Features of Micro-credential Platforms in Higher Education
Padmasheela Kiiskilä, Ahmed Hanafy and Henri Pirkkalainen
Tampere University, Tampere, Finland
Keywords: Micro-credentials, Digital Credentials, Adoption, Features, Micro-Credential Platforms, Higher Education
Institutions.
Abstract: Interest in and demand for micro-credentials in higher education institutions is on the rise. Although the
concept of micro-credentials is still evolving, they can be seen as short learning opportunities that are
accompanied by digital credentials that capture the proofs of the learning. These digital proofs of learning
range from skills and competences acquired to information whether such skills were acquired via formal or
non-formal learning activities. Micro-credential platforms are used for multiple purposes including issuing,
viewing, and storing the digital credentials. Despite the growth in the number of micro-credential platforms
in the recent years, literature is limited on the features offered by the platforms and how they are helpful for
higher education institutions and learners. To address this gap in research, we employed a qualitative approach
by semi-structured interviews and group discussions with platform providers and education experts. Our
findings resulted in 38 features that can help higher education institutions, learners, and providers understand
what kind of features are emphasized in micro-credential platforms and how they can be helpful for different
use purposes. As practical implications, the findings of this study can help higher education institutions in
considering adoption and usage of micro-credential platform.
1 INTRODUCTION
As the need for upskilling and reskilling gains
importance, micro-credentials are becoming
instrumental in the discourse of employability in 21
st
century (Wheelahan and Moodie, 2021).
Accordingly, one of the top priorities of the European
higher commission is that governments should aim
for a paradigm-shift on skills and lifelong learning to
drive Europe’s competitiveness and innovation
(European Commission, 2020). Micro-credentials are
positioned within this paradigm shift and can be
defined as “a qualification evidencing learning
outcomes acquired through a short, transparently-
assessed course or module” (European Commission,
2020).
Micro-credentials, as described by the European
Commission, include digital proofs of the short and
assessed learning opportunities such as course or
module. These proofs are currently discussed as
digital credentials which can include evidence of the
skills and competences acquired through the learning
opportunities. These digital credentials can relate to
both formal and non-formal learning. In higher
education institutions the learning opportunities
range from short (micro) tor long (macro), and digital
credentials can be awarded to any of these learning
opportunities. Hence, the term “micro-credentials”
has multiple meanings related to the short learning
opportunities and the proofs. Accordingly, when
discussing digital proofs, we are specifically referring
to digital credentials in the remainder of the paper.
A supporting ecosystem for micro-credentials
consists of the following: (a) an issuing organization
such as an educational institution; (b) learners
receiving them, (c) a verifying organization, such as
another educational institution (Oliver, 2019) and (d)
a micro-credential platform to issue the ensuing
digital credentials. Many micro-credential platforms
have emerged over the past years (Dimitrijevic, et al.,
2016) and their numbers are growing still. Higher
education institutions are progressively adopting
micro-credentials and are establishing micro-
credentials initiatives for them (Resei, et al., 2019).
There are at least two large initiatives occurring in
Europe that involve digital credentials. The European
Digital Credentials for Learning (EDCL) programme
offers higher education institutions an infrastructure
(or components) that can be used to manage digital
credentials. These are digital statements issued by an
Kiiskilä, P., Hanafy, A. and Pirkkalainen, H.
Features of Micro-credential Platforms in Higher Education.
DOI: 10.5220/0011030600003182
In Proceedings of the 14th International Conference on Computer Supported Education (CSEDU 2022) - Volume 1, pages 81-91
ISBN: 978-989-758-562-3; ISSN: 2184-5026
Copyright
c
2022 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
81
organization to a learner, documenting their learning
(EDCL, 2021). This includes digital credentials for
individual learning offerings, such as degrees, and
diplomas awarded by educational institutions. The
second initiative is the European Blockchain Services
Infrastructure (EBSI) whose vision is “to leverage
blockchain to the creation of cross-border services for
public administrations and their ecosystems to verify
information and make services trustworthy” (EBSI,
2021). This initiative includes higher education
systems issuing digital credentials that are tamper-
proof and verifiable by other educational institutions.
