LY Corporation R&D

OTHERS (INTERNATIONAL) Approximate Reverse k-Ranks Queries in High Dimensions

Daichi Amagata (Osaka University), Kazuyoshi Aoyama (Osaka University), Keito Kido (Osaka University), Sumio Fujita

arXiv.org (arXiv)

April 18, 2025

Many objects are represented as high-dimensional vectors nowadays. In this setting, the relevance between two objects (vectors) is usually evaluated by their inner product. Recently, item-centric searches, which search for users relevant to query items, have received attention and find important applications, such as product promotion and market analysis. To support these applications, this paper considers reverse 𝑘-ranks queries. Given a query vector q, 𝑘, a set U of user vectors, and a set P of item vectors, this query retrieves the 𝑘 user vectors u ∈ U with the highest 𝑟 (q, u, P), where 𝑟 (q, u, P) shows the rank of q for u among P. Because efficiently computing the exact answer for this query is difficult in high dimensions, we address the problem of approximate reverse 𝑘-ranks queries. Informally, given an approximation factor 𝑐, this problem allows, as an output, a user u′ such that 𝑟 (q, u′, P) > 𝜏 but 𝑟 (q, u′, P) ≤ 𝑐 × 𝜏, where 𝜏 is the rank threshold for the exact answer. We propose a new algorithm for solving this problem efficiently. Through theoretical and empirical analyses, we confirm the efficiency and effectiveness of our algorithm.

Paper : Approximate Reverse k-Ranks Queries in High Dimensions (external link)