Thermodynamics-Based Strategy to Achieve Balance between Robustness and Performance for Self-Organized Network Controls

机译：基于热力学的策略，在自组织网络控制的鲁棒性和性能之间取得平衡

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Bio-inspired network controls are driven by the competition between their ordering force and disordering force. Both forces simultaneously affect their performance and robustness. Therefore, we must carefully determine their balance. In this paper, we focus on thermodynamic phenomena where a substance achieves the balance between both forces depending on its temperature. We translate bio-inspired network controls from the perspective of thermodynamics, and we analytically show that the appropriate balance between both forces can be achieved by selecting appropriate temperature.

机译：受生物启发的网络控件受到其排序力和无序力之间竞争的驱动。两种力量同时影响其性能和坚固性。因此，我们必须仔细确定它们的平衡。在本文中，我们关注于热力学现象，其中一种物质根据其温度在两种力之间达到平衡。我们从热力学的角度翻译了受生物启发的网络控件，并通过分析表明，通过选择合适的温度可以在两种力之间实现合适的平衡。

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《IEEE International Conference on Self-Adaptive and Self-Organizing Systems》|2014年|181-182|共2页
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Iwai Toshiki; Murata Masayuki; Yomo Tetsuya; Kominami Daichi;
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networked control systems; robust control; self-adjusting systems; temperature control; thermodynamics; bio-inspired network controls; disordering force; robustness; self-organized network controls; temperature; thermodynamic phenomena; thermodynamics-based strategy; Entropy; Equations; Force; Mathematical model; Robustness; Routing; Thermodynamics; balance; bio-inspired network control; performance; robustness; thermodynamics;

机译：网络控制系统;鲁棒控制;自调节系统;温度控制;热力学;生物启发网络控制;紊乱力;鲁棒性;自组织网络控制;温度;热力学现象;基于热力学的策略;熵;方程;力;数学模型鲁棒性路由热力学平衡生物启发网络控制性能鲁棒性热力学;

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3. Robustness of self-organized control and vulnerability of centralized control in sensor networks brought about by difference of control dependence [J] . Yuichi KIRl, Masashi SUGANO, Masayuki MURATA 電子情報通信学会技術研究報告 . 2008,第527期

机译：控制依赖性的差异导致传感器网络中自组织控制的鲁棒性和集中控制的脆弱性
4. Thermodynamics-Based Strategy to Achieve Balance between Robustness and Performance for Self-Organized Network Controls [C] . Iwai Toshiki, Murata Masayuki, Yomo Tetsuya, IEEE International Conference on Self-Adaptive and Self-Organizing Systems . 2014

机译：基于热力学的策略，实现自组织网络控制的鲁棒性与性能之间的平衡
5. Frequency allocation, transmit power control, and load balancing with site specific knowledge for optimizing wireless network performance. [D] . Chen, Jeremy Kang-pen. 2007

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7. Differences in Robustness of Self-Organized Control and Centralized Control in Sensor Networks Caused by Differences in Control Dependence [O] . Masashi Sugano, Yuichi Kiri, Masayuki Murata 2013

机译：控制依赖差异对传感器网络自组织控制和集中控制鲁棒性的影响

Thermodynamics-Based Strategy to Achieve Balance between Robustness and Performance for Self-Organized Network Controls

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