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1. Mechanistic study on the promotion of pancreatic cancer progression through upregulation of ZNF143 by dysregulated fatty acid metabolism

Author

YU Siwei, XU Ziqi, TAO Mengyu, and FAN Guangjian

Subjects
pancreatic cancer, zinc finger protein 143 (znf143), fatty acid accumulation, bioinformatics analysis, epithelial mesenchymal transition (emt), Medicine
Abstract

Objective·To identify key genes that may be regulated by fatty acid alteration in pancreatic cancer through tumor transcriptome screening, and to explore the expression of zinc finger protein 143 (ZNF143) in pancreatic cancer and its effect on the migration and invasion of pancreatic cancer cells.Methods·The R language was utilized to integrate transcriptome data, including the GSE164760 dataset from the Gene Expression Omnibus (GEO) database, 179 pancreatic cancer tissue samples and 4 adjacent non-cancerous tissue samples from The Cancer Genome Atlas (TCGA) database, as well as 167 normal pancreatic tissue samples from the Genotype-Tissue Expression (GTEx) database. We conducted screening and analysis of potential differential genes that may be induced by dysregulation of fatty acid metabolism in pancreatic cancer. After treating pancreatic cancer cells with palmitic acid (PA) and oleic acid (OA) for 24 hours, the mRNA levels of candidate genes were detected by qRT-PCR. According to the median expression level of the screened gene, pancreatic cancer patients in the TCGA database were divided into two groups with high and low expression of ZNF143. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway and Gene Ontology (GO) enrichment analyses were performed for the differential genes of the two groups. siRNA was used to knock down the expression of ZNF143 in pancreatic cancer cells, and the effects on cell migration and invasion were examined by wound healing assay and invasion assay. Western blotting was used to explore the impact of ZNF143 on epithelial mesenchymal transition (EMT)-related proteins and the Wnt/β-catenin pathway.Results·The bioinformatics database was processed to analyze key genes associated with the up-regulation of genes in lipid metabolism disorders in pancreatic cancer and liver cancer. Among them, ZNF143 was a potential gene associated with fatty acid accumulation in pancreatic cancer. In vitro experiments confirmed that the mRNA level of ZNF143 was significantly up-regulated after treating pancreatic cancer cells with palmitic acid or oleic acid. Both KEGG and GO enrichment analyses demonstrated that the differentially expressed genes associated with ZNF143 were predominantly enriched in adhesion pathways. In functional experiments, the migration and invasion abilities of pancreatic cancer cells transfected with ZNF143 siRNA were reduced, and the expression of EMT-related proteins was also decreased, potentially related to the activation of the Wnt/β- catenin pathway.Conclusion·Fatty acid accumulation up-regulates the mRNA expression of ZNF143 in pancreatic cancer cells, and ZNF143 may enhance the migration and invasion of these cells by facilitating EMT through activation of the Wnt/β-catenin pathway.

Published
2024
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2. PRMT6 promotes the proliferation and migration of breast cancer cells

Author

HAN Yishan, XU Ziqi, TAO Mengyu, FAN Guangjian, and YU Bo

Subjects
breast cancer, protein arginine methyltransferase 6, proliferation, migration, cell cycle, Medicine
Abstract

Objective·To examine the expression level of protein arginine methyltransferase 6 (PRMT6) in breast carcinoma tissues and to assess its impact on the proliferative and migratory behaviors of breast cancer cells.Methods·The PRMT6 transcriptome sequencing data between 33 tumor tissues and normal tissues from The Cancer Genome Atlas (TCGA) database was analyzed through the R language. The gene expression profile interactive analysis (GEPIA2) online database was used to analyze the difference of PRMT6 expression in normal breast tissues and breast cancer tissues. By using the immunohistochemistry (IHC) data of human normal breast tissues and breast cancer tissues from Human Protein Atlas (HPA) database to analyze the protein expression of PRMT6. IHC was used to detect the expression of PRMT6 in breast cancer tissues and paired para-tumor tissues from 27 clinical samples. After PRMT6 was knocked down with small interfering RNA (siRNA) in MDA-MB-231 and MCF-7 cells , the expression of PRMT6 was detected by qRT-PCR and Western blotting. The proliferation ability of breast cancer cells was measured with cell counting kit-8 (CCK-8) assay and colony formation assay. The effect of PRMT6 on the migration ability of breast cancer cells was detected by wound healing assay and Transwell assay. By using the RNA-sequence data from GSE210948 of Gene Expression Omnibus (GEO) database, differentially expressed genes were analyzed in control and low expression groups of PRMT6. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis was performed to reveal the signaling pathways associated with PRMT6. Cell cycle analysis was detected by flow cytometry. The expressions of cyclin D1 and EMT-related proteins (E-cadherin, N-cadherin and Vimentin) were detected by Western blotting after knocking down PRMT6.Results·Bioinformatics analysis and IHC results showed that PRMT6 was highly expressed in breast cancer tissues compared with normal tissues (P=0.000) and para-tumor tissues (P=0.001). qRT-PCR and Western blotting results verified that the siRNA significantly reduced the expression level of PRMT6 in MDA-MB-231 and MCF-7 cell lines compared with the control group (mRNA: P=0.006, P=0.004; P=0.001, P=0.043. Protein: P=0.035, P=0.001; P=0.003, P=0.002). After knocking down PRMT6, the proliferation (P=0.014, P=0.000; P=0.003, P=0.003) and migration (P=0.000, P=0.000; P=0.000, P=0.002) ability of breast cancer cells were inhibited significantly . The KEGG pathway enrichment analysis showed that the expression of PRMT6 affected the cell cycle pathway. After knocking down PRMT6, the expression of cyclin D1 decreased in protein level (P=0.021, P=0.000; P=0.034, P=0.014) and transcription level (P=0.036, P=0.001; P=0.044, P=0.000). Knock down of PRMT6 increased the number of cells in G0/G1 phase (P=0.000; P=0.003) and decreased the number of cells in G2/M phase of the cell cycle . The expression level of E-cadherin increased (P=0.002, P=0.012; P=0.043, P=0.003), while the expression levels of N-cadherin (P=0.004, P=0.041; P=0.032, P=0.034) and Vimentin (P=0.028, P=0.005; P=0.024, P=0.001) decreased in PRMT6 knockdown cells .Conclusion·PRMT6 is highly expressed in breast cancer, which can promote the proliferation and migration of breast cancer cells.

