Battling Against COVID-19 Infodemic 
in Indonesia: A Sociocybernetics 
Perspective

Journal of Asian
Social Science Research

2021, Vol. 3, No. 2: 125-142
https://cassr.net/jassr/

© The Author(s) 2021

Article

Lovira L. Putri*1

University of British Columbia, Canada

Reno F. Rafly
Catalyst Global Consulting, Indonesia

Abstract
As Indonesians collectively fight against the COVID-19 pandemic, 
the nation is simultaneously combatting the rampant spread of 
misinformation related to COVID-19. This phenomenon is often referred 
to as an ‘infodemic,’ defined by the World Health Organization (WHO) 
as the mass spread of information, factual or nonfactual, during a disease 
outbreak. In this article, we employ the methods of sociocybernetics 
analysis to examine the COVID-19 infodemic in Indonesia. We divide 
this paper into two sections. In the first section, we lay out the current 
state of the problem in Indonesia -how misinformation has challenged 
the post-pandemic recovery and changed the dynamics of Indonesian 
society at all levels, ranging from individuals to the society as-a-whole.  
In the second section, we propose a model, based on the approach of 
sociocybernetics, by which we propose to assess this challenge not 
just as a single entity but as a continuous, looping process, from the 
conception to the impact it has caused at all levels (micro, meso, and 
macro) of society. Given the complexity of this issue, we propose to 
develop an awareness and the education of cybernetics or systems 
thinking across multiple sectors when dealing with the infodemic in 
Indonesia.

Key Words
Infodemic, social media, system thinking, critical thinking, cybernetics, 
sociocybernetics, Covid-19

* Corresponding author:
 Lovira R.Putri
 University of British Columbia, Canada
 Email: lovira@student.ubc.ca



126  Journal of Asian Social Science Research  
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Introduction
The COVID-19 pandemic has brought a significant change in society. 
A technology change is no exception since we live in an era where we 
are more connected than ever. In fact, according to the World Health 
Organization (WHO), this is the first pandemic in recorded history where 
information is being spread at this rate (World Health Organization 2020). 
With the increasing channel of information flow, the truth-value of the 
content of the information itself becomes questionable. It is easier for any 
kind of information, factual or not, to be spread around by individuals 
or groups of individuals. In times where global health is in crisis, non-
factual information regarding the pandemic might turn into a much 
bigger problem. WHO classified this phenomenon as infodemic, namely, 
“(having) too much information including false or misleading information 
in digital and physical environments during a disease outbreak” (World 
Health Organization 2020).

Indonesia is home to 171.2 million internet users, according to a 2019 
survey by the Indonesian Internet Service Providers Association (2019:3).  
It is not surprising that Indonesia is facing a major COVID-19 infodemic 
problem, on top of the pandemic itself. According to the Indonesian Ministry 
of Communication and Informatics, from January 2020 to September 2020 
alone, 1984 COVID-19 hoax posts were found on social media (2020: 2).

The existential threat posed by the pandemic, coupled with the 
abundance of information related to the virus, creates a perfect storm that 
hinders the effort to recover from the COVID-19 pandemic. As such, for 
Indonesia to gear up towards post-pandemic recovery, it is essential for us 
as a society to combat the spread of the COVID-19 infodemic, alongside 
the pandemic itself.  

COVID-19 Infodemic in Indonesia
The COVID-19 pandemic has brought significant changes to all aspects 
of society, including the relationship between society, technology, and 
information. One of the recommended measures enforced to reduce the 
spread of COVID-19 is to minimize physical contact with other people. To 
reduce physical contact between individuals, the Indonesian government 
issued Large Scale Social Restrictions (Pembatasan Sosial Berskala Besar) 
in some regions where there is an increase in the rate of COVID-19 cases. 
This restriction takes form in the closure of public spaces such as schools, 
offices, places of worship, and other places that facilitate public gatherings. 
This restriction induces changes in the way people interact with each other 
as these spaces typically facilitate such interactions and communications.



