Our students, perhaps even more than we (the lecturers)
know what it is to adopt a gaming attitude to institutions,
and perhaps even life itself, as eloquently phrased in a
quote from [McKenzie Wark (2007)]:
... ever get the feeling that life's a game with changing rules and no clear sides, one you are compelled to play, but cannot win. Welcome to gamespace.
Gamespace is where and how we live today.
Motivated by the potential interest of students, as well as
a growing recognition of the societal relevance of serious gaming,
as illustrated by a recent report of the dutch foundation STT
(Institute for the Future of Technology)
entitled SERIOUS GAMING (in dutch), and the activities of the applied research institute
which has as its mission: serious gaming for innovation and change,
we developed a new course, serious gaming, with
as its main theme: serious games in a social context.
With elementary game development technology,
the students will explore
the potential of serious games,
using casual game mechanics,
and what recently has been identified as the dynamics of gamification.
Games may in a general fashion be regarded as means to acquire
skills and develop attitudes.
The core mechanism of games consists of rules,
with which the player interacts by so-called game-mechanics,
actions that result in feedback on the player's performance.
In such a way the player may develop habits,
that lead to improved game playing over time.
As observed in [Juul (2010)], casual games,
which usually have a generally acceptable topic and
simple mechanics are for
the player in all of us,
and to quote [Flanagan (2009)]:
games that depict everyday activities such as communication, social negotiation, caring for elements or characters that are part of a game world, or stabilizing precarious situations have become extremely popular with female players.
A distinguishing feature of serious games is, simply,
that they are not meant for entertainment only,
but that somehow learning, or awareness, occurs,
in a particular domain,
as exemplified by the topics listed below:
Examples of serious games that may benefit individual
health and well-being, and help to obtain skills
as a remediattion for personal problems, include:
- awareness -- world problems / social dilemma(s)
- education -- language / mathematics / history
- health & well-being -- skill(s) & remediation
- experience(s) -- playful application(s)
skill(s) & remediations
Such games will be more and more important in a society
that becomes increasingly complex, stressfull and that
imposes high demands on the endurance and stability of individuals,
and may be regarded as a complement for serious games
that address issues of cooperation and civic order.
- team up -- www.girlsinc.org/gc/page.php?id=6.2
- dangerous situation(s) -- www.ditto.com.au
- communication method(s) -- www.webwisekids.org
- muscle rehabilitation -- on the move
- physical exercise(s) -- www.silverfit.nl
- fitness -- www.virtuagym.com
- overcome fear(s) -- www.vrphobia.com
The structure of this paper is as follows.
We will start by looking at some basic considerations
of serious games, and then discuss the theoretical background
of serious games in somewhat more depth.
After a more extensive description of the structure of the course,
including the assignments, we will briefly introduce our
project utopia, which asks the student for an explicit
reflection on the norms and values of our society, underlying
our behavior, followed by a brief characterization of a workshop
game design, with civic order as its theme,
based on a case study in the city of Amsterdam.
We conclude with a reflection on the value of serious games
in a social context, and more general remarks about the
content and scope of the course.
Our previous work on serious gaming includes
ICT, [Eliens & Chang (2007c)], a masterclass game development, [Eliens & Bhikharie (2006)], creating a
community of learners in SecondLife, [Eliens et al. (2007a)],
the development of a climate game, [Eliens et al. (2007b)],
learning chinese, [Eliens (2010)], how to present
mathematics using game technology, [Eliens & Ruttkay (2009)].
as well as a more theoretically oriented reflection
on using replay to allow for learning from the
actual game play by looking back, in a replay mode, at the
actual choices made, [Eliens & Ruttkay (2008)].
The difference between ordinary games and serious games
is, or should be, somewhat elusive,
that is in terms of fun and entertainment there should
not be (too) much difference, and as observed in [Koster (2006)],
fun in games often consists of exploring
the game space and slowly mastering the skills
needed to deal with the challenges presented.
When serious gaming is applied
for remedial purposes, in education or health care,
or for effecting a change of civic order, as for
example in controlling behavior in public spaces,
we may regard serious games as (another form of) social technology,
and ask the following questions:
serious games as social technology
If we look at a specific category of serious games,
as for example health games, we may observe
that not only the player might be willing to pay,
but also insurance companies or
even the employers of the players,
simply to assure better health at lower costs.
