Technical Standards in Compendex Title Abstract Introduction Overview of Compendex Current Benefits and Limitations References There's an App for That Technical Standards in Compendex Margaret Phillips Associate Professor & Engineering Information Specialist Purdue University Libraries and School of Information Studies West Lafayette, IN phill201@purdue.edu Abstract Technical standards are important documents that academic libraries collect to support education and research, particularly for engineering and technology programs. However, standards documents present many unique discovery and access challenges that are confusing and cumbersome for users. To help alleviate these issues, Elsevier started indexing technical standards in their Abstracting & Indexing (A&I) database Compendex in 2018. This column provides a brief overview of Compendex, a summary of the standards collections currently indexed in the database, and a discussion about using Compendex as a tool for standards discovery and access. Recommended citation: Phillips, M. (2021). Technical standards in Compendex. Issues in Science and Technology Librarianship, 99. https://doi.org/10.29173/istl2621 Introduction What do smoke detectors, high chairs, engineered wood, and portable ladders have in common? All of these items are consumer products that require the use of technical standards in some way. In short, technical standards are documents that contain detailed information on a variety of topics, such as the requirements for a product’s design, testing, or labeling. For example, ASTM F404-20 Standard Consumer Safety Specification for High Chairs, describes the performance and testing requirements for high chairs and high chair conversion kits (ASTM International, 2020). Some technical standards, like ASTM F404, are referenced in the United States Code of Federal Regulations, making them mandatory for compliance (Safety Standard for High Chairs, 2018). Other technical standards are voluntary, but companies choose to comply for a variety of reasons, such as product interoperability, quality assurance, and global trade. Professional engineers as well as engineering and technology students need to have an understanding of the mandatory and voluntary standards that impact their designs in order to create products that are safe and legal (Osif, 2014). The need for standards education for engineering and engineering technology (ET) students is emphasized by ABET, the primary accrediting body for engineering and ET programs in the United States. Specifically, ABET’s 2020-21 Engineering Accreditation Commission (EAC) criteria Criterion 5: Curriculum says “the curriculum must include… d) a culminating major engineering design experience that 1) incorporates appropriate engineering standards.” (ABET, 2020a, p. 6). Additionally, ABET’s Engineering Technology Accreditation Commission (ETAC) 2020-21 Criterion 5: Curriculum says the curriculum must “include design considerations appropriate to the discipline and degree level such as: industry and engineering standards and codes.” (ABET, 2020b, p. 6). To support engineering and ET programs, many academic libraries maintain technical standards collections (Phillips, 2019), and many science and engineering librarians integrate standards content into information literacy instruction (Cioc et al., 2021; Phillips & McPherson, 2016; Solomon et al., 2019). However, both collecting standards and teaching about standards pose unique discovery and access challenges (Phillips, 2019). For example, a library may purchase full-text electronic access to standards directly from publishers, such as ASTM International and SAE International, or from a standards aggregator (e.g., TechStreet, IHS), or it may use a combination of purchasing strategies from publishers and aggregators to meet their specific needs. However, many standards platforms (both publisher and aggregator) don’t currently integrate well with discovery layers, potentially requiring patrons to search through several platforms to discover and then access the full text of a standard. An additional discovery impediment is that standards are not currently indexed in most Abstracting and Indexing (A&I) databases or in Google Scholar. Many libraries provide guidance for users on these challenges, such as encouraging the use of aggregator databases and freely available commercial aggregator websites (e.g., IHS Markit Standards Store) for standards discovery before going to the publisher platforms to which a library subscribes for full-text access. However, these workarounds are confusing, and require users to learn to use and toggle between multiple platforms. These challenges are especially cumbersome for students new to the topic of technical standards. To help alleviate these issues, Elsevier started indexing technical standards in their A&I database Compendex in 2018. This column provides a brief overview of Compendex, a summary of the standards collections currently indexed in the database, and a discussion about using Compendex as a tool for standards discovery and access. Overview of Compendex Engineering Index (EI) is a comprehensive index of the engineering literature that dates back to 1884. According to Elsevier’s “The History of EI” website, the name Compendex (COMPuterized ENgineering inDEX) was adopted in 1969 when EI transitioned to a machine-readable monthly subscription service. In the 1990’s, EI was purchased by Elsevier and Compendex was added to the Engineering Village search platform. Today, Compendex contains over 28 million bibliographic records, including journal articles, conference papers, book chapter, dissertations, and standards. Over the years several science and engineering librarians have written articles summarizing and evaluating Compendex (Landau, 1984; Lafferty & Porter, 2005; Meier & Conkling, 2008; Osorio, 2010; Cole et al., 2018). Standards Collections Indexed in Compendex In 2018, Elsevier began indexing standards in Compendex, starting first with the Institute of Electrical and Electronics Engineers (IEEE), the Society of Motion Picture and Television Engineers (SMPTE) and ASTM International. Since this time, Elsevier has added standards records from nine additional Standards Developing Organizations (SDO). Table 1 summarizes the twelve standards collections currently indexed in Compendex. Table 1: Standards collections indexed in Compendex (as of July 7, 2021) Standards Developing Organization (SDO) Years of Coverage American Institute of Aeronautics and Astronautics (AIAA) 1992-2021 American Concrete Institute (ACI) 1982-2021 American Society of Civil Engineering (ASCE) 1983-2021 ASTM International (formerly the American Society for Testing and Materials) 1901-2021 American Welding Society (AWS) 1940-2021 American Water Works Association (AWWA) 1908-2021 British Standards Institution (BSI) Standards Limited (BSI / International Organization for Standardization (ISO)) 1906-2021 Institute of Electrical and Electronics Engineers (IEEE) 1890-2021 The Institution of Engineering and Technology (IET) 2013-2021 SAE International (formerly the Society of Automotive Engineers) 1927-2021 Society of Motion Picture and Television Engineers (SMPTE) 1964-2021 Technical Association of the Pulp and Paper Industry (TAPPI) 1992-2021 Using Compendex for Standards Discovery & Access This section presents 1) options for searching and refining standards results in Compendex, 2) an example of a Compendex standard record, and 3) a brief summary of the current benefits and limitations of using Compendex for technical standards discovery and access. Search Options Users can search Compendex for standards using Quick, Expert, and Thesaurus search options. The Quick search option can be used to search for standards in variety of ways, including for specific standards, standards from particular publishers, and standards related to certain topics. Figure 1 shows a Quick search for the topic robot safety, limited to the document type “Standard”. Figure 1: Partial screenshot of an example Quick search for standards in Compendex. Expert search gives users more options for creating complex and specific searches. There are additional search codes available, including the code “STDID”, which is the Standard Identification number, or Standard ID. For most standards the Standard ID is the document number and identifier created by the publisher. For example, for ASTM E2992/E2992M – 17 Standard Test Method for Evaluating Response Robot Mobility: Traverse Sand Terrain, the STDID in Compendex is E2992/E2992M-17. Additionally, any Expert search can be limited to standards by using the code DT (document type) and ST (standard). For example, in the command line ((robot and industry and safety) WN ALL) AND (ST WN DT) including (ST WN DT) as shown limits the result set to the document type standards. Thesaurus search allows users to search a list of controlled vocabulary terms used to index standards and other document types in Compendex. Figure 2 shows a Thesaurus search for the topic solar power, limited to the document type “Standard”. Figure 2: Partial screenshot of an example Thesaurus search for standards in Compendex. Refining Results After conducting a search for standards, there are multiple ways to refine the results, including (as shown in Figure 3) by controlled vocabulary, publisher, and status (active/inactive). The option to refine by standard status is helpful because a user may be undertaking a new project and need to identify the most current, active version of a particular standard, or they may be working on a previously completed project and have a need to access a historical / inactive standard to understand the requirements that were in place at the time the design was created. Figure 3: Partial screenshot of a Compendex standards search results page. Additionally, as shown in Figure 3, the results page displays “Full Text” and OpenUrl link resolver (in this case, “Find it at Purdue Libraries”) options for accessing the full text of standards. If a library subscribes to standards through a publisher platform that is compatible with Compendex, such as ASTM Compass, SAE Mobilus, or IEEE Xplore, users are connected to the full text of the standard in the publisher platform in a new window using the “Full Text” link. The OpenURL link may also connect users to the full text; however, I find this to be a less reliable option. If a library does not subscribe to a particular standard through a publisher platform, users are currently directed to the publisher page with