Article of the Month - September 2020
|
Blended Learning in Support of Life-long
Learning for Surveyors
David Mitchell, Australia; Winnie Shiu, Hong
Kong Sar; Stig Enemark, Denmark; And James Kavanagh, United Kingdom
 |
 |
 |
 |
| David Mitchell |
Winnie Shiu |
Stig Enemark |
James Kavanagh |
This article in .pdf-format
(18 pages)
SUMMARY
“Blended” or “hybrid” learning is a significant trend in professional
surveying education. It involves a mix of face-to-face learning and
online learning. While blended learning is challenging to implement it
offers many benefits and, when carefully developed, provides a range of
learning options that suit many student learning styles and approaches.
A key characteristic is that digital learning or training materials can
be shared and easily adapted for use in many contexts. The benefits in
blended learning for life-long learning is enhanced if education
institutions, government, industry and professional institutions work
together to develop online learning opportunities. It all starts with
quality online learning materials that can be used in many ways by many
stakeholders to provide options for life-long learning pathways that are
then incorporated into traditional face-to-face approaches suited to the
context.
In this paper we discuss the development of blended learning in
academia, training institutions and professional institutions. The paper
draws on the experiences of the authors and existing literature to
review and discuss the trends in blended learning and consider how this
may be of benefits to learners in academic institutions, as well as for
training within the surveyor sector, and the benefits for professional
development programs. Finally, we consider ways that academic
institutions, training organisations, industry and professional bodies
can work together to derive efficiencies and combined benefits of
blended learning resources.
INTRODUCTION
Disruptive technologies like the Internet of Things (IoT), Big Data,
and Artificial Intelligence (AI), as part of what is being considered
the fourth industrial revolution, are having a major impact on how we
learn. This is particularly evident in the surveying profession with
rapid advancements also in sensors and point clouds, laser scanning, and
blockchain. The fourth industrial revolution will therefore affect the
jobs and roles that surveying students will face when they graduate and
influence the nature of their professional development and life-long
learning. Therefore, higher education institutions must prepare
graduates for working in this technologically transformed age, and
industry and professional associations must support graduates in
continually updating their professional skills (Markus 2006, Lam 2008,
Ssengendo 2012, Sutanto et al 2017).
Professional surveying education will need to allow students to fully
engage in these disruptive technologies, personalised data, and global
connectivity. Students now typically expect learning opportunities
anytime and anywhere including remote and self-paced options. It is
likely that higher education and professional development will head
towards offering learning specifically designed for individual learners.
It is also likely that some learners will be able to build their own
learning package by choosing their education tools – whether within
academic institutions or through continuing professional development.
One example of this is the ESRI academy, launched in 1997 and now
allowing learners to create their own learning plans to learn about a
focused ArcGIS topic at their own pace (Esri 2019). However, traditional
face-to-face instruction will remain a key element of this development
in education.
The concept of ”blended learning” was first introduced in corporate
training and involved combining online instructional technology with
actual job tasks for more harmonious learning and working (Driscoll
2002, Partridge et al 2011). The models developed in industry have
informed the adoption of blended learning in higher education (Partridge
et al, 2011). There is also a significant trend in surveying higher
education towards "blended" or "hybrid" learning that involves a mix of
face-to-face (F2F) learning and online learning.
In the context of this paper we consider blended learning to mean the
thoughtful integration of face-to-face and online learning experiences.
According to Garrison and Vaughan (2008), the basic principle is that
traditional face-to-face communication (lectures, tutorials, labs,
practical sessions) and online written communication are optimally
blended into a unique learning experience that meets the intended
educational purpose and the context (Garrison and Vaughan, 2008).
In practice, blended learning is costly, time-consuming and
professionally demanding to implement effectively. Both academic
institutions and professional industry bodies have found blending F2F
and online resources challenging.
However, student approaches to learning are changing with an
expectation of being able to access learning materials any time of the
day or night and from any location. Students are also increasingly
turning to technology to learn. These include online assistance, videos,
students' discussion forums, and web or mobile apps such as ANKIWeb. It
is the opinion of the authors that blended learning is the future of
both higher education and professional development, and indeed there has
already been a lot of development in this area. Blended learning offers
many benefits and, when carefully developed, provides a range of
learning options that suit a range of learning styles and approaches. A
key characteristic is that digital learning or training materials can be
shared and easily adapted for use in many contexts, and learners can
access the materials at the time and location that suits them. The f2f
element then draws on the online content to bring the learning.
There are many blended learning models and frameworks that can be
used to design and implement blended learning in higher education.
Driscoll (2002) summarised these as a combination of (i) different modes
of online technology, or (ii) various pedagogical approaches (ie not
related to technology), or (iii) any form of instructional technology
with face-to-face instructor-led training.