Published
2024
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3. Numerical simulation study on the drag reduction characteristics of grooves-microbubbles coupling surfaces

Author

Li Tianjian, Yang Tianlong, Dong Qin, Sun Xizhi, Wu Tao, and Xu Ziqi

Subjects
grooves, microbubbles, surface drag reduction, numerical simulation, Technology
Abstract

Surface drag reduction technologies can significantly reduce the resistance during ship navigation, enhancing speed, efficiency and adaptability under various operating conditions. This paper uses numerical simulation technology to analyze the drag reduction characteristics of grooved and grooves-microbubbles coupling surface, focusing on the effects of groove width, gas flow rate, and liquid flow velocity on the drag reduction performance. The research results indicate that the grooved surface is suitable for full surface drag reduction at velocity below 3 m/s with a maximum drag reduction rate of 4.02%. Microbubbles can greatly improve the drag reduction effect of the grooved surface, and the drag reduction effect of the coupling surface gradually increases with the gas flow rate increases. The maximum drag reduction rate can reach 89.86% at the gas inlet velocity of 1 m/s. The liquid flow velocity has a significant impact on the drag reduction. In both the groove model and the coupling model, the drag reduction rate initially rises and then declines with the liquid flow velocity increases.

Published
2024
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4. Deconfounding Time Series Forecasting

Author

Gao, Wentao, Yang, Feiyu, Hong, Mengze, Du, Xiaojing, Hu, Zechen, Chen, Xiongren, and Xu, Ziqi

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Time series forecasting is a critical task in various domains, where accurate predictions can drive informed decision-making. Traditional forecasting methods often rely on current observations of variables to predict future outcomes, typically overlooking the influence of latent confounders, unobserved variables that simultaneously affect both the predictors and the target outcomes. This oversight can introduce bias and degrade the performance of predictive models. In this study, we address this challenge by proposing an enhanced forecasting approach that incorporates representations of latent confounders derived from historical data. By integrating these confounders into the predictive process, our method aims to improve the accuracy and robustness of time series forecasts. The proposed approach is demonstrated through its application to climate science data, showing significant improvements over traditional methods that do not account for confounders.

Published
2024

5. Linking Model Intervention to Causal Interpretation in Model Explanation

Author

Cheng, Debo, Xu, Ziqi, Li, Jiuyong, Liu, Lin, Yu, Kui, Le, Thuc Duy, and Liu, Jixue

Subjects
Computer Science - Machine Learning, Statistics - Methodology
Abstract

Intervention intuition is often used in model explanation where the intervention effect of a feature on the outcome is quantified by the difference of a model prediction when the feature value is changed from the current value to the baseline value. Such a model intervention effect of a feature is inherently association. In this paper, we will study the conditions when an intuitive model intervention effect has a causal interpretation, i.e., when it indicates whether a feature is a direct cause of the outcome. This work links the model intervention effect to the causal interpretation of a model. Such an interpretation capability is important since it indicates whether a machine learning model is trustworthy to domain experts. The conditions also reveal the limitations of using a model intervention effect for causal interpretation in an environment with unobserved features. Experiments on semi-synthetic datasets have been conducted to validate theorems and show the potential for using the model intervention effect for model interpretation.

Published
2024

6. Fairness Evaluation with Item Response Theory

Author

Xu, Ziqi, Kandanaarachchi, Sevvandi, Ong, Cheng Soon, and Ntoutsi, Eirini

Subjects
Computer Science - Computers and Society, Computer Science - Machine Learning
Abstract

Item Response Theory (IRT) has been widely used in educational psychometrics to assess student ability, as well as the difficulty and discrimination of test questions. In this context, discrimination specifically refers to how effectively a question distinguishes between students of different ability levels, and it does not carry any connotation related to fairness. In recent years, IRT has been successfully used to evaluate the predictive performance of Machine Learning (ML) models, but this paper marks its first application in fairness evaluation. In this paper, we propose a novel Fair-IRT framework to evaluate a set of predictive models on a set of individuals, while simultaneously eliciting specific parameters, namely, the ability to make fair predictions (a feature of predictive models), as well as the discrimination and difficulty of individuals that affect the prediction results. Furthermore, we conduct a series of experiments to comprehensively understand the implications of these parameters for fairness evaluation. Detailed explanations for item characteristic curves (ICCs) are provided for particular individuals. We propose the flatness of ICCs to disentangle the unfairness between individuals and predictive models. The experiments demonstrate the effectiveness of this framework as a fairness evaluation tool. Two real-world case studies illustrate its potential application in evaluating fairness in both classification and regression tasks. Our paper aligns well with the Responsible Web track by proposing a Fair-IRT framework to evaluate fairness in ML models, which directly contributes to the development of a more inclusive, equitable, and trustworthy AI.

