Digital Scholarship Ecosystems

for Open Science(Lightning Talk)

Ray Uzwyshyn, Ph.D. MBA MLIShttp://rayuzwyshyn.netDirector, Collections and Digital ServicesTexas State University Libraries

Presented for AIDR and Open ScienceSymposium, Carnegie Mellon UniversityOctober 20, 2020

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What is a Digital Scholarship Ecosystemfor Open Science?

Network of Several Software Components to Enable Faculty and Graduate Student Researchand Raise Research Profiles

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Collocating Open Source Digital Components in a Networked Research Ecosystem Enables Larger Connections and/or Network Effects

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What are the General Characteristics

of this Digital Scholarship Ecosystem?

Customizable Components

Active Developer Communities

Open Source Software

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Digital Scholarship Ecosystem Consists of Six Open Source

Software Components

TWO PRIMARY

• RESEARCH DATA REPOSITORY

• DIGITAL COLLECTIONS REPOSITORY

FOUR TERTIARY• Electronic Thesis and

Dissertation Management System

• Identity Management System

• Open Academic Journal Software

• User Interface/Content Management Software

Content

Communication

ORCID

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These Digital Ecosystem Components TogetherEnable the Academic Research Cycle

Pragmatic LevelsAbstract Levels

Think & Plan ala Discover

The academic research cycle

i. Identification of knowledge e .g. undertaking literature reviews

using peer reviewed sources

ii. Creation o f knowled:e by p rofe1sional researchers usually behind closed doors

Col la boration

iv. Disaemin11tion of knowledge

e.g. publicatio n, presentation at conference

i ii. Quality 11ssu11nce of knowl@dge

e .g. peer review, fi ltering the best for publication

Social media: A guide for researchers

#1 Componentfor Open Science,

Research Data Repository

https://dataverse.tdl.org/dataverse/txstate

Texas State University Dataverse

I tform for u Ii hing n rchivin Tex State University's research data.

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UNIVERSITY LIBRARIES

Research Data Repositoryhttps://dataverse.tdl.org/dataverse/txstate

CAPTURE Project Data from Experiments, Surveys Researchers and Scientists

MANAGE Administrative Online Research Data Archives

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Synthesize Research

CATALOG Assign Metadata Schema, Specialized and Disciplinary Taxonomies, DOI, UNF

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Retrieve, Download Relevant Data Sets Instantaneously

Verification, Insight, Discovery Visualization, Harvesting and Linked Data

Dataverse can be configured as Single Instance or as a Consortial Model

(Texas Aggregates22 Individual Instances, through the TexasDigital Library)

https://dataverse.tdl.org/

* Texas Data Repository About Oocument~tion FAQ, Loe In Help

Search the Texas Data Repository

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Add a Dataset Create a Datavcrse Explore Data Learn More Get Help Repository

Publish and Track Your Data, Discover and Reuse Others' Data!

DataverseJ

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Dataverse Architecture (Consortia I)

Te1<a.s State University Dat,averse

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~--.T.iexas Digital Library Dataverse

Unlvcolty of HO\IJton,UT

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#2 Institutional Digital Collections Repository

(Dspace)Organizes, centralizes and makes accessible research and knowledge generated by the institution’s research community (Research Faculty and Graduate Students):

Pre-printsFaculty PublicationsWhite PapersConference PresentationsGraduate Student Thesesand Dissertations

I~ Scalable

Arlie/es Data Sets

AOOi\ I Images

Repo_rls

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SPACE Simple & Powerful

1Reposttory System

I - , . -. I Secure Easy To Use All Formats Supported

A Vast Majority of Publishers Allow Digital Archiving

in some form. (82% from 2562 publishers)

March 2020 Sherpa/Romeo Copyright Polices & Self Archiving

Source:

www.sherpa.ac.uk/romeo/statistics.php?l

a=en&fIDnum=|&mode=simple

RoM;eo colour Archiving: policy Publlshel'$ %

green Can archive pre-print and post-print 1064 42

Can archive post'1)rint ('e snat draft post-refereeing) 844 33

Can archive pre print (ie pre .. efereeing) 183 7

whit Archiving not to mally supported 4711 18

Summary: 82% of pub~ishers on th:is Hst formally aUow some form of self-archiving.