Actual health games that are familiar to the author(s), include:
- target(s) -- which (group of) people?
- sponsor(s) -- who initiates/pays?
- goal(s) -- what behavior(s)/pattern(s)?
- instrument(s) -- by what means/technology?
A common characteristic of many (health) games,
is that they not only provide facilities for
monitoring exercise and progress, but also
offer essential social network support,
to motivate the players/users to bring up
the discipline to do the actual exercises.
Being part of a community or social network
has shown to be an effective instrument to
encourage behavior, possibly in combination with
rewards inspired by gamification dynamic(s), as discussed below.
- fitness -- www.virtuagym.com
- elderly care -- www.silverfit.nl/en
- diabetes -- www.gripsugarkids.nl
From the perspective of trans-individual problens,
that is problems that concern our living space,
our social community, environmental issues,
and even world order, serious games that promote awareness
are most relevant, with possibly as a result
a more altruistic attitude towards sharing wealth,
resources, even if only in the form of
As wellknown awareness games, we may mention:
Apart from creating awareness by a more general audience,
we may even ask,
as pointed out in
[McGonigal (2007)], how we can benefit from the
cognitive effort(s), emotional energy and collective attention(s)
of players, and more in general how we can deploy serious gaming to
improve our world!
Awareness may well be a pre-condition for change.
However, we live in a complex world, and actual change
seems to require an adaptation of individual behavior,
which may not be without cost, unless it is looked at from a different
- world hunger -- www.food-force.com
- carabella goes to college -- www.privacyactivism.org
- real lives -- www.educationalsimulations.com/products.html
- refugee(s) -- escape from woomera
- eye witness -- www.mic.polyu.edu.hk/nanjing
- university politics -- www.virtual-u.org
- sudan -- www.darfurisdying.com
There is a wide range of theory and scientifically interesting
topics related to serious gaming, encompassing
(not exclusively) the following subjects:
explains human irrationality in decision making as
a result of using heuristic shortcuts, for example based
on strong representations in memory due to
priming and recency effects, and bias, which may result
from framing, that is the way a question or dilemma is posed.
The limits of (human)
rational decision making are also examined in
[Thaler and Sunstein (2008)], but from a more political perspective.
The authors introduce the notion of
liberal paternalism, and examine the ways that
decision making can be influenced by a proper
architecture of choice and, while retaining the freedom
of choice implied by their liberal orientation,
nudge(s), that is a push in the right direction,
which of course is (always) a matter of perspective!
From (complex) systems theory, [Axelrod & Cohen (1999)], we learn that there
are no easy solutions,
and in particular, it is nowadays generally acknowledged
that social networks and related mechanisms play an important,
if not essential role, in the adoption of ideas and behaviors, [Easley & Kleinberg (2010)].
Finally, from [Klein (2009)] we learn that,
even if we were able to think rationally about our
behavior and decisions, once we are under pressure
we might easily forgo our (good) intentions,
and rely on our (wrong) habits.
Whether rational or intuitive, the formation of the right
habits may be considered to be a long process of
building of expertise and experience, requiring
a suffcient amount of awareness and self-discipline, [McGonigal (2012)].
- psychology / behavioral economics
- complex adaptive (social) systems
- essential (economic) game theory
- gamification dynamics
essential (economic) game theory
More than we perhaps may think, (economic) game theory
may be used to analize our daily life, our domestic conflicts,
issues of global war and peace, and (for example) meeting with strangers, [Fisher (2008)].
A typical (symmetric) payoff matrix for a two-person non-zero sum
game, as used in game theory looks as follows:
where T = temptation, R = reward, P = punishment, S = sucker.
Symmetric in this context means that rewards and punishments are
equal for both players.
well-known example is, no doubt, the prisoner's dilemma,
for which ,
giving a so-called Nash equilibrium for
deflection, thus jeopardizing the mutual benefits
that may result from cooperation, which is technically known as
a Pareto equilibrium, [Barash (2003)].
