We investigate epidemic spreading in a deterministic susceptible-infected-susceptible model on uncorrelated heterogeneous networks with higher-order interactions. We provide a recipe for the construction of one-dimensional reduced model (resilience function) of the -dimensional susceptible-infected-susceptible dynamics in the presence of higher-order interactions. Utilizing this reduction process, we are able to capture the microscopic and macroscopic behavior of infectious networks. We find that the microscopic state of nodes (fraction of stable healthy individual of each node) inversely scales with their degree, and it becomes diminished due to the presence of higher-order interactions. In this case, we analytically obtain that the macroscopic state of the system (fraction of infectious or healthy population) undergoes abrupt transition. Additionally, we quantify the network’s resilience, i.e., how the topological changes affect the stable infected population. Finally, we provide an alternative framework of dimension reduction based on the spectral analysis of the network, which can identify the critical onset of the disease in the presence or absence of higher-order interactions. Both reduction methods can be extended for a large class of dynamical models.
REFERENCES
1
J.
Gao
, B.
Barzel
, and A.-L.
Barabási
, Nature
530
, 307
(2016
). 2
A.
Pikovsky
, M.
Rosenblum
, and J.
Kurths
, Synchronization: A Universal Concept in Nonlinear Sciences
(Cambridge University Press
, 2003
), Vol. 12.3
A.
Arenas
, A.
Díaz-Guilera
, J.
Kurths
, Y.
Moreno
, and C.
Zhou
, Phys. Rep.
469
, 93
(2008
). 4
P.
Ji
, T. K. D.
Peron
, P. J.
Menck
, F. A.
Rodrigues
, and J.
Kurths
, Phys. Rev. Lett.
110
, 218701
(2013
). 5
F. A.
Rodrigues
, T. K. D.
Peron
, P.
Ji
, and J.
Kurths
, Phys. Rep.
610
, 1
(2016
). 6
P.
Kundu
, P.
Khanra
, C.
Hens
, and P.
Pal
, Phys. Rev. E
96
, 052216
(2017
). 7
P.
Kundu
, C.
Hens
, B.
Barzel
, and P.
Pal
, Europhys. Lett.
120
, 40002
(2018
). 8
P.
Kundu
and P.
Pal
, Chaos
29
, 013123
(2019
). 9
P.
Khanra
, P.
Kundu
, C.
Hens
, and P.
Pal
, Phys. Rev. E
98
, 052315
(2018
). 10
P.
Khanra
and P.
Pal
, Chaos, Solitons Fractals
143
, 110621
(2021
). 11
D.
Ghosh
, M.
Frasca
, A.
Rizzo
, S.
Majhi
, S.
Rakshit
, K.
Alfaro-Bittner
, and S.
Boccaletti
, Phys. Rep.
949
, 1
(2022
). 12
M. S.
Anwar
and D.
Ghosh
, Chaos
32
, 033125
(2022
). 13
S.
Nag Chowdhury
, S.
Majhi
, D.
Ghosh
, and A.
Prasad
, Phys. Lett. A
383
, 125997
(2019
). 14
M.
Moussaïd
, J. E.
Kämmer
, P. P.
Analytis
, and H.
Neth
, PLoS One
8
, e78433
(2013
). 15
S.
Gomez
, A.
Diaz-Guilera
, J.
Gomez-Gardenes
, C. J.
Perez-Vicente
, Y.
Moreno
, and A.
Arenas
, Phys. Rev. Lett.
110
, 028701
(2013
). 16
P.
Ji
, J.
Ye
, Y.
Mu
, W.
Lin
, Y.
Tian
, C.
Hens
, M.
Perc
, Y.
Tang
, J.
Sun
, and J.
Kurths
, Phys. Rep.
1017
, 1
(2023
). 17
R.
Pastor-Satorras
and A.
Vespignani
, Phys. Rev. Lett.
86
, 3200
(2001
). 18
C.
Granell
, S.
Gómez
, and A.
Arenas
, Phys. Rev. Lett.
111
, 128701
(2013
). 19
R.
Pastor-Satorras
, C.
Castellano
, P.
Van Mieghem
, and A.
Vespignani
, Rev. Mod. Phys.
87
, 925
(2015
). 20
D.
Soriano-Paños
, L.
Lotero
, A.
Arenas
, and J.
Gómez-Gardeñes
, Phys. Rev. X
8
, 031039
(2018
).21
P.
Ji
, W.
Lin
, and J.
Kurths
, Nat. Phys.
16
, 1082
(2020
). 22
C.
Hens
, U.
Harush
, S.
Haber
, R.
Cohen
, and B.
Barzel
, Nat. Phys.
15
, 403
(2019
). 23
X.
Bao
, Q.
