RAISE: A Whole Process Modeling Method for Unstructured Data Management

机译：RAISE：用于非结构化数据管理的全过程建模方法

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Nowadays, unstructured data, e.g., texts, images, and videos, is growing in an explosive speed with the development of Internet and social network. Due to the variety of unstructured data, it is strongly desirable to design a generalized model to represent all kinds of unstructured data and build a system to organize them effectively. In this paper, we first define a generalized data model to represent unstructured data. Above the data model, we further propose RAISE, a whole process modeling method including Repository, Analysis, Index, Search, and Environment. Furthermore, we design a SQL-like unstructured query language (UQL) for flexible accessing the RAISE model. We implement the proposed method in a distributed unstructured data management system named D-Ocean, which is scalable, reliable, and high-available.

机译：如今，随着互联网和社交网络的发展，诸如文本，图像和视频之类的非结构化数据正以爆炸性的速度增长。由于非结构化数据的多样性，非常需要设计一个通用模型来表示各种非结构化数据，并建立一个有效地组织它们的系统。在本文中，我们首先定义一个通用数据模型来表示非结构化数据。在数据模型之上，我们进一步提出了RAISE，这是一种全过程建模方法，包括存储库，分析，索引，搜索和环境。此外，我们设计了一种类似于SQL的非结构化查询语言（UQL），用于灵活地访问RAISE模型。我们在名为D-Ocean的分布式非结构化数据管理系统中实现了该方法，该系统具有可伸缩性，可靠性和高可用性。

著录项

来源
《International Conference on Multimedia Big Data》|2015年|9-12|共4页
会议地点
作者
Ling Chen; Jian Shao; Zhou Yu; Jianling Sun; Fei Wu; Yueting Zhuang;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
unstructured data management; whole process modeling; unstructured query language; D-Ocean;

机译：非结构化数据管理;全过程建模;非结构化查询语言; D海洋;

相似文献

外文文献
中文文献
专利

1. A Review of Methods for Processing Unstructured Data in the Assessment of Mining Personnel [J] . Anna Barbara, Alexander Pimonov, Lyubov Sluder E3S Web of Conferences . 2020,第10期

机译：在采矿人员评估中加工非结构化数据的方法综述
2. Signal Processing on Graphs: Causal Modeling of Unstructured Data [J] . Jonathan Mei, José M. F. Moura IEEE Transactions on Signal Processing . 2017,第8期

机译：图上的信号处理：非结构化数据的因果建模
3. Forward modeling of gravity data using finite-volume and finite-element methods on unstructured grids [J] . Hormoz Jahandari, Colin G. Farquharson Geophysics: Journal of the Society of Exploration Geophysicists . 2013,第3期

机译：在非结构化网格上使用有限体积和有限元方法对重力数据进行正向建模
4. RAISE: A Whole Process Modeling Method for Unstructured Data Management [C] . Ling Chen, Jian Shao, Zhou Yu, International Conference on Multimedia Big Data . 2015

机译：提高：非结构化数据管理的整个过程建模方法
5. Strategies Big Data Analytics Specialists Need to Improve the Analytical Methods Used for Classifying Structured and Unstructured Data [D] . Ireland, Eric. 2020

机译：策略大数据分析专家需要改进用于分类结构化和非结构化数据的分析方法
6. Methodologies for Medical Computing. Date Bases and Management Database Management: Coordinating a Multicenter Trial Using a Microprocessor Based Clinical Research Data Acquisition System [O] . Kathleen F. Swisher, Henry Moore, Yuko Y. Palesch 1983

机译：医学计算方法。日期基础和管理数据库管理：使用基于微处理器的临床研究数据采集系统协调多中心试验
7. ABSTRACT Various body parts or organs can be analysed to identify the different diseases in the human body. Fingernail analysis is one of the ways to identify disease in the human body. Nails are the body part which are farthest from the heart and therefore receive oxygen at last. As a result the nails are the first who show the symptoms of a disease in the human body. Fingernails can be easily captured for diagnosis and there are no heavy equipment or no specific conditions required to use nail image for disease diagnosis, like in other tests and scanning processes. Human nails deliver beneficial information about complaints or any nutritive imbalances in the human body depending upon their shape, texture and colour. In human beings, numerous systemic and skin diseases can be easily analyzed through careful examination of nails of both the limbs. A lot of nail illnesses have been found to be primary signs of numerous underlying systemic illnesses. The colour, texture or shape changes in nails are signs of many diseases mainly affecting nails. Considering all these properties of nails a system is proposed that uses digital image processing (DIP) methods for identifying such changes in the human nail to get more precise results and predict numerous diseases effortlessly. With the emerging Internet of Things (IOT) concept the generated report is made available remotely, this will help users to reduce transportation efforts. As the system has to deal with large and private data, the security of data must be ensured. To keep the data confidential, the Blockchain concept which is one of the most emerging concepts in the field of data management is used. The paper contains the implementation of the digital image processing for feature extraction of nail images, usage of IOT (ThingSpeak cloud) for data storage and implementation of Blockchain to keep the system secured and theft free. KEY WORDS: Int ernet of thin gs (IOT), Image proc essin g, Thin gSpeak, RG B vavalues, Mean pi xel vavalues, Bloc kchain , Hash key. Disease Diagnostic System: Abnormalities in Human Nail [O] . Pranav S. Wazarkar 2020

机译：摘要的各个身体部位或器官可被分析以识别在人体内的不同的疾病。指甲分析来识别人体疾病的方法之一。指甲是身体一部分是离心脏最远，因此在最后接受氧气。作为结果，指甲是第一谁表现出人体疾病的症状。指甲可以容易地捕获用于诊断和没有重装或需要使用指甲图像用于疾病诊断，比如在其他测试和扫描过程没有特定的条件。人的指甲提供有关投诉或取决于它们的形状，纹理和色彩在人体内的任何营养失衡有益的信息。在人类中，许多全身性皮肤疾病是可以很容易地通过两个四肢指甲的仔细检查分析。很多指甲病已发现众多潜在系统性疾病的主要症状。在指甲的颜色，质地和形状的变化是许多疾病主要影响指甲的迹象。考虑到所有的指甲的这些性能的系统被提出，用于识别人指甲这样的变化以获得更精确的结果，并毫不费力预测许多疾病用途的数字图像处理（DIP）方法。随着物联网（IOT）的概念，新兴的互联网将生成的报告提供远程，这将帮助用户降低运输工作。由于系统必须处理大量的私人数据，数据的安全性必须得到保证。为了保持数据的机密性，使用Blockchain的概念，它是在数据管理领域的大多数新兴的概念之一。本文包含了数字图像处理的指甲图像，IOT（ThingSpeak云）的使用为数据存储和执行Blockchain的特征提取的执行，以保持固定的系统和盗窃免费。关键词：诠释薄GS（IOT），图像的ERNET PROC essin克，薄型gSpeak，RG乙vavalues，平均数PI XEL vavalues，阵营kchain，哈希密钥。疾病诊断系统：在人类指甲异常
8. Database Creation for Information Processing Methods, Metrics, and Models (DCIPM3) [R] . Murray, S., Small, F., McVey, M. C., 2009

机译：信息处理方法，度量和模型的数据库创建（DCIpm3）

RAISE: A Whole Process Modeling Method for Unstructured Data Management

摘要

著录项

相似文献

相关主题

期刊订阅