It is interesting to note that there is a winning strategy for the prisoner's dilemma, that starts with a cooperative attitude,
but is easily provoked into deflection, once the opponent
appears to deflect. This strategy is aptly named tit-for-tat,
Another, less wellknown dilemma is called chicken:
The game has become (in)famous from the movie rebel without a cause, where
two drivers approach a ravine, only to be called chicken when
jumping first out of the car, and obtaining the girl otherwise.
chicken the order of values is:
It may be observed that chicken is often played
on the side-walks or in supermarkts, when meeting strangers,
who is the first to go
out of (y)our way? Chicken!
Tragically, cooperative behavior never seems to have a stable
equilibrium, thus the default action, that is the action
with the best payoff, always must be deflection.
The dilemma between deflection and cooperation can even
be more dramatically phrased as the choice of
taking the risk to be a sucker or the courage to be a saint,
That this dilemma holds can be seen in the comparative values
for the following games:
sucker(s) or saint(s)
The leader game is the familiar situation that you are both
waiting to enter a door. Who is the first to go?
If no one takes the initiative, there is a deadlock!
The freeloader game represents the behavior of a person
that profits from the efforts or resources of a
community, and is also known as the tragedy of the commons.
As an historical aside, both the prisoners dilemma
and chicken played a prominent role during the cold war,
and were actually developed (that is identified) by the RAND
cooperation and deployed in their (serious!) war games, [Levone et al. (1991)].
Not all hope is lost, though, when we consider the evolutionary need
for cooperation, that is, for our survival, [Barash (2003)].
As the tit-for-tat prize-winning example indicated,
playing games in succession is different from
single, one-session, games.
Moreover, as argued in [Fisher (2008)], apart from repetition,
kinship and proximity lead to conditions of trust under which
cooperation is likely to occur, although not necessarily!
In our current day society, we must however more strongly
impose cooperative behavior, by laws, by enforcing civic rules,
and, more in general, reinforcement(s), [Skinner (1971)],
that may well be understood as operant conditioning,
that is by using punishments and rewards, not necessarily with
as gentle an approach as nudges, [Thaler and Sunstein (2008)].
Serious games hold the promise of developing proper
attitudes and habits, so that exercises in adequate behavior
may be internalized by repetiton, and, with sufficient
self-discipline, lead to what is called
in martial art(s) and yoga, and why not travel,
allowing us to become,
indeed, better persons, [McGonigal (2012)].
Reward systems may be considered to be the essence of the new
trend of gamification, whether applied
to areas of
domestic or office quarrels,
exercise and running
or practicing for MBA admission exams.
An interesting example is the gamification of public space
using physical interaction, as explored by the fun theory.
As explained in [Zicherman & Cunningham (2011)], the primary goals of gamification
are to build engagement, loyalty and commitment,
using a proper system of rewards, such as:
status, badges, experience points, etcetera.
Tricks or mechanisms that may be used in gamification are, among others:
To be effective, however, such dynamics must be
accompanied by or instrumented using proper rules and game mechanics,
since (implicit) rules are usually a better way to modify
behavior than words or visual decorations,
or as observed in [Bogost (2007)], what we need, to bring
about behavioral change, is
procedural rethoric, that is
the art of persuasion through rule-based representations
and interaction, rather than the spoken word.
- appointment(s) -- in which you must succeed / in time
- influence & status -- achievement(s) / I want this!
- progression(s) -- towards completion(s) / monitor(s)
- communal discovery -- cooperation(s) / reward(s)
STRUCTURE OF THE COURSE
The course will take a multi-disciplinary approach, accommodating the variety in background and interests of the students, which may cover the range of game concept design, including social game dynamics, societal issues and game technology, including both programming, asset development and delivery and deployment issues.
The course will cover two months of intensive work, of which the first month will be devoted to learning elementary game development techniques, and the second month to develop the serious game application, including an assessment of the (potential) effectiveness of the approach.
Apart from theoretical lectures, there will be regular workshops and presentation sessions in which the students present their work and get feedback.
A provisional schedule of the course looks as follows:
structure of the course(s)
Students are required to work in teams of 2-4 people, with as a goal the actual development of a serious game, with social network support.
