Double Deep Features for Apparel Recommendation System

This study describes a recommendation system embedded in the double features extracted by convolutional neural networks (CNNs). Several probabilistic models, such as probabilistic matrix factorization (PMF)-based approaches, have been utilized for recommendation systems based on a CNN model. Each recommendation algorithm utilizes a single CNN model to extract precise features about documents and pictures, and the systems with CNN have contributed in improving the performance in rating prediction. Meanwhile, the systems for some items should consider at least two precise features simultaneously, and the extension to embed multiple CNN models is necessary. However, methods that integrate multiple CNN-based features into existing recommendation systems, such as PMF, are not available. Thus, this study proposes a novel probabilistic model that integrates double CNNs into PMF. For apparel goods, two trained CNNs from document and image shape features are combined, and the latent variables of users and items are optimized based on the vectorized features of CNNs and rating. Extensive experiments demonstrate that our model outperforms other recommendation models

Learning context-aware outfit recommendation

With the rapid development and increasing popularity of online shopping for fashion products, fashion recommendation plays an important role in daily online shopping scenes. Fashion is not only a commodity that is bought and sold but is also a visual language of sign, a nonverbal communication medium that exists between the wearers and viewers in a community. The key to fashion recommendation is to capture the semantics behind customers’ fit feedback as well as fashion visual style. Existing methods have been developed with the item similarity demonstrated by user interactions like ratings and purchases. By identifying user interests, it is efficient to deliver marketing messages to the right customers. Since the style of clothing contains rich visual information such as color and shape, and the shape has symmetrical structure and asymmetrical structure, and users with different backgrounds have different feelings on clothes, therefore affecting their way of dress. In this paper, we propose a new method to model user preference jointly with user review information and image region-level features to make more accurate recommendations. Specifically, the proposed method is based on scene images to learn the compatibility from fashion or interior design images. Extensive experiments have been conducted on several large-scale real-world datasets consisting of millions of users/items and hundreds of millions of interactions. Extensive experiments indicate that the proposed method effectively improves the performance of items prediction as well as of outfits matching

Learning context-aware outfit recommendation

With the rapid development and increasing popularity of online shopping for fashion products, fashion recommendation plays an important role in daily online shopping scenes. Fashion is not only a commodity that is bought and sold but is also a visual language of sign, a nonverbal communication medium that exists between the wearers and viewers in a community. The key to fashion recommendation is to capture the semantics behind customers’ fit feedback as well as fashion visual style. Existing methods have been developed with the item similarity demonstrated by user interactions like ratings and purchases. By identifying user interests, it is efficient to deliver marketing messages to the right customers. Since the style of clothing contains rich visual information such as color and shape, and the shape has symmetrical structure and asymmetrical structure, and users with different backgrounds have different feelings on clothes, therefore affecting their way of dress. In this paper, we propose a new method to model user preference jointly with user review information and image region-level features to make more accurate recommendations. Specifically, the proposed method is based on scene images to learn the compatibility from fashion or interior design images. Extensive experiments have been conducted on several large-scale real-world datasets consisting of millions of users/items and hundreds of millions of interactions. Extensive experiments indicate that the proposed method effectively improves the performance of items prediction as well as of outfits matching

Image-based fashion recommendation with attention to users’ interests

Building effective fashion recommendation systems is challenging due to the high level of subjectivity and the semantic complexity of the features involved. Users’ decision depends largely on their own interest and the appearance of the product, such information is often hidden in implicit feedback from users’ purchase histories and product images. Most of the interest based recommendation systems like Deep Interest Network (DIN) and Deep Interest Evolution Network (DIEN) only take advantage of product attributes and context review, which are basically all text information. There are also some studies focusing on the use of image features for fashion product recommendation, they try to extract features from images and recommend products based on their similarity. However, for DIEN. It works not well when there’s little interactions between users and items, the model can not find user’s interest effectively. These image based recommendation systems, on the other hand, they tend to ignore an important factor: user’s interest. We propose a new system trying to find user’s interest by introducing the visual information of the product and our image based deep interest attention model based on DIEN. Product attributes and user preference can both be represented by introducing their visual information, we can model the similar attribute items in the same place and find user interests more effectively. We conducted some experiments on the public dataset to compare our methods with the DIEN and some other existing methods. Our experimental results demonstrate that visual information effectively aids click rate prediction and achieved better recommendation results

