Learning and Understanding User Interface Semantics from Heterogeneous Networks with Multimodal and Positional Attributes-Reference-Cited by-同舟云学术

Learning and Understanding User Interface Semantics from Heterogeneous Networks with Multimodal and Positional Attributes

Published:2022-12-23 Issue: Volume: Page:
ISSN:2160-6455
Container-title:ACM Transactions on Interactive Intelligent Systems
language:en
Short-container-title:ACM Trans. Interact. Intell. Syst.

Author:

Ang Gary¹,Lim Ee-Peng¹

Affiliation:

1. Singapore Management University, Singapore

Abstract

User interfaces (UI) of desktop, web, and mobile applications involve a hierarchy of objects (e.g., applications, screens, view class, and other types of design objects) with multimodal (e.g., textual, visual) and positional (e.g., spatial location, sequence order and hierarchy level) attributes. We can therefore represent a set of application UIs as a heterogeneous network with multimodal and positional attributes. Such a network not only represents how users understand the visual layout of UIs, but also influences how users would interact with applications through these UIs. To model the UI semantics well for different UI annotation, search, and evaluation tasks, this paper proposes the novel Heterogeneous Attention-based Multimodal Positional (HAMP) graph neural network model. HAMP combines graph neural networks with the scaled dot-product attention used in transformers to learn the embeddings of heterogeneous nodes and associated multimodal and positional attributes in a unified manner. HAMP is evaluated with classification and regression tasks conducted on three distinct real-world datasets. Our experiments demonstrate that HAMP significantly out-performs other state-of-the-art models on such tasks. To further provide interpretations of the contribution of heterogeneous network information for understanding the relationships between the UI structure and prediction tasks, we propose Adaptive HAMP (AHAMP), which adaptively learns the importance of different edges linking different UI objects. Our experiments demonstrate AHAMP’s superior performance over HAMP on a number of tasks, and its ability to provide interpretations of the contribution of multimodal and positional attributes, as well as heterogeneous network information to different tasks.

Publisher

Association for Computing Machinery (ACM)

Subject

Artificial Intelligence,Human-Computer Interaction

Link

https://dl.acm.org/doi/pdf/10.1145/3578522

Reference58 articles.

1. Sami Abu-El-Haija , Amol Kapoor , Bryan Perozzi , and Joonseok Lee . 2019 . N-GCN: Multi-scale Graph Convolution for Semi-supervised Node Classification . In Proceedings of the Thirty-Fifth Conference on Uncertainty in Artificial Intelligence (UAI). Sami Abu-El-Haija, Amol Kapoor, Bryan Perozzi, and Joonseok Lee. 2019. N-GCN: Multi-scale Graph Convolution for Semi-supervised Node Classification. In Proceedings of the Thirty-Fifth Conference on Uncertainty in Artificial Intelligence (UAI).

2. Gary Ang and Ee-Peng Lim . 2021 . Learning Network-Based Multi-Modal Mobile User Interface Embeddings. In ACM International Conference on Intelligent User Interfaces (IUI). Gary Ang and Ee-Peng Lim. 2021. Learning Network-Based Multi-Modal Mobile User Interface Embeddings. In ACM International Conference on Intelligent User Interfaces (IUI).

3. Peter W. Battaglia , Jessica B. Hamrick , Victor Bapst , Alvaro Sanchez-Gonzalez , Vinícius Flores Zambaldi , Mateusz Malinowski , Andrea Tacchetti , David Raposo , Adam Santoro , Ryan Faulkner , Çaglar Gülçehre , H. Francis Song , Andrew J. Ballard , Justin Gilmer , George E. Dahl , Ashish Vaswani , Kelsey R. Allen , Charles Nash , Victoria Langston , Chris Dyer , Nicolas Heess , Daan Wierstra , Pushmeet Kohli , Matthew Botvinick , Oriol Vinyals , Yujia Li , and Razvan Pascanu . 2018. Relational inductive biases, deep learning, and graph networks. CoRR ( 2018 ). Peter W. Battaglia, Jessica B. Hamrick, Victor Bapst, Alvaro Sanchez-Gonzalez, Vinícius Flores Zambaldi, Mateusz Malinowski, Andrea Tacchetti, David Raposo, Adam Santoro, Ryan Faulkner, Çaglar Gülçehre, H. Francis Song, Andrew J. Ballard, Justin Gilmer, George E. Dahl, Ashish Vaswani, Kelsey R. Allen, Charles Nash, Victoria Langston, Chris Dyer, Nicolas Heess, Daan Wierstra, Pushmeet Kohli, Matthew Botvinick, Oriol Vinyals, Yujia Li, and Razvan Pascanu. 2018. Relational inductive biases, deep learning, and graph networks. CoRR (2018).

4. Sara Bunian , Kai Li , Chaima Jemmali , Casper Harteveld , Yun Fu , and Magy Seif El-Nasr . 2021 . VINS: Visual Search for Mobile User Interface Design. CoRR (2021). Sara Bunian, Kai Li, Chaima Jemmali, Casper Harteveld, Yun Fu, and Magy Seif El-Nasr. 2021. VINS: Visual Search for Mobile User Interface Design. CoRR (2021).

5. Yukuo Cen , Xu Zou , Jianwei Zhang , Hongxia Yang , Jingren Zhou , and Jie Tang . 2019 . Representation Learning for Attributed Multiplex Heterogeneous Network. In ACM International Conference on Knowledge Discovery and Data Mining (KDD). Yukuo Cen, Xu Zou, Jianwei Zhang, Hongxia Yang, Jingren Zhou, and Jie Tang. 2019. Representation Learning for Attributed Multiplex Heterogeneous Network. In ACM International Conference on Knowledge Discovery and Data Mining (KDD).

Cited by 2 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Computational Representations for Graphical User Interfaces;Extended Abstracts of the CHI Conference on Human Factors in Computing Systems;2024-05-11

2. Graph4GUI: Graph Neural Networks for Representing Graphical User Interfaces;Proceedings of the CHI Conference on Human Factors in Computing Systems;2024-05-11