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Primary Use Case ValueApplication of Structured Metadata Schema for Search Engine Optimization

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, .ngton, B. C., SouthwHt Tu.s.s State Un l't't-rslty;

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Recommended Cit.'ltion:

Connally, O..vkl W a,d Comgton 8 C and Grun, J and Fischar AP ind P■chriu M and F. C

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https://digital.library.txstate.edu/

Athermal anneallng of low-energy boron implants In slllcon Donnelly, 0Jvid W., Southwest Tens S te University, Oep o Physics; Cov ngton, B. C., South st Texas State Un ver, ty ;

GNn, J., ~v I RtH ~h ~m ory, w ,hinijton, DC: Fischer, R.P., N val Rts ~,ch ~boratory:

Peckt~ r, M., N~vill Rut 1th L bo~tory;

Felix, C. L., Un t d Indus es Inc.

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Access Points

Find ability

Search Engine Optimization (SEO)

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Percent Increase in Article

Citations by Discipline with Open Access

Online Availability Through Google

Range = 36%-250% Increase in Citations over 2 Year period

(Data: Stevan Harnad and Heather Joseph, 2014)

0 50 100 150 200 250

Biology

Health Sci

Physics

% Increase in Citations with Open Access

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Percent Increase in Article Citations by Discipline with Open Access Online Availability Through Google

Range = 36%-250%

(Data: Stevan Harnad and Heather Joseph, 2014)

0 50 100 150 200 250

Biology

Economics

Political Sci

Health Sci

Business

Education

Management

Law

Psychology

Sociology

Physics

% Increase in Citations with Open Access

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Vireo

Electronic Thesis and Dissertation Management System

• Bridges Student Thesis/Dissertation Submission with Graduate School Review,

• Connects the Collections Repository And Data Repository so graduate students can publish and link their theses/dissertations, data and research

• Addresses Intermediary steps in the ETD Process

Researcher Identity Management System

• Gives Researchers Unique Number (ORCID ID) Connecting and Disambiguate Scholars names:

Maria Hernandez, BiochemistMaria Hernandez, M.D. or Astrophysicist

• Allows Papers in the collections repository and datasets in data repository to be associated with ORCID ID’s for aggregation of research profiles.

Orcid can act as a Network Hub aggregating from several sources and connecting to other internal and external networks

ORCID is a hub connecting the research landscape

Omeka and OJS3

Open Source User Interface Software Provides a front end gateway for more complex research projects - linking text, image media and datasets and acting as a front end for connecting components.

Open Access Academic Journal Software for refereed journal online publishing, workflow and connections with background research and datasets etc. through Dataverse/Dspace connections

OPEN JOURNAL SYSTEMS

The Digitization Lab• Expands Possibilities for

Faculty/Graduate Student Research Projects

• Possibilities range from OCR, scientific slides, image, manuscript & journal digitization to 3D objects, audiovisual material, GIS and visualization technologies

Together, These Research Ecosystem ComponentsOpen Amazing Possibilities For Digital Scholarship & Collaboration

Complex Multimedia Archives/Cognitive Cartographies

Digital Archives/ETD Projects

Online Exhibits/ Online Academic Journals

Interactive Image Archives/Data Projects

Digital Libraries, Research Documentation Projects

Faculty Digitization Proposals/PartnershipsProjects,PrototypesGrant Partnerships

Complexity

VIREO / " D Electronic Theses and Dissertation !ETD)

DI D Management System □ o □

D SPACE

Human ResourcesEssential

• System Administrator/Programmerserver infrastructure set-up/maintenance/basic customization

• Digital Collections Librarian: Administration, Marketing, User Support, Collections and Data Repository, OJS/ORCID

Optional as System Expands

• Metadata Librarian: Dublin Core, Specialized Schema

• Web Developer/Programmer: OMEKA, System Integration

• Project Manager/Department Head (PMP Certification)

• Digitization Specialist

• GIS Specialist/Data Visualization Specialist

• AI Specialist/Post-Doc/CLIR Fellow

HUMAN 0 RESOURCES (1

-\

Implementation Paths For Open Science

(Many Roads To Rome for Timelines, 1-5 Year Paths)

Year 1 Data Repository and Digital Collection Repository

Year 2 User Interface Software (OMEKA), Identity Management System, ORCID

Year 3 Digitization Lab

Year 4 ETD Middleware (VIREO) and OJS Software

Year 5Complex Digitization Projects, IIIF Server, Faculty Grant Projects etc.

