Information Science: The Territory and Relations to Computing Disciplines Bing Wang StarNet, L.L.P, U.S.A E-mail:
[email protected]
〦⼫⥱ņKeywordsŇŘInformation Science; Library and Information Science; Computer Science; Information Systems; Information Technology; Disciplinary Relationship
μAbstractν The nature of information science (IS) as a discipline has been a matter of dispute almost since the day it was created. What is less controversial is the interdisciplinary nature of the IS field, which has close relationships with such fields as librarianship/library science, computing disciplines, communication, and cognitive science. Since 1990s, with the rapid development and widespread application of computing and information technologies, especially the Internet and WWW, the nature, territory and education of the IS field has been constantly changing, and is increasingly tied to Internet-based technologies and connected to knowledge management and data mining. The relationships between IS and computing disciplines are becoming more complicated than ever. In this paper the similarities and differences between IS, computer science, information systems, and information technology field are examined in terms of their definitions, major research topics, primary foci, practice areas for
4
Journal of Library and Information Science
professionals, and educations. The purpose of this paper is to provide some insights into the essence and roles of IS in contemporary academic community.
INTRODUCTION Though problems relating to information and information processing have existed for any society in any historical period, information science! (IS)! as a discipline is essentially a creation of the second half of the 20th century. In his sensational article “As We May Think”, Vannevar Bush imagined a machine called Memex, whose capabilities would make possible the association of ideas and duplication of mental processes artificially (Bush, 1945). Saracevic argued that the idea behind Memex is a prescient anticipation of IS and artificial intelligence (Saracevic, 1999). A thorough overview on Bush and his Memex by Houston & Harmon (2007) revealed that Bush’s voice has been widely heard and echoed in many fields including computer science. Microsoft computer scientist Jim Gray, a Turing Award winner, mentioned in his address a personal and world Memex as long-term goals for his database area and computer science in general (Gray, 2003). It is interesting to note
35ņ1ŇΚ4 – 22ΰApril, 2009α
that the IS and computer science to some extent share
Internet-based
the same knowledge root and idea source.
knowledge management and data mining. As a result
Since its birth, the nature, definition and knowledge domain of IS has been a matter of dispute. Researchers
technologies
and
connected
to
the boundary between IS and related fields, especially the computing disciplines, has further blurred.
like Kochen (1983) and Saracevic (1999) clearly felt
The relationships between IS and library science,
the pain of many and they argued that it is fruitless to
communication studies, and cognitive science have
engage in semantic disputes over the ‘proper’
been extensively reviewed by some authors (e.g.,
definition of information science. There have been
Ingwersen, 1992; Vakkari, 1994; Saracevic, 1994,
numerous valiant IS definers and new definitions
1999). However, the relations of IS to computing
continue to appear even though they are often fiercely
disciplines has not been well discussed and understood
criticized and even denied. This is evidenced in the
in IS community. Rather sparse researches on this
recent review on a wide variety of IS definitions and
aspect include Saracevic’s cursory comparison on IS
knowledge boundary by Zins, where he summarized:
and computer science (1999), Croft’s (2003) historical
Apparently, there is not a uniform conception of information science. The field seems to follow different approaches and traditions: for example, objective approaches versus cognitive approaches, and the library tradition versus the documentation tradition
depiction of the evolving relationship between information retrieval and computer science, Ellis et al. (1999)’s and Sawyer et al. (2007)’s comparisons on the information science and information systems. This article attempts to systematically discuss the
versus the computation tradition. The concept has
disciplinary
different meanings, which imply different knowledge
science and three major fields of the general
domains (Zins, 2007a, p. 335).
computing
relationships disciplines
between
(i.e.,
information
computer
science,
Part of the difficulties in defining IS and delineating
information systems, and information technology as a
its territory stems from the ambiguousness and
field of study). Information science’s relation to each
misleading
“information”.
of them is examined carefully in terms of their
Information is interpreted radically differently in
commonly accepted definitions, major research topics,
different fields and contexts. Its infamous versatility
primary foci, practice areas for professionals, and
and vastness make it nearly impossible to fully define
educations. The purpose is not to provide a new or
the various aspects of information science in a simple
“better” definition for IS. Instead this paper aims at
and succinct statement. On the other hand, it is less
providing helpful information for delineating the
controversial
an
knowledge territory of IS, and deepening the
interdisciplinary field that has close relations to such
understanding of the interdisciplinary nature of IS.
areas as librarianship/library science, computing
Understanding the complex relationships between IS
disciplines, communication, and cognitive science and
and computing disciplines is more important than
others. It is this interdisciplinary nature that adds to the
ever because computing and information technologies
increasing
and
are reshaping the academic foundation and domain of
potentially causes more difficulties in defining IS.
