networks . Metodološki zvezki . 10 . 2 . 99-119 .
  7. Web site: The Section on Mathematical Sociology's Harrison White Outstanding Book Award. American Sociological Association. September 26, 2019.