Summary
=======
This dataset (ml-latest-small) describes 5-star rating and free-text tagging activity from [MovieLens](http://movielens.org), a movie recommendation service. It contains 100004 ratings and 1296 tag applications across 9125 movies. These data were created by 671 users between January 09, 1995 and October 16, 2016. This dataset was generated on October 17, 2016.
Users were selected at random for inclusion. All selected users had rated at least 20 movies. No demographic information is included. Each user is represented by an id, and no other information is provided.
The data are contained in the files `links.csv`, `movies.csv`, `ratings.csv` and `tags.csv`. More details about the contents and use of all these files follows.
This is a *development* dataset. As such, it may change over time and is not an appropriate dataset for shared research results. See available *benchmark* datasets if that is your intent.
This and other GroupLens data sets are publicly available for download at <http://grouplens.org/datasets/>.
Usage License
=============
Neither the University of Minnesota nor any of the researchers involved can guarantee the correctness of the data, its suitability for any particular purpose, or the validity of results based on the use of the data set. The data set may be used for any research purposes under the following conditions:
* The user may not state or imply any endorsement from the University of Minnesota or the GroupLens Research Group.
* The user must acknowledge the use of the data set in publications resulting from the use of the data set (see below for citation information).
* The user may redistribute the data set, including transformations, so long as it is distributed under these same license conditions.
* The user may not use this information for any commercial or revenue-bearing purposes without first obtaining permission from a faculty member of the GroupLens Research Project at the University of Minnesota.
* The executable software scripts are provided "as is" without warranty of any kind, either expressed or implied, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. The entire risk as to the quality and performance of them is with you. Should the program prove defective, you assume the cost of all necessary servicing, repair or correction.
In no event shall the University of Minnesota, its affiliates or employees be liable to you for any damages arising out of the use or inability to use these programs (including but not limited to loss of data or data being rendered inaccurate).
If you have any further questions or comments, please email <grouplens-info@umn.edu>
Citation
========
To acknowledge use of the dataset in publications, please cite the following paper:
> F. Maxwell Harper and Joseph A. Konstan. 2015. The MovieLens Datasets: History and Context. ACM Transactions on Interactive Intelligent Systems (TiiS) 5, 4, Article 19 (December 2015), 19 pages. DOI=<http://dx.doi.org/10.1145/2827872>
Further Information About GroupLens
===================================
GroupLens is a research group in the Department of Computer Science and Engineering at the University of Minnesota. Since its inception in 1992, GroupLens's research projects have explored a variety of fields including:
* recommender systems
* online communities
* mobile and ubiquitious technologies
* digital libraries
* local geographic information systems
GroupLens Research operates a movie recommender based on collaborative filtering, MovieLens, which is the source of these data. We encourage you to visit <http://movielens.org> to try it out! If you have exciting ideas for experimental work to conduct on MovieLens, send us an email at <grouplens-info@cs.umn.edu> - we are always interested in working with external collaborators.
Content and Use of Files
========================
Formatting and Encoding
-----------------------
The dataset files are written as [comma-separated values](http://en.wikipedia.org/wiki/Comma-separated_values) files with a single header row. Columns that contain commas (`,`) are escaped using double-quotes (`"`). These files are encoded as UTF-8. If accented characters in movie titles or tag values (e.g. Misérables, Les (1995)) display incorrectly, make sure that any program reading the data, such as a text editor, terminal, or script, is configured for UTF-8.
User Ids
--------
MovieLens users were selected at random for inclusion. Their ids have been anonymized. User ids are consistent between `ratings.csv` and `tags.csv` (i.e., the same id refers to the same user across the two files).
Movie Ids
---------
Only movies with at least one rating or tag are included in the dataset. These movie ids are consistent with those used on the MovieLens web site (e.g., id `1` corresponds to the URL <https://movielens.org/movies/1>). Movie ids are consistent between `ratings.csv`, `tags.csv`, `movies.csv`, and `links.csv` (i.e., the same id refers to the same movie across these four data files).
Ratings Data File Structure (ratings.csv)
-----------------------------------------
All ratings are contained in the file `ratings.csv`. Each line of this file after the header row represents one rating of one movie by one user, and has the following format:
userId,movieId,rating,timestamp
The lines within this file are ordered first by userId, then, within user, by movieId.
Ratings are made on a 5-star scale, with half-star increments (0.5 stars - 5.0 stars).
Timestamps represent seconds since midnight Coordinated Universal Time (UTC) of January 1, 1970.
Tags Data File Structure (tags.csv)
-----------------------------------
All tags are contained in the file `tags.csv`. Each line of this file after the header row represents one tag applied to one movie by one user, and has the following format:
userId,movieId,tag,timestamp
The lines within this file are ordered first by userId, then, within user, by movieId.
Tags are user-generated metadata about movies. Each tag is typically a single word or short phrase. The meaning, value, and purpose of a particular tag is determined by each user.