The adoption of micro-credential platforms could
potentially support the unbundling of higher
education degree programs to address the four issues:
changing demographics, increasing the number of
opportunities for learners (Hope, 2018), countering
the decrease in popularity of academic degrees
(Ehlers, 2018) and providing learners with an
effective form of recognition for their skills and
competences (Hall-Ellis, 2016). Micro-credential
platforms play a pivotal role in facilitating the issuing,
managing, and storing of digital credentials and the
transfer of data between different stakeholders of the
ecosystem (Araújo, et al., 2017).
Although there are many micro-credential
platforms available, there is a lack of research about
how they operate and what they offer for higher
education institutions and their learners (Young, et
al., 2019). Accordingly, these institutions need a
comprehensive overview of these platforms to enable
informed decisions about which one to adopt. The
aim of this paper is to fill that research gap.
To address this issue, we asked the following
research questions: “What are the features of micro-
credential platforms and how are they helpful for
higher education institutions and learners?”
This
paper presents a qualitative study based on
conducting semi-structured interviews and group
discussions with micro-credential platform providers
and educational experts. The data were collected in
the context of European Consortium of Innovative
Universities (ECIU) project. The ECIU University is
an initiative to establish a challenge-based European
university where learners can earn micro-credentials
from successfully taking part in real-life challenges
and learning offerings. One of the main objectives of
the project is to adopt a suitable platform for
managing and issuing micro-credentials.
As a key contribution, we identify 38 micro-
credential platform features in 12 categories that can
help higher education institutions, learners and
providers understand the types of features that are
emphasized in micro-credential platforms and how
they can be helpful for different use purposes.
The remainder of the article is structured as
follows. Section 2 presents the theoretical
background related to micro-credentials and
platforms issuing them. Section 3 provides a
description of the research methodology and the
findings on the features of micro-credential platforms
are presented in section 4. Finally, section 5 presents
a discussion on how higher education institutions and
learners can benefit from micro-credential platforms,
followed by the contributions, limitations, and future
research topics.
2 MICRO-CREDENTIALS
2.1 Overview of Micro-credentials
Micro-credentials have been the subject of broad and
current interest in higher education over the course of
the last decade (Kilsby & Fountain, 2019). Moreover,
many higher education institutions around the world
are experimenting with micro-credentials and are
establishing micro-credentialing programs (Milligan
& Kennedy, 2017). One major issue that arises when
establishing these programs is the confusion and lack
of common understanding around the concept of
micro-credentials (Rossiter & Tynan, 2019).
As described by the European Commission
micro-credentials can be seen as a combination of the
following: (a) short learning experiences (i.e., micro
learning opportunities) and (b) digital credentials
issued for the short learning experiences that
highlight the skills and competences acquired. Based
on this perspective, digital credentials are considered
as the certified skills, competences and achievements
that prove that learners completed the necessary
activities and met the required. In this paper, we focus
on digital credentials as proof of learning,
competences, and achievements (Oliver 2019; Tracey
2014) and the corresponding micro-credential
platforms that are used to manage digital credentials
irrespective of whether they relate to learning
opportunities that are short (micro) or long (macro).
According to one study (Fong et.al., 2016), micro-
credentials initiatives have almost doubled between
2016 and 2017. Further, three in every four higher
education institutions regard micro-credentials as
strategically important for their future (Fong, et al.,
2016). Higher education institutions have realized
that employers need to know the specific skills and
competences that a potential employee possesses
(Hope, 2018). While traditional degrees, certificates,
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82
and transcripts fail to convey this information, micro-
credentials render this possible and manageable.
The diversity of learners’ demographical
composition and needs, in addition to the rise of non-
traditional learners makes it nearly impossible for
higher education institutions to adopt one model that
fits all learners (Soares, 2013). For example, some
learners prefer to take part in competence-based
courses where they acquire very specific skills that
are recognized, as opposed to traditional degrees.
Further, some learners might prefer to obtain a
traditional degree while others might prefer to attend
university part-time. This is why higher education
institutions need to have different offerings for
different learners (Beilby, 2018). Micro-credentials
increase the opportunities available for learners and
provide increased flexibility within education
(Bradley, et al., 2018; Hope, 2018). In particular, they
provide learners the flexibility to individualize their
experience and learn at their own pace (Crow, 2016).
Digital credentials facilitate the unbundling of
higher education by providing an efficient alternative
to traditional credentials (Ehlers, 2018). By awarding
learners with digital credentials that specifically
describe the skills, competences, and achievements
they acquired using relevant metadata, higher
education institutions can empower learners to
demonstrate their abilities effectively to potential
employers. (Hope, 2018).