127Lovira L. Putri and Reno F. Rafly

It is no surprise that the abrupt change in life due to COVID-19 
restrictions has brought negative impacts to the mental health of the people. 
Sutarto et al (2020) conducted a study using the Depression, Anxiety and 
Stress Scale (DASS-21) and found that of 472 Indonesian workers, 81.6% 
experienced minimal to mild acute depression, 35.4% experienced and 
86.9% experienced stress. A nationwide study conducted by Andindyajati 
et al. (2020) found an increase in the anxiety level of Indonesians during 
the COVID-19 pandemic, which sits at 20%, compared to 9.8% in 2018. 
The majority of the respondents of the study were actively observing social 
restriction protocols. As such, it can be postulated that the social interaction 
restriction negatively impacted people’s wellbeing.

We are witnessing and experiencing a global health crisis where 
technology and digital media are interwoven into our lives as it has never 
been before. With the role it has in our society, it is no doubt that technology 
and digital media could be one of the key contributors to the process towards 
COVID-19 recovery.  The implementation of telemedicine, for example, 
eliminates the need for physical interaction when seeking medical care or 
consultation, which could reduce the spread of the virus (Bahl et al. 2020).  
Technology also has enabled researchers and scientists to share their latest 
COVID-19 research findings to the scientific and medical communities as 
well as the general public.

Social media is another example of technology that has been central 
during the COVID-19 pandemic. One way to define social media is 
“Internet-based channels that allow users to opportunistically interact and 
selectively self-present, either in real-time or asynchronously, with both 
broad and narrow audiences who derive value from user-generated content 
and the perception of interaction with others” (Carr and Hayes 2015: 50).  
Social media is no longer foreign for the majority of people in the world; 
one in three people in the world use social media (Ortiz-Ospina 2019). 
While there are numerous social media platforms available, Facebook, 
Instagram and WeChat are the three platforms with the greatest number of 
users (Ortiz-Ospina 2019).

In places where state-mandated lockdowns are enforced, social media 
provides an alternative means for people to connect and socialize with each 
other. Social media can also facilitate communication when the information 
evolves quickly (Gottlieb and Dyer 2020). On social media platforms, the 
exchange of information can go both ways by which a user can receive as 
well as give information that can be accessible to other individuals or a 
group of individuals. Once a post has been made by an individual, others 
may propagate it through actions such as sharing, liking, or commenting 



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on the post, which could exponentially increase the spread and reach of 
such information (Buchanan 2020).  The possibility to expose any kind of 
thoughts to a huge number of people, paired with limited regulation social 
media platforms currently have, creates a perfect vessel for information 
to rapidly spread across communities, regardless of whether or not such 
information is factual.

During the COVID-19 pandemic, there has been a reported trend in 
increasing screen-time in several countries around the world (Carroll et 
al. 2020; Hu et al. 2020; Ozturk and Yalçin 2020). Thus, we can expect 
that COVID-19 related content is being exchanged by people on social 
media. It is not a strange phenomenon. Even before the pandemic, people 
have been turning to social media for health-related information (Cuello-
Garcia et al. 2020). However, the credibility of some information found on 
social media is questionable. For example, more than a quarter of the most 
viewed COVID-19 related videos, which in total have 62 million views, 
contain non-factual information (Li et. al. 2020:).  

Angeline et al. (2020) analysed 534 Indonesian articles that were 
classified as misinformation by the Indonesian Ministry of Communication 
and Information. The findings show that the majority of misinformation 
is commonly found in a form of social media text (41%), followed by 
social media pictures (31%) and social media video (17%). The research 
also found that the most common content of misinformation in Indonesia 
is related to community spread, followed by public authority actions or 
policies.

The prevalence of misinformation during the COVID-19 pandemic 
in Indonesian society is a problem that affects every layer of society 
for information has the potential to snowball into bigger problems that 
go beyond the level of individuals. Next, we will review the potential 
challenges in three different levels of groups - micro, meso, and macro 
(Figure 1). 



129Lovira L. Putri and Reno F. Rafly

Figure 1. Three levels of groups - micro, meso, and macro
Micro
One of the direct impacts of infodemic is that constant exposure to 
COVID-19 news might be overwhelming to an individual, which can 
trigger stress, anxiety, or other mental health problems. There has been an 
extensive body of research that discovers the positive relationship between 
the information overload COVID-19 and stress and anxiety levels (Lee et 
al. 2020; Bendau et al. 2020; Mongkhon et al. 2021). The rise of stress 
and anxiety levels poses a risk to individuals as stress has been reported to 
weaken the immune system (Glasser and Kiecolt-Glaser 2005).

