增强现实系统中多代理通信的自适应交换协议

Q3 Physics and Astronomy

Cybernetics and Physics Pub Date : 2023-12-31 DOI:10.35470/2226-4116-2023-12-4-275-281

Ekaterina Moseyko, V. Erofeeva, Oleg Granichin

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引用次数: 0

摘要

增强现实（AR）是为用户提供不同类型信息的现代方式之一。在基于该技术的应用中，对产品质量主观评估的主要影响因素是系统与用户之间以及系统用户之间的交互速度。这一系列工作的主要目的是创建和修改评估和改进 AR 服务质量的算法。本文描述并论证了一种用于多代理交互的自适应通信协议。我们考虑了一个引入反馈控制的一般非线性动态系统，该反馈控制基于几乎任意噪声下的测量。在实践中，这种控制是作为神经网络的叠加来实现的，并根据系统识别方法（使用 M.K.Campi 和 E.Weyer 的 LSCR）对相互附加学习的结果进行估计。原型是为一个具有分布式服务器结构的系统以及系统中客户端和服务器的多代理行为而构建的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Adaptive exchange protocol for multi-agent communication in augmented reality system

Augmented Reality (AR) is one of the modern ways of providing users with different types of information. In applications based on this technology, the main influence on the subjective assessment of product quality is the speed of interaction between the system and the user and between users of the system. The main purpose of the work series are creation and modification for algorithms to assessing and improving the quality of AR services. This paper describes and justifies an adaptive communication protocol for multi-agent interaction. We consider a general nonlinear dynamic system with introducing feedback control which is based on measurements under almost arbitrary noise. In practice, this control is realized as a superposition of neural networks with the estimation of the result of mutual additional learning based on the system identification method (M.K.Campi and E.Weyer’s LSCR is used). The prototype is built for a system with a distributed server architecture and multiagent behavior of both clients and servers in the system.

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来源期刊

Cybernetics and Physics Chemical Engineering-Fluid Flow and Transfer Processes

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： The scope of the journal includes: -Nonlinear dynamics and control -Complexity and self-organization -Control of oscillations -Control of chaos and bifurcations -Control in thermodynamics -Control of flows and turbulence -Information Physics -Cyber-physical systems -Modeling and identification of physical systems -Quantum information and control -Analysis and control of complex networks -Synchronization of systems and networks -Control of mechanical and micromechanical systems -Dynamics and control of plasma, beams, lasers, nanostructures -Applications of cybernetic methods in chemistry, biology, other natural sciences The papers in cybernetics with physical flavor as well as the papers in physics with cybernetic flavor are welcome. Cybernetics is assumed to include, in addition to control, such areas as estimation, filtering, optimization, identification, information theory, pattern recognition and other related areas.