IS. The exploration in this article is no doubt an
Since 1990s, with the rapid development and
important step on the road to better understanding the
widespread application of information technologies,
essence and roles of IS in contemporary academic
especially the Internet, WWW and search engines, the
community.
nature
that
of
in
complexities
the
term
nature
of
IS
the
IS
is
landscape,
term information science is increasingly tied to the
ߧሬ㈀ણ⎞⫏⤻Ấણ 35ņ1Ň Ř4 – 22ņᖁʪ֓Ҝ౺߈ሶŇ 5
It is worth noting that computing disciplines include
of
information,
and
the
means
of
processing
software engineering and computer engineering as well,
information for optimum accessibility and usability. It
but these are not closely related to IS in the author’s
is concerned with that body of knowledge relating to
viewpoint:
primarily
the origination, collection, organization, storage,
concerned with the design and construction of
retrieval, interpretation, transmission, transformation,
computers and computer-based systems. Since it
and utilization of information. It has both a pure
primarily involves the study of hardware and related
science component, which inquires into the subject
low-level
the
without regard to its application, and an applied
interactions among them, the relationship between IS
science component, which develops services and
and computer engineering is arguably distant. Software
products.”(Borko, 1968, p. 3). As one of the most
engineering as a discipline primarily focuses on
frequently referred definitions, this definition receives
developing systematic models and reliable techniques
widespread assent and has had enormous impacts on
for producing high-quality software on time and within
the ensuing researches and experiments in IS field. As
budget. Although software engineering models and
Bates commented “[Borko’s] definition has been quite
methodologies are extensively used in information
stable and unvarying over at least the last 30 years”
storage and retrieval system construction and digital
(Bates, 1999, p. 1044), this influential IS definition
libraries developments, as two separate fields, IS and
could cover the major IS areas of research and
software engineering are not very closely related.
practices, given its broadness.
computer
software,
engineering
is
communications,
and
INFORMATION SCIENCE: DEFINITIONS and TERRITORIES Information is an ambiguous concept and there is no uniformly accepted definition. It can be viewed as a) a
Since 1990s, peoples’ interests in defining the IS to some extent seemed to have waned. In 2001 Hawkins drafted a “working definition” of IS to serve as the coverage statement for the Information Science Abstracts (ISA):
quality of message that a sender sends to one or more
Information science is an interdisciplinary field
receivers, b) any represented pattern, any type of
concerned with the theoretical and practical concepts,
pattern that influences the formation or transformation
as well as the technologies, laws, and industry dealing
of other patterns, c) a type of input to an organism or
with knowledge transfer and the sources, generation,
designed device, d) a property in physics or a measure
organization, representation, processing, distribution,
of physical organization, e) a form of control and
communication, and uses of information, as well as
feedback, f) the content of a cognitive state, g) records
communications among users and their behavior as
or documents, h) the change of some sort of
they seek to satisfy their information needs (Dawkins,
knowledge structure, or i) simply that which reduces
2001, p. 49).
uncertainty. Some of the above understandings are certainly familiar to IS community. It is this huge difference in interpreting ‘information’ that causes differing definitions for IS and differing perspectives on research problems and methods.
This definition is the most comprehensive one we have seen from the literatures. It absorbs and integrates many useful elements from previous definitions, such as the systems and processes, users and their needs. Compared
to
some
older
documentation-centric
About forty years ago, Borko defined the IS as “a
definitions, this one reflects the progress of IS to
discipline that investigates the properties and behavior
welcome and accommodate new Internet dominated
of information, the forces that govern the flow and use
technologies. It also reflects the increasing complexity
6
Journal of Library and Information Science
35ņ1ŇΚ4 – 22ΰApril, 2009α
of contemporary IS landscape, and the trend of focusing
on
the
interactions
between
people,
technology and information. In this article this definition forms the basis of understanding IS when comparing with computing disciplines. Another angle of understanding the nature of IS is to look at the major themes that IS has addressed over
7) Scientific communication (social system of science, communication in science and R&D) 8) OPACs
(design
9) Imported
ideas
identified five basic areas of concern for IS. In their
11) Citation theory
sub-disciplines or specialties of IS. Saracevic (1999) praised their achievement for providing a fairly accurate picture of problem areas in which information
cognitive
science,
13) Interaction studies 14) Internet searching 15) Multimedia IR
emphases and specialties within IS are not permanent
16) Multilanguage IR
areas that were emerged in 1990s should make into the
(e.g.