Misinformation might also lead one to follow medically inaccurate 
advice that has the potential to worsen the health of an individual. One of the 
types of misinformation found circulating is about medical advice related 
to COVID-19 (Angeline et al. 2020). Medical advice misinformation can 
range from less severe advice of gargling with warm salt water to a more 
severe and possibly life-threatening advice such as using the anti-malaria 
drug, hydroxychloroquine to cure COVID-19, which has been reported to 
cause serious heart rhythm problems and other safety issues (U.S. Food 
and Drug Administration 2020).

At the micro-level, misinformation can directly impact individuals, 
depending on the content of the information. Individuals who are exposed 
to the misinformation may then spread this news to their peers or family, 
regardless of whether such individuals believe in the information, furthering 
the harm to a broader level.



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Meso
At the meso level, the spread of misinformation creates a problem in 
communities or organizations within the Indonesian society that may 
slow down the process towards recovery.  To halt the spread of the virus, 
a community effort is needed to reach the common goal that is to end 
the spread and recover from the pandemic. Information on social media 
platforms can spread from individuals to individuals, or from individuals 
to a group of individuals. Organizations often rely on a platform that can 
facilitate group communications, one common example used in Indonesia 
is group chat features on platforms such as WhatsApp, which is commonly 
used with families, neighbourhood communities, work, or school groups. 
Group chats could increase the reach and the speed of the spread of 
information, including non-factual information. When misinformation has 
reached the meso level, misinformation spread becomes harder to contain. 
The spread of misinformation at a community level has led to some 
grassroots efforts by the public, creating a public community that aims to 
battle misinformation on the internet such as MAFINDO (Masyarakat Anti 
Fitnah Indonesia). 

Macro
As previously discussed, there is a positive correlation between the use of 
social media, which is rampant with misinformation, and the anxiety levels 
of individuals. If left untreated, the high level of anxiety that infodemic 
has caused may result in another public health crisis that the nation will 
have to face, during or post-pandemic. Some content of misinformation 
may contain health advice that could lead to hospitalization. As such, at a 
macro scale, infodemic could burden the already overwhelmed healthcare 
system.

Another effect of COVID-19 infodemic on the macro level is that 
it could trigger panic buying in a society. Some COVID-19 related 
misinformation contains the recommendation to use a certain product 
which was thought to reduce the spread of covid. Some of the items do 
help to reduce the spread of COVID-19 such as masks or other protective 
equipment. As the supply of these items is limited, panic buying could lead 
to the shortage of such equipment in society.

Recovery from COVID-19 requires all parts of society to work in 
tandem. To contain the virus, we also have to pay attention to the social 
and behavioural aspects that may influence the spread of the virus. In the 
previous section, we have described the COVID-19 infodemic in Indonesia 



131Lovira L. Putri and Reno F. Rafly

and how it influences Indonesian society at all scales. In the next section, 
we will introduce our proposed model to combat the infodemic problem in 
Indonesia, borrowing concepts from (socio)cybernetics. 

Cybernetics
The term Cybernetics originated from the Greek word kubernetes, meaning 
a steersman. Kubernetes was used by Plato to mean “the steering of people 
‘’, which later evolved into the modern-day “Governor”. Cybernetics as 
a field of inquiry was pioneered by the Mathematician Norbert Wiener 
(1948) who defined it as “The science of communications and automatic 
control systems in both machines and living things.” The act of governance 
requires some degree of control. Thus, cybernetics can also be understood 
as a principle of control that can be applied to any organized system 
(Herring and Kaplan 1998).

Components of a Cybernetic System
One important thing that lies at the heart of cybernetics is a cybernetics 
analysis concerns a system, of any scales, natural or artificial, where a system 
can be defined as “a whole consisting of interdependent components.” 
(Hornung 2005: 8). Parts of a system make up a whole, functional unit. 
Generally, a system consists of an input, a processing unit, an output, and 
the environment. The environment, in this case, is everything outside 
of the system. This structure can manifest differently depending on the 
application, but any system can be abstracted in this sense.