Each academic discipline has different learning objectives and so
there can be more than one correct approach (Partridge et al, 2011). A
key question then is what does blended learning mean for surveying
higher education? Experience of the authors suggests that while
surveying students
[1]
have diverse learning approaches and needs, they are typically
responsive to ”active” and ”problem-based” learning approaches.
Traditionally this has involved lectures supported by tutorials and
computer lab sessions and field practical projects to bring together the
theory and practice of surveying. While this traditional approach often
was effective, it involved developing lecture materials for each session
that were not shared, which took a lot of effort for each session.
Blended learning approaches allows us to re-use learning materials many
times in many ways and by many institutions.
Accordingly, our observation is that common blended learning models
being adopted are typically the first (completely online delivery), and
third (online and F2F delivery), of the approaches mentioned by Driscoll
above. We also anticipate that the blending of online and F2F delivery
will continue to develop and improve as the higher education sector
becomes better at ’blending’ these modes of delivery to achieve optimal
learning outcomes.
At the same time continuing professional development is improving
their ’blending’ of online and F2F offerings with an ever-increasing
number of online resources to complement the more traditional seminars
and conferences, supported by industry training. All this helps to
support the aims of life-long learning for students and graduates.
However, changes are affecting the operation of surveying practices,
their management and their professional structures under the challenges
of widening professional activities and a changing world (FIG Commission
1, 2019). The greatest challenge facing the global surveying profession
without any doubt is one of capacity, and analogous to this is a growing
issue of professional and technical competence within the current
professional surveying cohort. In the UK for example, the vast majority
of regulatory complaints against chartered surveyors (RICS) are focused
on competence, conduct and professional behaviour issues. There is an
evolving need for surveyors to be trained (or indeed retrained) in
’soft/life’ skills that enable them to work, communicate, interact and
provide a higher level of service to the general public and clients.
Therefore, a second question emerges - how can the blended learning
model support cooperation and synergies between surveying higher
education and industry CPD to support life-long learning?
The paper draws on the experiences of the authors and existing
literature to review and discuss the trends in blended learning and
consider how this may be of benefits to learners in academic
institutions, as well as for training within the surveyor sector, and
the benefits for professional development programs. Finally, we consider
ways that academic institutions, training organisations, industry and
professional bodies can work together to derive efficiencies and
combined benefits of blended learning resources.
WHY IS BLENDED LEARNING SUITED TO SURVEYING?
Modern learners are more likely to seek information online, and for
it to be available anytime and anywhere. Surveyors are no different.
While it is important to understand that any class or cohort of learners
contains people with very different approaches to learning, we can make
some broad generalisations about what makes surveying students different
from other professions and disciplines.
Surveyors tend to be very practical people, with a reputation for
being good at problem solving and project management and in the adoption
of technology. They are perhaps less likely to enjoy class discussions
than other disciplines. They are more likely to want to do things rather
than talk about them.
Students tend to respond very well to approaches such as
’problem-based ’ learning and ’active’ learning. Surveying students also
tend to respond well to examples and case studies from the real world
(ie industry). As a result, there is a long history of industry
professionals and practitioners being involved in teaching of surveying
students through providing guest lectures, supporting field practical
projects and providing advice on the use of new technology.
Teaching and training in surveying has traditionally been based on a
’blend’ of theory and practical tasks (lectures, training, tutorials,
computer lab sessions, field practical exercises, and computing
sessions) supported by practical experience in industry. What is now
often call ’Work Integrated Learning ’ (employment in surveying while
studying) has been common in professional surveying education.
So, while there are many different types of surveying learners,
blended learning, therefore offers a way of learning that suits many
surveying students. This is especially true where the blended learning
involves input from both academics and industry in the content and
learning materials. Blended learning can help meet the modern need to
provide online and f2f learning opportunities anywhere and anytime, as
well as providing many opportunities for problem-based or active
learning.
Problem-Based Learning
The only constant is change. In an educational context, this is the
main challenge. Therefore, the educational base must be flexible. The
graduates must possess skills to adapt to a rapidly changing labour
market, and they must possess skills to deal even with the unknown
problems of the future. The point is, that professional and technical
skills can be acquired and updated at a later stage in one’s career
while skills for theoretical problem-solving and skills for learning to
learn can only be achieved through the process of academic training at
the universities.
These challenges can be met by adding a potential component to the
concept of blended learning in terms of Problem Based Learning (PBL).
This will change the profile of university education from mainly
classroom teaching, over guided self-learning to include also the
dimension of “Learning to Learn” through project-organised assignments.
This conceptual approach could be termed “Hybrid Learning” by combining
the various kinds of learning modes into an integrative learning concept
that should fit very well to the interdisciplinary context of surveying
education.