12) Communication theory
scientists work over past decades. Recognizing that and shift over time, Saracevic noted that some new
library
computer science, information theory) 10) Indexing theory
analysis, White and McCain (1998) identified 12
computerized
catalogs)
time. Both Belkin (1978) and Ingwerson (1992) outstanding quantitative study on IS author co-citations
of
17) Digital libraries
list of themes as well. The following is a consolidated
The first 12 items in above list come from White and
list of IS problem areas based on White and McCain
McCain and the last 5 from Saracevic. Obviously this
(1998) and Saracevic (1999):
is not an exhaustive list and there are some overlaps
1) Experimental retrieval (design and evaluation of document retrieval systems) 2) Citation
analysis
of
understand that in this list all three were listed in parallel. In addition, the relationship between citation
3) Practical retrieval (information retrieval in real
analysis and citation theory is not clear. They also identified the “communication theory” (#12) as a
world databases) 4) Bibliometrics (mathematically modeling certain regularities in textual or bibliographic statistical distributions)
specialty, can we just make it a part of the category “Imported ideas”? While one could raise many questions regarding the list, and it is possible to aggregate
5) General library system theory (library automation, operations
category bibliometrics (#4) contains citation analysis (#2) and citation theory (#11), but it is hard to
(interconnectedness
scientific and scholarly literature)
library
and issues as well. For instances, normally the bigger
research,
library
some
specialties
upward
into
larger
categories (e.g., combine all information retrieval
and
related specialties into one bigger name), there is no
information service policy, retrieval system
doubt that this list depicts the general problem areas
evaluation, and many other interconnected topics)
that IS has been addressing over the decades. Of
6) User theory (information needs and uses, question
formulation,
search
strategies,
information-seeking styles, relevance judgments, and the like)
course these problem areas remain in the IS research agenda in the new century. What are changing are the emphasis of research efforts and the shift of resources and interests among problem areas.
ߧሬ㈀ણ⎞⫏⤻Ấણ 35ņ1Ň Ř4 – 22ņᖁʪ֓Ҝ౺߈ሶŇ 7
Recently Dawkins et al. conducted a thorough
services;
customized
information
systems,
investigation on a new taxonomy for IS based on his
alerting, current awareness; document delivery
comprehensive IS definition (Dawkins et al., 2003).
systems and services; geographic information
Below is the excerpt of top level headings from his
systems.
taxonomy:
9) Subject-specific
1) Information science research: basic concepts, definitions,
theories,
methodologies,
and
applications; properties, needs, quality, and value of information; statistics, measurement; information retrieval research, including search process, searching techniques/models; user behavior,
uses
human-computer
of
information
interface;
systems;
communication;
operations research/mathematics; history of
natural
sources
sciences,
social
and
applications:
sciences
and
humanities. 10) Libraries
and
library
services:
library
descriptions and types, services, library automation, operations, strategic planning, library consortia and networks, digital and virtual libraries, hybrid libraries. 11) Government and legal information and issues: intellectual property protection; legislation,
information science, biographies. 2) Knowledge organization: thesauri, authority lists; cataloging and classification; abstracting, indexing, reviewing; standards and protocols. 3) Information profession: information professionals and their skills and competencies; organizations and society.
laws, and regulations; information policies and studies; systems and infrastructure. The comprehensiveness of this list is quite impressive. But that does not mean that it does not have any problems. One apparent issue is that the information technologies category attempts to cover too many topics that would legitimately appear in any
4) Society issues: information ethics, information
knowledge map of computing disciplines. Certainly
literacy, lifelong learning, and information society.
there are some common interests and overlapped topics
5) Information industry: information and knowledge management, markets and players, economics and pricing, marketing, and e-commerce.
secondary
publishing,
really capable of dealing with that many areas of information technologies, especially the software and hardware? It can be ascertained that the knowledge
6) Publishing and Distribution: print, e-journals, e-books,
between computing disciplines and IS. But, is the IS
scholarly
communication.
territory of IS is quickly enlarging and becoming more complicated due to the penetration and widespread use of computing and information technologies. As such,
7) Information technologies: Internet technologies
while some computer scientists and educators are
including WWW, search engine, intranets, Web
amazed to see the ambition of IS field, others go even
conferencing, software, hardware, multimedia,
further to claim that the IS is a newly found branch of
document management, AI, expert systems,
computer science.
intelligent agents, telecommunications, security, access control, authentication, and encryption and others.
8
INFORMATION SCIENCE vs. COMPUTER SCIENCE
8) Electronic information systems and services:
Both IS and computer science are essentially
information searching and retrieval systems and
creations of the second half of the 20th century. Like
Journal of Library and Information Science
35ņ1ŇΚ4 – 22ΰApril, 2009α
IS, computer science also takes as its long-term goals
their implementation and application in computer
the personal and world Memex envisioned by Bush.
systems (Computer Science.
In its development process, especially in 1970s, there
org/wiki/Computer_science).
was
considerable
controversy
about
whether
http://en.wikipedia.
Ɣ The discipline of computing is the systematic
computer science is a legitimate academic discipline.
study of algorithmic processes that describe and
Proponents assert that it is a legitimate discipline with
transform information: their theory, analysis,
its own identity, while critics dismiss it as a
design,
vocational specialty for technicians, a research
efficiency,
application.
platform for mathematicians, or a pseudo-discipline
The
implementation, fundamental
and
question
underlying all of computing is, “What can be
for computer programmers (ACM et al., 2005).