- introduction(s) -- the team & finding (y)our topic(s)
- theoretical background(s) -- narrative(s) & human(s)
- miscellaneous -- pitch / design(s) & gamification(s)
- game design workshop(s) -- express (y)our idea(s)
- student presentation(s) -- concept(s) & plan(s)
- reflection(s) -- ethical aspects of serious games
- final presentation(s) -- concept(s) & prototype(s)
The assignments consist of basic exercises and a final project.
As basic exercises we offer a theoretical task, to practice academic skills,
as well as a practical task, to gain familiarity with the technology:
Our choice for the unity3D
is motivated partly by our previous experiences
as well as the availability of a free (indie) version for students.
Since we expect a wide variety of backgrounds with students
following the course, we have formulated our final project assignments
accordingly. Students must make a choice out of one of the following options:
- project utopia -- brief description of ideal society and potential role of serious games
- moodspace -- exercise in visual rethorics, preferably in unity
Options (1) and (2) are the recommended ones, (3) is viable only
for business-oriented students and (4) is actually discouraged,
unless the student has a strong theoretical background and interest.
- prototype(s) -- with sufficient documentation
- concept design -- with elaboration of narrative(s) and visual design
- trailer -- promotion clip, with documentation and business plan
- reflection(s) on societal impact -- with sufficient motivation and depth
It is generally known that studens benefit from deadlines.
The course offers a great variety of subjects,
and timely delivery is essential in order to complete the course,
and profit from its contents.
course support -- student generated content
All the material for the course is accessible through a (generic)
wiki (using google sites)
to which all lecturers and a selected group of students have author
There is a course-specific wiki
as for the VU Umiversity 2012 Course, for which all students following that course
have (author) access. Students are expected to contribute
to the content, by listing references to their work,
as well as by providing additional material, general
resources, examples, etcetera.
For courses on such dynamic topics, our experience is that reliance
on SGC (student generated content) is not only worthwhile for the students
but (for the lecturers) essential to be up-to-date in a
field of knowledge such as serious gaming.
benefits & pitfalls of the course:
In summary, in the course as sketched above,
students are expected to gain awareness of game design,
become familiar with the practical use of game technology,
game concept development, and practice communication and project planning, as well as cooperation in a multi-disciplonary team,
and the delivery of oral and written reports.
A critical issue is the choice of suitable topics,
which is preferably done with an external partner.
A sufficient level of technical expertise is required, at least for a majority of students following the course.
The structure of supervision should be such that creativity is stimulated, in order to maintain a high level of motivation.
What is an ideal society? And what role(s) can serious games play in the transformation of our society, and help accomplish improvements in, for example, environmental issues, education, health and civic order? For both creative technology students and students multimedia & game development it is worthwhile to reflect on such issues in a purely intellectual fashion, a craft too easily forgotton in our academic institutions, and give a brief description of their own ideas, in their own words, of the elements constituting a (potentially) ideal society, that we name, for convenience as well as historical reasons, utopia:
The need for a reflection on the (moral) values
underlying our society,
became even more clear to me after a year traveling in China,
Clearly, as argumented in [Sandel (2012)], there is more
to moral(s) than economic value only!
- environment(s) -- facilitator(s), infrastructure ...
- system(s) -- organization(s), incentive(s) ...
- rule(s) -- code(s) of law, civic order ...
- (moral) value(s) -- utility, behavior(s), ethic(s) ...
workshop game design -- civic order(s)
Our workshop game design 2012 will have civic order as its main topic, and focus on means to establish citizen's participation in local neighborhood(s), with a case study of one of Amsterdam's city areas as a starting point.
The case study and assignment(s) will be presented by
a member of the Amsterdam city council.
Following the structure of a game design workshop, as
described in [Eliens (2010)], the assignments which must lead to
a group presentation in less than one hour and a half are:
game design: civic order(s)
The role of a superpower is here left somewhat ambiguous, since it may refer to
a superpower to be acquired by the player (that is the
target audience) or a superpower that is represented in the
game by (artificial) opponents, [Mark (2009)].
- (y)our player(s) ... ?
- what super power(s) ... ?
- invitation(s) -- message(s) !
