An Upstream-Reciprocity-Based Strategy for Academic Social Networks Using Public Goods Game

Academic social networks (ASNs) have attracted significant attention in recent years as researchers try to understand and improve how research is conducted. Several approaches have been investigated to identify, predict, and recommend scientific collaborators but few have considered to explore a str...

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Veröffentlicht in:	IEEE transactions on computational social systems 2021-12, Vol.8 (6), p.1417-1426
Hauptverfasser:	Deonauth, Nakema Y., Li, Mingchu, Yu, Shuo, Chen, Xiangtai
Format:	Artikel
Sprache:	eng
Schlagworte:	Academic social networks (ASNs) Collaboration Costs evolutionary stable strategy (ESS) Game theory Games public goods game (PGG) Reciprocity scholarly collaboration Social networking (online) Social networks Strategy Upstream upstream reciprocity (UR)
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creator	Deonauth, Nakema Y. Li, Mingchu Yu, Shuo Chen, Xiangtai
description	Academic social networks (ASNs) have attracted significant attention in recent years as researchers try to understand and improve how research is conducted. Several approaches have been investigated to identify, predict, and recommend scientific collaborators but few have considered to explore a strategy using the game theory. This article investigates the social phenomenon of upstream reciprocity (UR) using a game-theoretical framework. UR occurs when a person who has just received help, in turn, offers help to another. A suitable multiplayer game, the public goods game (PGG), is adopted to model scholarly interactions of coauthorship networks. Experiments are performed on real datasets in which cascades of UR scholars are identified. More importantly, the proposed UR strategy achieves better performance than non-UR scholars as they are found to have a higher publication and citation count. Furthermore, UR behavior is found to replicate throughout the network, which in turn increases the likelihood of others adopting it. Finally, theoretical proof and simulations suggest that UR has the potential to become an evolutionary stable strategy (ESS).
doi_str_mv	10.1109/TCSS.2021.3085174
format	Article
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subjects	Academic social networks (ASNs) Collaboration Costs evolutionary stable strategy (ESS) Game theory Games public goods game (PGG) Reciprocity scholarly collaboration Social networking (online) Social networks Strategy Upstream upstream reciprocity (UR)
title	An Upstream-Reciprocity-Based Strategy for Academic Social Networks Using Public Goods Game
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