‘Adequate amount of data’‐driven system design theory: how far can we know/control/protect?

Impact Pub Date : 2024-01-22 DOI:10.21820/23987073.2024.1.10
Tomonori Sadamoto
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Abstract

In contrast to the natural tendency of many researchers to focus on collecting as much data as possible, Assistant Professor Tomonori Sadamoto, from the Department of Mechanical Engineering and Intelligent Systems at the University of Electro-Communications in Japan, believes that the pursuit of big data is not always desirable. He is promoting a shift towards the acceptance of a “adequate amount of data”-driven system design theory. Sadamoto is concentrating on data-driven methodologies and their application in social systems. Through key international collaborations with colleagues at leading institutions, he is advancing his research. His work on data-driven methodologies focuses on interdisciplinary studies that combine machine learning and control theory. His more applied work primarily falls within the realm of smart grids. In his projects, he formulates his questions mathematically from the perspective of control theory. For instance, Sadamoto has developed a novel mathematical tool known as the VARX (vector autoregressive with exogenous input) framework, which facilitates the tractable analysis of dynamic systems. Using this new tool, he has developed data-dependent system identification analyses when only an “insufficient amount of data” is available. Furthermore, for the first time, Sadamoto was able to demonstrate that the informativeness of data in a certain class of dynamic output controller design is equivalent to the identification of the target system. His efforts are aimed at expanding the horizons of these novel control theories into the field of smart grids.
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适量数据 "驱动的系统设计理论:我们能知道/控制/保护到什么程度?
日本电气通信大学机械工程与智能系统系助理教授贞本智则(Tomonori Sadamoto)认为,与许多研究人员专注于收集尽可能多的数据的自然倾向相反,追求大数据并不总是可取的。他正在推动向接受 "适量数据 "驱动的系统设计理论转变。贞本专注于数据驱动方法及其在社会系统中的应用。通过与顶尖机构的同事开展重要的国际合作,他正在推进自己的研究。他在数据驱动方法学方面的工作侧重于结合机器学习和控制理论的跨学科研究。他的应用工作主要涉及智能电网领域。在他的项目中,他从控制论的角度用数学方法提出问题。例如,Sadamoto 开发了一种新颖的数学工具,即 VARX(带外生输入的向量自回归)框架,它有助于对动态系统进行深入分析。利用这一新工具,他开发出了在只有 "不足量数据 "的情况下进行数据依赖性系统识别分析的方法。此外,贞本还首次证明,在某类动态输出控制器设计中,数据的信息量等同于目标系统的识别。他的努力旨在将这些新颖的控制理论扩展到智能电网领域。
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