(efficiently) automated?” (Denning et al., 1989,
During the same period IS experienced a similar
p. 3).
ordeal with many people inside and outside this field denying its status of a true science. Webber
Purely viewed from the definitions, we can see the
documented in length the controversy over the status
differences immediately. Both fields are interested in
and identity of IS as a field (Webber, 2003). The
information phenomena but this similarity is nominal
debate continues today. On the contrary, by the 1990s,
and superficial. Computer science is concerned with
computer science had developed a considerable body
the
of research, knowledge, and innovation that spanned
transforming
the range from theory to practice; as a result the
understood by computer scientist is more about the
debate about its status waned and died eventually.
signal, symbol and message in Shannon’s sense. To IS,
Peter Denning, the past president of ACM, claimed
information is more about something (e.g. recorded
that “computer science meets every criterion for
knowledge) that involves human being. “Information
being a science” (Denning, 2005, p. 27).
as
In previous section we reviewed the conceptual definitions and knowledge territories of IS. Although debates exist, many tend to agree that IS field is primarily concerned with the collection, classification, manipulation, storage, retrieval and dissemination of information. There exist lots of computer science definitions in literatures as well. Below are some representative definitions:
algorithmic
methods
information.
process”,
“information
for
representing
The
as
information
knowledge”,
and as
and
“information as thing” are typical examples of how information is perceived in IS field (Buckland, 1991). It seems that computer scientists have little interests in defining or clarifying the information concept.
The
algorithm concept is quite well understood by computer scientists since Alan Turing and Alonzo Church, while the information concept is still lacking a complete understanding. Indeed this reflects the tradition of computer science since its birth: it
Ɣ Computer science is the study of computers and
predominantly focuses on the theoretical basis of
what they can do – the inherent powers and
computing
limitations of abstract computers, the design and
development of efficient data structures and algorithms.
characteristics
the
IS, on the other hand, has been largely interested in the
innumerable applications of computers to solving
human side of information, including the creation,
problems (Diaz-Herrera, 2005).
storage, retrieval, dissemination and use of information.
of
real
computers,
and
Ɣ Compute science is the study of the theoretical foundations of information and computation and
and
the
algorithms,
especially
the
The difference in primary concerns between these two is apparent.
ߧሬ㈀ણ⎞⫏⤻Ấણ 35ņ1Ň Ř4 – 22ņᖁʪ֓Ҝ౺߈ሶŇ 9
Table 1! Comparison on activities of IS professional and computer professional Ɣ Ɣ Ɣ Ɣ Ɣ Ɣ Ɣ Ɣ Ɣ
Activities of IS Professional Activities of Computer Professional Ɣ Designing and implementing software, including Preparing data and information for use by others. challenging programming jobs. Analyzing data and information on behalf of others. Ɣ Devising new ways to use computers, e.g., the Searching data and information on behalf of others. progress of such areas as networking, database, and Performing other operational information functions, human-computer interface enabled the development e.g., storing, ordering, etc. of the WWW. They also use computers to help Managing information operations, programs, services decipher human being’s DNA, or create more or databases. intelligent robots. Conducting system analysis. Ɣ Developing effective ways to solve computing Designing information systems. problems, for example, developing best possible ways Performing research and development related to to store information in databases, send data over information. networks, and display complex images. Educating and training information workers. Source:
Source: Adapted from Griffiths (2000)
We can also identify their differences by comparing
Adapted from ACM et al. (2005)
and software engineering methodologies. Zins put it
the work and activities of IS professionals and
correctly,
computer professionals. The above table 1 shows the
technological-based fields, such as computer science,
difference.
by focusing on the contribution of these technologies
As we can see from the table, computer scientists have extensive interests in a plethora of activities surrounding the design, implementation, and use of computing machinery. Their activities span a wide
“information
science
differs
from
to a better dissemination of knowledge” (Zins, 2007b, p. 531). To information professionals, computing technologies are the means but never the ends of their field.
range from research on its theoretical and algorithmic
From above comparison we can also find that IS
foundations to system infrastructure (e.g., operating
field emphasizes more on the data and information.
systems, communications) to exciting applications
This includes not only the database management, but
such as web browsers, databases, search engines,
also the storage and retrieval of data and information,
robotics, computer vision and graphics, intelligent
the seeking, needs and uses of information users for
systems, bioinformatics and others. Though they create
goal-directed action, the data quality, and the ability to
these possibilities and capabilities, they are normally
use technologies to derive meanings out of data and
neither concerned with the data and information
make sense of the information collected and processed.
contents, nor deal with the individual/organization/
Additionally, the social, cultural, economic, historic,
society contexts that make use of the information
legal and political contexts in which the information
enabled by computing. Information scientists or
systems are employed, and their impacts on individuals,
information professionals in general, on the other hand,
social groups and institutions, are also examined
rely heavily on computer and information technologies
carefully by information scientists. To some extent this
to perform their roles. Designing and developing
could explain why information scientists, among others,
software systems are not of primary concerns for
show their keen interests in such areas as data mining
information professionals, even though developing
and knowledge discovery when they emerged in 1990s.
