Journal:The challenges of data quality and data quality assessment in the big data era

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Full article title The challenges of data quality and data quality assessment in the big data era
Journal Data Science Journal
Author(s) Cai, Li; Zhu, Yangyong
Author affiliation(s) Fudan University and Yunnan University
Primary contact Email: lcai at fudan dot edu dot cn
Year published 2015
Volume and issue 14
Page(s) 2
DOI 10.5334/dsj-2015-002
ISSN 1683-1470
Distribution license Creative Commons Attribution 4.0 International
Website http://datascience.codata.org/articles/10.5334/dsj-2015-002/
Download http://datascience.codata.org/articles/10.5334/dsj-2015-002/galley/550/download/ (PDF)
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Abstract

High-quality data are the precondition for analyzing and using big data and for guaranteeing the value of the data. Currently, comprehensive analysis and research of quality standards and quality assessment methods for big data are lacking. First, this paper summarizes reviews of data quality research. Second, this paper analyzes the data characteristics of the big data environment, presents quality challenges faced by big data, and formulates a hierarchical data quality framework from the perspective of data users. This framework consists of big data quality dimensions, quality characteristics, and quality indexes. Finally, on the basis of this framework, this paper constructs a dynamic assessment process for data quality. This process has good expansibility and adaptability and can meet the needs of big data quality assessment. The research results enrich the theoretical scope of big data and lay a solid foundation for the future by establishing an assessment model and studying evaluation algorithms.

Introduction

Many significant technological changes have occurred in the information technology industry since the beginning of the 21st century, such as cloud computing, the Internet of Things, and social networking. The development of these technologies has made the amount of data increase continuously and accumulate at an unprecedented speed. All the above mentioned technologies announce the coming of big data.[1] Currently, the amount of global data is growing exponentially. The data unit is no longer the gigabyte (GB) and terabyte (TB), but the petabyte (PB; 1 PB = 210 TB), exabyte (EB; 1 EB = 210 PB), and zettabyte (ZB; 1 ZB = 210 EB). According to IDC’s “Digital Universe” forecasts[2], 40 ZB of data will be generated by 2020.

The emergence of an era of big data attracts the attention of industry, academics, and government. For example, in 2012, the U.S. government invested $200 million to start the "Big Data Research and Development Initiative."[3] Nature launched a special issue on big data.[4] Science also published a special issue "Dealing with Data," which illustrated the importance of big data for scientific research.[5] In addition, the development and utilization of big data have been spread widely in the medical field, retail, finance, manufacturing, logistics, telecommunications, and other industries and have generated great social value and industrial potential.[6]

By rapidly acquiring and analyzing big data from various sources and with various uses, researchers and decision-makers have gradually realized that this massive amount of information has benefits for understanding customer needs, improving service quality, and predicting and preventing risks. However, the use and analysis of big data must be based on accurate and high-quality data, which is a necessary condition for generating value from big data. Therefore, we analyzed the challenges faced by big data and proposed a quality assessment framework and assessment process for it.

Literature review on data quality

In the 1950s, researchers began to study quality issues, especially for the quality of products, and a series of definitions (for example, quality is "the degree to which a set of inherent characteristics fulfill the requirements"[7]; "fitness for use"[8]; "conformance to requirements"[9]) were published. Later, with the rapid development of information technology, research turned to the study of the data quality.

Research on data quality started abroad in the 1990s, and many scholars proposed different definitions of data quality and division methods of quality dimensions. The Total Data Quality Management group of MIT University led by Professor Richard Y. Wang has done in-depth research in the data quality area. They defined data quality as "fitness for use"[8] and proposed that data quality judgment depends on data consumers. At the same time, they defined a "data quality dimension" as a set of data quality attributes that represent a single aspect or construct of data quality. They used a two-stage survey to identify four categories containing 15 data quality dimensions.

Some literature regarded web data as research objects and proposed individual data quality standards and quality measures. Alexander and Tate[10] described six evaluation criteria - authority, accuracy, objectivity, currency, coverage/intended audience, and interaction/transaction features for web data. Katerattanakul and Siau[11] developed four categories for the information quality of an individual website and a questionnaire to test the importance of each of these newly developed information quality categories and how web users determine the information quality of individual sites. For information retrieval, Gauch[12] proposed six quality metrics, including currency, availability, information-to-noise ratio, authority, popularity, and cohesiveness, to investigate.

From the perspective of society and culture, Shanks and Corbitt[13] studied data quality and set up an emiotic-based framework for data quality with four levels and a total of 11 quality dimensions. Knight and Burn[14] summarized the most common dimensions and the frequency with which they are included in the different data quality/information quality frameworks. Then they presented the IQIP (Identify, Quantify, Implement, and Perfect) model as an approach to managing the choice and implementation of quality related algorithms of an internet crawling search engine.

According to the U.S. National Institute of Statistical Sciences (NISS)[15], the principles of data quality are: 1. data are a product, with customers, to whom they have both cost and value; 2. as a product, data have quality, resulting from the process by which data are generated; 3. data quality depends on multiple factors, including (at least) the purpose for which the data are used, the user, the time, etc.

Research in China on data quality began later than research abroad. The 63rd Research Institute of the PLA General Staff Headquarters created a data quality research group in 2008. They discussed basic problems with data quality such as definition, error sources, improving approaches, etc.[16] In 2011, Xi’an Jiaotong University set up a research group of information quality that analyzed the challenges and importance of assuring the quality of big data and response measures in the aspects of process, technology, and management.[17] The Computer Network Information Center of the Chinese Academy of Sciences proposed a data quality assessment method and index system[18] in which data quality is divided into three categories including external form quality, content quality, and the utility of quality. Each category is subdivided into quality characteristics and an evaluation index.