An interdisciplinary approach to surveying education calls for the
need to address issues and problems in a real-world context. The
combination of different disciplines can be taught through a
“learning-by-doing approach”. Problem solving skills can be taught
through a project-organised approach to surveying education with a focus
on developing skills for “learning to learn”. At Aalborg University,
Denmark, such and project-organised and problem-based approach has been
applied since establishing the university in 1974 (Kjaersdam and
Enemark, 1994).
Project-organised means that traditional taught courses and labs is
replaced by project work assisted by lecture courses. The
project-organized concept moves the perspective from description and
analysing into synthesizing and assessment. This approach is based on a
dialectic interaction between the subjects taught in the lecture courses
and the problems dealt with in the project work. The project work is
carried out by groups of four to six students having a teacher appointed
as their supervisor.
Problem-based means that traditional textbook-knowledge is replaced
by the knowledge necessary to solve theoretical problems. The
problem-based concept moves the perspective from understanding of common
knowledge into ability to develop new knowledge. The aim of the project
work is "learning by doing" or "action learning". The project work may
be organized by using a "know-how" approach for training professional
functions (Bachelor level), or it may be organized by using a "know-why"
approach for training methodological skills of problem-analysis and
application (Master level).
Educational innovation can then be achieved by being aware of the
necessary dialectics between discipline and problem-based/project
organised education. The disciplines and their related theories are
necessary for the graduates´ fundamental academic and professional
basis. On the other hand, the problem-based project work is necessary in
order to understand the interdisciplinary character of the problems as
they appear in real life in industry/society.
A number of research studies have confirmed that students retain only
10 per cent of what they read and only 20 per cent of what they hear.
However, if a problem is simulated, then up to 90 per cent of the
lessons learned may be retained. This finding is behind the shift in the
pedagogical doctrine toward project-organised and problem-based
learning. It emphasizes learning instead of teaching. Learning is not
like pouring water into a glass. Learning is an active process of
investigation and creation based on the learners` interest, curiosity
and experience and should result in expanded insights, knowledge and
skills.
A consequence of this shift from teaching to learning is that the
task of the teacher is changed from the just transferring knowledge into
merely facilitating the learning process. Project work also fulfils an
important pedagogical objective. Student must be able to explain the
results of their studies and investigations to other students in the
group. This skill appears to be vital for professional and theoretical
cognition: Knowledge is only established for real when one is able to
explain this knowledge to others.
Professional learning communities
Another benefit of blended learning relates to establishing what could
be termed “Professional Learning Communities. This is about making the
on-line learning material developed for the teaching and learning
process at the universities freely available for the profession as a
basis for knowledge upgrading and CPD / life-long learning activities.
At the same time, experts from professional practice can contribute to
provide the university learning document / knowledge base. This kind of
interaction between education and professional practice aims at
professional innovation in the longer term (Enemark and Sorensen, 2002).
The on-line learning documents or knowledge bases need constant
updating to ensure that the newest knowledge at applied and made
available at all times. This is a challenging and time-consuming task
while highly relevant in relation to university training as well as CPD
activities. As a result, the graduates will have access to newest
professional knowledge throughout their professional life whether in the
public or the private sector.
Even if the on-line learning material /
knowledge bases are designed for the students´ learning process, it
should also provide a comprehensive source of knowledge to be used by
professionals. This calls for a process of quality control almost
comparable to the review process used for publishing scientific articles
in professional journals. The result will be the creation of a kind of
Professional Learning Communities. In a CPD and lifelong learning
perspective, this would be highly valuable and well in line with the FIG
policy statement on this issue (FIG, 1996).
DEVELOPMENTS IN BLENDED
LEARNING IN SURVEYING
Blended learning can help address issues with
education and professional development pathways, entry requirements,
career development, and may improve student enrolments. It is consistent
with the way that Generation X, Y and Z access information and network
and communicate.
Becoming a life-long learner requires continual
development of knowledge, skills and values. Employers consider
graduates with the soft skills such as critical thinking, creativity,
communication, teamwork, are more employable. Development of these
graduate attributes may be improved with more student-centered learning
strategies (Kelly, 2019).
Providing quality life-long learning
opportunities for surveyors is the responsibility of all stakeholders,
including academic institutions, industry, government, and professional
institutions. The need for this is acknowledged through requirements for
CPD related to membership of professional institutions. However, what
strengths do each of these stakeholders bring to these learning
opportunities?
Continuing Professional Development and Life Long
Learning
FIG Commission 1 seeks to build the capacity of professionals
to adapt to changing circumstances. Commission 1 has a long-established
interest in professional ethics, professional development and mutual
recognition. The mission of Commission 1 (Professional standards and
practice) includes to (i) create a community of practice to share
knowledge about professional standards and practice challenges and
responses by surveying professions, (ii) support professional surveyors
by providing tools and approaches to dealing with common practice
issues, and (iii) develop individuals as professional surveyors and
provide opportunities for them to continue to develop as part of the
surveying community (FIG Commission 1, 2019).
