Bayesian network-based extension for PGP - Estimating petition support

Marius Silaghi; Song Qui; Toshihiro Matsui; Makoto Yokoo; Katsutoshi Hirayama

Bayesian network-based extension for PGP - Estimating petition support

Marius Silaghi, Song Qui, Toshihiro Matsui, Makoto Yokoo, Katsutoshi Hirayama

Intelligence Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

Consider the problem of estimating the expected number of distinct eligible voters among the authors of a set of electronic signatures gathered for a petition (or citizen initiative) that has to pass legally required thresholds. We formalize this problem and propose an extension to the Pretty Good Privacy Web Of Trust, a mechanism for reciprocally certifying identities between peers. The extension (a) enables agents to certify additional relevant statements about others, and (b) gives agents opportunities for negative authentication statements (e.g., on ineligibility of an identity). A Bayesian Network model enables inferences on the data provided by the proposed PGP extension. Simulations and an agent-based platform are used to validate the concepts.

Original language	English
Title of host publication	Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016
Editors	Zdravko Markov, Ingrid Russell
Publisher	AAAI Press
Pages	98-103
Number of pages	6
ISBN (Electronic)	9781577357568
Publication status	Published - 2016
Event	29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016 - Key Largo, United States Duration: May 16 2016 → May 18 2016

Publication series

Name	Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016

Other

Other	29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016
Country/Territory	United States
City	Key Largo
Period	5/16/16 → 5/18/16

All Science Journal Classification (ASJC) codes

Software
Artificial Intelligence
Computer Networks and Communications

Cite this

Silaghi, M., Qui, S., Matsui, T., Yokoo, M., & Hirayama, K. (2016). Bayesian network-based extension for PGP - Estimating petition support. In Z. Markov, & I. Russell (Eds.), Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016 (pp. 98-103). (Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016). AAAI Press.

Bayesian network-based extension for PGP - Estimating petition support. / Silaghi, Marius; Qui, Song; Matsui, Toshihiro et al.
Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016. ed. / Zdravko Markov; Ingrid Russell. AAAI Press, 2016. p. 98-103 (Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Silaghi, M, Qui, S, Matsui, T, Yokoo, M & Hirayama, K 2016, Bayesian network-based extension for PGP - Estimating petition support. in Z Markov & I Russell (eds), Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016. Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016, AAAI Press, pp. 98-103, 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016, Key Largo, United States, 5/16/16.

Silaghi M, Qui S, Matsui T, Yokoo M, Hirayama K. Bayesian network-based extension for PGP - Estimating petition support. In Markov Z, Russell I, editors, Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016. AAAI Press. 2016. p. 98-103. (Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016).

Silaghi, Marius ; Qui, Song ; Matsui, Toshihiro et al. / Bayesian network-based extension for PGP - Estimating petition support. Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016. editor / Zdravko Markov ; Ingrid Russell. AAAI Press, 2016. pp. 98-103 (Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016).

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abstract = "Consider the problem of estimating the expected number of distinct eligible voters among the authors of a set of electronic signatures gathered for a petition (or citizen initiative) that has to pass legally required thresholds. We formalize this problem and propose an extension to the Pretty Good Privacy Web Of Trust, a mechanism for reciprocally certifying identities between peers. The extension (a) enables agents to certify additional relevant statements about others, and (b) gives agents opportunities for negative authentication statements (e.g., on ineligibility of an identity). A Bayesian Network model enables inferences on the data provided by the proposed PGP extension. Simulations and an agent-based platform are used to validate the concepts.",

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AB - Consider the problem of estimating the expected number of distinct eligible voters among the authors of a set of electronic signatures gathered for a petition (or citizen initiative) that has to pass legally required thresholds. We formalize this problem and propose an extension to the Pretty Good Privacy Web Of Trust, a mechanism for reciprocally certifying identities between peers. The extension (a) enables agents to certify additional relevant statements about others, and (b) gives agents opportunities for negative authentication statements (e.g., on ineligibility of an identity). A Bayesian Network model enables inferences on the data provided by the proposed PGP extension. Simulations and an agent-based platform are used to validate the concepts.

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BT - Proceedings of the 29th International Florida Artificial Intelligence Research Society Conference, FLAIRS 2016

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Bayesian network-based extension for PGP - Estimating petition support

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