Hu
, P.
Ji
, W.
Lin
, J.
Kurths
, and J.
Nagler
, Nat. Commun.
13
, 5301
(2022
).24
R.
Albert
and A.-L.
Barabási
, Rev. Mod. Phys.
74
, 47
(2002
). 25
M.
Newman
, Networks: An Introduction
(Oxford University Press
, 2010
).26
A.
Barrat
, M.
Barthelemy
, and A.
Vespignani
, Dynamical Processes on Complex Networks
(Cambridge University Press
, 2008
).27
S.
Boccaletti
, V.
Latora
, Y.
Moreno
, M.
Chavez
, and D.-U.
Hwang
, Phys. Rep.
424
, 175
(2006
). 28
S. N.
Dorogovtsev
, A. V.
Goltsev
, and J. F.
Mendes
, Rev. Mod. Phys.
80
, 1275
(2008
). 29
V.
Colizza
, A.
Barrat
, M.
Barthélemy
, and A.
Vespignani
, BMC Med.
5
, 34
(2007
). 30
R. S.
Dhillon
and J. D.
Kelly
, N. Engl. J. Med.
373
, 787
(2015
). 31
S.
Ghosh
, A.
Senapati
, J.
Chattopadhyay
, C.
Hens
, and D.
Ghosh
, Chaos
31
, 071101
(2021
). 32
J.
Zhang
, M.
Litvinova
, Y.
Liang
, Y.
Wang
, W.
Wang
, S.
Zhao
, Q.
Wu
, S.
Merler
, C.
Viboud
, A.
Vespignani
, M.
Ajelli
, and H.
Yu
, Science
368
, 1481
(2020
). 33
Y.
Zhou
, R.
Xu
, D.
Hu
, Y.
Yue
, Q.
Li
, and J.
Xia
, Lancet Digit. Health
2
, e417
(2020
). 34
A.
Aleta
, Q.
Hu
, J.
Ye
, P.
Ji
, and Y.
Moreno
, Chaos, Solitons Fractals
139
, 110068
(2020
). 35
X.
Bao
, P.
Ji
, W.
Lin
, M.
Perc
, and J.
Kurths
, R. Soc. Open Sci.
8
, 210682
(2021
). 36
W.
Mei
, S.
Mohagheghi
, S.
Zampieri
, and F.
Bullo
, Annu. Rev. Control
44
, 116
(2017
). 37
C.
Nowzari
, V. M.
Preciado
, and G. J.
Pappas
, IEEE Control Syst. Mag.
36
, 26
(2016
).38
F.
Battiston
, E.
Amico
, A.
Barrat
, G.
Bianconi
, G.
Ferraz de Arruda
, B.
Franceschiello
, I.
Iacopini
, S.
Kéfi
, V.
Latora
, Y.
Moreno
, M. M.
Murray
, T. P.
Peixoto
, F.
Vaccarino
, and G.
Petri
, Nat. Phys.
17
, 1093
(2021
). 39
M.
Chutani
, B.
Tadić
, and N.
Gupte
, Phys. Rev. E
104
, 034206
(2021
). 40
S.
Rakshit
, B. K.
Bera
, E. M.
Bollt
, and D.
Ghosh
, SIAM J. Appl. Dyn. Syst.
19
, 918
(2020
). 41
F.
Parastesh
, M.
Mehrabbeik
, K.
Rajagopal
, S.
Jafari
, and M.
Perc
, Chaos
32
, 013125
(2022
). 42
S.
Majhi
, M.
Perc
, and D.
Ghosh
, J. R. Soc. Interface
19
, 20220043
(2022
). 43
L. V.
Gambuzza
, F.
Di Patti
, L.
Gallo
, S.
Lepri
, M.
Romance
, R.
Criado
, M.
Frasca
, V.
Latora
, and S.
Boccaletti
, Nat. Commun.
12
, 1
(2021
). 44
F.
Battiston
, G.
Cencetti
, I.
Iacopini
, V.
Latora
, M.
Lucas
, A.
Patania
, J.-G.
Young
, and G.
Petri
, Phys. Rep.
874
, 1
(2020
). 45
I.
Iacopini
, G.
Petri
, A.
Barrat
, and V.
Latora
, Nat. Commun.
10
, 2485
(2019
). 46
G. F.
de Arruda
, G.
Petri
, and Y.
Moreno
, Phys. Rev. Res.
2
, 023032
(2020
). 47
Z.
Li
, Z.
Deng
, Z.
Han
, K.
Alfaro-Bittner
, B.
Barzel
, and S.
Boccaletti
, Chaos, Solitons Fractals
152
, 111307
(2021
). 48
L.
Neuhäuser
, A.
Mellor
, and R.