FIG sees the importance
of free movement of surveyors in a global marketplace. The mutual
recognition of professional qualifications provides a means whereby
profession qualifications held by individual surveyors can be recognised
by individual professional organisations as comparable to those acquired
by their own national surveyors - see also the FIG Policy Statement on
Mutual Recognition of Professional Qualifications (FIG, 2002). We shall
promote the principle of mutual recognition of professional
qualifications by:
- encouraging communication between
professional organisations to ensure a better understanding of how
surveyors acquire their professional qualifications in different
countries;
- developing with professional organisations where
difficulties are identified in achieving mutual recognition, and
encouraging debate at national government level in order to remove such
difficulties; and
- working with external organisations, such
as World Trade Organisation, in order to achieve mutual recognition in
both principle and practice of professional qualifications for surveyors
world-wide.
Mutual recognition between national and regional
professional surveying bodies tends to be unilateral by nature. The
experience of RICS has been generally confined to the anglophone
Commonwealth where a shared legal, language and professional
qualification system has enabled RICS to develop Direct Entry and
Memorandum of Understanding (MOU) with a wide range of national
surveying bodies. Of course, it is still necessary to map/crosscheck
professional competencies, qualification routes and academic standards
but the process is mutual. A listing of Direct Entry agreements can be
found at
https://www.rics.org/uk/surveying-profession/join-rics/chartered-member-mrics/
The most recent have been finalised in Australia (Australian Property
Institute API), Ghana (a renewal of the DE with GHIS) and Canada
(Canadian Land Surveyors/Hydrographers). Mutual recognition is a good
way of extending professional practice and learning from each other.
Industry and professional institutions also have a strong role to play
in life-long learning. Industry and government provide industry-relevant
perspectives and the current thinking about practice. Industry
practitioners can ensure the relevance of learning to meet the current
needs of employers. Engagement of industry in f2f aspects of blended
learning is appreciated by surveying students.
They also have
incredibly rich examples and knowledge that can feed into blended
learning resources through case studies and instructional advice to
learners. These ‘real world’ case studies help bring the theory to life
for the students.
The Hong Kong Institute of Surveyors (HKIS) requires
candidates being assessed for Professional Competence to produce a
synopsis of a minimum of 20 hours of Pre-qualification Structured
Learning throughout the 2 years training period. With six disciplines
of surveying including Building Surveying, General Practice Surveying,
Land Surveying, Planning and Development, Property and Facility
Management and Quantity Surveying, candidates may choose from a mix of
professional seminars organised by the HKIS, learning activities related
to their respective surveying industry provided by professional bodies,
higher education programmes and special or in-house staff training
courses, and private studies or web-based self-learning related to the
respective surveying disciplines. Owing to the nature of work of the
surveying profession, in which practical skills are required to
demonstrate the competency, only 5 out of 25 hours can be on web-based
learning.
The Hong Kong Special Administrative Government provide 2
years graduates training scheme for the selected surveying graduates
with hands on practical training. In the case for land surveying
graduates, they would firstly be provided an introductory training at
the survey training school, followed by posting to various offices for
the practical training. Each of them will at least be rotated to two
offices with different nature of work so as to expand their knowledge
during the training period. All members of HKIS also organised a large
number of CPD events for members as part of life-long learning. Will
this be expanded to cover web-based? That will require additional
funding resources as most professional institutes survive on members’
subscriptions for running the institute. However, with the availability
of advanced technology, this can certainly be looked into though the
initial set up cost could be high, but the recurrent should be less in
the long run. With the recent unexpected COVID-19 virus affecting most
countries, the use of online learning for delivering CPD events will
certainly help maintaining the life-long learning.
RICS have developed
a five-month ”APC Accelerated Learning Course for Project Management”
for RICS members, using blended learning principles. This course
involves six content modules with each covers a competency required by
the profession. The blended learning involves both online learning
content and interactive sessions aimed providing a thorough grounding of
the required technical knowledge of each competency. Each competency
also has a face-to-face consolidation session for students to
demonstrate knowledge and personal feedback from an assessor (RICS,
2019). The blended learning format above is in stark contrast with a lot
of other online training provided by RICS, although RICS is moving
towards using a ’blended’ learning concept for dispute resolution and
specialist expert schemes. Mediation, especially evaluative mediation is
a good example. This intensive 5-day course requires a professional
surveyor to be present in a classical classroom scenario and also use
video recording critiques, workshops, role playing and basic interviews
to complete.
RICS is also starting an expert boundary specialist
scheme in conjunction with lawyers and the judiciary. This will require
a member to be expert in surveying and land law, and be trained as a
mediator and expert witness. If anything, the hard technical skills of a
classically trained surveyor will take a backseat to a more rounded
training with interpersonal, conduct and behavioural skills to the fore.
