上海交通大学学报

上海交通大学学报 >

2021 , Vol. 55 >Issue Sup.1: 1 - 2

DOI: https://doi.org/10.16183/j.cnki.jsjtu.2021.S1.018

人工智能

人工智能可以通过操纵波来实现吗?

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  • 上海交通大学 机械与动力工程学院, 上海 200240

收稿日期: 2021-02-03

  网络出版日期: 2021-04-09

基金资助

国家自然科学基金(11872244)资助项目

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Can AI Be Realized by Manipulating Waves?

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  • School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China

Received date: 2021-02-03

  Online published: 2021-04-09

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摘要

简述了基于波物理特性人工智能超材料的研究背景,总结了人工智能超材料的核心思想在于“学习感知”,指出了实现人工智能超材料的关键在于如何构建超材料动力学模型,并分析其与人工智能模型的关联.基于波操纵的人工智能超材料将会为突破信息感知与处理的传统技术难题开辟新的思路,具有广阔的应用前景.

关键词: 超材料;人工智能;学习感知;波物理;动力学机理

本文引用格式

何清波,姜添曦 . 人工智能可以通过操纵波来实现吗?[J]. 上海交通大学学报, 2021 , 55(Sup.1) : 1 -2 . DOI: 10.16183/j.cnki.jsjtu.2021.S1.018

Abstract

This paper briefly describes the research background of wave physics-based artificial intelligence (AI) metamaterials. The core idea of AI metamaterials is “learned sensing”. The key point of realizing AI metamaterials is how to build dynamics model of metamaterials, and analyze its association with AI model. The wave-manipulation-based AI metamaterials will open up a new way to breaking through the traditional technical problems of information perception and processing, and therefore, have broad application prospects.

Key words: metamaterials; artificial intelligence (AI); learned sensing; wave physics; dynamics mechanism

参考文献

1]SILVA A, MONTICONE F, CASTALDI G, et al. Performing mathematical operations with metamaterials[J]. Science, 2014, 343(6167): 160-163. [2]LIN X, RIVENSON Y, YARDIMCI N T, et al. All-optical machine learning using diffractive deep neural networks[J]. Science, 2018, 361(6406): 1004-1008.
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