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Your search keyword '"Ren, Zhaochun"' showing total 6 results
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6 results on '"Ren, Zhaochun"'

2. HarMI: Human Activity Recognition Via Multi-Modality Incremental Learning.

Author

Zhang, Xiao, Yu, Hongzheng, Yang, Yang, Gu, Jingjing, Li, Yujun, Zhuang, Fuzhen, Yu, Dongxiao, and Ren, Zhaochun

Subjects
HUMAN activity recognition, MACHINE learning, SMART cities, LEARNING ability, INTELLIGENT sensors, SMARTPHONES
Abstract

Nowadays, with the development of various kinds of sensors in smartphones or wearable devices, human activity recognition (HAR) has been widely researched and has numerous applications in healthcare, smart city, etc. Many techniques based on hand-crafted feature engineering or deep neural network have been proposed for sensor based HAR. However, these existing methods usually recognize activities offline, which means the whole data should be collected before training, occupying large-capacity storage space. Moreover, once the offline model training finished, the trained model can’t recognize new activities unless retraining from the start, thus with a high cost of time and space. In this paper, we propose a multi-modality incremental learning model, called HarMI, with continuous learning ability. The proposed HarMI model can start training quickly with little storage space and easily learn new activities without storing previous training data. In detail, we first adopt attention mechanism to align heterogeneous sensor data with different frequencies. In addition, to overcome catastrophic forgetting in incremental learning, HarMI utilizes the elastic weight consolidation and canonical correlation analysis from a multi-modality perspective. Extensive experiments based on two public datasets demonstrate that HarMI can achieve a superior performance compared with several state-of-the-arts. [ABSTRACT FROM AUTHOR]

Published
2022
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3. Explainable Outfit Recommendation with Joint Outfit Matching and Comment Generation.

Author

Lin, Yujie, Ren, Pengjie, Chen, Zhumin, Ren, Zhaochun, Ma, Jun, and de Rijke, Maarten

Subjects
CONVOLUTIONAL neural networks, RECURRENT neural networks, FORECASTING, RECOMMENDER systems, GENERATIONS
Abstract

Most previous work on outfit recommendation focuses on designing visual features to enhance recommendations. Existing work neglects user comments of fashion items, which have been proven to be effective in generating explanations along with better recommendation results. We propose a novel neural network framework, neural outfit recommendation (NOR), that simultaneously provides outfit recommendations and generates abstractive comments. Neural outfit recommendation (NOR) consists of two parts: outfit matching and comment generation. For outfit matching, we propose a convolutional neural network with a mutual attention mechanism to extract visual features. The visual features are then decoded into a rating score for the matching prediction. For abstractive comment generation, we propose a gated recurrent neural network with a cross-modality attention mechanism to transform visual features into a concise sentence. The two parts are jointly trained based on a multi-task learning framework in an end-to-end back-propagation paradigm. Extensive experiments conducted on an existing dataset and a collected real-world dataset show NOR achieves significant improvements over state-of-the-art baselines for outfit recommendation. Meanwhile, our generated comments achieve impressive ROUGE and BLEU scores in comparison to human-written comments. The generated comments can be regarded as explanations for the recommendation results. We release the dataset and code to facilitate future research. [ABSTRACT FROM AUTHOR]

Published
2020
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5. Efficient Structured Learning for Personalized Diversification.

Author

Liang, Shangsong, Cai, Fei, Ren, Zhaochun, and De Rijke, Maarten

Subjects
SUPERVISED learning, WEB personalization, DIRICHLET principle, AD hoc computer networks, WEB search engines, PREDICTION theory
Abstract

This paper is concerned with the problem of personalized diversification of search results, with the goal of enhancing the performance of both plain diversification and plain personalization algorithms. In previous work, the problem has mainly been tackled by means of unsupervised learning. To further enhance the performance, we propose a supervised learning strategy. Specifically, we set up a structured learning framework for conducting supervised personalized diversification, in which we add features extracted directly from tokens of documents and those utilized by unsupervised personalized diversification algorithms, and, importantly, those generated from our proposed user-interest latent Dirichlet topic model. We also define two constraints in our structured learning framework to ensure that search results are both diversified and consistent with a user's interest. To further boost the efficiency of training, we propose a fast training framework for our proposed method by adding additional multiple highly violated but also diversified constraints at every training iteration of the cutting-plane algorithm. We conduct experiments on an open dataset and find that our supervised learning strategy outperforms unsupervised personalized diversification methods as well as other plain personalization and plain diversification methods. Our fast training framework significantly saves training time while it maintains almost the same performance. [ABSTRACT FROM PUBLISHER]

Published
2016
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