Indeed, RICS professional standards and guidance is embedding these
issues within the context of more technical processes.
The UN-GGIM
Academic Network has also recognised the benefits of developing
e-learning materials and is planning to establish an Online Training
Platform (OTP) for Education, Training and Research. Through an OTP
operator supported by an advisory committee, the OTP will provide
resources for the UN-GGIM Academic Network academic members, academic
staff and students.
Higher education
FIG Commission 2 (Professional
Education) has a strong interest in advances in professional education
and Continuing Professional Development – see (FIG, 1996) . Commission 2
seeks to encourage improved surveying practice through the promotion of
continuing professional development (CPD) and the practical application
of research, help surveyors continuously to update their academic and
professional profiles. FIG also have a strong focus on e-learning as
presented in (FIG, 2010)
What higher education contributes to life-long learning is education
’values’ and ’approaches’ (pedagogy, assessment strategies, matching
students development level). As survey graduates, we all forget how much
we didn’t know when we were undergraduate students, and this is a
challenge for anyone designing learning materials. A key role of higher
education in blended learning, therefore, is to match the learning
materials to the stage and level of learning as illustrated in Figure 1.
Blooms Taxonomy provides guidance on this.
Figure 1 Revised Blooms Taxonomy for classifying
levels of thinking (Forehand, 2010).
The role of higher education in blended learning is to engage with
the digital tools constructively so that student learning is enhanced.
Higher education institutions also undertake research into the new
disruptive technologies or approaches mentioned earlier (IoT, Big Data,
AI, blockchain, etc) and offer learning about the future role of
surveyors as well as the current role of surveyors.
The development of some type of blended learning is common in
surveying courses, and the blending of online and f2f is becoming
increasingly more effective. In the surveying program at RMIT
University, all courses include online material on the learning
management system Canvas, and all lectures are video captured allowing
students to watch the video at a time of their choosing. In the
cadastral surveying classes for example, f2f class time includes
active-learning that can also use some form of online information or
tools.
A recent example of this is the GLTN project on building a structured
knowledge base in support of responsible land administration -
Responsible Land Administration Teaching Essentials (GLTN, 2019) – which
was launched in a paper published at the 2020 FIG Working Week. The
project included six modules addressing various aspects responsible land
administration and is now freely available in Beta version for any
organisation to adapt and include in their curriculum, or training or
CPD program. This adaptation may include, for example, the development
of local case studies to help illustrate the global principles outlined.
In another example, RMIT University is in the early stages of
discussion with industry partners to develop an online resource that
documents the fundamental approaches to undertaking rural cadastral
surveys. The proposal is to develop an online resource including videos,
photos, images and text, for a case study that takes students through
the thinking that experienced surveyors would use to search surveying
and title records for that site, look for ground marks, plan their
connection to the geodetic datum, and complete the title
reestablishment. This is a challenging task and requires professional
instructional design starting with the development of a “storyboard”
that plans the key learning objectives and describes the overall story
to be told. If carefully designed, some aspects of this resource could
be designed specifically for undergraduate learners, with more advanced
aspects of the resources useful for graduates who are attempting to
become licensed cadastral surveyors.
There are several papers in the 2020 Working Week proceedings
covering their experiences and challenges in adopted e-learning and
blended learning. For example, the Department of Urban and Regional
Planning and Geoinformation at the University of Twente reviewed their
experiences in e-learning. This review highlights the gradual and
consistent move towards e-learning and blended learning and the increase
in the use of video (Groenendijk et al, 2020). Valentin et al (2020)
also provide examples of incorporating MOOCs with f2f learning in the
fields of photogrammetry and mobile mapping.
Microcredentials
Microcredentials (or digital badges) allow learners to demonstrate
the skills, knowledge and competencies they have developed. This could
be through undertaking training, attending seminars with an assessment
component, adult and community learning, professional examinations,
apprenticeships, work-based learning, boot camps and completing Massive
Open Online Courses MOOCs, or other forms of online learning.
Microcredentials or alternative credentials can certify that a learner
has completed small units at an accredited higher education institution,
or outside activities that provide useful learning, or completion of an
assignment related to a seminar, for example (Mischewski, 2017).
They are an alternative to higher education qualifications and can be
used to make decisions about mutual recognition and recognition for
prior learning. In other words, they can be an important part of
providing a range of recognised pathways for life-long learning.
The concept of microcredentials is helped by a trend in using
competency-based learning models and can help to address potential
skills gaps in degree graduates. For example, see the paper by Roy
(2020) on the use of competency-based approach being used at the
University of Laval in Quebec. They also provide alternative pathways
for surveying professionals to upskill and upgrade their knowledge. They
are on the agenda of higher education and a study of higher education
institutions in the USA found that 94% of surveyed institutions offered
alternative credentials (Fong et al 2016).