It is important to note that not all systems are cybernetic systems. 
Systems theory or science, although it may seem similar, is different 
from cybernetics. Both are analyses of systems. General Systems Theory 
typically makes inquiries about the common laws that exist within any 
kind of system (Bertalanffy 1968), where cybernetics emphasizes the goal-
orientedness and functional control of a system. Heylighen and Joslyn 
(2001:3) said: 

Perhaps the most fundamental contribution of cybernetics is its 
explanation of purposiveness, or goal-directed behavior, an essential 
characteristic of mind and life, in terms of control and information. 



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A goal, or a purpose, is an important concept in cybernetics. A goal 
can take on many forms depending on the system itself. As a goal-oriented 
system, a cybernetic system will direct itself to achieve its goal, and when 
the system deviates away from the goal, it corrects itself by minimizing the 
difference between the current state and the goal. This act of minimizing 
the difference between the goal and its current state can be thought of the 
steering, governance, or control that characterizes a cybernetic system.

To know the difference between a system’s current state and the goal, 
a cybernetic system utilizes what is known as a feedback loop. This is 
another defining feature of a cybernetic system, that it is a closed-loop 
system. The output of the system circulates back to the system itself. A 
feedback loop enables a system to regulate itself — to use the output as a 
guide to control the system to bring it closer to the desired state or the goal.

In other words, information about the output and the changes that 
the output and the environment brings to the state of the system travels 
back into the system itself. The information will then use the information it 
receives to govern the system to bring it closer to the goal.

First-Order vs Second-Order Cybernetics
In general, cybernetics as a field is distinguished into two kinds, the first is 
the initial formation of cybernetics and the second is the updated view as 
a result of the maturation of the field. At the beginning of its conception, 
the cybernetics approach studies a system from an outside perspective. It 
is the “study a system as if it were a passive, objectively given “thing”, 
that can be freely observed, manipulated, and taken apart” (Heylighen and 
Joslyn 2001:3). The observer of the system is, in this case, separate from 
the system itself.

Second-order cybernetics, while the essence of the inquiry remains 
the same, it distinguishes itself from its predecessor by adding the observer 
into the equation. Rather than looking at a system from an outsider’s point 
of view, the observation is made from within (Figure 2). Thus, the observer 
is also being observed - there is a self-referential aspect of this observation. 
Second-order cybernetic assesses a system as “an agent in its own right, 
interacting with another agent, the observer. As quantum mechanics has 
taught us, observer and observed cannot be separated, and the result of 
observations will depend on their interaction” (Heylighen and Joslyn 
2001:4). 

As Von Foerster, one of the pioneers of second-order cybernetics, 



133Lovira L. Putri and Reno F. Rafly

puts it, first-order cybernetics is the study of “observed systems’’ while 
second-order cybernetics is the study of “observing systems” (Hornung 
2005). Observers are not neutral but engaged with the system. The way the 
observers think about the way they think matters and will affect the system 
it observes.

Figure 2. First-order cybernetics (left) Second-order cybernetics (right)

Sociocybernetics
Modern social problems require solutions to deal with their growing 
complexity. Social problems live in a society, which can be thought of as a 
system of sub-systems that interrelate with one another.

Sociocybernetics can be defined as the application of systems science 
and first and second-order cybernetics to sociology and other social sciences 
(Hornung 2005). Sociocybernetics combines concepts from sociology as 
well as cybernetics, such as first/second-order observation distinction, 
systems approach, and feedback loops, applying it to social systems.

Sociocybernetics emphasizes the self-steering of social groups and 
not deterministic control of social groups (Almaguer-Kalixto and Giglietto 
2019). Self-steering takes place as a combination of both feedback and 
feedforward loop. Feedback, as described in the previous section, controls 
a system using the difference between the goal and the output. On the 
other hand, feedforward systems utilize forward-thinking, proactively 
anticipating errors that may disturb a system (Figure 3).



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Figure 3. Sociocybernetics System

Our Proposed Model: How Sociocybernetics Approach Can Help 
Reduce Infodemic
Using the concept of the sociocybernetics model, we propose to combat 
the infodemic by looking into how we can empower individuals or 
organizations to use a closed-loop system in information processing. There 
are two goals of using sociocybernetics as follows. 