Timestamps represent seconds since midnight Coordinated Universal Time (UTC) of January 1, 1970.
Movies Data File Structure (movies.csv)
---------------------------------------
Movie information is contained in the file `movies.csv`. Each line of this file after the header row represents one movie, and has the following format:
movieId,title,genres
Movie titles are entered manually or imported from <https://www.themoviedb.org/>, and include the year of release in parentheses. Errors and inconsistencies may exist in these titles.
Genres are a pipe-separated list, and are selected from the following:
* Action
* Adventure
* Animation
* Children's
* Comedy
* Crime
* Documentary
* Drama
* Fantasy
* Film-Noir
* Horror
* Musical
* Mystery
* Romance
* Sci-Fi
* Thriller
* War
* Western
* (no genres listed)
Links Data File Structure (links.csv)
---------------------------------------
Identifiers that can be used to link to other sources of movie data are contained in the file `links.csv`. Each line of this file after the header row represents one movie, and has the following format:
movieId,imdbId,tmdbId
movieId is an identifier for movies used by <https://movielens.org>. E.g., the movie Toy Story has the link <https://movielens.org/movies/1>.
imdbId is an identifier for movies used by <http://www.imdb.com>. E.g., the movie Toy Story has the link <http://www.imdb.com/title/tt0114709/>.
tmdbId is an identifier for movies used by <https://www.themoviedb.org>. E.g., the movie Toy Story has the link <https://www.themoviedb.org/movie/862>.
Use of the resources listed above is subject to the terms of each provider.
Cross-Validation
----------------
Prior versions of the MovieLens dataset included either pre-computed cross-folds or scripts to per
没有合适的资源?快使用搜索试试~ 我知道了~
基于协同过滤的推荐系统(SVD实现).zip
共15个文件
desktop-usvfqb3:7个
csv:6个
txt:1个
需积分: 5 0 下载量 161 浏览量
2024-05-19
22:01:27
上传
评论
收藏 1.54MB ZIP 举报
温馨提示
协同过滤算法(Collaborative Filtering)是一种经典的推荐算法,其基本原理是“协同大家的反馈、评价和意见,一起对海量的信息进行过滤,从中筛选出用户可能感兴趣的信息”。它主要依赖于用户和物品之间的行为关系进行推荐。 协同过滤算法主要分为两类: 基于物品的协同过滤算法:给用户推荐与他之前喜欢的物品相似的物品。 基于用户的协同过滤算法:给用户推荐与他兴趣相似的用户喜欢的物品。 协同过滤算法的优点包括: 无需事先对商品或用户进行分类或标注,适用于各种类型的数据。 算法简单易懂,容易实现和部署。 推荐结果准确性较高,能够为用户提供个性化的推荐服务。 然而,协同过滤算法也存在一些缺点: 对数据量和数据质量要求较高,需要大量的历史数据和较高的数据质量。 容易受到“冷启动”问题的影响,即对新用户或新商品的推荐效果较差。 存在“同质化”问题,即推荐结果容易出现重复或相似的情况。 协同过滤算法在多个场景中有广泛的应用,如电商推荐系统、社交网络推荐和视频推荐系统等。在这些场景中,协同过滤算法可以根据用户的历史行为数据,推荐与用户兴趣相似的商品、用户或内容,从而提高用户的购买转化率、活跃度和社交体验。 未来,协同过滤算法的发展方向可能是结合其他推荐算法形成混合推荐系统,以充分发挥各算法的优势。
资源推荐
资源详情
资源评论
收起资源包目录
基于协同过滤的推荐系统(SVD实现).zip (15个子文件)
content
FRSB_on_MD_and_CF.py 4KB
ml-latest-small
movies.csv 439KB
tags.csv 40KB
README.txt 8KB
ratings.csv 2.23MB
links.csv 170KB
ratingsProcessed.csv 1.29MB
movie_tensorboard
events.out.tfevents.1539998256.DESKTOP-USVFQB3 126KB
events.out.tfevents.1539998684.DESKTOP-USVFQB3 126KB
events.out.tfevents.1540040196.DESKTOP-USVFQB3 67KB
events.out.tfevents.1540040332.DESKTOP-USVFQB3 124KB
events.out.tfevents.1540040797.DESKTOP-USVFQB3 14KB
events.out.tfevents.1540041008.DESKTOP-USVFQB3 3KB
events.out.tfevents.1540040661.DESKTOP-USVFQB3 90KB
moviesProcessed.csv 343KB
共 15 条
- 1
资源评论
生瓜蛋子
- 粉丝: 3828
- 资源: 6047
上传资源 快速赚钱
- 我的内容管理 展开
- 我的资源 快来上传第一个资源
- 我的收益 登录查看自己的收益
- 我的积分 登录查看自己的积分
- 我的C币 登录后查看C币余额
- 我的收藏
- 我的下载
- 下载帮助
安全验证
文档复制为VIP权益,开通VIP直接复制
信息提交成功