Published
2024

7. TSI: A Multi-View Representation Learning Approach for Time Series Forecasting

Author

Gao, Wentao, Xu, Ziqi, Li, Jiuyong, Liu, Lin, Liu, Jixue, Le, Thuc Duy, Cheng, Debo, Zhao, Yanchang, and Chen, Yun

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

As the growing demand for long sequence time-series forecasting in real-world applications, such as electricity consumption planning, the significance of time series forecasting becomes increasingly crucial across various domains. This is highlighted by recent advancements in representation learning within the field. This study introduces a novel multi-view approach for time series forecasting that innovatively integrates trend and seasonal representations with an Independent Component Analysis (ICA)-based representation. Recognizing the limitations of existing methods in representing complex and high-dimensional time series data, this research addresses the challenge by combining TS (trend and seasonality) and ICA (independent components) perspectives. This approach offers a holistic understanding of time series data, going beyond traditional models that often miss nuanced, nonlinear relationships. The efficacy of TSI model is demonstrated through comprehensive testing on various benchmark datasets, where it shows superior performance over current state-of-the-art models, particularly in multivariate forecasting. This method not only enhances the accuracy of forecasting but also contributes significantly to the field by providing a more in-depth understanding of time series data. The research which uses ICA for a view lays the groundwork for further exploration and methodological advancements in time series forecasting, opening new avenues for research and practical applications., Comment: AJCAI Oral Accepted

Published
2024

8. An Item Response Theory-based R Module for Algorithm Portfolio Analysis

Author

Oldfield, Brodie, Kandanaarachchi, Sevvandi, Xu, Ziqi, and Muñoz, Mario Andrés

Subjects
Computer Science - Machine Learning
Abstract

Experimental evaluation is crucial in AI research, especially for assessing algorithms across diverse tasks. Many studies often evaluate a limited set of algorithms, failing to fully understand their strengths and weaknesses within a comprehensive portfolio. This paper introduces an Item Response Theory (IRT) based analysis tool for algorithm portfolio evaluation called AIRT-Module. Traditionally used in educational psychometrics, IRT models test question difficulty and student ability using responses to test questions. Adapting IRT to algorithm evaluation, the AIRT-Module contains a Shiny web application and the R package airt. AIRT-Module uses algorithm performance measures to compute anomalousness, consistency, and difficulty limits for an algorithm and the difficulty of test instances. The strengths and weaknesses of algorithms are visualised using the difficulty spectrum of the test instances. AIRT-Module offers a detailed understanding of algorithm capabilities across varied test instances, thus enhancing comprehensive AI method assessment. It is available at https://sevvandi.shinyapps.io/AIRT/ ., Comment: 10 Pages, 6 Figures. Submitted to SoftwareX

Published
2024

9. Causal Effect Estimation using identifiable Variational AutoEncoder with Latent Confounders and Post-Treatment Variables

Author

Xie, Yang, Xu, Ziqi, Cheng, Debo, Li, Jiuyong, Liu, Lin, Zhang, Yinghao, and Feng, Zaiwen

Subjects
Computer Science - Machine Learning, Statistics - Methodology
Abstract

Estimating causal effects from observational data is challenging, especially in the presence of latent confounders. Much work has been done on addressing this challenge, but most of the existing research ignores the bias introduced by the post-treatment variables. In this paper, we propose a novel method of joint Variational AutoEncoder (VAE) and identifiable Variational AutoEncoder (iVAE) for learning the representations of latent confounders and latent post-treatment variables from their proxy variables, termed CPTiVAE, to achieve unbiased causal effect estimation from observational data. We further prove the identifiability in terms of the representation of latent post-treatment variables. Extensive experiments on synthetic and semi-synthetic datasets demonstrate that the CPTiVAE outperforms the state-of-the-art methods in the presence of latent confounders and post-treatment variables. We further apply CPTiVAE to a real-world dataset to show its potential application.

Published
2024

10. Calibrated prediction intervals for polygenic scores across diverse contexts.

Author

Hou, Kangcheng, Xu, Ziqi, Ding, Yi, Mandla, Ravi, Shi, Zhuozheng, Boulier, Kristin, Harpak, Arbel, and Pasaniuc, Bogdan

Subjects
Humans, Multifactorial Inheritance, Genome-Wide Association Study, Models, Genetic, Female, Male, Calibration, Biological Specimen Banks, Phenotype, Genomics, Polymorphism, Single Nucleotide
Abstract

Polygenic scores (PGS) have emerged as the tool of choice for genomic prediction in a wide range of fields. We show that PGS performance varies broadly across contexts and biobanks. Contexts such as age, sex and income can impact PGS accuracy with similar magnitudes as genetic ancestry. Here we introduce an approach (CalPred) that models all contexts jointly to produce prediction intervals that vary across contexts to achieve calibration (include the trait with 90% probability), whereas existing methods are miscalibrated. In analyses of 72 traits across large and diverse biobanks (All of Us and UK Biobank), we find that prediction intervals required adjustment by up to 80% for quantitative traits. For disease traits, PGS-based predictions were miscalibrated across socioeconomic contexts such as annual household income levels, further highlighting the need of accounting for context information in PGS-based prediction across diverse populations.

