Shift-Equivariant Similarity-Preserving Hypervector Representations of Sequences

IF 4.3 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Cognitive Computation Pub Date : 2024-03-12 DOI:10.1007/s12559-024-10258-4

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Abstract

Hyperdimensional Computing (HDC), also known as Vector-Symbolic Architectures (VSA), is a promising framework for the development of cognitive architectures and artificial intelligence systems, as well as for technical applications and emerging neuromorphic and nanoscale hardware. HDC/VSA operate with hypervectors, i.e., neural-like distributed vector representations of large fixed dimension (usually > 1000). One of the key ingredients of HDC/VSA are the methods for encoding various data types (from numeric scalars and vectors to graphs) by hypervectors. In this paper, we propose an approach for the formation of hypervectors of sequences that provides both an equivariance with respect to the shift of sequences and preserves the similarity of sequences with identical elements at nearby positions. Our methods represent the sequence elements by compositional hypervectors and exploit permutations of hypervectors for representing the order of sequence elements. We experimentally explored the proposed representations using a diverse set of tasks with data in the form of symbolic strings. Although we did not use any features here (hypervector of a sequence was formed just from the hypervectors of its symbols at their positions), the proposed approach demonstrated the performance on a par with the methods that exploit various features, such as subsequences. The proposed techniques were designed for the HDC/VSA model known as Sparse Binary Distributed Representations. However, they can be adapted to hypervectors in formats of other HDC/VSA models, as well as for representing sequences of types other than symbolic strings. Directions for further research are discussed.

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序列的移项-换元相似性保全超矢量表示

摘要超维度计算（HDC），又称矢量-符号架构（VSA），是开发认知架构和人工智能系统以及技术应用和新兴神经形态和纳米级硬件的一个前景广阔的框架。HDC/VSA 使用超向量（即具有较大固定维度（通常为 1000）的类似神经的分布式向量表示）进行操作。HDC/VSA 的关键要素之一是用超向量对各种数据类型（从数字标量和向量到图形）进行编码的方法。在本文中，我们提出了一种形成序列超向量的方法，这种方法既能提供序列移动的等差数列，又能保持在附近位置具有相同元素的序列的相似性。我们的方法用组成超向量来表示序列元素，并利用超向量的排列来表示序列元素的顺序。我们使用一系列不同的任务和符号字符串形式的数据，对所提出的表示方法进行了实验探索。虽然我们在这里没有使用任何特征（序列的超向量只是由其符号在其位置上的超向量形成的），但所提出的方法表现出了与利用子序列等各种特征的方法相当的性能。所提出的技术是针对被称为稀疏二进制分布式表示的 HDC/VSA 模型而设计的。不过，这些技术也可适用于其他 HDC/VSA 模型格式的超向量，以及表示符号字符串以外类型的序列。本文讨论了进一步研究的方向。

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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来源期刊

Cognitive Computation COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-NEUROSCIENCES

CiteScore

9.30

自引率

3.70%

发文量

116

审稿时长

>12 weeks

期刊介绍： Cognitive Computation is an international, peer-reviewed, interdisciplinary journal that publishes cutting-edge articles describing original basic and applied work involving biologically-inspired computational accounts of all aspects of natural and artificial cognitive systems. It provides a new platform for the dissemination of research, current practices and future trends in the emerging discipline of cognitive computation that bridges the gap between life sciences, social sciences, engineering, physical and mathematical sciences, and humanities.