Micro-credentials allow learners to organise their individual
learning into a larger qualification, including using RPL where
appropriate. They also can also be used to show evidence of the ’soft
skills’ that are valued by employers. Grading Soft Skills is an
EU funded multinational project to test approaches to develop and assess
‘soft’ skills (e.g. working with others, problem-solving, and
creativity) and enable the accumulation of relevant credentials over
time. Also, the Colorado State University has digital badges for skill
sets such as essential employment skills. However, it can be challenging
implementing Micro-credentials as they are complex and expensive
(Milligan 2017), and there can be concerns about their legitimacy,
credibility (Wilson 2016). Successful use of micro-credentials means
meeting the needs of employers and leaners and being able to provide
assurance the quality of learning, and be easy to use (Wilson 2016,
Mischewski, 2017).
DISCUSSION AND CONCLUSION
What Is Life-Long Learning Like for Surveyors in the Future?
Surveyors will have opportunities to gain recognition for their
skills, knowledge and competencies at all stages of their career, from
when they commence study or work, and throughout their career by
updating of their skills through professional development. Learners of
all types and abilities will find a life-long learning pathway that
suits their particular way of learning and will have a choice of blended
learning plans that allow them to access online learning materials
anytime and anywhere. They will also be provided with flexibility about
when they complete the face-to-face elements. Recognition for prior
learning (RPL) will be an integral part of this life-long-learning
pathway where micro credentials or digital badges are recognised where
relevant to the learning pathway.
These stages of a surveyor’s career can be grouped in four phases as
shown in Figure 2:
- Student Surveyor: Stimulating learner engagement, awareness, and
understanding of the opportunities presented by surveying...
- Graduate Surveyor: Providing specific skills and competencies
that support membership of professional institutions.
- Upskilling Surveyor: Accelerating learning of advanced concepts.
- Expert Surveyor: Ongoing professional development for surveyors
with an emphasis on developing soft skills in conjunction with
maintaining technical competence
Figure 2 Blended learning at different stages of
life-long learning
Blended learning should be designed for the level of development of
the learner at each stage of development throughout their surveying
career. Blended learning is challenging and costly to do well. To
achieve this vision for surveying learners, academic and training
instutions, professional bodies and government will need to work
together effectively to benefit their combined strengths.
Ways forward
Experience over the last few decades tells us that effective blended
learning requires long-term investment and careful design of the
learning outcomes. In practice it often starts with small investments in
online resources, that improve and develop over time.
Effective learning starts with understanding the strategies the
learner uses and drawing on Blooms Taxonomy to design learning materials
to match their learning needs. In response, FIG Commission 2 is
implementing a global questionnaire to assess the learning approaches
and strategies of Generation Y and Z students. This questionnaire aims
to increase our understanding of the varied ways that surveying students
learn and communicate (including their main motivations - providing
flexibility of time and place, efficiency of accessing information,
etc), and the degree they focus on life-long learning. This is about
their learning styles and strategies and includes formal learning
(within the University) and informal learning (outside of class time).
The global distribution of the questionnaire will allow comparative
analysis of gender differences, as well as regional differences.
The benefits in blended learning for life-long learning is enhanced
if education institutions, government, industry and professional
institutions work together to develop online learning opportunities. It
all starts with quality online learning materials that can be used in
many ways by many stakeholders to provide options for life-long learning
pathways, that are then incorporated into traditional f2f approaches
suited to the context
Flexibility of study pathways
What is possible is to head towards the personalisation of learning.
In other words, designing individual or personalised learning programs
that suit different types of learners. In theory, learners can access a
range of face-to-face ad online offerings that suit their particualr
learning style and count towards their degree, or training, or CPD
points.
Blended learning can also help the delivery of bridging programmes
(for example between secondary and higher education, or between diploma
and degree) focussing on a particular topic such as mathematics. High
quality foundation and bridging programmes help prepare students for
further study. Research suggests that students who complete these
programmes perform at least as well as other learners (Mischewski,
2017). Other learners require more targeted assistance and specially
designed support can provide effective preparation. In either case
blended learning resources can be developed and shared to suit a variety
of professional development needs.
Recognition for Prior Learning
This can be further facilitated by provide flexibility in the
Recognition for Prior Learning (RPL). For example, a student may come
into a higher education program with some microcredentials for some
online training they completed, and also for a relevant MOOC. They may
also have completed CPD programs that are relevant. The potential exists
for these to be recognised as RPL allowing the student to commence later
in the program. Or, a person attending a seminar on a relevant topic can
complete and assessment task and gain a microcredential for this that
can satisfy part of their CPD requirements.