Published
2024

13. Predicting the structure of dynamic graphs

Author

Kandanaarachchi, Sevvandi, Xu, Ziqi, and Westerlund, Stefan

Subjects
Computer Science - Machine Learning, Computer Science - Social and Information Networks, Statistics - Machine Learning
Abstract

Many aspects of graphs have been studied in depth. However, forecasting the structure of a graph at future time steps incorporating unseen, new nodes and edges has not gained much attention. In this paper, we present such an approach. Using a time series of graphs, we forecast graphs at future time steps. We use time series forecasting methods to predict the node degree at future time points and combine these forecasts with flux balance analysis -- a linear programming method used in biochemistry -- to obtain the structure of future graphs. We evaluate this approach using synthetic and real-world datasets and demonstrate its utility and applicability.

Published
2024

14. Instrumental Variable Estimation for Causal Inference in Longitudinal Data with Time-Dependent Latent Confounders

Author

Cheng, Debo, Xu, Ziqi, Li, Jiuyong, Liu, Lin, Liu, Jixue, Gao, Wentao, and Le, Thuc Duy

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Methodology
Abstract

Causal inference from longitudinal observational data is a challenging problem due to the difficulty in correctly identifying the time-dependent confounders, especially in the presence of latent time-dependent confounders. Instrumental variable (IV) is a powerful tool for addressing the latent confounders issue, but the traditional IV technique cannot deal with latent time-dependent confounders in longitudinal studies. In this work, we propose a novel Time-dependent Instrumental Factor Model (TIFM) for time-varying causal effect estimation from data with latent time-dependent confounders. At each time-step, the proposed TIFM method employs the Recurrent Neural Network (RNN) architecture to infer latent IV, and then uses the inferred latent IV factor for addressing the confounding bias caused by the latent time-dependent confounders. We provide a theoretical analysis for the proposed TIFM method regarding causal effect estimation in longitudinal data. Extensive evaluation with synthetic datasets demonstrates the effectiveness of TIFM in addressing causal effect estimation over time. We further apply TIFM to a climate dataset to showcase the potential of the proposed method in tackling real-world problems., Comment: 13 pages, 7 figures and 3 tables

Published
2023

15. Disentangled Latent Representation Learning for Tackling the Confounding M-Bias Problem in Causal Inference

Author

Cheng, Debo, Xie, Yang, Xu, Ziqi, Li, Jiuyong, Liu, Lin, Liu, Jixue, Zhang, Yinghao, and Feng, Zaiwen

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Methodology
Abstract

In causal inference, it is a fundamental task to estimate the causal effect from observational data. However, latent confounders pose major challenges in causal inference in observational data, for example, confounding bias and M-bias. Recent data-driven causal effect estimators tackle the confounding bias problem via balanced representation learning, but assume no M-bias in the system, thus they fail to handle the M-bias. In this paper, we identify a challenging and unsolved problem caused by a variable that leads to confounding bias and M-bias simultaneously. To address this problem with co-occurring M-bias and confounding bias, we propose a novel Disentangled Latent Representation learning framework for learning latent representations from proxy variables for unbiased Causal effect Estimation (DLRCE) from observational data. Specifically, DLRCE learns three sets of latent representations from the measured proxy variables to adjust for the confounding bias and M-bias. Extensive experiments on both synthetic and three real-world datasets demonstrate that DLRCE significantly outperforms the state-of-the-art estimators in the case of the presence of both confounding bias and M-bias., Comment: 10 pages, 3 figures and 5 tables. Accepted by ICDM2023

Published
2023

16. Preparation of micro-encapsulated strawberry fragrance and its application in the aromatic wallpaper

Author

Xiao Zuobing, Zhang Yu, Zhu Guangyong, Niu Yunwei, Xu Ziqi, and Zhu Jiancai

Subjects
micro-encapsulation, fragrance, wallpaper, controlled release, Chemistry, QD1-999
Abstract

Micro-encapsulated strawberry fragrance was successfully prepared with wall materials including maltodextrin, sodium octenylsuccinate and gum Arabic. The micro-capsule was added to wallpaper and aromatic wallpaper with strawberry characteristics was obtained. The particle distribution, surface morphology, chemical structure, thermal property and controlled release performance of micro-encapsulated fragrance and aromatic wallpaper were investigated using laser particle size analyzer, scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FT-TR), thermal gravity analysis (TGA) and chromatography-mass spectrometer (GC-MS). The results showed that the average diameter of micro-capsule was 2 μm and the particles mainly distributed in the tissues of wallpaper. The result of TGA showed that the micro-capsule had a good stability. Meanwhile, the aromatic wallpaper had strawberry aroma more than 3 months and took on excellent controlled release performance.

Published
2017
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19. Conditional Instrumental Variable Regression with Representation Learning for Causal Inference

Author

Cheng, Debo, Xu, Ziqi, Li, Jiuyong, Liu, Lin, Liu, Jixue, and Le, Thuc Duy

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

This paper studies the challenging problem of estimating causal effects from observational data, in the presence of unobserved confounders. The two-stage least square (TSLS) method and its variants with a standard instrumental variable (IV) are commonly used to eliminate confounding bias, including the bias caused by unobserved confounders, but they rely on the linearity assumption. Besides, the strict condition of unconfounded instruments posed on a standard IV is too strong to be practical. To address these challenging and practical problems of the standard IV method (linearity assumption and the strict condition), in this paper, we use a conditional IV (CIV) to relax the unconfounded instrument condition of standard IV and propose a non-linear CIV regression with Confounding Balancing Representation Learning, CBRL.CIV, for jointly eliminating the confounding bias from unobserved confounders and balancing the observed confounders, without the linearity assumption. We theoretically demonstrate the soundness of CBRL.CIV. Extensive experiments on synthetic and two real-world datasets show the competitive performance of CBRL.CIV against state-of-the-art IV-based estimators and superiority in dealing with the non-linear situation., Comment: 17pages, 3 figures and 6 tables