Driven by digitalization and the need for faster
and more secure ways of sharing credentials, the
European Commission is co-creating infrastructures
that will allow institutions to issue digital, tamper-
proof credentials. These include diplomas, proofs
from both formal and non-formal education, and
certificates of participation. As mentioned
previously, the EDCL and EBSI represent some of the
latest examples of such new major initiatives to
enable large-scale adoption of digital credentials. As
the demand to issue digital credentials increases, it
will be imperative for higher education institutions to
take a much closer look at the available platforms and
their features to make informed decisions on their
adoption.
2.2 Features of Micro-credential
Platforms
Over the last few years, multiple micro-credential
platforms have surfaced. Further, their number and
the variety of features offered are constantly
increasing. However, the literature regarding the
platforms is limited and many of the insights related
to them only exist only in white papers, and blogs.
Table1 presents a compiled list of features from
the current literature. The list includes platforms that
can issue badges related to non-formal or
extracurricular learning as well as platforms that can
associate with formal learning, such as the European
Credit Transfer and Accumulation System (ECTS)
bearing courses from accredited study programs or
institutions. The platforms discussed in the literature
vary in both the number and depth of features.
Table 1: Features of micro-credential platforms in the
literature.
Features Author
Create templates for
credentials
(AK Rottmann, 2021)
Visual development of
badges
(Casilli, 2013)
Support standard frameworks (Rehak & Hickey, 2013)
Search and view existing
micro-credentials
(Devedzic & Jovanovic,
2015; Goligoski, 2012)
Register to available learning
offerings
(SCLDA, 2014)
Integrity verification (Grant, 2016)
Store and manage micro-
credentials
(Glover, 2013)
Importing micro-credentials
from other platforms
(Dimitrevic et.al, 2016)
Interactive visualization of
micro-credentials
(Charleer et.al, 2013)
Validating micro-credentials (Hickey & Otto, 2017)
Assessment (both automatic
and expert)
(Carey and Stefaniak, 2018;
Grant 2016))
Peer awarded credentials
(O’Connor, 2013)
Common features discussed in the literature
include creating, storing, and managing digital
credentials. Some platforms offer search functionality
in addition to the ability to view all the credentials
learners accrue (Devedzic & Jovanovic, 2015; Glover
and Latif, 2013). In addition, some platforms offer
extensions to these features, including the ability to
customize credentials, support standard frameworks
(Openbadges), and import credentials from other
platforms. In the future, they might expand to offer
recommendations of relevant study offerings and
courses to students (Dimitrevic et.al, 2016;
Rehak&Hickey, 2013; Rottmann, 2021)
Features of Micro-credential Platforms in Higher Education
83
Features for validating micro-credentials (by a
trusted source) and integrity verification are also
discussed in the literature. The concept of integrity
verification is to ensure that the content of credentials
is not tampered with in any way. The literature also
highlights types of features that are conceptually new
and have not yet been implemented and/or validated,
such as badges awarded by peers and built-in
assessment tools for the autonomous assessment of
competences (Carey & Stefaniak, 2018; Grant, 2016;
O’Connor, 2013).
Overall, the literature on digital credentials relies
heavily on insights from non-formal settings, such as
the use of badges to recognize extra curricula
activities. However, literature on the different forms
of digital credentialing for formal learning settings,
such as recognizing proofs systematically from
accredited study programs or institutions is largely
missing.
3 RESEARCH METHOD
We sought to understand the features of micro-
credential platforms by analyzing the platforms in
detail. This was accomplished using walkthroughs of
the solutions and by understanding their use through
interviews with platform providers and educational
experts. The data for this study were collected in the
context of ECIU university which is an EU-funded
project comprising of 12 European higher education
institutions. One of the main objectives of the ECIU
university initiative is to develop new ways of issuing
micro-credentials to learners partaking in learning
offerings from partner universities.
Literature and online searches were done to
identify relevant platforms to be included in the study.
Ten platforms were reviewed (eight based in Europe
and two in the United States), and representatives of
each company were interviewed either individually or
in groups. The 10 studied platforms were EDCL
(formerly Europass), Credentify, BadgeCollect,
Digitary, VerifiEd, DiploMe, Accredible, BC
Diploma, LinkedIn Learning and, Gataca.