- (mini) game -- mechanic(s) ?
- nudge(s) -- re-enforcement(s) ... !?
(mini) game mechanic(s)
As for the type of mini-game, in order to
allow everyone to play while avoiding any learning curve,
a selection can be made of
common (casual) game mechanics, [Juul (2010)].
seeking managing hitting
bouncing, tossing, rolling & stacking
chaining constructing socializing
When selecting (mini) game mechanics,
the designers must keep in mind
that, as indicated in [Zicherman & Cunningham (2011)], only a minority of
the players consists of killers or achievers,
and (in general) the vast majority participates for socializing.
However, this division may be different for our target group(s)!
LET'S BE SERIOUS!
In one of my first papers on this topic, [Eliens & Chang (2007c)], I observed that --
ICT is not a (simple) game.
When speaking about civic order(s), a similar phrase
might be either taken as an understatement or even as a warning,
given the need expressed all over the world to guide and control
(or nudge) the behavior of citizens, in urban areas as well
areas threatened by the effects of consumerism,
with as a dramatic example the rural areas of the country I recently visited,
China, where pollution due to production and consumption
is a number one threat.
I gained more insight in the China Dream workshop,
in which I participated
at the end of my stay in China,
of which was to reimagine prosperity and reshape consumerism in China ... (and) to catalyze a new aspirational lifestyle that is innately sustainable for the emergent middle class in China.
Our question, as addressed in this paper, is how can we deploy serious
games to counteract problems of personal health, order in public spaces,
and in general civic behavior that leads to a sustainable society.
More in particular, as described in [Eliens (2010)], themes for designing serious games, offered to the students, include:
Following [Bronowski (1956)], what morals can science teach us?
What is a community of learners, [Eliens et al. (2007a)],
if not one in which truth and freedom of thought are values
to be respected by everyone?
During my travels, and back at home,
I see people dump garbage on children's playgrounds,
factories polluting the environment, people
suffering from diseases due to contaminated food.
Can science help serious games to change human behavior?
We may end by asking:
why do people play games?
According to [Zicherman & Cunningham (2011)] thst may be for reasons
such as mastery (of a skill), to de-stress (from work life), simply for fun,
or to socialize, with socializers a clear majority!
And rephrasing the question from the perspective of game design,
how can we design (serious) games that appeal to the people
that play games and at the same time bring about changes
both in awareness and (individual) behavior?
- urban -- (un)safety in urban environment(s)
- climate -- climate change and energy consumption
- fitness-- (social network) support for sport and fitness
- media -- prevent(ion) of media and information overload
- scenario(s) -- emergency / rescue in public area(s)
- communication -- exchange(s) in private/public space(s)
In this paper we have reported on our efforts to set up a course
on serious gaming that covers the various theoretical
and practical areas related to serious games, including
behavioral economics, complexity science, gamification dynamics
and more general topics in (casual) game design.
As a distinguishing feature of serious games, we emphasize
the moral aspect and the intention to bring about
an enduring change of behavior, due to increased self-control,
guidance and support by social networks using an adequate
system of rewards and nudges, or encouragements, and, more
in general, an awareness of the issues involved on both a personal
and social level, creating the willingness to cooperate
without fear of being regarded as a sucker, and preferably without the
need or desire to be regarded as a saint.
Hopefully, our approach brings about some clarification
with respect to the potential of serious games, if not to the reader,
then at least to our students, which is, after all, our primary audience.
Thanks to my collegues from the University of Amsterdam,
Jacobijn Sandberg and Frank Nack, for their positive encouragements
- [Complexity] Axelrod R. & Cohen M.D. (1999),
- Harnessing Complexity: Organizational Implications of a Scientific Frontier,
- [Evolution] Barash D.P. (2003),
- The Survival Game: How Game Theory Explains the Biology of Cooperation and Competition,
Henry Holt books
- [Persuasive] Bogost I. (2007),
- Persuasive Games -- the expressive power of videogames,
- [Science] Bronowski J. (1956),
- Science and Human Values,
Julian Messner Inc.