large scale information storage and retrieval systems
With the rapid development of computing and
require good knowledge and skills in computer science
information technologies, the information professionals
10
Journal of Library and Information Science
35ņ1ŇΚ4 – 22ΰApril, 2009α
today have owned and built more advanced tools such
IS itself has many unique areas that don’t overlap
as the software packages built to perform database
interests from computer science, such as information
operations, statistical analysis, search engines and
users and behavior, quantitative studies on recorded
information retrieval, information visualization for
knowledge (bibliometrics and informetrics) and their
decision support, and information modeling (Mitchell,
social contexts, communication between people and
2001). However their focus on the purposeful
literature, information policy, etc.
extraction collections,
of
relevant
and
their
information motivation
from to
data
facilitate
information user’s goal remain the same. Griffiths identified four new roles that information professionals will play in the new millennium: a) Guidebook publisher, b) knowledge prospector, c) expedition guide, and d) knowledge interpreter (Griffiths, 2000). These roles are of course different from those of computer scientists since information scientists have a firm tradition of caring about the recorded knowledge and the people as information producer and consumer.
It is worth pointing out that, even though we could theoretically differentiate these two disciplines, in education the boundary between them is really becoming blurred. In recent years there has been another wave of renaming and restructuring of IS education, i.e., the movement toward the so-called “Information Schools” (I-schools) (Zhang & Benjamin, 2007). These IS education institutions were formerly considered library and information science schools just a decade ago. There are also some other newly created information science degree programs either under
Certainly there are some areas of common interests
computer
science
department/school
(e.g.,
the
between them. Information retrieval (IR) is the core
University of California at Irvine, the University of
sub-field of IS and since its birth has attracted some
Arkansas at Little Rock), or as a result of the merging
prominent computer scientists. Saracevic argued that
and
the application of computers and computing in IR is
computing and information (e.g., the State University
the basis of relation between IS and computer science
of New York at Albany, and Cornell University).
(Saracevic, 1999). He also indicated that this relation
Regardless of their original names and affiliations,
involves the digital libraries. Other areas of overlap
these information science programs all share similar
include human-computer interaction, data mining and
contents and attempt to cover as widely as any
knowledge
computer science program could (cf. Mitchell, 2003).
recovery,
information
systems,
and
integration
between
disciplines
related
to
database. The database and information systems
What
specialty area involve fundamental and cutting-edging
encompasses a wide range of topics, including
work in databases, data mining and data integration,
database systems, HCI, multimedia systems, artificial
web mining, information retrieval, and natural
intelligence, distributed systems and Web information
language processing. The human-computer interface
systems, networking, information retrieval, searching
research involves user interface tools that better
technologies, digital libraries, bioinformatics, project
support design tasks, systems and environments that
management,
help users maintain information awareness, tools for
languages, data structures, computer architecture,
multimedia authoring and design, interface that fosters
geographical
social interaction, and more generally, human-
technologies, system analysis and design, e-commerce,
computer interaction. Nonetheless, the interests of IS
telecommunications,
on the technical and computing side only cover a very
management. Of course not all IS programs offer full
small portion of the complete computer science
range of all these courses. But one could argue that
is
being
taught
at
these
IS
software engineering, information
systems,
information
programs
programming information
resources,
and
spectrum, as the latter is a vast field. On the other hand, ߧሬ㈀ણ⎞⫏⤻Ấણ 35ņ1Ň Ř4 – 22ņᖁʪ֓Ҝ౺߈ሶŇ 11
even computer science might not be able to cover all
information science, information systems discipline
these technical themes.
can also be characterized as primarily interdisciplinary
It is apparent that computer science courses are at the core of many IS programs. However, the depth of computer science courses offered by IS programs has been questioned not only by computer science faculties, but also by students taking these courses. For example, computer science students at Cornell University take core courses in algorithms, data structures, logic, programming languages, scientific computing, systems, and computing theory, but Cornell Information Science students are exempted from courses like computer architecture, operating systems and numerical analysis, which caused wide disputes among students regarding whether the IS at Cornell is simply the easier alternative to computer science, or whether it is just a watered-down version of computer science (cf. http://cornell.elliottback.com/archives/2007/03/31/com puter-science-vs-information-science/).
Perhaps
in
some aspects computer science courses are harder as they require stronger mathematics background and emphasize more on the abstract thinking and theory of computing. However, the IS education primarily shares the applied computing courses, such as database, data mining, and information management. The IS program
and pluralistic in its approaches.
As a young and
diverse field, there have been many years of debate on its nature and scope. Numerous researchers have discussed the characteristics of information systems field, which could be summarized as follows: a) there is often debate on what information systems is, b) this field has many foundations or a wide range of reference disciplines, which leads some authors to see it as a fragmented adhocracy, c) this field is located in different university faculties, d) it is perceived as weak on theory and as practice oriented, and e) it uses many different
research
methodologies,
models
or
frameworks (Lamp & Milton, 2005; Furneaux et al., 2007). It is somewhat surprising to see that these statements could be equally used to depict the status of information science. That authors from information systems academia and practices keep questioning its fundamental
tenets,
philosophical
underpinnings,
contents, methodologies, and practice relevance, renders people believe that this field is undergoing a “crisis of identity” (Khazanchi & Munkvold, 2000, p. 24), a phrase that is certainly familiar to information science researchers.
has its own educational goal and research agenda. As
It is not an easy task to draw boundary between
Cardie, the director of Cornell Information Science
information science and information systems field.
program, put it clearly, “the focus of Information
Adding to their confusing relation is the prevalent use
Science at Cornell is on systems and their use, rather
of a variety of phrases, including information science
than
communication
itself, to label the information systems field. Ellis et al.
technologies that underlie and sustain them” (Cardie,
(1999) used information retrieval and user studies to
2007, p. 18).
represent information science field, then compared
on
the
computing
and
with information systems based on co-citation analysis.
