Measures of Granger causality on multivariate time series have been used to form the so-called causality networks. A causality network represents the interdependence structure of the underlying dynamical system or coupled dynamical systems, and its properties are quantified by network indices. In this work, it is investigated whether network indices on networks generated by an appropriate Granger causality measure can discriminate different coupling structures. The information based Granger causality measure of partial mutual information from mixed embedding (PMIME) is used to form causality networks, and a large number of network indices are ranked according to their ability to discriminate the different coupling structures. The evaluation of the network indices is done with a simulation study based on two dynamical systems, the coupled Mackey-Glass delay differential equations and the neural mass model, both of 25 variables, and three prototypes of coupling structures, i.e., random, small-world, and scale-free. It is concluded that the setting of PMIME combined with a network index attains high level of discrimination of the coupling structures solely on the basis of the observed multivariate time series. This approach is demonstrated to identify epileptic seizures emerging during electroencephalogram recordings.

1.
C. W. J.
Granger
,
Econometrica
37
,
424
(
1969
).
2.
A.
Arenas
,
A.
Di'az-Guilera
,
J.
Kurths
,
Y.
Moreno
, and
C.
Zhou
,
Phys. Rep.
469
,
93
(
2008
).
3.
M.
Newman
,
Networks: An Introduction
(
Oxford University Press
,
New York
,
2010
).
4.
M.
Zanin
,
P.
Sousa
,
D.
Papo
,
R.
Bajo
,
J.
García-Prieto
,
F.
Pozo
,
E.
Menasalvas
, and
S.
Boccaletti
,
Sci. Rep.
2
,
630
(
2012
).
5.
J. F.
Geweke
,
J. Am. Stat. Assoc.
79
,
907
(
1984
).
6.
M. J.
Kaminski
and
K. J.
Blinowska
,
Biol. Cybern.
65
,
203
(
1991
).
7.
L.
Baccala
and
K.
Sameshima
,
Biol. Cybern.
84
,
463
(
2001
).
8.
L.
Faes
,
A.
Porta
, and
G.
Nollo
,
IEEE Transactions on Biomedical Engineering
57
,
1897
(
2010
).
9.
X.
Wu
,
C.
Zhou
,
G.
Chen
, and
J. B.
Lu
,
Chaos
21
,
043129
(
2011
).
10.
K.
Hlaváčková-Schindler
,
M.
Paluš
,
M.
Vejmelka
, and
J.
Bhattacharya
,
Phys. Rep.
441
,
1
(
2007
).
11.
E.
Bianco-Martinez
,
N.
Rubido
,
C. G.
Antonopoulos
, and
M. S.
Baptista
,
Chaos
26
,
043102
(
2016
).
12.
13.
M.
Palus
and
M.
Vejmelka
,
Phys. Rev. E: Stat., Nonlinear, Soft Matter Phys.
75
,
056211 (14pp.)
(
2007
).
14.
J.
Arnhold
,
P.
Grassberger
,
K.
Lehnertz
, and
C. E.
Elger
,
Physica D
134
,
419
(
1999
).
15.
M. C.
Romano
,
M.
Thiel
,
J.
Kurths
, and
C.
Grebogi
,
Phys. Rev. E
76
,
036211 (9pp.)
(
2007
).
16.
D.
Chicharro
and
R.
Andrzejak
,
Phys. Rev. E
80
,
026217
(
2009
).
17.
M. G.
Rosenblum
and
A. S.
Pikovski
,
Phys. Rev. E
64
,
045202
(
2001
).
18.
G.
Nolte
,
A.
Ziehe
,
V.
Nikulin
,
A.
Schlogl
,
N.
Kramer
,
T.
Brismar
, and
K. R.
Muller
,
Phys. Rev. Lett.
100
,
234101
(
2008
).
19.
M.
Palus
and
A.
Stefanovska
,
Phys. Rev. E
67
,
055201(R)
(
2003
).
20.
S.
Basu
and
G.
Michailidis
,
Ann. Stat.
43
,
1535
(
2015
).
21.
E.
Siggiridou
and
D.
Kugiumtzis
,
IEEE Trans. Signal Proc.
64
,
1759
(
2016
).
22.
I.
Vlachos
and
D.
Kugiumtzis
,
Phys. Rev. E
82
,
016207
(
2010
).
23.
L.
Faes
,
G.
Nollo
, and
A.
Porta
,
Phys. Rev. E
83
,
051112
(
2011
).
24.
J.
Runge
,
J.
Heitzig
,
V.
Petoukhov
, and
J.
Kurths
,
Phys. Rev. Lett.
108
,
258701
(
2012
).
25.
M.
Wibral
,
N.
Pampu
,
V.
Priesemann
,
F.
Siebenhhner
,
H.
Seiwert
,
M.
Lindner
,
J. T.
Lizier
, and
R.
Vicente
,
PLoS One
8
,
e55809
(
2013
).
26.
D.
Kugiumtzis
,
Phys. Rev. E
87
,
062918
(
2013
).
27.
Y.
Hong
,
Y.
Liu
, and
S.
Wang
,
J. Econometrics
150
,
271
(
2009
).
28.
M.
Billio
,
M.
Getmansky
,
A. W.
Lo
, and
L.
Pelizzon
,
J. Financ. Econ.
104
,
535
(
2012
).
29.
J.
Bollen
,
H.
Mao
, and
X.
Zeng
,
J. Comput. Sci.
2
,
1
(
2011
).
30.
