Parameter-Efficient Single Collaborative Branch for Recommendation

Marta Moscati; Shah Nawaz; Markus Schedl

doi:10.1145/3705328.3759302

Parameter-Efficient Single Collaborative Branch for Recommendation

Marta Moscati^*
, Shah Nawaz
, Markus Schedl

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Recommender Systems (RS) often rely on representations of users and items in a joint embedding space and on a similarity metric to compute relevance scores. In modern RS, the modules to obtain user and item representations consist of two distinct and separate neural networks (NN). In multimodal representation learning, weight sharing has been proven effective in reducing the distance between multiple modalities of a same item. Inspired by these approaches, we propose a novel RS that leverages weight sharing between the user and item NN modules used to obtain the latent representations in the shared embedding space. The proposed framework consists of a single Collaborative Branch for Recommendation (CoBraR). We evaluate CoBraR by means of quantitative experiments on e-commerce and movie recommendation. Our experiments show that by reducing the number of parameters and improving beyond-accuracy aspects without compromising accuracy, CoBraR has the potential to be applied and extended for real-world scenarios.

Original language	English
Title of host publication	Proceedings of the 19th ACM Conference on Recommender Systems
Subtitle of host publication	RecSys '25
Publisher	Association for Computing Machinery
Pages	1256-1260
Number of pages	5
ISBN (Electronic)	979-8-4007-1364-4
DOIs	https://doi.org/10.1145/3705328.3759302
Publication status	Published - 07 Aug 2025

Fields of science

102003 Image processing
202002 Audiovisual media
102001 Artificial intelligence
102015 Information systems
102 Computer Sciences
101019 Stochastics
103029 Statistical physics
101018 Statistics
101017 Game theory
202017 Embedded systems
101016 Optimisation
101015 Operations research
101014 Numerical mathematics
101029 Mathematical statistics
101028 Mathematical modelling
101026 Time series analysis
101024 Probability theory
102032 Computational intelligence
102004 Bioinformatics
102013 Human-computer interaction
101027 Dynamical systems
305907 Medical statistics
101004 Biomathematics
305905 Medical informatics
101031 Approximation theory
102033 Data mining
305901 Computer-aided diagnosis and therapy
102019 Machine learning
106007 Biostatistics
102018 Artificial neural networks
106005 Bioinformatics
202037 Signal processing
202036 Sensor systems
202035 Robotics

JKU Focus areas

Digital Transformation

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10.1145/3705328.3759302

Cite this

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title = "Parameter-Efficient Single Collaborative Branch for Recommendation",

abstract = "Recommender Systems (RS) often rely on representations of users and items in a joint embedding space and on a similarity metric to compute relevance scores. In modern RS, the modules to obtain user and item representations consist of two distinct and separate neural networks (NN). In multimodal representation learning, weight sharing has been proven effective in reducing the distance between multiple modalities of a same item. Inspired by these approaches, we propose a novel RS that leverages weight sharing between the user and item NN modules used to obtain the latent representations in the shared embedding space. The proposed framework consists of a single Collaborative Branch for Recommendation (CoBraR). We evaluate CoBraR by means of quantitative experiments on e-commerce and movie recommendation. Our experiments show that by reducing the number of parameters and improving beyond-accuracy aspects without compromising accuracy, CoBraR has the potential to be applied and extended for real-world scenarios.",

author = "Marta Moscati and Shah Nawaz and Markus Schedl",

year = "2025",

month = aug,

day = "7",

doi = "10.1145/3705328.3759302",

language = "English",

pages = "1256--1260",

booktitle = "Proceedings of the 19th ACM Conference on Recommender Systems",

publisher = "Association for Computing Machinery",

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T1 - Parameter-Efficient Single Collaborative Branch for Recommendation

AU - Moscati, Marta

AU - Nawaz, Shah

AU - Schedl, Markus

PY - 2025/8/7

Y1 - 2025/8/7

N2 - Recommender Systems (RS) often rely on representations of users and items in a joint embedding space and on a similarity metric to compute relevance scores. In modern RS, the modules to obtain user and item representations consist of two distinct and separate neural networks (NN). In multimodal representation learning, weight sharing has been proven effective in reducing the distance between multiple modalities of a same item. Inspired by these approaches, we propose a novel RS that leverages weight sharing between the user and item NN modules used to obtain the latent representations in the shared embedding space. The proposed framework consists of a single Collaborative Branch for Recommendation (CoBraR). We evaluate CoBraR by means of quantitative experiments on e-commerce and movie recommendation. Our experiments show that by reducing the number of parameters and improving beyond-accuracy aspects without compromising accuracy, CoBraR has the potential to be applied and extended for real-world scenarios.

AB - Recommender Systems (RS) often rely on representations of users and items in a joint embedding space and on a similarity metric to compute relevance scores. In modern RS, the modules to obtain user and item representations consist of two distinct and separate neural networks (NN). In multimodal representation learning, weight sharing has been proven effective in reducing the distance between multiple modalities of a same item. Inspired by these approaches, we propose a novel RS that leverages weight sharing between the user and item NN modules used to obtain the latent representations in the shared embedding space. The proposed framework consists of a single Collaborative Branch for Recommendation (CoBraR). We evaluate CoBraR by means of quantitative experiments on e-commerce and movie recommendation. Our experiments show that by reducing the number of parameters and improving beyond-accuracy aspects without compromising accuracy, CoBraR has the potential to be applied and extended for real-world scenarios.

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U2 - 10.1145/3705328.3759302

DO - 10.1145/3705328.3759302

M3 - Conference proceedings

SP - 1256

EP - 1260

BT - Proceedings of the 19th ACM Conference on Recommender Systems

PB - Association for Computing Machinery

ER -

Parameter-Efficient Single Collaborative Branch for Recommendation

Abstract

Fields of science

JKU Focus areas

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