To Reduce the Transmission of Misinformation
The use of critical thinking can lessen the transmission of misinformation. 
According to Paul and Elder (2006), there are two levels of thinking 
(Figure 4):  

a. First-order thinking, which is the kind of thinking that is unfiltered, 
impulsive, and spontaneous. This kind of thinking is quick, easy, 
and requires very little thinking skill. It is what most people do 
when they first receive any information. However, it is prone to 
bias and error and can increase the level of quick transmission. 

b. Second-order thinking, which adds a process into our thinking, 
checks in on our assumptions and analyses other information that 
might be pertinent before transmitting the information or making a 
decision. This is what we call critical thinking, where we become 
a critic of our thinking. 



135Lovira L. Putri and Reno F. Rafly

When an individual or organization is equipped with critical thinking, 
the amount of transmission of misinformation can be significantly reduced 
and prevent further misinformation that can be fatal. By thinking critically, 
it means we align ourselves to use the sociocybernetics approach.

Within the sociocybernetics model, if we can empower an individual, 
a group, or an organization with critical thinking, in the long run, they can 
gain the information, analyse it and make informed decisions on what to 
do and what to improve next time. The closed feedback loop system will 
create a self-governed organization where they can review themselves and 
gain the feedback to self-correct themselves. This system thinking will also 
increase the level of positive change management to empower themselves 
to make their improvements and to create better solutions next time. If 
done correctly, managing information using a sociocybernetics system can 
increase the ability of an organization to gain innovation. 

Figure 4. First Order and Second Order of thinking

To Reduce the Impact Caused by the Misinformation
Sociocybernetics can also help reduce the impact that is caused by 
misinformation. When an individual or an organization adds critical 
thinking when processing information, they will automatically pause and 
filter the information using several methods, for example, by adding to 



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view other perspectives or opposite viewpoints, checking whether the 
information is legit, and conducting further research.

An example of misinformation is the spread of “fake news” of 
vaccination. In January 2021, there was misinformation circulated across 
chat groups about vaccination containing religiously forbidden (haram) 
ingredients (Ningtyas 2021). Given Indonesians are predominantly 
Muslims, news like this will greatly impact the speed of people getting a 
much-needed vaccination to boost their immune system and to reduce the 
spread of Covid-19. 

Using a sociocybernetics approach, groups and organizations can 
inoculate themselves against this type of misinformation by conducting 
information processing, thinking and assessing, challenging assumptions, 
and using the right information to fight it back (Hornung 2005). This 
approach can empower groups to have the ability to think critically and 
make informed decisions either to respond or to stop further spread. Over 
time, using the same approach, they will be able to combat other future 
misinformation and become informed citizens. 

Another example of misinformation was captured by a survey 
conducted by the University of Indonesia that revealed 21% out of 772 
respondents in greater Jakarta believed that coronavirus is a conspiracy 
(The Jakarta Post 2020). This will impact vaccine hesitancy if not managed 
well and can further challenge the fight against Covid-19. 

The Indonesian government has conducted several programs and 
initiatives to combat hoaxes and the spread of misinformation. One of 
them is to establish a website page “Laporan Isu Hoaks” via their website 
kominfo.go.id. Another program is to establish a cybercrime division 
under Indonesia Police Force (POLRI) to combat fraud, cyber fraud, 
and cybercrime. These moves are notably going in the right direction. 
Furthermore, we propose using the sociocybernetics approach in proactively 
educating groups and citizens through multiple platforms to build a solid 
foundation in our citizens in combating misinformation, especially during 
the COVID-19 pandemic. 

Conclusion
This article has shown that battling against the COVID-19 infodemic 
in Indonesia needs multiple approaches. One of them is to build a solid 
foundation of a closed feedback loop system using a sociocybernetics 
approach so that individuals, groups, and organizations can use the 



137Lovira L. Putri and Reno F. Rafly

feedback to conduct a self-governance and self-correction in fighting 
against misinformation. By doing so, the ecosystem will be able to use the 
right approach according to their needs and contexts in building the right 
filter to assess, analyse, and make informed decisions. 

We recommend that organizations and government proactively design 
helpful methods in combating misinformation that need to be included in 
future programs and policies. At the micro (individual) level, we propose 
to equip individuals by introducing critical thinking concepts beginning 
in early education. Students as early as elementary school years can learn 
what to do when they receive new information, analyse the information, 
ask a trusted person about the information, and make an informed decision. 
Early exposure to massive information through social media has the 
negative potential to alter their thinking and decision-making process 
permanently. By providing this skillset early on, we can help strengthen 
their thought process, understand that “not all you see in social media are 
true”, and educate them to analyse the information before sharing. 

