DAPPER-Reference-Cited by-同舟云学术

DAPPER

Published:2023-06-12 Issue:2 Volume:7 Page:1-27
ISSN:2474-9567
Container-title:Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies
language:en
Short-container-title:Proc. ACM Interact. Mob. Wearable Ubiquitous Technol.

Author:

Gong Taesik¹^ORCID,Kim Yewon²^ORCID,Orzikulova Adiba²^ORCID,Liu Yunxin³^ORCID,Hwang Sung Ju⁴^ORCID,Shin Jinwoo⁴^ORCID,Lee Sung-Ju²^ORCID

Affiliation:

1. School of Electrical Engineering, KAIST, Republic of Korea and Nokia Bell Labs, UK

2. School of Electrical Engineering, KAIST, Republic of Korea

3. Institute for AI Industry Research (AIR), Tsinghua University and Shanghai Artificial Intelligence Laboratory, China

4. Graduate School of AI, KAIST, Republic of Korea

Abstract

Many applications utilize sensors in mobile devices and machine learning to provide novel services. However, various factors such as different users, devices, and environments impact the performance of such applications, thus making the domain shift (i.e., distributional shift between the training domain and the target domain) a critical issue in mobile sensing. Despite attempts in domain adaptation to solve this challenging problem, their performance is unreliable due to the complex interplay among diverse factors. In principle, the performance uncertainty can be identified and redeemed by performance validation with ground-truth labels. However, it is infeasible for every user to collect high-quality, sufficient labeled data. To address the issue, we present DAPPER (Domain AdaPtation Performance EstimatoR) that estimates the adaptation performance in a target domain with only unlabeled target data. Our key idea is to approximate the model performance based on the mutual information between the model inputs and corresponding outputs. Our evaluation with four real-world sensing datasets compared against six baselines shows that on average, DAPPER outperforms the state-of-the-art baseline by 39.8% in estimation accuracy. Moreover, our on-device experiment shows that DAPPER achieves up to 396x less computation overhead compared with the baselines.

Funder

Institute of Information & communications Technology Planning & Evaluation (IITP) grant funded by the Korea government

Institute of Information & communications Technology Planning & Evaluation(IITP) grant funded by the Korea government

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Networks and Communications,Hardware and Architecture,Human-Computer Interaction

Link

https://dl.acm.org/doi/pdf/10.1145/3596256

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