TY - GEN
T1 - Bursting activity spreading through asymmetric interactions
AU - Onaga, Tomokatsu
AU - Shinomoto, Shigeru
N1 - Publisher Copyright:
© 2014 IEEE.
PY - 2014
Y1 - 2014
N2 - People communicate with those who have the same background or share a common interest by using a social networking service (SNS). News or messages propagate through inhomogeneous connections in an SNS by sharing or facilitating additional comments. Such human activity is known to lead to endogenous bursting in the rate of message occurrences. We analyze a multi-dimensional self-exciting process to reveal dependence of the bursting activity on the topology of connections and the distribution of interaction strength on the connections. We determine the critical conditions for the cases where interaction strength is regulated at either the point of input or output for each person. In the input regulation condition, the network may exhibit bursting with infinitesimal interaction strength, if the dispersion of the degrees diverges as in the scale-free networks. In contrast, in the output regulation condition, the critical value of interaction strength, represented by the average number of events added by a single event, is a constant 1-1/v2 0.3, independent of the degree dispersion. Thus, the stability in human activity crucially depends on not only the topology of connections but also the manner in which interactions are distributed among the connections.
AB - People communicate with those who have the same background or share a common interest by using a social networking service (SNS). News or messages propagate through inhomogeneous connections in an SNS by sharing or facilitating additional comments. Such human activity is known to lead to endogenous bursting in the rate of message occurrences. We analyze a multi-dimensional self-exciting process to reveal dependence of the bursting activity on the topology of connections and the distribution of interaction strength on the connections. We determine the critical conditions for the cases where interaction strength is regulated at either the point of input or output for each person. In the input regulation condition, the network may exhibit bursting with infinitesimal interaction strength, if the dispersion of the degrees diverges as in the scale-free networks. In contrast, in the output regulation condition, the critical value of interaction strength, represented by the average number of events added by a single event, is a constant 1-1/v2 0.3, independent of the degree dispersion. Thus, the stability in human activity crucially depends on not only the topology of connections but also the manner in which interactions are distributed among the connections.
KW - Bursting activity
KW - Information dynamics
KW - Point process
KW - Social network
UR - http://www.scopus.com/inward/record.url?scp=84928571804&partnerID=8YFLogxK
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U2 - 10.1109/SITIS.2014.66
DO - 10.1109/SITIS.2014.66
M3 - Conference contribution
AN - SCOPUS:84928571804
T3 - Proceedings - 10th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2014
SP - 388
EP - 395
BT - Proceedings - 10th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2014
A2 - Chbeir, Richard
A2 - Chbeir, Richard
A2 - Yetongnon, Kokou
A2 - Dipanda, Albert
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 10th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2014
Y2 - 23 November 2014 through 27 November 2014
ER -