At the meso level, communities and organizations can build their 
feedback loop system through a channel where people can report and 
assess incoming information to check whether it is legit and coming 
from a reputable source. In addition, everyone should be trained not to 
automatically “forward” or “share” any incoming information to chat 
groups and social media before making sure the accuracy and validity of 
the information. Peer-checking information can also help when people in 
the group are encouraged to speak up and ask if there is any information, 
rumours, or news that may seem misleading or damaging to a certain 
extent. Regular awareness should be provided from time to time so that, 
over time, it becomes a habit and norm that is built permanently into the 
community and the organization. 

Lastly, at the macro level, in making public policy, the key is to 
proactively combat misinformation through ongoing public awareness via 
multiple platforms such as social media and chat groups as well as providing 
training through local communities and local PKK (Pemberdayaan & 
Kesejahteraan Keluarga) about the danger of misinformation and how to 
increase self and group awareness in combating against it. In addition, 
the government should partner with social media platforms to help flag 
ambiguous data or any potentially harmful information while reducing 
the virality of hoaxes. News media can also help by sharing accurate 
information and positioning themselves as one of the valid sources the 
public can rely on. By doing this, we can build reliable sources and reduce 
the power of unreliable sources going into the public system. 



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In conclusion, by building a solid capability in critical thinking and 
using effective feedback in sociocybernetics, we can have a better strategy 
in battling against the infodemic in Indonesia. While the above approaches 
may take some time to have a notable impact, however, in the long run, as 
a nation we will be better prepared in fighting against misinformation and 
will be better equipped with better tools. By empowering them through 
critical thinking skills and building the right capabilities to conduct the 
right feedback response and self-governance, over time our nation will be 
much stronger in battling against infodemic. 

Funding
The authors received no financial support for the research, authorship, and/
or publication of this article.

References 
Almaguer-Kalixto, Patricia Eugenia, and Fabio Giglietto. 2019. 

“Steering the World from Where We Are: An Introduction to the 
Sociocybernetics Perspective.” Current Sociology 67(4):479-494.

Angeline, Mia, Yuanita Safitri, and Amia Luthfia. 2020. “Can the Damage 
Be Undone? Analyzing Misinformation during COVID-19 
Outbreak in Indonesia.” The 2020 International Conference on 
Information Management and Technology (ICIMTech): 360-364.

Anindyajati, Gina et al. 2021. “Anxiety and Its Associated Factors during 
the Initial Phase of the COVID-19 Pandemic in Indonesia.” Front 
Psychiatry 12, Mar 10.

Asosiasi Penyelenggara Jasa Internet Indonesia. 2020. “Laporan Survei 
Internet APJII 2019-2020 (Q2)”. Retrieved June 28, 2021 (https://
www.apjii.or.id/content/read/39/521/Laporan-Survei-Internet-
APJII-2019-2020-Q2). 

Bahl, Shashi et al. 2020. “Telemedicine Technologies for Confronting 
COVID-19 Pandemic: A Review.” Journal of Industrial 
Integration and Management 05(04):547-561.

Bendau, Antonia et al. 2020. “Associations between COVID-19 Related 
Media Consumption and Symptoms of Anxiety, Depression and 
COVID-19 Related Fear in the General Population in Germany.” 
European Archives of Psychiatry and Clinical Neuroscience 
271(2):283-291.



139Lovira L. Putri and Reno F. Rafly

Buchanan, Tom. 2020. “Why Do People Spread False Information 
Online? The Effects of Message and Viewer Characteristics 
on Self-Reported Likelihood of Sharing Social Media 
Disinformation.” PLOS ONE 15(10).

Carr, Caleb T., and Rebecca A. Hayes. 2015. “Social Media: Defining, 
Developing, and Divining.” Atlantic Journal of Communication 
23(1):46-65.

Carroll, Nicholas et al. 2020. “The Impact of COVID-19 on Health 
Behavior, Stress, Financial and Food Security among Middle to 
High Income Canadian Families with Young Children.” Nutrients 
12(8):23-52.

Cuello-Garcia, Carlos, Giordano Pérez-Gaxiola, and Ludo van 
Amelsvoort. 2020. “Social Media Can Have an Impact on How 
We Manage and Investigate the COVID-19 Pandemic.” Journal 
of Clinical Epidemiology 127:198–201.