L.
Faes
,
R. G.
Andrzejak
,
M.
Ding
, and
D.
Kugiumtzis
,
Comput. Math. Methods Med.
2012
,
492902
.
31.
L.
Gao
,
L.
Sommerlade
,
B.
Coffman
,
T.
Zhang
,
J. M.
Stephen
,
D.
Li
,
J.
Wang
,
C.
Grebogi
, and
B.
Schelter
,
Sci. Rep.
5
,
1
(
2015
).
32.
D.
Kugiumtzis
and
V. K.
Kimiskidis
,
Int. J. Neural Syst.
25
,
1550006
(
2015
).
33.
A.
Porta
and
L.
Faes
,
Proc. IEEE
104
,
282
(
2016
).
34.
P. F.
Verdes
,
Phys. Rev. E
72
,
026222 (9pp.)
(
2005
).
35.
R.
Donner
,
S.
Barbosa
,
J.
Kurths
, and
N.
Marwan
,
Eur. Phys. J.: Spec. Top.
174
,
1
(
2009
).
36.
J.
Runge
,
V.
Petoukhov
,
J.
Donges
,
J.
Hlinka
,
N.
Jajcay
,
M.
Vejmelka
,
D.
Hartman
,
N.
Marwan
,
M.
Palus
, and
J.
Kurths
,
Nat. Commun.
6
,
8502 (10pp)
(
2015
).
37.
M.
Palus
,
Phys. Rev. Lett.
112
,
078702 (5pp.)
(
2014
).
38.
S.
Boccaletti
,
V.
Latora
,
Y.
Moreno
,
M.
Chavez
, and
D. U.
Hwang
,
Phys. Rep.
424
,
175
(
2006
).
39.
L. D. F.
Costa
,
F. A.
Rodrigues
,
G.
Travieso
, and
P. R. V.
Boas
,
Adv. Phys.
56
,
167
(
2007
).
40.
M.
Rubinov
and
O.
Sporns
,
Neuroimage
52
,
1059
(
2010
).
41.
L. D. F.
Costa
,
O. N.
Oliveira
,
G.
Travieso
,
F. A.
Rodrigues
,
P. R. V.
Boas
,
L.
Antiqueira
,
M. P.
Viana
, and
L. E. C.
Rocha
,
Adv. Phys.
60
,
329
(
2011
).
42.
C. J.
Stam
,
B. F.
Jones
,
G.
Nolte
,
M.
Breakspear
, and
P.
Scheltens
,
Cereb. Cortex
17
,
92
(
2007
).
43.
D. S.
Bassett
,
E.
Bullmore
,
B. A.
Verchinski
,
V. S.
Mattay
,
D. R.
Weinberger
, and
A.
Meyer-Lindenberg
,
J. Neurosci.
28
,
9239
(
2008
).
44.
J. M.
Buldú
,
R.
Bajo
,
F.
Maestú
,
N.
Castellanos
,
I.
Leyva
,
P.
Gil
,
I.
Sendina-Nadal
,
J. A.
Almendral
,
A.
Nevado
,
F.
del Pozo
, and
S.
Boccaletti
,
PLoS One
6
,
e19584 (8pp.)
(
2011
).
45.
P.
Erdös
and
A.
Rényi
,
Publicationes Math. Debrecen
6
,
290
(
1959
).
46.
D. J.
Watts
and
S. H.
Strogatz
,
Nature
393
,
440
(
1998
).
47.
A. L.
Barabási
and
R.
Albert
,
Science
286
,
509
(
1999
).
48.
M. A.
Kramer
and
S. S.
Cash
,
Neuroscientist
18
,
360
(
2012
).
49.
A.
Papana
,
C.
Kyrtsou
,
D.
Kugiumtzis
, and
C.
Diks
,
Entropy
15
,
2635
(
2013
).
50.
E.
Siggiridou
,
C.
Koutlis
,
A.
Tsimpiris
,
V. K.
Kimiskidis
, and
D.
Kugiumtzis
, in
37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE EMBS
(
2015
).
51.
A.
Kraskov
,
H.
Stögbauer
, and
P.
Grassberger
,
Phys. Rev. E
69
,
066138
(
2004
).
52.
P.
Baldi
,
S.
Brunak
,
Y.
Chauvin
,
C. A. F.
Andersen
, and
H.
Nielsen
,
Bioinformatics
16
,
412
(
2000
).
53.
M.
Mackey
and
L.
Glass
,
Science
197
,
287
(
1977
).
54.
D. V.
Senthilkumar
,
M.
Lakshmanan
, and
J.
Kurths
,
Chaos
18
,
023118
(
2008
).
55.
M.
Ding
,
C.
Grebogi
,
E.
Ott
,
T.
Sauer
, and
J. A.
Yorke
,
Physica D
69
,
404
(
1993
).
56.
F.
Wendling
,
J. J.
Bellanger
,
F.
Bartolomei
, and
P.
Chauvel
,
Biol. Cybern.
83
,
367
(
2000
).
57.
S.
Acharyya
and
R. E.
Amritkar
,
Eur. Phys. J.: Spec. Top.
222
,
939
(
2013
).
58.
A.
Shoeb
, “
Application of Machine Learning to Epileptic Seizure Onset Detection and Treatment
,” Ph.D. thesis (
Massachusetts Institute of Technology
,
2009
).
59.
R.
Sevilla-Escoboza
and
J. M.
Buldú
,
Data Brief
7
,
1185
(
2016
).
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