控制国际争端的人机集成系统
应用统计
2007-05-23 v1
摘要
在本文中,我们开发了一种控制国家间冲突的科学方法。该系统利用了神经网络和反馈控制方法。研究发现,通过同时控制四个可控输入:民主度、依赖度、盟友和实力,可以避免所有预测的争端结果。此外,观察到仅控制单一输入依赖度或实力也能避免所有预测的冲突。在评估各输入变量对冲突的影响时,依赖度、实力和民主度成为影响冲突的关键变量。
引用
@article{arxiv.0704.3862,
title = {An Integrated Human-Computer System for Controlling Interstate Disputes},
author = {Tshilidzi Marwala and Monica Lagazio and Thando Tettey},
journal= {arXiv preprint arXiv:0704.3862},
year = {2007}
}
评论
29 pages, 6 figures, 2 tables
相关论文
查看更多相关论文 →
计算机与社会 · 计算机科学
Modeling and Controlling Interstate Conflict
Tshilidzi Marwala, Monica Lagazio
2007-05-23
人工智能 · 计算机科学
Artificial Intelligence for Conflict Management
E. Habtemariam, T. Marwala, M. Lagazio
2007-05-23
应用统计 · 统计学
Relax, Tensors Are Here: Dependencies in International Processes
Shahryar Minhas, Peter D. Hoff, Michael D. Ward
2015-05-01
人工智能 · 计算机科学
You Are in Control of Your State: Why Human Outcomes Are Controllable Through Causal State Intervention
Suraj Biswas, Saurav Gupta, Pritam Mukherjee
2026-05-29
信息论 · 计算机科学
Communication and Interference Coordination
Ricardo Blasco-Serrano, Ragnar Thobaben, Mikael Skoglund
2014-02-19
应用统计 · 统计学
Forecasting Change in Conflict Fatalities with Dynamic Elastic Net
Fulvio Attinà, Marcello Carammia, Stefano Maria Iacus
2022-05-30
系统与控制 · 电气工程与系统科学
Coalitional Control for Self-Organizing Agents
Filiberto Fele, Ezequiel Debada, José M. Maestre, Eduardo F. Camacho
2021-08-03
神经元与认知 · 定量生物学
A Formal Approach to Modeling the Cost of Cognitive Control
Kayhan Ozcimder, Biswadip Dey, Sebastian Musslick, Giovanni Petri +3
2017-06-02
cmp-lg · 计算机科学
Cues and control in Expert-Client Dialogues
Steve Whittaker, Phil Stenton
2008-02-03
人机交互 · 计算机科学
Your Thoughtful Opponent: Embracing Cognitive Conflict with Peer Agent
Kyuwon Kim, Jaeryeong Hwang, Younseo Lee, Jeanhee Lee +2
2025-08-13
计算机与社会 · 计算机科学
Toward a Global Regime for Compute Governance: Building the Pause Button
Ananthi Al Ramiah, Raymond Koopmanschap, Josh Thorsteinson, Sadruddin Khan +4
2025-06-26
系统与控制 · 电气工程与系统科学
Cooperative and Noncooperative Paradigms for Game-Theoretic Control of Socio-Technical Systems
Tamer Başar, Tomohisa Hayakawa, Hideaki Ishii, Quanyan Zhu
2026-05-19
社会与信息网络 · 计算机科学
Modeling and Control of Sustainable Transitions through Opinion-Behavior Coupling in Heterogeneous Networks
Martina Alutto, Sofia Bellotti, Fabrizio Dabbene, Chiara Ravazzi
2025-11-17
多智能体系统 · 计算机科学
Intelligent Techniques for Resolving Conflicts of Knowledge in Multi-Agent Decision Support Systems
Khaled M. Khalil, M. Abdel-Aziz, Taymour T. Nazmy, Abdel-Badeeh M. Salem
2014-01-20
最优化与控制 · 数学
Control of Agreement and Disagreement Cascades with Distributed Inputs
Anastasia Bizyaeva, Timothy Sorochkin, Alessio Franci, Naomi Ehrich Leonard
2023-11-07
形式语言与自动机理论 · 计算机科学
A State-Based Characterisation of the Conflict Preorder
Simon Ware, Robi Malik
2011-08-02
物理与社会 · 物理学
Steering opinion dynamics through control of social networks
Andrew Nugent, Susana N. Gomes, Marie-Therese Wolfram
2024-04-16
人工智能 · 计算机科学
A machine-learning software-systems approach to capture social, regulatory, governance, and climate problems
Christopher A. Tucker
2020-02-27
社会与信息网络 · 计算机科学
On Online Control of Opinion Dynamics
Sheryl Paul, Leslie Cruz Juarez, Jyotirmoy V. Deshmukh, Ketan Savla
2026-03-19
物理与社会 · 物理学
Controlling complex policy problems: a multimethodological approach using system dynamics and network controllability
Lukas Schoenenberger, Radu Tanase
2017-11-15
系统与控制 · 电气工程与系统科学
Resilient Self/Event-Triggered Consensus Based on Ternary Control
Hiroki Matsume, Yuan Wang, Hideaki Ishii
2020-12-25
系统与控制 · 计算机科学
On the Control of Agents Coupled through Shared Unit-demand Resources
Syed Eqbal Alam, Robert Shorten, Fabian Wirth, Jia Yuan Yu
2019-04-30
计算机科学与博弈论 · 计算机科学
Manipulating Elections by Selecting Issues
Jasper Lu, David Kai Zhang, Zinovi Rabinovich, Svetlana Obraztsova +1
2019-12-02
系统与控制 · 计算机科学
Output Feedback Control of a Class of Uncertain Systems Under Control-derivative dependent disturbances
Mazen Alamir, Jean Dobrowolski, Amgad tarek Mohammed
2016-10-20
人工智能 · 计算机科学
Contestable AI needs Computational Argumentation
Francesco Leofante, Hamed Ayoobi, Adam Dejl, Gabriel Freedman +9
2026-05-08