Lambiotte
, Phys. Rev. E
101
, 032310
(2020
).49
S.
Chowdhary
, A.
Kumar
, G.
Cencetti
, I.
Iacopini
, and F.
Battiston
, J. Phys. Complex.
2
, 035019
(2021
).50
D.
Wang
, Y.
Zhao
, J.
Luo
, and H.
Leng
, Chaos
31
, 053112
(2021
). 51
T.
Carletti
, D.
Fanelli
, and S.
Nicoletti
, J. Phys. Complex.
1
, 035006
(2020
).52
D.
Guilbeault
, J.
Becker
, and D.
Centola
, Complex Contagions: A Decade in Review
(Springer
, 2018
), pp. 3–25.53
N. W.
Landry
and J. G.
Restrepo
, Chaos
30
, 103117
(2020
). 54
J.
Grilli
, G.
Barabás
, M. J.
Michalska-Smith
, and S.
Allesina
, Nature
548
, 210
(2017
). 55
S.
Chatterjee
, S.
Nag Chowdhury
, D.
Ghosh
, and C.
Hens
, Chaos
32
, 103122
(2022
). 56
R.
Pastor-Satorras
and A.
Vespignani
, Phys. Rev. E
63
, 066117
(2001
). 57
D.
Brockmann
and D.
Helbing
, Science
342
, 1337
(2013
). 58
S.
Ghosh
, A.
Senapati
, A.
Mishra
, J.
Chattopadhyay
, S. K.
Dana
, C.
Hens
, and D.
Ghosh
, Phys. Rev. E
104
, 014308
(2021
). 59
D. J.
Higham
and H.-L.
De Kergorlay
, Proc. R. Soc. A
477
, 20210232
(2021
). 60
M. E.
Krasny
and W.-M.
Roth
, Environ. Educ. Res.
16
, 545
(2010
). 61
E.
Smith
and G.
Spatafora
, J. Dent. Res.
91
, 133
(2012
). 62
D.
Marbach
, J. C.
Costello
, R.
Küffner
, N. M.
Vega
, R. J.
Prill
, D. M.
Camacho
, K. R.
Allison
, M.
Kellis
, J. J.
Collins
, and G.
Stolovitzky
, Nat. Methods
9
, 796
(2012
). 63
D. K.
Agrawal
, R.
Marshall
, V.
Noireaux
, and E. D.
Sontag
, Nat. Commun.
10
, 1
(2019
). 64
P.
Kundu
, H.
Kori
, and N.
Masuda
, Phys. Rev. E
105
, 024305
(2022
). 65
E.
Laurence
, N.
Doyon
, L. J.
Dubé
, and P.
Desrosiers
, Phys. Rev. X
9
, 011042
(2019
). 66
C.
Tu
, P.
D’Odorico
, and S.
Suweis
, iScience
24
, 101912
(2021
). 67
J.
Jiang
, Z.-G.
Huang
, T. P.
Seager
, W.
Lin
, C.
Grebogi
, A.
Hastings
, and Y.-C.
Lai
, Proc. Natl. Acad. Sci. U. S. A.
115
, E639
(2018
).68
P.
Kundu
, N.
MacLaren
, H.
Kori
, and N.
Masuda
, Proc. R. Soc. A
478
, 20220350
(2022
). 69
N.
Masuda
and P.
Kundu
, Phys. Rev. Res.
4
(2), 023257
(2022
).70
W.
Wang
, M.
Tang
, H. E.
Stanley
, and L. A.
Braunstein
, Rep. Prog. Phys.
80
, 036603
(2017
). 71
G.
Ghoshal
, V.
Zlatić
, G.
Caldarelli
, and M. E.
Newman
, Phys. Rev. E
79
, 066118
(2009
). 72
O. T.
Courtney
and G.
Bianconi
, Phys. Rev. E
93
, 062311
(2016
). 73
B.
Coutinho
, A.
Goltsev
, S.
Dorogovtsev
, and J.
Mendes
, Phys. Rev. E
87
, 032106
(2013
). 74
B.
Barzel
and A.-L.
Barabási
, Nat. Phys.
9
, 673
(2013
). 75
A.-L.
Barabási
, Philos. Trans. R. Soc. A: Math. Phys. Eng. Sci.
371
, 20120375
(2013
). 76
A.
Dhooge
, W.
Govaerts
, and Y. A.
Kuznetsov
, ACM Trans. Math. Softw.
29
, 141
(2003
). 77
G.
Burgio
, A.
Arenas
, S.
Gómez
, and J. T.
Matamalas
, Commun. Phys.
4
, 1
(2021
). © 2023 Author(s). Published under an exclusive license by AIP Publishing.
2023
Author(s)
You do not currently have access to this content.