- [Networks] Easley D. & Kleinberg (2010),
- Networks, Crowds and Markets -- Reasoning about a Highly Connected World ,
- [VULife] Eliens A. and S.V. Bhikharie (2006),
- Game @ VU -- developing a masterclass for high-school students using the Half-life 2 SDK,
Proc. GAME'ON-NA'2006, Monterey, USA
- [SecondLife] Eliens A. Feldberg F., Konijn E., Compter E. (2007a)
- VU @ Second Life -- creating a (virtual) community of learners,
Proc. EUROMEDIA 2007, Delft, Netherlands
- [Climate] Eliens A., van de Watering M., Huurdeman H.,
- Bhikharie S.V., Lemmers H., Vellinga P. (2007b), Clima Futura @ VU -- communicating (unconvenient) science,
Proc. GAME-ON 07, Bologna, Italy
- [ICT] Eliens A. & Chang T. (2007c),
- Let's be serious -- ICT is not a (simple) game,
Proc. FUBUTEC 07, Eurosis, Delft, April 2007
- [Replay] Eliens A. and Ruttkay Z. (2008),
- Record, Replay & Reflect -- a framework for understanding (serious) game play,
Proc. Euromedia 09, Brugge, Belgium
- [Math] Eliens A. and Ruttkay Z. (2009),
- Math game(s) -- an alternative (approach) to teaching math?,
Proc. GAME-ON 2009, Dusseldorf, Germany
- [Chinese] Eliens A. (2010),
- Elements of a chinese language game,
Proc. GAME-ON 2010, Shanghai, China
- [CTSG] Eliens A. (2010),
- creative technology -- the CTSG: game design in 7 steps,
Proc. GAME-ON 2010, Shanghai, China
- [Life] Fisher L. (2008),
- Rock, Paper, Scissors: Game Theory in Everyday Life,
- [Critical] Flanagan M. (2009),
- Critical Play -- Radical Game Design,
- [Casual] Juul J. (2010),
- A Casual Revolution -- reinventing video games and their players,
- [Thinking] Kahneman D. (2011),
- Thinking, Fast and Slow,
- [Decision] Klein G. (2009),
- Streetlights and Shadows: Searching for the Keys to Adaptive Decision Making,
- [Fun] Koster R. (2006),
- A Theory of Fun for Game Design,
- [Crisis] Levine R., Schelling T, Jones W. (1991),
- Crisis Games 27 Years Later: plus c'est dejavu,
- [Behavior] Mark D. (2009),
- Behavioral Mathematics for Game AI,
Charles River Media
- [Gamer] McKenzie Wark (2007),
- Gamer Theory,
Harvard University Press
- [Reality] McGonigal J. (2007),
- Reality Is Broken: Why Games Make Us Better and How They Can Change the World,
- [Will] McGonigal K. (2012),
- The Willpower Instinct : How Self-Control Works, Why It Matters, and What You Can Do To Get More of It,
- [Systems] Meadows D.H. (2008),
- Thinking in Systems: A Primer,
- [Social] Miller J.H. & Page S.E. (2007),
- Complex Adaptive Systems: An Introduction to Computational Models of Social Life,
Princeton University Press
- [Diversity] Page S.E. (2011),
- Diversity and Complexity,
Princeton University Press
- [Money] Sandel M.J. (2012),
- What Money Can't Buy: The Moral Limits of Markets,
D&M Publishers Inc.
- [Freedom] Skinner B.F. (1971),
- Beyond Freedom & Dignity ,
B.F. Skinner Foundation
- [Serious] Susi T., Johannesson M., Backlund P. (2007),
- Serious Games -- An Overview,
Technical Report HS- IKI -TR-07-001 School of Humanities and Informatics University of Skövde, Sweden
- [Nudge] Thaler R.H. & Sunstein C.R. (2008),
- Nudge: Improving Decisions About Health, Wealth, and Happiness,
- [Gamification] Zicherman G. & Cunningham C. (2011),
- Gamification by Design: Implementing Game Mechanics in Web and Mobile Apps,
O'Reilly Media Inc.
(PhD) is lecturer and coordinator of multimedia @ VU University Amsterdam,
and works at the University of Twente as professor creative technology / new media.
He has experience in
web-based interactive media, interactive video, game engines
and the application of such technologies in serious games.