Additionally, the researchers took part in the EBSI
early adopter program to examine its capabilities for
managing digital credentials for learning.
Data were collected using semi-structured
interviews and focus group discussions. Two key
stakeholder groups were addressed for the research:
(1) individuals with high expertise in micro-
credentials and (2) micro-credential platform
providers. The respondents were identified by using
the snowballing sampling technique where initial
respondents help to identify future study subjects
from their acquaintances or based on their personal
knowledge (Secor, 2010). Overall, 19 respondents
took part in a total of 13 interviews, and 3 focus group
discussions. Each of the three group discussions
involved platform providers (two from Europe and
one from the United Kingdom). One of the group
discussions had two platform representatives and the
other two group discussions had three representatives.
Of the interviews, eight interviews were with
platform providers and five were with digital
credential experts. One platform provider and one
expert were interviewed twice (and counted as
separate interviews) to clarify and deepen some of the
views regarding the features and the way they are
used. Three of the experts interviewed were
university lecturers from Europe and one was a
primary consultant on micro-credentials from an
education innovation consultancy firm in Australia.
Most of the platform provider interviews were with
the founders, account executives and chief operating
officers. The interviews were mainly conducted
online using Zoom and lasted between 41 and 122
minutes. The interviews and group discussions were
all recorded and transcribed.
The first step of the analysis was to pinpoint the
features of micro-credential platforms, followed by
identifying any conceptual similarities between the
features to categorize them. The next step was to
name these categories and compare them with the
literature. The findings of these three steps are
discussed in Chapter 4. The final step was to identify
how these features could be useful to both higher
education institutions and learners. Here, we
especially focused on the purposes for which the
micro-credentials platforms were used and collected
experts’ insights on the benefits of using them.
4 FINDINGS
Our investigation of features offered by micro-
credential platforms resulted in 12 categories and 38
features (Tables 2a and 2b). We acknowledge that all
the platforms are evolving, each supporting an
increasing number of features. This is why the aim of
our analysis was to present a comprehensive
overview of which features that are essential for
micro-credential platforms, instead of simply
indicating the features that are currently supported by
specific platforms. Intrinsically, the results pinpoint
the features that platforms offer for both the
institutions and learners.
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The micro-credential platforms and features
offered differ depending on the target audience. Three
main stakeholder groups were identified: issuing
organizations, learners who receive the credentials
and recognizers who verify the credentials (such as
employers or other institutions). The research
findings are divided into two sections. In the first
(Table 2a), basic features such as user interface, types
of digital credentials, and portfolio management are
presented. The following section (Table 2b) refers to
advanced features such as learning pathways,
verification, and the validation of digital credentials.
User interfaces are the first and foremost feature
offered to all users. Most platforms offer user
interfaces designed for issuers, although learners and
recognizers are allowed to view the digital
credentials. Very few platforms (e.g., VerifiEd) offer
user interfaces specifically for recognizers. While the
interfaces are simple for learners, they can become
complex for those platforms issuing digital
credentials for formal learning. This is because of the
proofs and assessments that are typically required to
recognize formal learning activities in higher
education.
The types of digital credentials issued depend on
their purpose. All the platform providers realize the
importance of digital credentials and how they add
value to traditional degrees and diplomas. Digital
credentials such as badges are used more for non-
formal learning, to indicate a task that has been
completed or an achievement. Within formal learning
settings, they can also be used to indicate finishing a
task or to identify a level that has been reached.
Importantly, issuing a badge when a particular level
is reached, or a skill is acquired would not require
major changes to formal learning processes. Instead,
it adds awareness and builds up work competences
needed for the 21
st
century. E-certificates can be
considered a simple change of medium (from paper
to digital) when recognizing the completion of a
course. It is also a common feature to allow issuers to
customize the digital credentials, both visually and in
terms of data included.
Viewing the digital credentials (including
associated metadata) remains a crucial basic feature
of any platform, especially for learners. Further,
searchability of the credentials becomes especially
critical as their number increases, such as when
learners collect them from the majority of their
studies.
All the platforms have more than one way of
issuing the digital credentials. Even though issuing a
credential to a single learner is possible as a manual
feature on the web interface, more common ways of
issuing seem to be semi-automatic, using tools such
as Microsoft Excel to gather lists of learners to be
issued the same credential. To issue credentials for
larger groups, such as an entire class (bulk), the most
common method is API integration into local systems
(such as student management systems). This also
includes automatic issuing at the end of learning
periods to all students, in addition to automatic
issuing when a request is received.