In summary, the existing studies focus on two aspects: a series of studies of web data quality and studies in specific areas, such as biology, medicine, geophysics, telecommunications, scientific data, etc. Big data as an emerging technology, acquires more and more attention but also lacks research results in establishing big data quality and assessment methods under multi-source, multi-modal environments.[19]


References

  1. Meng, X.; Ci, X. (2013). "Big Data Management: Concepts, Techniques and Challenges". Journal of Computer Research and Development 50 (1): 146–169. http://crad.ict.ac.cn/EN/abstract/abstract715.shtml. 
  2. Gantz, J; Reinsel, D.; Arend, C. (February 2013). "The Digital Universe in 2020: Big Data, Bigger Digital Shadows, and Biggest Growth in the Far East — Western Europe" (PDF). IDC. http://www.emc.com/collateral/analyst-reports/idc-digital-universe-western-europe.pdf. Retrieved February 2013. 
  3. Li, G.J.; Chen, X.Q. (2012). "Research Status and Scientific Thinking of Big Data". Bulletin of Chinese Academy of Sciences 27 (6): 648–657. 
  4. "Big Data". Nature. Macmillan Publishers Limited. 3 September 2008. http://www.nature.com/news/specials/bigdata/index.html. Retrieved 05 November 2013. 
  5. "Dealing with Data". Science. American Association for the Advancement of Science. 11 February 2011. http://www.sciencemag.org/site/special/data/. Retrieved 05 November 2013. 
  6. Feng, Z.Y.; Guo, X.H.; Zeng, D.J. et al. (2013). "On the research frontiers of business management in the context of Big Data". Journal of Management Sciences in China 16 (1): 1–9. 
  7. "Quality management system - Fundamentals and vocabulary (GB/T19000—2008/ISO9000:2005)" (PDF). General Administration of Quality Supervision. 29 October 2008. http://sc.ccic.com/uploadfile/2014/0811/20140811053122619.pdf. 
  8. 8.0 8.1 Wang, R.Y.; Strong, D.M. (1996). "Beyond accuracy: What data quality means to data consumers". Journal of Management Information Systems 12 (4): 5–33. doi:10.1080/07421222.1996.11518099. 
  9. Crosby, P.B. (1979). Quality Is Free: The Art of Making Quality Certain. McGraw-Hill Companies. pp. 309. ISBN 978-070145122. 
  10. Alexander, J.E.; Tate, M.A. (1999). Web Wisdom: How to Evaluate and Create Information Quality on the Web. Hillsdale, NJ: L. Erlbaum Associates, Inc. ISBN 0805831231. 
  11. Katerattanakul, P.; Siau, K. (1999). "Measuring information quality of web sites: Development of an instrument". ICIS '99: Proceedings of the 20th International Conference on Information Systems: 279–285. http://aisel.aisnet.org/icis1999/25/. 
  12. Zhu, X.; Gauch, S. (2000). "Incorporating quality metrics in centralized/distributed information retrieval on the World Wide Web". SIGIR '00: Proceedings of the 23rd Annual International ACM SIGIR Conference on Research and Development in Information Retrieval: 288–295. doi:10.1145/345508.345602. 
  13. Shanks, G.; Corbitt, B. (1999). "Understanding data quality: Social and cultural aspects" (PDF). Proceeding of the 10th Australasian Conference on Information Systems: 785–797. http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.5.4092&rep=rep1&type=pdf. 
  14. Knight, S.; Burn, J. (2005). "Developing a Framework for Assessing Information Quality on the World Wide Web" (PDF). Information Science Journal 8: 159–171. http://inform.nu/Articles/Vol8/v8p159-172Knig.pdf. 
  15. Karr, A.F.; Sanil, A.; Sacks, J.; Elmagarmid, A. (2001). "Workshop Report: Affiliates Workshop on Data Quality". National Institute of Statistical Sciences. http://www.niss.org/publications/workshop-report-affiliates-workshop-data-quality. 
  16. "Research on Some Basic Problems in Data Quality Control". Control and Automation author=Cao, J.J.; Diao, X.C.; Wang, T. et al. 26 (9): 12–14. 2005. doi:10.3969/j.issn.2095-6835.2010.09.005. 
  17. Zong, W.; Wu, F. (2013). "The Challenge of Data Quality in the Big Data Age". Journal of Xi’an Jiaotong University (Social Sciences) 33 (5): 38–43. http://caod.oriprobe.com/articles/39632886/The_Challenge_of_Data_Quality_in_the_Big_Data_Age.htm. 
  18. "Data Quality Evaluation Method and Index System" (PDF). Data Application Environment Construction and Service of Chinese Academy of Sciences. 2009. http://www.csdb.cn/upload/101205/1012052021536150.pdf. Retrieved 30 October 2013. 
  19. Song, M.; Qin, Z. (2007). "Reviews of Foreign Studies on Data Quality Management". Journal of Information 2: 7–9. 

Notes

This presentation is faithful to the original, with only a few minor changes to presentation. In some cases important information was missing from the references, and that information was added. One reference to the Data Quality Evaluation Method and Index System (18) no longer exists on the web and couldn't be found on the Internet Archive.

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