INFORMATION SCIENCE vs. INFORMATION SYSTEMS
Their results showed that there exists little evidence of linkage between these two since there is almost no
Information systems field has a relatively brief epistemological history: emerging roughly in the late 1940s, the really rapid development of information systems as a field of academic study starts in the mid-1960s (Checkland & Holwell, 1998). Like
12
Journal of Library and Information Science
overlap in relation to the disciplinary fields of the most highly cited authors. They concluded that “information science and information systems are conjunct subjects, in terms of their focus of interests, but remain disjunct disciplines in terms of their disciplinary recognitions” (Ellis et al., 1999, p. 1100). Ellis et al.’s conclusion
35ņ1ŇΚ4 – 22ΰApril, 2009α
was confirmed and supported by another investigation
Khazanchi and Munkvold (2000) considered the
by Monarch (2000), who utilized co-word analysis and
definition of information systems in the context of
“leximaps” (term relationship network) to analyze the
other closely related disciplines (computer science,
common interests and disparities of the two fields.
information science, and software engineering). They
Viewing
and
attempted to delineate the key contributions of each
Communication Technology (ICT), and people as three
field. Information science is defined as the science
central constructs in information systems research,
devoted to the structure and properties of information
Sawyer and Huang (2007) believed that information
and communication, as well as theories and methods for
science also shares the same set of concepts and these
transmitting,
the
information,
Information
become their point of departure in their comparative analysis of researches published in both fields. Khazanchi and Munkvold (2000) touched a little on the disciplinary relationship between the two fields but their emphasis was to discuss the nature of information systems field and prove that it is a science. Beeson and Chelin (2006) examined two key concepts in information science—classification and search—from the information systems perspective.
distributing
storing,
retrieving,
information.
The
evaluating
primary
and
reference
disciplines for information science are communication, computer science, linguistics, mathematics, psychology, and sociology.
The contributions of information
science lie in the information retrieval, organization and representation management.
of In
knowledge, contrast,
the
and
information
contributions
of
information systems field include: a) the impact of information systems on the organization, b) effective management and use of IT in organizations, c) relational
There are certain degrees of resemblance between the
databases, and d) diffusion of IT within organizations.
definitions of the two disciplines. An information system
Its primary reference disciplines are also different from
is a collection of interrelated components (hardware,
those of information science: computer science,
software, procedures, people, databases) that work
management science, organizational science, cognitive
together to “collect (or retrieve), process, store, and
science, economics (Khazanchi & Munkvold, 2000). It
distribute information to support decision-making,
is also interesting to note that they actually treated
coordination, and control in an organization” (Laudon &
information science as a secondary reference discipline
Laudon, 2003, p. 7). This technical definition is quite
of information systems field.
similar to the one given by the U.K. Academy for
Other than the differences in primary reference
Information Systems: “Information systems are the
disciplines and contributions, we could also find the
means by which organizations and people, utilizing
linkages and differences by comparing the scope and
information technologies, gather, process, store, use and
domain of the two fields. The following table 2 lists
disseminate information” (Beeson and Chelin, 2006).