Portfolio management is a category that is still
evolving. Moreover, although all the platforms offer
a way of collecting digital credentials, only a few
provide a way of importing them from other sources.
Platforms are realizing that there is a greater need to
provide different paths for organizing credentials and
for visualizing the skills acquired while they were
being earned.
The ability to share digital credentials on social
media (especially on professional media such as
LinkedIn) is offered by most of the platforms.
Further, most platforms realize the value of being able
to share credentials on social media and other formats
(such as emails) for potential employers or
educational institutions as proof of learning.
Visualizing the pathways is currently associated
with bundled learning opportunities towards a larger
credential and visually shows how these learning
opportunities are connected. Bundled learning
opportunities can be a group of learning offerings
specific to a particular field or skill, and the pathway
will show the order to complete the offerings to obtain
larger credentials. These larger credentials might also
include the badges or certificates from individual
learning offerings within the bundle.
There are a wide range of proof types associated with
digital credential, from simply adding viewable and
searchable issuer-related data to adding formal
learning related data. Most digital credentials can
incorporate multiple types of proofs. Platforms that
offer formal learning credentials include proofs of
learning outcome related data, grading scheme data,
and data regarding any standard frameworks used.
Some platforms have started using competence
frameworks such as European Skills, Competences,
Qualifications and Occupations (ESCO) to support
the addition of skills and competences into the digital
credentials. Awards and achievements associated
with a learning offering are captured and included by
all the platforms. Moreover, allowing different types
of proofs of learning to be submitted increases the
credibility of the digital credentials, especially in
higher education.
Features of Micro-credential Platforms in Higher Education
85
Table 2a: Basic features of digital credential platforms.
Category
Feature
Description
Emphasis by Platforms
User Interface
User interface for issuer
Interface for administrators and
teachers
Supported by all the platforms
User interface for earners
Interface for earners such as
students in higher education
Supported by the majority of the
platforms
User interface for
recognizers
Interface for recognizers such as
institutions that verify credentials
Not supported by the majority of the
platforms
“The vision that we have for the future is that people can collect their certificates initially and then, we start to add in
the metadata, and link them back to the courses that they have done.“ - CEO
Types of
Digital
Credentials
Badges
Awarded for the completion of
task or learning offering
Emphasized for non-formal learning
E-certificates
Certificate of completion
including diplomas
Emphasized for formal and non-
formal learning
Proofs with browsable data
Digital credential is text based
and includes metadata
Only supported by a few platforms
Custom digital credentials
Customize the content and look
(AK Rottmann, 2021)
Supported by the majority of the
platforms
Peer awarded credentials
Awarded by Peers as part of the
learning (O’connor, 2013)
Not supported by the majority of the
platforms
View and
search
Search function for learners
Search based on issuers
(Devedzic & Jovanovic, 2015)
Supported by the majority of the
platforms
View metadata
View all the metadata associated
with a credential
Supported by all platforms
Custom display
Customizing how the digital
credentials are displayed
Only supported by a few platforms
“Our platform can be used in two ways, we have a public version and a white label version for several institutes where
we limit the search functionalities to the badges in their ecosystem” – Co-founder
Issuing Digital
credentials
Manually via web interfaces
Create and/or issue credentials
for a single learner
Semi-automatic issue
Use tools to create list of users to
issue digital credentials
Only supported by a few platforms
Bulk issuing
Automated awarding of
digital credentials
Award digital credentials
automatically when requested
Supported by the majority of the
platforms
Via API integrations Issue digital credentials in bulk Supported by all the platforms
Portfolio
management
Collecting digital credentials
Portfolio of all earned digital
credentials (Glover,2013)
Supported by the majority of the
platforms
Importing digital credentials
Importing from other sources
(Dimitrevic et.al, 2016)
Only supported by a few platforms
Organizing digital
credentials
Organize by specific category
(such as badges, diplomas)
Only supported by a few platforms
Stackability
Ability to display collection of
credentials for particular
skills/field
Platforms understand the importance
but don’t have any concrete
implementations yet.