Improved CPD and Life Long Learning
Improving the number and type of offerings for higher education, and
training and professional development can facilitate an overall increase
in the engagement of learners in education and professional development
and a higher completion rate of offerings. This leads to an overall
increase in the quantity and quality of life-long learning.
Conclusions
The paper draws on the authors experiences and literature to review
and discuss the trends in blended learning and consider how this may be
of benefits to learners in academic institutions, as well as for
training within the surveyor sector, and the benefits for professional
development programs. The educational base must be flexible to respond
to the changes happening and graduates must possess skills to adapt to a
rapidly changing labour market, and they must possess skills to deal
even with the unknown problems of the future. Professional and technical
skills as well as theoretical problem-solving and skills for learning to
learn can be met by blended learning using Problem Based Learning (PBL)
approaches. This will change the profile of university education from
mainly classroom teaching, over guided self-learning to include also the
dimension of “Learning to Learn” through project-organised assignments.
A benefit of blended learning relates to establishing what could be
termed “Professional Learning Communities. This is about making the
on-line learning material developed for the teaching and learning
process at the universities freely available for the profession as a
basis for knowledge upgrading and CPD / life-long learning activities.
At the same time, experts from professional practice can contribute to
provide the university learning document / knowledge base. This kind of
interaction between education and professional practice aims at
professional innovation in the longer term. The benefits in blended
learning for life-long learning is enhanced if education institutions,
government, industry and professional institutions work together to
develop online learning opportunities. It all starts with quality online
learning materials that can be used in many ways by many stakeholders to
provide options for life-long learning pathways, that are then
incorporated into traditional f2f approaches suited to the context.
Experience over the last few decades tells us that effective blended
learning requires long-term investment and careful design of the
learning outcomes. In practice it often starts with small investments in
online resources, that improve and develop over time.
REFERENCES:
- Driscoll, M. (2002). Blended learning: Let’s get beyond the
hype. Retrieved from
http://www-07.ibm.com/services/pdf/blended_learning.pdf
- Ellis, L. E., Nunn, S. G., and Avella, J. T., (2016) Digital
Badges and Micro-credentials: Historical Overview, Motivational
Aspects, Issues, and Challenges. Foundation of Digital Badges and
Micro-Credentials: Demonstrating and Recognizing Knowledge and
Competencies. In D. Ifenthaler, N. Bellin-Mularski and D.-K. Mah.
Cham, Springer International Publishing: 3-21.
- Enemark, S., and Sorensen, E., (2002) Learning Lab Geomatics -
Virtual academy: reengineering university concepts, FIG XXII
International Congress Washington, D.C. USA, April 19-26, 2002.
- ESRI (2019) ESRI Academy,
https://www.esri.com/training/learning-plans/, accessed
24/11/19.
- FIG (1996): Continuing Professional Development. A
FIG Policy Statement.
- FIG (2002) Mutual Recogniton of Professional Qualifications. A
FIG Policy Statement.
- FIG (2010) Enhancing Surveying Education through e-Learning. A
publication of FIG Commission 2 –
Professional Education.
- FIG Commission 1 (2019) FIG Commission 1 workplan 2019-2022,
- FIG Commission 2 (2019) FIG Commission 2 workplan 2019-2022,
- Fong, J, et al (2016) Demographic Shifts in Educational Demand
and the Rise of Alternative Credentials, Pearson, 2016, URL:
http://www.upcea.edu/Files/INSTR14097-16804_Alternative%20Credentialing%20Campaign%20-%20UPCEA%20PDF%20Report%20FINAL%20WEB.pdf
- Forehand, M., (2010) Blooms Taxonomy: Original and Revised, In
M. Orey (ed): Emerging perspectives on learning, teaching, and
technology, accessed 2/12/19,
https://www.d41.org/cms/lib/IL01904672/Centricity/Domain/422/BloomsTaxonomy.pdf
- GLTN (2019) Teaching Eassentials for Responsible Land
Administration. GLTN elearning platform.
https://elearning.gltn.net/
- Groenendijk et al, (2020) Scan of e-learning experiences in
Department of Urban and Regional Planning and Geo-information
Management (PGM) Faculty ITC Unviersity of Twente, FIG Working Week,
Amsterdam…..
- Kjaersdam, F., and Enemark, S., (1994) The Aalborg experiment
project innovation in university education, Aalborg
Universitetsforlag, 1994.
- Kelly, W., (2019) Innovative Pedagogy for Geospatial Lifelong
Learning, FIG Working Week 2019, Geospatial information for a
smarter life and environmental resilience, Hanoi, Vietnam, April
22–26, 2019.
- Lam, S., (2008) Blended e-Learning Model for Geomatics
Curriculum: Design, Implementation and Evaluation, Sharing Good
Practices: E-learning in Surveying, Geo-information Sciences and
Land Administration, FIG International Workshop 2008, Enschede, The
Netherlands, 11-13 June 2008.
