.\" generated with Ronn/v0.7.3
.\" http://github.com/rtomayko/ronn/tree/0.7.3
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.TH "DEG_SEQ" "1" "September 2017" "www.complex-networks.net" "www.complex-networks.net"
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.SH "NAME"
\fBdeg_seq\fR \- Compute the degree sequence of a graph
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.SH "SYNOPSIS"
\fBdeg_seq\fR \fIgraph_in\fR
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.SH "DESCRIPTION"
\fBdeg_seq\fR computes the degree sequence of \fIgraph_in\fR\.
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.SH "PARAMETERS"
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.TP
\fIgraph_in\fR
undirected input graph (edge list)\. If is equal to \fB\-\fR (dash), read the edge list from STDIN\.
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.SH "OUTPUT"
The program prints on STDOUT the degree sequence of \fIgraph_in\fR in the format:
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.IP "" 4
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.nf

    k_1
    k_2
    k_3
    \.\.\.\.
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.fi
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.IP "" 0
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.P
where \fBk_i\fR is the degree of the i\-th node\.
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.SH "SEE ALSO"
deg_seq_w(1), conf_model_deg(1), fitmle(1), power_law(1)
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.SH "REFERENCES"
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.IP "\(bu" 4
V\. Latora, V\. Nicosia, G\. Russo, "Complex Networks: Principles, Methods and Applications", Chapter 10, Cambridge University Press (2017)
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.IP "" 0
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.SH "AUTHORS"
(c) Vincenzo \'KatolaZ\' Nicosia 2009\-2017 \fB<v\.nicosia@qmul\.ac\.uk>\fR\.