“On the student’s profile, they should see their basic data wallet and achievements, but we are still trying to understand
what people should see and in what order and in what design” - COO
Share digital
credentials
Social media platforms
Share digital credentials on
various social media platforms
such as LinkedIn
Supported by the majority of the
platforms
With industry/institutions
Share digital credentials with
potential employers and others
Supported by the majority of the
platforms
“It is about being shared, secured and also as being rich in terms of data which enables cool things like job matching
algorithms, predicted analytics when it comes to admissions and more streamlined admission flows” - ESO
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Table 2b: Advanced features of digital credential platforms.
Category Feature Description
Emphasis by Platforms
Pathways of
Digital
Credentials
Visualizing and
documenting pathways
for digital credentials
Collection of learning offerings that
need to be completed to earn a
larger degree or skill.
Only supported by a few platforms
“This is something everyone has been discussing that some credentials should be stackable and maybe build up to some
sort of micro-degree depending on the objectives of the issuing institution”- COO
Types of proofs
attached with the
digital credential
Issuer-related data
Allowing users to browse proof
related to issuers
Supported by all platforms
Skill-related data
Use standard frameworks as
taxonomy for skills
Only supported by a few platforms
Educational standards and
frameworks
(e.g. EQF, NQF) (Rehak & Hickey,
2013)
Supported by the majority of the
platforms
Awards and achievements
Meta data specific to achievements
and awards
Supported by all the platforms
Learning outcome related
data
Commonly associated with formal
learning, includes skills learners
will acquire
All the platforms associated with
formal learning offer this feature.
Formal learning related
data
Commonly associated with formal
learning, includes data such as
ECTS and learning hours
All the platforms associated with
formal learning offer this feature
Grading scheme related
data
Commonly associated with formal
learning, includes data on scale
applied to grades
All the platforms associated with
formal learning offer this feature.
Supplementary evidence
of learning
Attaching appendices and
supplementary evidence to the
credential (Grant, 2014)
Supported by the majority of the
platforms
Support of learning
assessment
Different versions of digital
credentials for different levels of
mastery
Only supported by a few platforms
View metadata
View all the metadata associated
with a digital credential
Supported by all the platforms
Custom display
Customizing how the digital
credentials are displayed
Only supported by a few platforms
“Our platform is used by companies, consortiums and schools. So, we have a lot of different contexts and if we,
prescribed one template for skills within our system, then it doesn't work for everyone” – Co-founder
Link with
Learning
offerings
Registration for learning
offering
Search for learning offerings and
register (SCLDA, 2014)
Only supported by a few platforms
Verification of
authenticity
Blockchain
Use blockchain technology for
authenticity of data
Emphasized by EBSI
Electronic seal
An authenticator signature to
ensure data origin and integrity
Emphasized by EDCL
“The fake degrees market is increasing and we have more and more false information. We need to check the authenticity
of data and we need to find the best ways to share very valuable credentials, more easily” – Co-founder
Validation
features
Reviewing metadata
Review metadata digital credential
submitted by the learner
Supported by all platforms
Validating the digital
credential
Validate the evidence of achieving
the digital credential
Supported by majority of the
platforms
Another feature that is gathering momentum
(although still in its infancy) is a way of linking
learning offerings from the platform based on various
factors such as interests and learning offerings
learners have completed. LinkedIn Learning seems to
be offering something similar to this feature, although
it is definitely not a common feature for most
platforms.
Features of Micro-credential Platforms in Higher Education
87
One of the main features that every higher
education institution pays special attention in a
digital credentialing platform is verification method
used to
make the credentials tamper-proof when they are
about formal learning. Some platforms use
blockchain technology for security authentication
and data sharing. Although blockchain technology is
recognized as an effective tool, platforms
acknowledge a level of uncertainty due to its lack of
widespread adoption. However, all the stakeholders
admit there is a need for verification technology to
ensure secure data transfer at all levels. Currently
EDCL uses eSeal (electronic seal) as a security
measure to verify the authenticity. Further, EBSI is
working with different stakeholders (including
higher education institutions) to use blockchain
technology with standard data models such as EDCL
for different types of digital credentials. The EBSI
also enables verification of the digital credential and
all involved stakeholders (i.e., the issuing
organization and learner) seamlessly. Through
EBSI, learners can create a “verifiable presentation”
of any of the digital credentials to share. This
verifiable presentation contains required proofs that
can be signed with cryptographic keys to ensure the
authenticity.
