Chapter 8: The Information Society PDF

Summary

This document delves into the concept of the information society, exploring its characteristics and various facets. It analyzes different perspectives on information, definitions, and impacts, along with associated topics like economic and technological developments.

Full Transcript

CHAPTER 8
THE INFORMATION SOCIETY

Contents:
A. What is Information?
B. The Characterization of an Information Society
C. Impacts of the Information Society
D. Rise of E-Waste: an Effect of The Information Society

A. WHAT IS INFORMATION?

A person with information holds power. That information will enable a person to be
aware and make most appropriate decision. Thus, the most valuable commodity in this
age is information.

Humans now utilize more information in daily living than before. The volume of
information available through different media like the radio, television, internet, books,
newspapers, and magazines has enlarged. Such happening has heightened the flow of
information between groups and individuals, especially with the advent of social media.

There is no single definition for information. Still, it can be understood based on
how different sources characterized information:

1. Information can be said as a representation of any entity.

2. A semantic definition of information highlights three aspects of information: (1)
information is meaningful data (about something or someone) that may result from
a systematic investigation; (2) communication and reception are integral parts of
information; and (3), information has effects.

3. As to technological definition, information is defined in terms of the probabilities of
occurrence of symbols and its quantity is measured in bits.

4. In the economic exposition of the information society, information is defined as the
data that have been organized and communicated.

5. The Merriam-Webster dictionary defines information as:
a. the communication or reception of knowledge or intelligence;
b. the knowledge obtained from investigation, study, or instruction;
c. the attribute inherent in and communicated by one of two or more
alternative sequences or arrangements of something (as nucleotides in
DNA or binary digits in a computer program) that produce specific effects;
d. a signal or character (as in a communication system or computer)
representing data;
 e. something (as a message, experimental data, or a picture) which justifies
change in a construct (as a plan or theory) that represents physical or
mental experience or another construct; or
f. a numerical quantity that measures the uncertainty in the outcome of an
experiment to be performed.

B. THE CHARACTERIZATIONS OF AN INFORMATION SOCIETY

Information Society is defined as a society based on information and knowledge.
It is an evolving concept and paves the way towards a much bigger scope – the Global
Information Society where information societies from various regions or groups become
interconnected on a worldwide scale. The information society is governed by
knowledge, competence, and only informed decisions and actions. It demands and
promotes clarity, precision, honesty, and openness.

There are six analytically separate definitional criteria or characterizations used by
authors on the information society.

Technological Economic Occupational Spatial Cultural Theory
Characterization Characterization Characterization Characterization Characterization Characterization

1. Technological. The most common definition is to highlight an increase in
information and communications technologies (ICTs) as signalling the
emergence of an information society. It is suggested, often implicitly, that ICTs
both define and create the information society.

2. Economic. This suggests that the information society is one in which the
contribution of information businesses and trades has expanded over time
to now outweigh manufacture and agriculture in terms of contribution to Gross
National Product. Generally such analysts adopt the term information economy to
describe a situation in which information industries command the major
proportion of GNP.

3. Occupational. This approach is most closely associated with Daniel Bell's theory
of post-industrialism. Bell's book The Coming of Post-Industrial Society delineates
an information society as one in which most jobs are informational. Thus
occupations such as researchers, lawyers, counsellors, and teachers are
 information intensive, involving information production, analysis, and
communication, and the outcome is a changed condition rather than an object,
compared to other occupations.

4. Spatial. Here the focus is on networks along which information flows.
Information networks have profound effects on the organization of time and space,
as well as on other relations, allowing real-time communication on a planetary
scale.

5. Cultural. This approach is one which stresses the growth of symbols and signs
over recent decades, an information society being one in which there is pervasive
television, advertising, a plethora of lifestyles, multiple ethnicities, many hybridized
musical expressions, the World Wide Web, and so on.

6. Theory. This suggests that an information society is one in which theoretical
information/knowledge takes precedence over the practical and is constitutive
of virtually everything that is done. This is contrasted with previous societies in
which practical exigencies, know-how, and custom predominated.

C. IMPACTS OF THE INFORMATION SOCIETY

With the premise that information provides power and the information society is
growing, it has its known impacts. Some of these include, but are not limited to:

Electronic Banking and Medical Informatics School Reform in the
Commerce Cyberspace Information Age

1. Electronic Commerce. There are implications of the internet for business practice
and strategy. To save time and resources, consumers opt to purchase goods or
order services online. For instance, we have Amazon, an American multinational
technology company which focuses on e-commerce, cloud computing, digital
streaming, and artificial intelligence. It is one of the Big Five companies in the U.S.
information technology industry, along with Google, Apple, Meta (Facebook), and
Microsoft. In the Philippines, a lot of Filipinos got used to ordering goods thru
Lazada and Shopee. There are also other service providers like Food Panda,
Grab, and Lalamove.