Published
2023

20. Causal Inference with Conditional Front-Door Adjustment and Identifiable Variational Autoencoder

Author

Xu, Ziqi, Cheng, Debo, Li, Jiuyong, Liu, Jixue, Liu, Lin, and Yu, Kui

Subjects
Computer Science - Machine Learning
Abstract

An essential and challenging problem in causal inference is causal effect estimation from observational data. The problem becomes more difficult with the presence of unobserved confounding variables. The front-door adjustment is a practical approach for dealing with unobserved confounding variables. However, the restriction for the standard front-door adjustment is difficult to satisfy in practice. In this paper, we relax some of the restrictions by proposing the concept of conditional front-door (CFD) adjustment and develop the theorem that guarantees the causal effect identifiability of CFD adjustment. Furthermore, as it is often impossible for a CFD variable to be given in practice, it is desirable to learn it from data. By leveraging the ability of deep generative models, we propose CFDiVAE to learn the representation of the CFD adjustment variable directly from data with the identifiable Variational AutoEncoder and formally prove the model identifiability. Extensive experiments on synthetic datasets validate the effectiveness of CFDiVAE and its superiority over existing methods. The experiments also show that the performance of CFDiVAE is less sensitive to the causal strength of unobserved confounding variables. We further apply CFDiVAE to a real-world dataset to demonstrate its potential application.

Published
2023

21. Utilizing Semantic Textual Similarity for Clinical Survey Data Feature Selection

Author

Warner, Benjamin C., Xu, Ziqi, Haroutounian, Simon, Kannampallil, Thomas, and Lu, Chenyang

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Survey data can contain a high number of features while having a comparatively low quantity of examples. Machine learning models that attempt to predict outcomes from survey data under these conditions can overfit and result in poor generalizability. One remedy to this issue is feature selection, which attempts to select an optimal subset of features to learn upon. A relatively unexplored source of information in the feature selection process is the usage of textual names of features, which may be semantically indicative of which features are relevant to a target outcome. The relationships between feature names and target names can be evaluated using language models (LMs) to produce semantic textual similarity (STS) scores, which can then be used to select features. We examine the performance using STS to select features directly and in the minimal-redundancy-maximal-relevance (mRMR) algorithm. The performance of STS as a feature selection metric is evaluated against preliminary survey data collected as a part of a clinical study on persistent post-surgical pain (PPSP). The results suggest that features selected with STS can result in higher performance models compared to traditional feature selection algorithms.

Published
2023

22. Assisting Clinical Decisions for Scarcely Available Treatment via Disentangled Latent Representation

Author

Xue, Bing, Said, Ahmed Sameh, Xu, Ziqi, Liu, Hanyang, Shah, Neel, Yang, Hanqing, Payne, Philip, and Lu, Chenyang

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Extracorporeal membrane oxygenation (ECMO) is an essential life-supporting modality for COVID-19 patients who are refractory to conventional therapies. However, the proper treatment decision has been the subject of significant debate and it remains controversial about who benefits from this scarcely available and technically complex treatment option. To support clinical decisions, it is a critical need to predict the treatment need and the potential treatment and no-treatment responses. Targeting this clinical challenge, we propose Treatment Variational AutoEncoder (TVAE), a novel approach for individualized treatment analysis. TVAE is specifically designed to address the modeling challenges like ECMO with strong treatment selection bias and scarce treatment cases. TVAE conceptualizes the treatment decision as a multi-scale problem. We model a patient's potential treatment assignment and the factual and counterfactual outcomes as part of their intrinsic characteristics that can be represented by a deep latent variable model. The factual and counterfactual prediction errors are alleviated via a reconstruction regularization scheme together with semi-supervision, and the selection bias and the scarcity of treatment cases are mitigated by the disentangled and distribution-matched latent space and the label-balancing generative strategy. We evaluate TVAE on two real-world COVID-19 datasets: an international dataset collected from 1651 hospitals across 63 countries, and a institutional dataset collected from 15 hospitals. The results show that TVAE outperforms state-of-the-art treatment effect models in predicting both the propensity scores and factual outcomes on heterogeneous COVID-19 datasets. Additional experiments also show TVAE outperforms the best existing models in individual treatment effect estimation on the synthesized IHDP benchmark dataset.

Published
2023
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23. Secret-Free Device Pairing in the mmWave Band

Author

Xu, Ziqi, Li, Jingcheng, Pan, Yanjun, Li, Ming, and Lazos, Loukas

Subjects
Computer Science - Cryptography and Security, Electrical Engineering and Systems Science - Signal Processing
Abstract

Many Next Generation (NextG) applications feature devices that are capable of communicating and sensing in the Millimeter-Wave (mmWave) bands. Trust establishment is an important first step to bootstrap secure mmWave communication links, which is challenging due to the lack of prior secrets and the fact that traditional cryptographic authentication methods cannot bind digital trust with physical properties. Previously, context-based device pairing approaches were proposed to extract shared secrets from common context, using various sensing modalities. However, they suffer from various limitations in practicality and security. In this work, we propose the first secret-free device pairing scheme in the mmWave band that explores the unique physical-layer properties of mmWave communications. Our basic idea is to let Alice and Bob derive common randomness by sampling physical activity in the surrounding environment that disturbs their wireless channel. They construct reliable fingerprints of the activity by extracting event timing information from the channel state. We further propose an uncoordinated path hopping mechanism to resolve the challenges of beam alignment for activity sensing without prior trust. A key novelty of our protocol is that it remains secure against both co-located passive adversaries and active Man-in-the-Middle attacks, which is not possible with existing context-based pairing approaches. We implement our protocol in a 28GHz mmWave testbed, and experimentally evaluate its security in realistic indoor environments. Results show that our protocol can effectively thwart several different types of adversaries., Comment: 14 pages, 16 figures