- MARKUS, B., (2006) Experiences in and Around e-Learning, Shaping
the Change, XXIII FIG Congress, Munich, Germany, October 8-13, 2006.
- Milligan, S, (2017) To What Degree? Alternative
Micro-credentialing in a Digital Age, in James, R, et al, ed,
Visions for Australian Tertiary Education, University of Melbourne,
2017, URL:
http://melbourne-cshe.unimelb.edu.au/__data/assets/pdf_file/0006/2263137/MCSHE-Visions-for-Aust-Ter-Ed-web2.pdf
- Mischewski, B., (2017) Micro-credentials: A model for
engineering education? A Report for the Tertiary Education,
Wellington, New Zealand.
- RICS (2019) APC Acceleration Course for Project Management,
https://www.rics.org/globalassets/rics-website/media/training--events/training-courses/asia-pacific/hong-kong/apc-accelebration-course-for-project-management.pdf
- Roy, F., (2020) Competency-Based Approach To Land Surveyor
Education In Quebec: The Challenge Of Implementing A New Training
Vision Within An Existing Curriculum, FIG Working Week 2020,
Amsterdam….
- Ssengendo, R., (2012) Young Surveyor’s Vision for the Future of
the Surveying Profession, First FIG Young Surveyors Conference:
Knowing to create the Future, Rome, Italy, 4-5 May 2012.
- SUTANTO, A., FAHLEVI, I., and SAUGALA, S., (2017) Implementing a
Blended Training Couse on the Introduction of Geology for Spatial
Planning: Potentials and Lessons Learnt, FIG Working Week 2017,
Surveying the world of tomorrow - From digitalisation to augmented
reality, Helsinki, Finland, May 29–June 2, 2017.
- Wilson, B, et al, (2016) Adapting Digital Badges in Higher
Education: Scoping the Territory, Chapter in Ifenthaler, D, et al,
Foundations of digital badges and micro-credentials: Demonstrating
and recognizing knowledge and competencies, Springer, 2016, URL:
http://www.springer.com/book/978-3-319-15424-4
BIOGRAPHICAL NOTES
David Mitchell is an Associate Professor at RMIT. He
has a PhD in land administration. David is chair of FIG Commission 2
(Professional Education) for the term 2019 to 2022. At RMIT University
he teaches cadastral surveying and land development and undertakes
research focusing on the development of effective land policy and land
administration tools to support tenure security, improved access to land
and pro-poor rural development. He also has a strong research focus on
land tenure, climate change and natural disasters.
Winnie Shiu is the Head of the Spatial Data Office
in the Hong Kong Civil Service responsible for setting up the first
common spatial data infrastructure platform in Hong Kong. She obtained
a BSc(Hons) degree in Surveying and Mapping Sciences and MSc in Public
Administration and Development in the United Kingdom. On professional
qualifications, she is Fellow of the Hong Kong Institute of Surveyors
and Royal Institution of Chartered Surveyors, Authorized Land Surveyor,
Registered Professional Surveyor (Land Surveying), Construction Industry
Council Certified BIM Manager. She has been contributing her expertise
by taking up various roles in the professional institutes locally with
the Hong Kong Institute of Surveyors as President (2019-2020), in the
mainland with the Chinese Society for Geodesy, Photogrammetry and
Cartography as Executive Member and overseas with the International
Federation of Surveyors as Chair of Commission 1 on Professional
Standards and Practice (2019-2022).
Stig Enemark is Honorary President of the
International Federation of Surveyors, FIG (President 2007-2010). He is
Professor Emeritus of Land Management at Aalborg University, Denmark. He
is an international consultant in land administration and capacity
development. Web:
https://vbn.aau.dk/en/persons/100037/.
James Kavanagh MRICS C.Geog is a Chartered Surveyor
& Chartered Geographer. James studied at DIT Dublin, Ireland and
University of London. With over 25 years’ experience in the global land
and property sectors, James has worked on some of the largest
infrastructure projects in Europe before spending several years working
on mapping, surveying and formal/informal land rights issues for the
United Nations (UNRWA). James has broad experience of surveying in many
countries around the world. James is Director of Global Land & Resources
with The Royal Institution of Chartered Surveyors (RICS). He is also
engaged on geospatial technologies and their application within BIM and
the implementation of Smart City policies. James is chair of the
International Land Standard (ILMS) Coalition and is working on further
research and output on issues of valuation within informal settlements,
customary land issues and the process of land and property rights
formalisation.
CONTACTS
Assoc. Prof. David Mitchell
Geospatial Science
School of Science RMIT University
GPO Box 2476 Melbourne
Victoria 3001
Australia
Tel. +61 3 9925 1132 / Fax +61 3 9925 2454
Website:
www.rmit.edu.au/geospatial