2. Banking and Cyberspace. Online banking, also known as internet banking, web
banking or home banking, is an electronic payment system that enables
 customers of a bank or other financial institution to conduct a range of financial
transactions through the financial institution's website. Banks have invested for
such modality to make their services accessible for consumers.

3. Medical Informatics. This is the field of science and engineering that aims at
developing methods and technologies for the acquisition, processing, and study of
patient data, which can come from different sources and modalities, such as
electronic health records, diagnostic test results, and medical scans. This will help
patients and specialists communicate with one another more efficiently, saving
time, resources and more lives.

4. School Reform in the Information Age and Universities in the Digital Age. Distance
learning, also called distance education, e-learning, and online learning, form
of education in which the main elements include physical separation of teachers
and students during instruction and the use of various technologies to facilitate
student-teacher and student-student communication. Such modality has enabled
education in the time of pandemic. It has also increased exchange of students at
an international level without the participants leaving their countries physically.

D. RISE OF E-WASTE: AN EFFECT OF THE INFORMATION SOCIETY

Rapid development and the coming about of the information society has enforced
the mass consumption and indispensability in the society of electrical and electronic
equipment or EEE. When EEE reach the end of their usefulness, they disposed of,
creating a waste stream of hazardous and valuable materials known as Waste Electrical
and Electronic Equipment (WEEE), electronic and electrical wastes, or more
commonly, e-waste.

As the most common way of disposing e-waste is recycling them and failure to do
so might pose danger to human lives and to the environment in general, there is reason
to shed light on the awareness, attitude and behavior of electronic product users,
especially students who have embraced the technological culture of the world.

EEE and E-Waste

There are six general categories of EEE products associated with their waste
management characteristics (Forti, Balde, Kuehr & Bel, 2020). There categories are
1. temperature exchange equipment like refrigerators and heat pumps;
2. screens and monitors like televisions, laptops and tablets;
3. lamps like fluorescent lamps and light-emitting diode;
4. large equipment like washing machine, large printing machines and photovoltaic
panels;
5. small equipment like electric kettle, calculators and video cameras; and
6. small IT and telecommunications equipment like mobile phones, printers and
routers.
 Since such EEE products make human lives and activities easier, the consuming
public is enticed to purchase such products and eventually upgrade what they already
have. Even if various EEE are useful, the e-waste which is generated from them comprise
the largest growing waste stream around the globe (Lundgren, 2012), and there are
serious issues associated with e-wastes. There is the generation of high volumes of e-
wastes pushed by rapid obsolescence of electronics brought by the increasing demand
in technology (Basel Action Network [BAN], 2011) which are also hazardous by nature
(Tsydenova & Bengtsson, 2011) due to their compositions.

Another is that the complexity of e-wastes challenges recycling efforts since e-
wastes contain different materials connected together (Smith, Sonnenfeld & Naguib
Pellow, 2006) and there is not enough value in most e-waste to cover the costs of
managing it in an environmentally-safe way. What is alarming too is that there is a lack
of strong policies to regulate e-wastes considering that in 2019, there are only 78 out
of 193 countries with national e-waste policy, legislation, or regulation (Forti, Balde, Kuehr
& Bel, 2020).

E-Waste in the Philippines

In the Philippines, consumption EEE products drastically increased over time, thus
generating more obsolete products, thereby e-waste. For instance, a pioneering study on
Philippine domestic e-waste generation (Peralta & Fontanos, 2006) revealed that in the
period of 1995 to 2005, an approximated 25 million units of five major electronic
products reached obsolescence. Said five major products include air conditioners,
radios, refrigerators, televisions and washing machines. Another was that from 1991 to
2007, mobile phone ownership surged from 34,000 units to 52 million units
(Carisma, 2009).

A more recent estimate by Galang and Ballesteros (2017) divulges that waste
mobile phones will reach 24.9 million in 2021, which is disturbing because even if
mobile phones are small in weight compared to other EEE products, they have higher
replacement rates driven by societal demands.

The final disposal of electronics in the in Philippines include reusing, recycling,
storing and landfilling. However, no data is available showing the amount of e-waste
stream to each type of disposal. Also, the Philippines has not yet legislated a policy
directly addressing e-wastes. Although the Environment Management Bureau of the
country’s Department of Environment and Natural Resources tells that e-waste
management falls under Republic Act 9003 or the Ecological Solid Waste Management
Act of 2000, and RA 6969 or the Toxic Substances and Hazardous and Nuclear Wastes
Control Act of 1990 (Environment Management Bureau [EMB], 2020).

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