{"title":"电影镜头--使用深度学习的电影推荐系统","authors":"Sreeja B","doi":"10.55041/ijsrem33379","DOIUrl":null,"url":null,"abstract":"Recommendation systems, the best way to deal with information overload, are widely utilized to provide users with personalized content and services with high efficiency. Many recommendation algorithms have been researched and deployed extensively in various e-commerce applications, including the movie streaming services over the last decade. However, sparse data cold-start problems are often encountered in many movie recommendation systems. In this paper, we reported a personalized multimodal movie recommendation system based on multimodal data analysis and deep learning. The real-world MovieLens datasets were selected to test the effectiveness of our new recommendation algorithm. With the input information, the hidden features of the movies and the users were mined using deep learning to build a deep-learning network algorithm model for training to further predict movie scores. With a learning rate of 0.001, the root mean squared error (RMSE) scores achieved 0.9908 and 0.9096 for test sets of MovieLens 100 K and 1 M datasets, respectively. The scoring prediction results show improved accuracy after incorporating the potential features and connections in multimodal data with deep-learning technology. Compared with the traditional collaborative filtering algorithms, such as user-based collaborative filtering (User-CF), item-based content-based filtering (Item-CF), and singular-value decomposition (SVD) approaches, the multimodal movie recommendation system using deep learning could provide better personalized recommendation results. Meanwhile, the sparse data problem was alleviated to a certain degree. We suggest that the recommendation system can be improved through the combination of the deep-learning technology and the multimodal data analysis. Keywords: recommendation system; deep learning; matrix factorization; multimodal technique","PeriodicalId":13661,"journal":{"name":"INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT","volume":"25 2","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-05-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Movie Lens – Movie Recommendation System Using Deep Learning\",\"authors\":\"Sreeja B\",\"doi\":\"10.55041/ijsrem33379\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Recommendation systems, the best way to deal with information overload, are widely utilized to provide users with personalized content and services with high efficiency. Many recommendation algorithms have been researched and deployed extensively in various e-commerce applications, including the movie streaming services over the last decade. However, sparse data cold-start problems are often encountered in many movie recommendation systems. In this paper, we reported a personalized multimodal movie recommendation system based on multimodal data analysis and deep learning. The real-world MovieLens datasets were selected to test the effectiveness of our new recommendation algorithm. With the input information, the hidden features of the movies and the users were mined using deep learning to build a deep-learning network algorithm model for training to further predict movie scores. With a learning rate of 0.001, the root mean squared error (RMSE) scores achieved 0.9908 and 0.9096 for test sets of MovieLens 100 K and 1 M datasets, respectively. The scoring prediction results show improved accuracy after incorporating the potential features and connections in multimodal data with deep-learning technology. Compared with the traditional collaborative filtering algorithms, such as user-based collaborative filtering (User-CF), item-based content-based filtering (Item-CF), and singular-value decomposition (SVD) approaches, the multimodal movie recommendation system using deep learning could provide better personalized recommendation results. Meanwhile, the sparse data problem was alleviated to a certain degree. We suggest that the recommendation system can be improved through the combination of the deep-learning technology and the multimodal data analysis. 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引用次数: 0
摘要
推荐系统是应对信息过载的最佳方法,被广泛用于为用户提供高效的个性化内容和服务。在过去的十年中,许多推荐算法被广泛应用于各种电子商务应用中,包括电影流媒体服务。然而,许多电影推荐系统经常会遇到稀疏数据冷启动问题。本文报告了一种基于多模态数据分析和深度学习的个性化多模态电影推荐系统。我们选取了真实世界中的 MovieLens 数据集来测试新推荐算法的有效性。通过输入信息,利用深度学习挖掘电影和用户的隐藏特征,建立深度学习网络算法模型进行训练,进一步预测电影评分。在学习率为 0.001 的情况下,MovieLens 100 K 和 1 M 数据集测试集的均方根误差(RMSE)分别为 0.9908 和 0.9096。得分预测结果表明,利用深度学习技术整合多模态数据中的潜在特征和连接后,准确率得到了提高。与基于用户的协同过滤(User-CF)、基于项的内容过滤(Item-CF)和奇异值分解(SVD)等传统协同过滤算法相比,利用深度学习的多模态电影推荐系统能提供更好的个性化推荐结果。同时,稀疏数据问题也得到了一定程度的缓解。我们建议通过深度学习技术与多模态数据分析的结合来改进推荐系统。关键词:推荐系统;深度学习;矩阵因式分解;多模态技术
Movie Lens – Movie Recommendation System Using Deep Learning
Recommendation systems, the best way to deal with information overload, are widely utilized to provide users with personalized content and services with high efficiency. Many recommendation algorithms have been researched and deployed extensively in various e-commerce applications, including the movie streaming services over the last decade. However, sparse data cold-start problems are often encountered in many movie recommendation systems. In this paper, we reported a personalized multimodal movie recommendation system based on multimodal data analysis and deep learning. The real-world MovieLens datasets were selected to test the effectiveness of our new recommendation algorithm. With the input information, the hidden features of the movies and the users were mined using deep learning to build a deep-learning network algorithm model for training to further predict movie scores. With a learning rate of 0.001, the root mean squared error (RMSE) scores achieved 0.9908 and 0.9096 for test sets of MovieLens 100 K and 1 M datasets, respectively. The scoring prediction results show improved accuracy after incorporating the potential features and connections in multimodal data with deep-learning technology. Compared with the traditional collaborative filtering algorithms, such as user-based collaborative filtering (User-CF), item-based content-based filtering (Item-CF), and singular-value decomposition (SVD) approaches, the multimodal movie recommendation system using deep learning could provide better personalized recommendation results. Meanwhile, the sparse data problem was alleviated to a certain degree. We suggest that the recommendation system can be improved through the combination of the deep-learning technology and the multimodal data analysis. Keywords: recommendation system; deep learning; matrix factorization; multimodal technique