Published
2023

24. Learning Conditional Instrumental Variable Representation for Causal Effect Estimation

Author

Cheng, Debo, Xu, Ziqi, Li, Jiuyong, Liu, Lin, Le, Thuc Duy, and Liu, Jixue

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Methodology
Abstract

One of the fundamental challenges in causal inference is to estimate the causal effect of a treatment on its outcome of interest from observational data. However, causal effect estimation often suffers from the impacts of confounding bias caused by unmeasured confounders that affect both the treatment and the outcome. The instrumental variable (IV) approach is a powerful way to eliminate the confounding bias from latent confounders. However, the existing IV-based estimators require a nominated IV, and for a conditional IV (CIV) the corresponding conditioning set too, for causal effect estimation. This limits the application of IV-based estimators. In this paper, by leveraging the advantage of disentangled representation learning, we propose a novel method, named DVAE.CIV, for learning and disentangling the representations of CIV and the representations of its conditioning set for causal effect estimations from data with latent confounders. Extensive experimental results on both synthetic and real-world datasets demonstrate the superiority of the proposed DVAE.CIV method against the existing causal effect estimators., Comment: Debo Cheng and Ziqi Xu contributed equally. 20 pages, 5 tables, and 3 figures. Accepted at ECML-PKDD2023

Published
2023

25. Causal Effect Estimation with Variational AutoEncoder and the Front Door Criterion

Author

Xu, Ziqi, Cheng, Debo, Li, Jiuyong, Liu, Jixue, Liu, Lin, and Yu, Kui

Subjects
Computer Science - Machine Learning, Statistics - Methodology
Abstract

An essential problem in causal inference is estimating causal effects from observational data. The problem becomes more challenging with the presence of unobserved confounders. When there are unobserved confounders, the commonly used back-door adjustment is not applicable. Although the instrumental variable (IV) methods can deal with unobserved confounders, they all assume that the treatment directly affects the outcome, and there is no mediator between the treatment and the outcome. This paper aims to use the front-door criterion to address the challenging problem with the presence of unobserved confounders and mediators. In practice, it is often difficult to identify the set of variables used for front-door adjustment from data. By leveraging the ability of deep generative models in representation learning, we propose FDVAE to learn the representation of a Front-Door adjustment set with a Variational AutoEncoder, instead of trying to search for a set of variables for front-door adjustment. Extensive experiments on synthetic datasets validate the effectiveness of FDVAE and its superiority over existing methods. The experiments also show that the performance of FDVAE is not sensitive to the causal strength of unobserved confounders and is feasible in the case of dimensionality mismatch between learned representations and the ground truth. We further apply the method to three real-world datasets to demonstrate its potential applications.

Published
2023

26. Linking a predictive model to causal effect estimation

Author

Li, Jiuyong, Liu, Lin, Xu, Ziqi, Tran, Ha Xuan, Le, Thuc Duy, and Liu, Jixue

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Methodology
Abstract

A predictive model makes outcome predictions based on some given features, i.e., it estimates the conditional probability of the outcome given a feature vector. In general, a predictive model cannot estimate the causal effect of a feature on the outcome, i.e., how the outcome will change if the feature is changed while keeping the values of other features unchanged. This is because causal effect estimation requires interventional probabilities. However, many real world problems such as personalised decision making, recommendation, and fairness computing, need to know the causal effect of any feature on the outcome for a given instance. This is different from the traditional causal effect estimation problem with a fixed treatment variable. This paper first tackles the challenge of estimating the causal effect of any feature (as the treatment) on the outcome w.r.t. a given instance. The theoretical results naturally link a predictive model to causal effect estimations and imply that a predictive model is causally interpretable when the conditions identified in the paper are satisfied. The paper also reveals the robust property of a causally interpretable model. We use experiments to demonstrate that various types of predictive models, when satisfying the conditions identified in this paper, can estimate the causal effects of features as accurately as state-of-the-art causal effect estimation methods. We also show the potential of such causally interpretable predictive models for robust predictions and personalised decision making., Comment: 16

Published
2023

27. Polygenic scoring accuracy varies across the genetic ancestry continuum

Author

Ding, Yi, Hou, Kangcheng, Xu, Ziqi, Pimplaskar, Aditya, Petter, Ella, Boulier, Kristin, Privé, Florian, Vilhjálmsson, Bjarni J, Olde Loohuis, Loes M, and Pasaniuc, Bogdan

Subjects
Biological Sciences, Health Sciences, Genetics, Good Health and Well Being, Humans, Europe, Hispanic or Latino, Multifactorial Inheritance, Racial Groups, United Kingdom, White People, European People, Los Angeles, Databases, Genetic, General Science & Technology
Abstract

Polygenic scores (PGSs) have limited portability across different groupings of individuals (for example, by genetic ancestries and/or social determinants of health), preventing their equitable use1-3. PGS portability has typically been assessed using a single aggregate population-level statistic (for example, R2)4, ignoring inter-individual variation within the population. Here, using a large and diverse Los Angeles biobank5 (ATLAS, n = 36,778) along with the UK Biobank6 (UKBB, n = 487,409), we show that PGS accuracy decreases individual-to-individual along the continuum of genetic ancestries7 in all considered populations, even within traditionally labelled 'homogeneous' genetic ancestries. The decreasing trend is well captured by a continuous measure of genetic distance (GD) from the PGS training data: Pearson correlation of -0.95 between GD and PGS accuracy averaged across 84 traits. When applying PGS models trained on individuals labelled as white British in the UKBB to individuals with European ancestries in ATLAS, individuals in the furthest GD decile have 14% lower accuracy relative to the closest decile; notably, the closest GD decile of individuals with Hispanic Latino American ancestries show similar PGS performance to the furthest GD decile of individuals with European ancestries. GD is significantly correlated with PGS estimates themselves for 82 of 84 traits, further emphasizing the importance of incorporating the continuum of genetic ancestries in PGS interpretation. Our results highlight the need to move away from discrete genetic ancestry clusters towards the continuum of genetic ancestries when considering PGSs.

