***** To join INSNA, visit http://www.insna.org *****



I’m a PhD student at the University of Washington Information School studying high school social groups and the multiplexity of technology interactions.


I’m intrigued by the Q-value in Netdraw’s Girvan-Newman subgroup function. According to Hanneman’s online book on social network methods, this Q-value is a goodness of fit.

Does anyone know how to interpret the Q value (or goodness of fit) in Netdraw's Girvan-Newman subgroup function?

What is considered a good fit?


I got no responses on the UCINET group (posted 2 days ago), and emailed Dr. Hanneman, who kindly suggested I email this listserv.


To elaborate, Netdraw has an Analysis>Subgroup function that :


a) visualizes the subgroups partitioned by coloring the subgroups in different colors.

b) produces partition information, including a Q value.


I looked through the Girvan and Newman (2002) article cited for this algorithm, and couldn't see an explanation of the goodness of fit either.


UCINET does not produce this goodness of fit measurement either, which leads me to think that the goodness of fit is specific to Netdraw?


The Netdraw output makes sense to me (in the way I'm interpreting my data), and I'm just looking for a way to validate the clusters produced. So, perhaps the Q goodness of fit measure produced could help, though I need some help in knowing how that Q value is produced and what it means.


Thank you!





Peyina Lin

PhD Candidate

The Information School

University of Washington




_____________________________________________________________________ SOCNET is a service of INSNA, the professional association for social network researchers (http://www.insna.org). To unsubscribe, send an email message to [log in to unmask] containing the line UNSUBSCRIBE SOCNET in the body of the message.