While the verification of digital credentials
involves authenticating the credentials and the
issuing organization (for example), the contents of
the credentials should also be validated. This
includes validating the evidence of achieving the
digital credential. The EBSI model of viewer
presentation specifically addresses this issue with
standard data models and verification methods.
5 DISCUSSION AND
CONCLUSION
This research focused on the features of micro-
credential platforms that will benefit institutions as
well as learners. Some of these features are recognized
in the literature while others were drawn out from the
interviews and group discussions held as part of this
study. Based on the findings of this research, the aim
of the next section is to answer the second research
question pertaining to how the micro-credential
platforms are helpful for both institutions and learners.
5.1 The Benefits of Micro-credential
Platforms for Institutions and
Learners
5.1.1 Institutional View
Micro-credential platforms help institutions in two
key ways: (a) issuing digital credentials to learners
and (b) verifying digital credentials issued by others.
To issue digital credentials to learners, institutions
might use websites or applications provided by the
platform providers or they could integrate such
applications into their IT infrastructure directly. They
can issue the credentials for the following: (a) non-
formal learning offerings such as extra-curricular
activities (including hackathons), (b) formal learning
offerings from study programs, which can also be
credit bearing and count towards the formal degree
program, and (c) diplomas related to the degree
programs.
Different types of proofs can reside in different
learning management systems, which need to be
aggregated before attaching to the digital credential.
Levels of proof depend on whether the learning
offering is a non-formal or formal activity, such as
recognizing ECTS or learning activities. Similar to
the issuing of different types of credentials, platforms
offer different ways of verifying credentials.
However, this is not a common way of using digital
credential platforms. The verification of credentials
can be divided into two subtypes :(a) validating the
issued credentials and, (b) verifying credentials
issued by other institutions. Similar to the issuing of
credentials, institutions might use platform websites
or IT integration for verification and validation. The
validation of the digital credentials could also include
checking for proofs of learning and grading schemes.
Digital credentials can be applied to recognize
both micro and macro learning offerings. By issuing
digital credentials for all learning opportunities,
institutions can provide a comprehensive view of
skills and competences learnt for all students. When
a digital credential is awarded for a longer program
(such as a degree), it can contain a list of individual
learning offerings and all the learning outcomes,
skills, and competences associated with each of those
learning offerings.
Issuing digital credentials will also help higher
education institutions to unbundle and offer smaller
group of offerings for larger credentials with a
different focus such as field or skill specific.
Unbundling also makes it easier for institutions to
offer learning opportunities for “lifelong learners”.
These learners can be described as a learner who
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might have enrolled full-time in an educational
institution or are interested in upskilling or reskilling
for other reasons (such as career path, change of
career).
As more educational institutions start issuing
digital credentials, it will make validating them easier
and render the entire admission process more
streamlined.
5.1.2 Learner View
Learners can currently use the platforms to (a) view
and (b) share the digital credentials they received.
They can use either the platform websites or the
platforms’ mobile apps to view these credentials. The
learners view of credentials also includes information
on the issuing organization, awards, and
achievements from the learning offering. In the case
of formal learning, the view might also include
grading schemes, learning outcomes and assessment
criteria. With digital credentials, learners can
accumulate all the individual learning offerings and
show proof of what they have learnt.
Using the platforms in this manner help learners
in at least two key ways. First, by taking ownership
of educational credentials. The platforms enable them
to collect, store and choose the credentials to share.
This means that learners can share them on social
media and with others (such as potential employers
and other institutions). This essentially follows the
principles of self-sovereign identity (i.e., the main
objective of EBSI) and the national and European
agendas of digitalizing educational credentials.
Second, the platforms enable learners to prove the
skills and competences they possess. Such proofs are
becoming increasingly more important in job
searching and during upskilling and reskilling.
Additionally, this will enable educational
opportunities to be more open and portable from one
institution to another. Here, the types of credentials
and proofs are critical features for realizing this
function. On some platforms, learners can view their
progress towards a larger credential or bundled
learning opportunity. The visualization of
accumulated data (e.g., competences or learning
activity data from earned digital credentials) and
categorization become highly critical features.
The interoperability of the systems was raised as a
critical factor, as learners are unlikely to be tied to one
system only. The portability of digital credentials
(e.g., through common data models) is a critical
upcoming development for realizing the benefits,
especially for learners.