Published
2023

28. Disentangled Representation for Causal Mediation Analysis

Author

Xu, Ziqi, Cheng, Debo, Li, Jiuyong, Liu, Jixue, Liu, Lin, and Wang, Ke

Subjects
Computer Science - Machine Learning, Statistics - Methodology
Abstract

Estimating direct and indirect causal effects from observational data is crucial to understanding the causal mechanisms and predicting the behaviour under different interventions. Causal mediation analysis is a method that is often used to reveal direct and indirect effects. Deep learning shows promise in mediation analysis, but the current methods only assume latent confounders that affect treatment, mediator and outcome simultaneously, and fail to identify different types of latent confounders (e.g., confounders that only affect the mediator or outcome). Furthermore, current methods are based on the sequential ignorability assumption, which is not feasible for dealing with multiple types of latent confounders. This work aims to circumvent the sequential ignorability assumption and applies the piecemeal deconfounding assumption as an alternative. We propose the Disentangled Mediation Analysis Variational AutoEncoder (DMAVAE), which disentangles the representations of latent confounders into three types to accurately estimate the natural direct effect, natural indirect effect and total effect. Experimental results show that the proposed method outperforms existing methods and has strong generalisation ability. We further apply the method to a real-world dataset to show its potential application., Comment: This paper has been accepted by AAAI 2023. Please check: https://doi.org/10.1609/aaai.v37i9.26266

Published
2023
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29. Causal effects on complex traits are similar for common variants across segments of different continental ancestries within admixed individuals.

Author

Mester, Rachel, Belbin, Gillian, Buyske, Steve, Conti, David, Darst, Burcu, Fornage, Myriam, Gignoux, Chris, Guo, Xiuqing, Haiman, Christopher, Kenny, Eimear, Kim, Michelle, Kooperberg, Charles, Lange, Leslie, Manichaikul, Ani, North, Kari, Peters, Ulrike, Rasmussen-Torvik, Laura, Rich, Stephen, Hou, Kangcheng, Ding, Yi, Xu, Ziqi, Wu, Yue, Wheeler, Heather, Wojcik, Genevieve, Zhou, Ying, Sankararaman, Sriram, Pasaniuc, Bogdan, Rotter, Jerome, and Bhattacharya, Arjun

Subjects
Humans, Genetics, Population, Multifactorial Inheritance, Genome-Wide Association Study, Racial Groups, Black or African American, Polymorphism, Single Nucleotide
Abstract

Individuals of admixed ancestries (for example, African Americans) inherit a mosaic of ancestry segments (local ancestry) originating from multiple continental ancestral populations. This offers the unique opportunity of investigating the similarity of genetic effects on traits across ancestries within the same population. Here we introduce an approach to estimate correlation of causal genetic effects (radmix) across local ancestries and analyze 38 complex traits in African-European admixed individuals (N = 53,001) to observe very high correlations (meta-analysis radmix = 0.95, 95% credible interval 0.93-0.97), much higher than correlation of causal effects across continental ancestries. We replicate our results using regression-based methods from marginal genome-wide association study summary statistics. We also report realistic scenarios where regression-based methods yield inflated heterogeneity-by-ancestry due to ancestry-specific tagging of causal effects, and/or polygenicity. Our results motivate genetic analyses that assume minimal heterogeneity in causal effects by ancestry, with implications for the inclusion of ancestry-diverse individuals in studies.

Published
2023

30. Causal Inference with Conditional Instruments using Deep Generative Models

Author

Cheng, Debo, Xu, Ziqi, Li, Jiuyong, Liu, Lin, Liu, Jixue, and Le, Thuc Duy

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Methodology
Abstract

The instrumental variable (IV) approach is a widely used way to estimate the causal effects of a treatment on an outcome of interest from observational data with latent confounders. A standard IV is expected to be related to the treatment variable and independent of all other variables in the system. However, it is challenging to search for a standard IV from data directly due to the strict conditions. The conditional IV (CIV) method has been proposed to allow a variable to be an instrument conditioning on a set of variables, allowing a wider choice of possible IVs and enabling broader practical applications of the IV approach. Nevertheless, there is not a data-driven method to discover a CIV and its conditioning set directly from data. To fill this gap, in this paper, we propose to learn the representations of the information of a CIV and its conditioning set from data with latent confounders for average causal effect estimation. By taking advantage of deep generative models, we develop a novel data-driven approach for simultaneously learning the representation of a CIV from measured variables and generating the representation of its conditioning set given measured variables. Extensive experiments on synthetic and real-world datasets show that our method outperforms the existing IV methods., Comment: 10 pages, 4 figures and 3 tables. Accepted by AAAI2023

Published
2022

31. Wiggle: Physical Challenge-Response Verification of Vehicle Platooning

Author

Dickey, Connor, Smith, Christopher, Johnson, Quentin, Li, Jingcheng, Xu, Ziqi, Lazos, Loukas, and Li, Ming