the knowledge maps of both information science and
At about the same time the U.K. Institute for
information systems field. From the table we can see
Information Scientists defined “information science
that the knowledge map for information systems is
covers broad concepts and theories of information
much more specific than the one for information
systems
communication
science. Simply comparing the knowledge maps, we
technologies insofar as they apply to the principles and
can identify some concepts and topics of potential
practices of information management” (Ellis et al., 1999,
common interests, for example, information,
p. 1095). Conclusion could be easily drawn from these
economics of information, user, information
definitions that there seems to be a considerable
technology in general, human-computer interface,
potential common interests between the two, hence the
e x p e r t s y s t e m s , k n o w l e d ge a c q u i s i t i o n a n d
and
information
and
“conjunct subjects” in Ellis et al.’s terms. ߧሬ㈀ણ⎞⫏⤻Ấણ 35ņ1Ň Ř4 – 22ņᖁʪ֓Ҝ౺߈ሶŇ 13
Table 2! Comparison on knowledge maps of Information Science and Information Systems Knowledge Map of Information Science Foundations (theory, research, education, and history of information science) 2) Resources (various issues and types related to knowledge resources) 3) Knowledge Workers (their personality traits and value orientation, theoretical knowledge, applied knowledge, experience) 4) Contents (issues related to the content of the mediated knowledge) 5) Applications (issues related to the development of application oriented systems) 6) Operations and Processes (issues related to the various operations and processes involved in mediating human knowledge) 7) Technologies (addresses issues related to information and knowledge technologies) 8) Environment (social issues, information policy and accessibility, technical and cultural issues, legal and ethical issues) 9) Organizations (issues related to the organizational aspects of information provision) 10) Users (user related issues, information needs, user behavior, user search strategy) 1)
1)
2)
3) 4)
5)
6)
7)
8)
9)
Knowledge Map of Information Systems Computer-Supported Cooperative Work (asynchronous and synchronous collaboration, workflow, Group Support Systems) System projects (system development process, system project estimation, user involvement, requirements analysis and modeling, data modeling and database design, software maintenance) Information and interface: Information economics, information and managerial decision making, HCI. Evaluation and control: Information systems performance evaluation, data management, computer resource allocation, information systems security and control, ethics and personnel. Decision support and knowledge-based systems: DSS, expert systems, knowledge acquisition, knowledge management, data warehouses. Users: Information systems-user relationships, user perceptions and attitudes, user information evaluation and satisfaction, end user computing. Economics and strategy: Information systems economics, information systems, strategic management and business outcomes, IOS, e-commerce. Introduction and impact: Information systems implementation, IT diffusion, organizational outcomes. Information systems research: Information systems typologies, research perspectives and methodologies.
Source: Adapted from Khazanchi & Munkvold (2000)
Source: Adapted from Zins (2007b)
management, data warehousing and data mining, etc.
evidenced by its emphasis on IT system construction
However, the library and library services, one of the
and related business implications.
core interests for information science, leaves no trace in information systems map. Information retrieval, another core subfield of information science, is not in scope either. On the other hand, information systems, IT
diffusion
and
business
impact,
and
the
organizational context associated with information technology utilization, do not stand out in information science map either. In addition, it seems that the information systems field is more IT-oriented, as
It also appears that some same named concepts and topics have different interpretation and focus in both fields. To both fields, information is both a central construct and a vague concept. There are excellent reviews and active researches on the information concept in information science field (e.g., Buckland, 1991; Capurro & Hjorland, 2003; Case, 2006). In contrast, information systems field is under-theorized in terms of the number of publications devoted to information concept, even though there are a few
14
Journal of Library and Information Science
35ņ1ŇΚ4 – 22ΰApril, 2009α
reviews on information and its related concepts (e.g.,
include people using and interacting with the physical
Checkland & Holwell, 1998). Obviously, information
artifacts. However, there is a big difference in the focus
science researchers pay more attention to the
of user studies between these two disciplines. User
information concept and view the nature and properties
studies under information science has a long tradition of
of information itself as one of their key interests.
focusing on library uses, library services, reference
Information science researchers study the properties of
database uses, use of information retrieval system, user
information as a thing, or as a process, or as the
population surveys, user information needs, information
recorded knowledge, or a change in knowledge
seeking and behavior, search strategy, etc. Nowadays
state/structure. While debates still pervade, many
information seeking and behavior has become a highly
information
their
active area in information science. Viewing the
information concept is primarily associated with and
science
authors
attribution of meaning to data to create information as a
implies literature and recorded knowledge in all forms
uniquely human and often a social act, information
and media. This is consistent with the history and
systems community focuses on user perceptions,
tradition of information science. On the other hand, the
attitudes and values, individual as a decision-maker,
concept of information in information systems field
user requirement analysis, user/stakeholder engagement
appears to incur relatively less controversy, and there
in system design and delivery, human-factor and
seems to be more debates surrounding another central
usability design, and user information evaluation and
concept “organization”, since “‘information’ is less
satisfaction. User studies in information systems field
complex a concept than ‘organization’” in the minds of
seems to aim to inform the design of computer-based
some information systems scholars (Checkland &
technical systems. In recent years, there is some
Holwell, 1998, p. 86). Checkland and Holwell accepted
movement from a purely technical approach concerned
this view and restated information as “selected data (or
with hardware and software only to a user-centered
capta) to which meaning has been attributed in a
approach that considers the human activities of design
particular context” (p. 98-99). Simply put, information
and use of information systems as central concern (e.g.,
is “meaningfully processed data, where meaningful
Eason, 2004; Bannon, 2006). Nonetheless, the focus is
implies revelance to a consumer (user) of information
still on the information system design and development.
and data implies raw symbols or facts” (Khazanchi &
It is also interesting to note that, similar to the
Munkvold, 2000, p. 31). Therefore, even both fields are
technical-centered versus user-centered approaches in
interested in the chain of data-information-knowledge,
information
it appears that information science emphasizes more on
research also has two significantly differing approaches
the
relatively
or camps: system-centered and user-centered. There are
speaking, information systems field pay more attention
very little communications between these two camps.
to the data-information part of the chain.
