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Integration of Communication and Control using Discrete Time Kuramoto Models for Multivehicle Coordination over Broadcast Networks

机译：使用离散时间Kuramoto模型进行通信与控制的集成，用于广播网络的多光线协调

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This paper considers the integration of communication and control with respect to the task of coordinated heading control for a group of N vehicles. The heading control employed on each vehicle is a discretization of the well-known Kuramoto model of nonlinearly coupled oscillators. Stability for both all-to-all and random one-to-all broadcasts is shown to be dependent on the coupling strength, K, and the time discretization, ΔT. For a desired system performance, ΔT imposes a tight deadline by which the state information (M bits) must be propagated through the communication network. Routing optimization with respect to minimizing energy consumption is formulated considering the ΔT deadline. Multi-hopping is optimal if time permits, but one-to-all broadcasting is more energy efficient when M/ΔT is sufficiently large.

机译：本文考虑了通信和控制对一组N车辆的协调标题控制任务的整合。在每辆车上采用的前置控制是非线性耦合振荡器的众所周知的Kuramoto模型的离散化。全面和随机的一对多广播的稳定性被显示为依赖于耦合强度，K和时间离散化ΔT。对于所需的系统性能，ΔT施加紧密的截止日期，通过通信网络必须传播状态信息（M比特）。考虑到ΔT截止日期，制定了对最小化能量消耗最小化的路由优化。如果时间允许，多跳跃是最佳的，但是当M /ΔT足够大时，一对多广播更能节能。

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《IEEE Conference on Decision and Control》|2007年||共7页
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Daniel J. Klein; Phillip Lee; Kristi A. Morgansen; Tara Javidi;
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中图分类 TP273-53;
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1. Integration of communication and control using discrete time Kuramoto models for multivehicle coordination over broadcast networks [J] . Klein D.J., Lee P., Morgansen K.A., IEEE Journal on Selected Areas in Communications . 2008,第4期

机译：使用离散时间Kuramoto模型的通信和控制集成，用于广播网络上的多车协调
2. Discrete-time H_2 output tracking control of wireless networked control systems with Markov communication models [J] . Bo Yu, Yang Shi, Yang Lin Wireless communications & mobile computing . 2011,第8期

机译：具有马尔可夫通信模型的无线网络控制系统的离散时间H_2输出跟踪控制
3. Time-Critical Cooperative Control of Multiple Autonomous Vehicles: Robust Distributed Strategies for Path-Following Control and Time-Coordination over Dynamic Communications Networks [J] . Xargay E., Dobrokhodov V., Kaminer I., Control Systems, IEEE . 2012,第5期

机译：多个自动驾驶车辆的时间关键协同控制：动态通信网络上路径跟踪控制和时间协调的鲁棒分布式策略
4. Integration of Communication and Control using Discrete Time Kuramoto Models for Multivehicle Coordination over Broadcast Networks [C] . Daniel J. Klein, Phillip Lee, Kristi A. Morgansen, IEEE Conference on Decision and Control . 2007

机译：使用离散时间Kuramoto模型进行通信与控制的集成，用于广播网络的多光线协调
5. Nonlinear adaptive control of discrete-time systems using neural networks and multiple models. [D] . Chen, Lingji. 2001

机译：使用神经网络和多种模型的离散时间系统的非线性自适应控制。
6. Output-Feedback Control for Discrete-Time Spreading Models in Complex Networks [O] . Luis A. Alarcón Ramos, Roberto Bernal Jaquez, Alexander Schaum 2018

机译：复杂网络中离散时间扩展模型的输出反馈控制
7. 1Integration of Communication and Control using Discrete Time Kuramoto Models for Multivehicle Coordination over Broadcast Networks [O] . Daniel J. Klein, Phillip Lee, Kristi A. Morgansen, 2015

机译：1利用离散时间Kuramoto模型进行广播网多媒体协调的通信与控制一体化

Integration of Communication and Control using Discrete Time Kuramoto Models for Multivehicle Coordination over Broadcast Networks

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