Subjects
Computer Science - Cryptography and Security
Abstract

Autonomous vehicle platooning promises many benefits such as fuel efficiency, road safety, reduced traffic congestion, and passenger comfort. Platooning vehicles travel in a single file, in close distance, and at the same velocity. The platoon formation is autonomously maintained by a Cooperative Adaptive Cruise Control (CACC) system which relies on sensory data and vehicle-to-vehicle (V2V) communications. In fact, V2V messages play a critical role in shortening the platooning distance while maintaining safety. Whereas V2V message integrity and source authentication can be verified via cryptographic methods, establishing the truthfulness of the message contents is a much harder task. This work establishes a physical access control mechanism to restrict V2V messages to platooning members. Specifically, we aim at tying the digital identity of a candidate requesting to join a platoon to its physical trajectory relative to the platoon. We propose the {\em Wiggle} protocol that employs a physical challenge-response exchange to prove that a candidate requesting to be admitted into a platoon actually follows it. The protocol name is inspired by the random longitudinal movements that the candidate is challenged to execute. {\em Wiggle} prevents any remote adversary from joining the platoon and injecting fake CACC messages. Compared to prior works, {\em Wiggle} is resistant to pre-recording attacks and can verify that the candidate is directly behind the verifier at the same lane., Comment: 10 pages, 13 figures

Published
2022

32. Disentangled Representation with Causal Constraints for Counterfactual Fairness

Author

Xu, Ziqi, Liu, Jixue, Cheng, Debo, Li, Jiuyong, Liu, Lin, and Wang, Ke

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computers and Society
Abstract

Much research has been devoted to the problem of learning fair representations; however, they do not explicitly the relationship between latent representations. In many real-world applications, there may be causal relationships between latent representations. Furthermore, most fair representation learning methods focus on group-level fairness and are based on correlations, ignoring the causal relationships underlying the data. In this work, we theoretically demonstrate that using the structured representations enable downstream predictive models to achieve counterfactual fairness, and then we propose the Counterfactual Fairness Variational AutoEncoder (CF-VAE) to obtain structured representations with respect to domain knowledge. The experimental results show that the proposed method achieves better fairness and accuracy performance than the benchmark fairness methods., Comment: This paper has been accepted by PAKDD 2023. Please check: https://doi.org/10.1007/978-3-031-33374-3_37

Published
2022
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46. PoF: Proof-of-Following for Vehicle Platoons

Author

Xu, Ziqi, Li, Jingcheng, Pan, Yanjun, Lazos, Loukas, Li, Ming, and Ghose, Nirnimesh

Subjects
Computer Science - Cryptography and Security
Abstract

Cooperative vehicle platooning significantly improves highway safety, fuel efficiency, and traffic flow. In this model, a set of vehicles move in line formation and coordinate acceleration, braking, and steering using a combination of physical sensing and vehicle-to-vehicle (V2V) messaging. The authenticity and integrity of the V2V messages are paramount to safety. For this reason, recent V2V and V2X standards support the integration of a PKI. However, a PKI cannot bind a vehicle's digital identity to the vehicle's physical state (location, velocity, etc.). As a result, a vehicle with valid cryptographic credentials can impact platoons from a remote location. In this paper, we seek to provide the missing link between the physical and the digital world in the context of vehicle platooning. We propose a new access control protocol we call Proof-of-Following (PoF) that verifies the following distance between a candidate and a verifier. The main idea is to draw security from the common, but constantly changing environment experienced by the closely traveling vehicles. We use the large-scale fading effect of ambient RF signals as a common source of randomness to construct a {\em PoF} primitive. The correlation of large-scale fading is an ideal candidate for the mobile outdoor environment because it exponentially decays with distance and time. We evaluate our PoF protocol on an experimental platoon of two vehicles in freeway, highway, and urban driving conditions. We demonstrate that the PoF withstands both the pre-recording and following attacks with overwhelming probability., Comment: 18 pages, 23 figures, 1 table

Published
2021
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47. Man-in-the-Middle Attack Resistant Secret Key Generation via Channel Randomization

Author

Pan, Yanjun, Xu, Ziqi, Li, Ming, and Lazos, Loukas

Subjects
Computer Science - Cryptography and Security
Abstract

Physical-layer based key generation schemes exploit the channel reciprocity for secret key extraction, which can achieve information-theoretic secrecy against eavesdroppers. Such methods, although practical, have been shown to be vulnerable against man-in-the-middle (MitM) attacks, where an active adversary, Mallory, can influence and infer part of the secret key generated between Alice and Bob by injecting her own packet upon observing highly correlated channel/RSS measurements from Alice and Bob. As all the channels remain stable within the channel coherence time, Mallory's injected packets cause Alice and Bob to measure similar RSS, which allows Mallory to successfully predict the derived key bits. To defend against such a MitM attack, we propose to utilize a reconfigurable antenna at one of the legitimate transceivers to proactively randomize the channel state across different channel probing rounds. The randomization of the antenna mode at every probing round breaks the temporal correlation of the channels from the adversary to the legitimate devices, while preserving the reciprocity of the channel between the latter. This prevents key injection from the adversary without affecting Alice and Bob's ability to measure common randomness. We theoretically analyze the security of the protocol and conduct extensive simulations and real-world experiments to evaluate its performance. Our results show that our approach eliminates the advantage of an active MitM attack by driving down the probability of successfully guessing bits of the secret key to a random guess., Comment: 13 pages, 8 figures, 4 tables

Published
2021
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