ファッションのための深層学習：服装の統一性評価と格付けおよび推薦

Tohoku University岡谷貴之課

Allyn, A Recommender Assistant for Online Bookstores

Treballs Finals del Grau d'Economia i Estadística. Doble titulació interuniversitària, Universitat de Barcelona i Universitat Politècnica de Catalunya. Curs: 2017-2018. Tutors: Esteban Vegas Lozano; Salvador Torra Porras(eng) Recommender Systems are information filtering engines used to estimate user preferences on items they have not seen: books, movies, restaurants or other things for which individuals have different tastes. Collaborative and Content-based Filtering have been the two popular memory-based methods to retrieve recommendations but these suffer from some limitations and might fail to provide effective recommendations. In this project we present several variations of Artificial Neural Networks, and in particular, of Autoencoders to generate model-based predictions for the users. We empirically show that a hybrid approach combining this model with other filtering engines provides a promising solution when compared to a standalone memory-based Collaborative Filtering Recommender. To wrap up the project, a chatbot connected to an e-commerce platform has been implemented so that, using Artificial Intelligence, it can retrieve recommendations to users.(cat) Els Sistemes de Recomanació són motors de filtratge de la informació que permeten estimar les preferències dels usuaris sobre ítems que no coneixen a priori. Aquests poden ser des de llibres o películes fins a restaurants o qualsevol altre element en el qual els usuaris puguin presentar gustos diferenciats. El present projecte es centra en la recomanació de llibres. Es comença a parlar dels Sistemes de Recomanació al voltant de 1990 però és durant la darrera dècada amb el boom de la informació i les dades massives que comencen a tenir major repercussió. Tradicionalment, els mètodes utilitzats en aquests sistemes eren dos: el Filtratge Col·laboratiu i el Filtratge basat en Contingut. Tanmateix, ambdós són mètodes basats en memòria, fet que suposa diverses limitacions que poden arribar a portar a no propocionar recomanacions de manera eficient o precisa. En aquest projecte es presenten diverses variacions de Xarxes Neuronals Artificials per a generar prediccions basades en models. En concret, es desenvolupen Autoencoders, una estructura particular d’aquestes que es caracteritza per tenir la mateixa entrada i sortida. D’aquesta manera, els Autoencoders aprenen a descobrir els patrons subjacents en dades molt esparses. Tots aquests models s’implementen utilitzant dos marcs de programació: Keras i Tensorflow per a R. Es mostra empíricament que un enfocament híbrid que combina aquests models amb altres motors de filtratge proporciona una solució prometedora en comparació amb un recomanador que utilitza exclusivament Filtratge Col·laboratiu. D’altra banda, s’analitzen els sistemes de recomanació des d’un punt de vista econòmic, emfatitzant especialment el seu impacte en empreses de comerç electrònic. S’analitzen els sistemes de recomanació desenvolupats per quatre empreses pioneres del sector així com les tecnologies front-end en què s’implementen. En concret, s’analitza el seu ús en chatbots, programes informàtics de missatgeria instantània que, a través de la Intel·ligència Artificial simulen la conversa humana. Per tancar el projecte, es desenvolupa un chatbot propi implementat en una aplicació de missatgeria instantània i connectat a una empresa de comerç electrònic, capaç de donar recomanacions als usuaris fent ús del sistema de recomanació híbrid dut a terme

Text Similarity Between Concepts Extracted from Source Code and Documentation

Context: Constant evolution in software systems often results in its documentation losing sync with the content of the source code. The traceability research field has often helped in the past with the aim to recover links between code and documentation, when the two fell out of sync. Objective: The aim of this paper is to compare the concepts contained within the source code of a system with those extracted from its documentation, in order to detect how similar these two sets are. If vastly different, the difference between the two sets might indicate a considerable ageing of the documentation, and a need to update it. Methods: In this paper we reduce the source code of 50 software systems to a set of key terms, each containing the concepts of one of the systems sampled. At the same time, we reduce the documentation of each system to another set of key terms. We then use four different approaches for set comparison to detect how the sets are similar. Results: Using the well known Jaccard index as the benchmark for the comparisons, we have discovered that the cosine distance has excellent comparative powers, and depending on the pre-training of the machine learning model. In particular, the SpaCy and the FastText embeddings offer up to 80% and 90% similarity scores. Conclusion: For most of the sampled systems, the source code and the documentation tend to contain very similar concepts. Given the accuracy for one pre-trained model (e.g., FastText), it becomes also evident that a few systems show a measurable drift between the concepts contained in the documentation and in the source code.</p

KEER2022

Avanttítol: KEER2022. DiversitiesDescripció del recurs: 25 juliol 202