no code implementations • 22 Jan 2024 • Yiyi Chen, Heather Lent, Johannes Bjerva
However, storing sensitive information as embeddings can be vulnerable to security breaches, as research shows that text can be reconstructed from embeddings, even without knowledge of the underlying model.
no code implementations • 3 Jan 2024 • Yiyi Chen, Johannes Bjerva
Language similarities can be caused by genetic relatedness, areal contact, universality, or chance.
no code implementations • 18 Dec 2023 • Yiyi Chen, Johannes Bjerva
Colexification refers to linguistic phenomena where multiple concepts (meanings) are expressed by the same lexical form, such as polysemy or homophony.
1 code implementation • 30 Oct 2023 • Heather Lent, Kushal Tatariya, Raj Dabre, Yiyi Chen, Marcell Fekete, Esther Ploeger, Li Zhou, Hans Erik Heje, Diptesh Kanojia, Paul Belony, Marcel Bollmann, Loïc Grobol, Miryam de Lhoneux, Daniel Hershcovich, Michel DeGraff, Anders Søgaard, Johannes Bjerva
Creoles represent an under-explored and marginalized group of languages, with few available resources for NLP research.
1 code implementation • ICCV 2023 • Wenjie Yang, Yiyi Chen, Yan Li, Yanhua Cheng, Xudong Liu, Quan Chen, Han Li
Moreover, a cRoss-vIew semantiC alignmEnt (RICE) model is proposed to learn discriminative instance features from the image and video views of the products.
no code implementations • 5 Jun 2023 • Yiyi Chen, Johannes Bjerva
Colexification refers to the linguistic phenomenon where a single lexical form is used to convey multiple meanings.
1 code implementation • 17 Aug 2021 • Yiyi Chen, Harald Sack, Mehwish Alam
The goal of this study is the analysis of social media platform to quantify public attitudes towards migrations and the identification of different factors causing these attitudes.
3 code implementations • 25 Sep 2019 • Dehua Song, Chang Xu, Xu Jia, Yiyi Chen, Chunjing Xu, Yunhe Wang
Focusing on this issue, we propose an efficient residual dense block search algorithm with multiple objectives to hunt for fast, lightweight and accurate networks for image super-resolution.