Glaser, Ronald and Janice Kiecolt-Glaser. 2005. “Stress Damages 
Immune System and Health.” Discovery Medicine 5(26).

Gottlieb, Michael and Sean Dyer. 2020. “Information and Disinformation: 
Social Media in the COVID‐19 Crisis.” Academic Emergency 
Medicine 27(7):640-641.

Herring, Charles and Simon Kaplan. 1998. “Cybernetic Components: A 
Theoretical Basis for Component Software Systems.” Component 
Oriented Software Engineering Workshop (COSE ‘98). 

Heylighen, Francis, and Cliff Joslyn. 2001. “Cybernetics and Second-
Order Cybernetics.” Encyclopedia of Physical Science and 
Technology 155–69.

Hornung, Bernd R. 2005. “Principles of Sociocybernetics.” European 
System Science Union (ESSU) 6th Congress, Symposium of 
Sociocybernetics.

Hu, Zhao, Xuhui Lin, Atipatsa Chiwanda Kaminga, and Huilan Xu. 2020. 
“Impact of the COVID-19 Epidemic on Lifestyle Behaviors and 
their Association with Subjective Well-Being among the General 
Population in Mainland China: Cross-Sectional Study.” Journal of 
Medical Internet Research 22(8): e21176.

Lee, Jung Jae et al. 2020. “Associations between COVID-19 Misinformation 
Exposure and Belief with COVID-19 Knowledge and Preventive 
Behaviors: Cross-Sectional Online Study.” Journal of Medical 
Internet Research 22(11): e22205.



140  Journal of Asian Social Science Research  
Vol. 3, No. 2, 2021

Mongkhon, Pajaree et al. 2021. “Exposure to COVID-19-Related 
Information and Its Association with Mental Health Problems in 
Thailand: Nationwide, Cross-Sectional Survey Study.” Journal of 
Medical Internet Research 23(2): e25363.

Ningtyas, Ika. 2021. “Indonesia Battles Spread of Vaccine 
Misinformation”. Anadolu Agency. Retrieved June 26, 2021 
(https://www.aa.com.tr/en/asia-pacific/indonesia-battles-spread-
of-vaccine-misinformation/2124319).

Ortiz-Ospina, Esteban. 2019. “The Rise of Social Media.” Our World in 
Data. Retrieved June 29, 2021 (https://ourworldindata.org/rise-of-
social-media).

Ozturk, Aslihan and Aylin Yalçin. 2021. “Relationship between Parenting 
Practices and Children’s Screen Time during the COVID-19 
Pandemic in Turkey.” Journal of Pediatric Nursing 56:24-29.

Paul, Richard W. and Linda Elder. 2002. Critical Thinking: Tools for 
Taking Charge of Your Professional and Personal Life. Upper 
Saddle River, NJ/USA: Financial Times Prentice Hall.

Sutarto, Auditya Purwandini, Shanti Wardaningsih, and Wika Harisa 
Putri. 2021. “Work from Home: Indonesian Employees’ Mental 
Well-Being and Productivity during the COVID-19 Pandemic.” 
International Journal of Workplace Health Management 14 (4): 
386-408. 

The Jakarta Post. 2020. “Some Indonesians Still Believe Covid-19 is a 
Conspiracy: A Survey.” Retrieved June 22, 2021 (https://www.
thejakartapost.com/news/2020/11/08/some-indonesians-still-
believe-covid-19-is-a-conspiracy-ui-survey.html).

U.S Food and Drug Administration. 2021. “FDA Cautions Use of 
Hydroxychloroquine/Chloroquine for COVID-19.” Retrieved 
June 25, 2021 (https://www.fda.gov/drugs/drug-safety-and-
availability/fda-cautions-against-use-hydroxychloroquine-or-
chloroquine-covid-19-outside-hospital-setting-or).

Von Bertalanffy, Ludwig.1968. General System Theory: Foundations, 
Development, Applications. New York, NY: George Braziller.

Wiener, Norbert. 1948. Cybernetics or Control and Communication in the 
Animal and the Machine. Cambridge, MA: MIT Press.

World Health Organization. 2021. “Infodemic.” Retrieved June 21, 2021 
(https://www.who.int/health-topics/infodemic#tab=tab_1).