Assessment and ResultsQuantitative and Qualitative Measures

Annual Usage Growth(Downloads, Number of Items, ORCID ID’s and Hosted Journals)

LibQual Biannual Survey 2013-2019, Faculty and Student System Perceptions, Comments

Ecosystem Implemented in Stages, 2014-2019

System 2014 2015 2016 2017 2018 2019

Downloads

DSpace 326,762 318,742 385,163 341,224 972,359 1,010,349

ETDs 136,985 158,240 200,373 328,420 470,437 505,658

Dataverse n/a n/a n/a 455 3,451 2,043

Number of Items

DSpace 1,340 1,437 1,546 1,660 2,135 2,720

ETDs 967 1,174 1,326 1,581 1,789 2,218

Dataverse n/a n/a n/a 28 33 53

ORCID IDs

ORCID 101 190 316 438 545 669

Hosted Journals

OJS 1 1 2 2 3 4

Mak ng e ectron c resources access·b e rom my home or

o ·ce

■ Fe

Summary ReflectionsPlacing Open Science Research Cycle Components within an Ecosystem Paradigm Enables:

1) New Possibilities For Research accessiblity, retrieval and sharing

2) Better Roadmaps for Future Development of Digital Open Science Components

3) Evolutionary Guideposts for Research Systems Development

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Further References,Papers& Working Examples

Uzwyshyn, R. 2020 Developing an Open Source Digital Scholarship Ecosystem (Preprint). ICEIT2020. Oxford, UK. https://www.researchgate.net/publication/336923249_Developing_an_Open_Source_Digital_Scholarship_Ecosystem

Texas State University Libraries Website.https://www.library.txstate.edu/

Texas State Digital Collections Repository https://digital.library.txstate.edu/Texas State Data Research Repository https://dataverse.tdl.org/dataverse/txstateTexas State Online Research Identity Management System: https://guides.library.txstate.edu/researcherprofile/orcidTexas State Electronic Thesis and Dissertation Management (VIREO): https://www.tdl.org/etds/Texas State Digital & Web Services: https://www.library.txstate.edu/services/faculty-staff/digital-web-services.html

Further Links to Open SourceSoftware & Downloads

• Dspacehttps://duraspace.org/dspace/

• Dataversehttps://dataverse.org/

• Omekahttps://omeka.org/

• Open Journal Systems 3https://pkp.sfu.ca/ojs/

• ORCIDhttps://orcid.org/

• Vireohttps://www.tdl.org/etds/

Questions, Comments

Ray Uzwyshyn, Ph.D. MBA MLISDirector, Collections and Digital ServicesTexas State University Librariesruzwyshyn@txstate.edu, 512-245-5687http://rayuzwyshyn.net

Value For

User

The Systemic Value of

Compatibly communicating

components grows as the square of their number

increases.

FuturePathwaysNetworked Global Scholarly Research Environment

Research Universities and Digital Research Ecosystems

• ~266-300 Research Institutions US & Canada Carnegie R1 & R2, Very High or High Research Activity

• ~1000-1250 Research Universities WorldwideQS Rankings and Times Higher Education Supplement. (40% Europe,

26.5% Asia Pacific, US/Canada 18%, Latin America 9% and Middle East/Africa.

• Enable Top 2-3% Research Institutions Globally, 1000 Institutions beyond the US and Canada. (This represents the other 90% of Research Libraries Globally)

Value For

User

The Systemic Value of

Compatibly communicating

components grows as the square of their number

increases.

umber of users

One Server Per Research Institution 2020-2025

• Empower 1000 Research University Institutions/Research Libraries Globally

• Gift each Research University One Configured Server Ecosystem with 6 Open Source Scholarly Research Software Components, < $1000.00 US/Server or set up Fractional Server Space with Mirror Sites Globally (SAAS)

• Set Up brief weeklong training over five continents

• Connect Networks

• Measure the EffectsIdentity Management System

VIREO / ~

Online Research Data Repository

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Electronic Theses and Dissertation (ETD) Management System

DSPACE Online Institutional

Digital Collections Repository

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