5.2 Contributions of the Study
The findings of this study can add significant value to
the literature in these early stages of studying digital
credentials. The relevant literature often discusses the
challenges and potential benefits of digital credential
implementation in higher education (Barnett, 2017;
Clayton, et al., 2014; Halavais, 2018). The research
around digital credentials remain scarce, especially
from the perspectives of platforms and features.
Through expert interviews, group discussions, and
interviews with platform providers, our study
identified categories and features that address these
gaps in the literature.
This study contributed to filling these research
gaps through two key theoretical contributions. First,
by categorizing the features of micro-credential
platforms and proceeding further into understanding
what platforms emphasize the features. Second, we
also identified the categories and features that are not
yet fully understood and developed.
The findings of this study can help higher
education institutions gain a broader understanding of
the digital credential platforms and the features
offered today. Based on experts’ views, the study also
provides a list of features that align with formal
learning offerings of higher education institutions.
Based on these findings, these institutions can make
informed decisions about which platforms to adopt,
depending on how they align with their vision,
operations, and stakeholders’ perspectives.
This study can also help digital credential
platforms to assess their own offerings and solutions
based on the needs of higher education institutions.
As elaborated in the institutional and learner views,
the required proofs are highly dependent on the
context of use (formal to non-formal) and use
purposes. For instance, a learner may require in-depth
proofs from specific modules or study programs to
showcase to a potential employer. This is why it is
critical to understand the expectations and upcoming
use purposes of micro-credential platforms which
might not be identifiable as initial requirements the
institutions might raise for such platforms.
5.3 Research Limitation and Future
Research
We acknowledge certain limitations to our study.
First, we acknowledge that platforms other than those
reviewed for the study might have emerged after the
data were collected. Such potential platforms should
be included in future research. Second, the features
identified in the study might already have changed as
Features of Micro-credential Platforms in Higher Education
89
the platforms are continuously evolving and the
study’s findings need to be revisited in further
research. Third, we used a relatively small sample
size due to a lack of experts in digital credentials.
Finding experts to participate in our study proved
difficult, as most of the people contacted only had
expertise in planning, designing, and managing study
programs instead of the digital proofs and digital
credential systems. With the major new initiatives
such as the EDCL and the EBSI, awareness of digital
credentials is likely to increase rapidly, and new
expertise will emerge in the field. Fourth, the
distribution of samples between providers and other
experts is not even. This limitation relates strongly to
the previous one and to the challenge of finding
relevant experts for the study. Fifth, we did not
account for the views of the end users, such as
learners, administrators, and teachers. We chose to
limit our sample to the providers and digital
credential experts to gain an initial understanding of
what these platforms have to offer. Further research
should soon evaluate these platforms with end users,
especially since major digital credential initiatives are
emerging nationally and internationally. Despite
these limitations, we consider this study to be relevant
and valuable to both the research community and
higher education institutions that are considering the
adoption and use of digital credentials.
Based on the findings of this study, we suggest
some areas that should be examined in the future. In
general, more research is needed on micro-credential
platforms from the higher education institution
perspective to examine factors that enable or inhibits
their adoption. Further research is also required to
study some of the less developed features such as
learning pathways, verification methods and how
higher education institutions can adopt them in the
future. In our study, experts also elaborated on
features that do not yet exist. One of these is
stackability of credentials and skills. The stackability
of skill-related data refers to how skills and
competences accrued in digital credentials over time
can be represented in a meaningful way to help
learner present a more complete picture of their skills
and knowledge. Our investigation shows a need for
further research on the ways of searching and
presenting the credential information especially when
the learners have multiple digital credentials with
similar skills and competences. Finally, the insights
from our findings show that the use of micro-
credential platforms requires consideration of the
technical, organizational, and even cultural aspects of
higher education. Therefore, we encourage
researchers to examine how institutions need to
change to facilitate the adoption of digital credentials,
such as invoking new administrative or technical
roles to manage the digital credentials related to
formal and non-formal learning opportunities.
ACKNOWLEDGEMENTS
This research was co-funded by ECIU University
project (612521-EPP-1-2019-1-NL-EPPKA2-
EURUNIV), European Universities funding and
MicroBlock-project (2020-FI-IA-0096), CEF-TC-
2020-1–Blockchain-funding.
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