purchasing information when they use the “Full Text” link. Standard Record – Example Figures 4-6 show partial screenshots of the Compendex record for ASTM F1833 - 97(2017) Standard Test Method for Comparison of Rearfoot Motion Control Properties of Running Shoes. Figure 4 shows there are options for a condensed “abstract” view or a “detailed” view with more fields, and that PlumX Metrics are available for standards in the database. Figure 5 illustrates the controlled vocabulary indexing and that the record contains hyperlinks to different versions of the standard, including historical and withdrawn documents. Additionally, Figure 6 displays documents that are related to the standard by shared controlled vocabulary terms or keyword search terms. Figure 4: Partial screenshot of an abstract view standard record in Compendex. Figure 5: Partial screenshot of an abstract view standard record in Compendex. Figure 6: Partial screenshot of an abstract view standard record in Compendex. Current Benefits and Limitations There are several benefits to using Compendex for standards discovery and access. First, many researchers have prior familiarity with Engineering Village since they already use this platform to search for journal articles and conference papers. Also, standards are indexed in Compendex with controlled vocabulary, allowing for more precise discoverability than keyword searching alone. Lastly, if a library also subscribes to full text standards through a compatible vendor platform (e.g., ASTM Compass, IEEE Xplore), there is one-click access to full-text documents. However, there are also currently limitations to using Compendex for standards discovery and access. A significant one is that if a library does not subscribe to full-text standards through a compatible vendor platform, users hit a paywall when trying to connect. This may be misleading to users if the library subscribes to the full text of that standard in a platform that is not compatible with Compendex (e.g., TechStreet) or owns the standard in hard copy format. Additionally, Compendex currently does not index standards by the International Classification for Standards (ICS) system, which is used by other platforms with standards, such as IEEE Xplore and IHS Engineering Workbench. Also, Compendex currently indexes standards from a limited number (twelve) of Standards Developing Organizations (SDOs). While the collections indexed are widely utilized in academia and industry and Elsevier continues to add SDOs, there are hundreds of other SDO collections not currently indexed in the database. References ABET. (2020a). Criteria for accrediting engineering programs, 2020 – 2021. Available from: https://www.abet.org/accreditation/accreditation-criteria/criteria-for-accrediting-engineering-programs-2020-2021/ ABET. (2020b). Criteria for accrediting engineering technology programs, 2020 – 2021. Available from: https://www.abet.org/accreditation/accreditation-criteria/criteria-for-accrediting-engineering-technology-programs-2020-2021/ ASTM International. (2020). F404-20 consumer safety specification for high chairs. https://doi.org/10.1520/F0404-20 Cioc, C., Haughton, N. A., Napp, J. B., & Cioc, S. (2021, March 19). Incorporating information literacy in MET design project: Year 2 implementation. 2021 ASEE North Central Section Conference. https://peer.asee.org/36342 Cole, C., Davis, A. R., Eyer, V., & Meier, J. J. (2018). Google Scholar’s coverage of the engineering literature 10 years later. The Journal of Academic Librarianship, 44(3), 419–425. https://doi.org/10.1016/j.acalib.2018.02.013 Lafferty, M., & Porter, K. (2005). Compendex Engineering Village 2. Issues in Science and Technology Librarianship, 44. https://doi.org/10.5062/F4C24TD1 Landau, H. B. (1984). Engineering Index 1884-1984: Its history and its service to special libraries. Special Libraries, 75(4), 312–318. Meier, J. J., & Conkling, T. W. (2008). Google Scholar’s coverage of the engineering literature: An empirical study. The Journal of Academic Librarianship, 34(3), 196–201. https://doi.org/10.1016/j.acalib.2008.03.002 Osif, B. (2014). Make it safe and legal. In D. Radcliffe & M. Fosmire (Eds.), Integrating information into the engineering design process (pp. 115–124). Purdue University Press. Osorio, N. (2010). The Engineering Index: The past and the present. 2010 ASEE Annual Conference and Exposition, June 20, 2010 - June 23, 2010. Phillips, M. (2019). Standards collections: Considerations for the future. Collection Management, 44(2–4), 334–347. https://doi.org/10.1080/01462679.2018.1562396 Phillips, M., & McPherson, P. (2016). Using everyday objects to engage students in standards education. 2016 IEEE Frontiers in Education Conference (FIE) 1–5. https://doi.org/10.1109/FIE.2016.7757698 Safety Standard for High Chairs, 16 C.F.R. § 1231 (2018). https://ecfr.io/Title-16/Part-1231 Solomon, D., Liao, Y.-T. T., & Chapin, J. T. (2019, June 15). Maximizing the effectiveness of one-time standards instruction sessions with formative assessment. 2019 ASEE Annual Conference & Exposition. https://doi.org/10.18260/1-2--33087 This work is licensed under a Creative Commons Attribution 4.0 International License. Issues in Science and Technology Librarianship No. 99, Fall 2021. DOI: 10.29173/istl2621