The
information-knowledge
agree
part,
and
that
It is indisputable that both fields have serious interests in user studies. Early information science definitions do not stress the importance of user (e.g., Borko’s definition) but all recent definitions and knowledge maps emphasize user’s centrality to the field. Information systems exist to serve and support people
systems
user-centered
field,
camp
information
often
retrieval
criticizes
the
system-centered camp for totally ignoring user and their uses. But the system camp normally ignores the user camp since in their eyes the user studies can not inform their design decisions. In this regard, information science might be able to learn from the information systems field.
taking purposeful action. Such systems will always
ߧሬ㈀ણ⎞⫏⤻Ấણ 35ņ1Ň Ř4 – 22ņᖁʪ֓Ҝ౺߈ሶŇ 15
Information technology and organizational context
information systems and computer information systems
are the two most important key elements for
(ACM et al., 2005, p. 37). It is also estimated that
information systems. “An information system enabled
hundreds of information systems programs exist
by information technology within an organizational
elsewhere in the world. Most of these programs are
context is the focal point of the information systems
either within business schools or under computer
field”, argued Khazanchi & Munkvold (2000, p. 33).
science departments. In contrast, information science
Information technology is also the key enabling
has only a small number of programs in the United
technology of information science. Both fields’
States (possibly less than one hundred). Traditionally
perspectives on the information technology emphasize
information systems degree programs prepare students
information
to
aspects,
and
view
technologies
as
work
with
functionally
oriented
business
instruments for generating, processing and distributing
applications such as payroll, accounting, inventory
information. Information science professionals focus
management, accounts receivables, decision support
on the structure, organization, management, search and
systems, etc. Saracevic (1999) pointed out correctly
retrieval of information in all formats and media.
that information science does not deal with great many
Providing efficient and effective information service to
information systems like those mentioned above.
special communities and general public is always the
Therefore, historically, information science has a
central subject matter of interest.
different set of education goals than information
information
systems
On the other hand, primarily
systems field. By the end of 1990s, networked
concerned with the information that computer systems
computers had become basic commodities, and
can supply to help define and achieve an enterprise’s
computers and information technologies had become
goals, and the processes that an enterprise can
integral parts of working environment used by people
implement
or
professionals
information
at all levels of the organization. Information systems
technologies. As a result, in addition to the general
are expanding across and beyond organizational limits.
information technology and application technologies
Digital
(especially
technologies not only provide the infrastructure for
the
improve
are
database
utilizing
management and data
technologies
and
Web-based
distributed
extraction), information systems professionals must
globally
have a solid and sound understanding of the
foundations for digital firms and virtual enterprises. All
organizational principles, contexts and practices in
these changes have caused modern information
order for them to act as an effective bridge between the
systems education to emphasize more on the broader
technical and management communities within an
role of information technology enabled information
organization.
utilization and business processes in a wide range of
Integrating
information
technology
connected
organizations,
but
also
lay
solutions and business processes of organizations is
enterprises.
always the central activity to the information systems
educations are reevaluating their goals and core
field.
constituents,
Information systems education has much more degree programs than information science. The two
While modern information systems they
are
still
maintaining
close
association with business and computing coursework. On the other hand, information science education
disciplines have different education goals as well. In
does
the United States, as of mid-2005, there are about 1000
business/organization courses, but does have common
information systems programs under a wide variety of
interests in the computing courses. Although it is
labels such as information systems, management
difficult to tell the difference by simply looking at the
16
Journal of Library and Information Science
not
share
35ņ1ŇΚ4 – 22ΰApril, 2009α
much
of
the
interests
on
computing courses offered by programs in both fields,
the relationship between information science and
information systems field has a clearer focus on
information technology as an emerging field of study.
technologies related to the requirements, design, and implementation of information systems, database modeling and design (e.g., Entity Relationship Diagram,
UML),
database
products
selection,
configuration, management, training and support. In addition,
information
systems
programs
also
emphasize the use of application software such as word
processor
and
spreadsheet.
In
contrast,
computing courses offered by information science programs are more general and not necessarily business-oriented.
Although
there
are
some
differences in terms of education goals and number of programs, Ellis et al. (1999) argued that both disciplines are “subordinate faculties” due to their lack of power in the university system. They criticized the lack of contact between the two fields as they felt that there was little conflict between them. We concur that these two fields lack dialogues and there are opportunities for researchers from both ends to conduct collaborative works and this should be encouraged.
As a relatively new and rapidly growing field, information technology discipline began to emerge in the late 1990s when networked computer systems became the information backbone of organizations and were essential working tools for virtually every one within
any
type
of
organizations.
Information
technology field has a very close relationship with computer science and information systems. Pioneers in this field opine that computer science is too narrow, mathematical and physical-science oriented, and computer science is more about the theory and algorithms of computing and pays less attention to professional practices. On the other hand, information systems field is insufficiently deep in technical contents and too focused on traditional business contexts. Since today’s organizations of every kind, not just businesses, depend heavily on information technologies, there are great needs for understanding deeply organizations’ IT infrastructures and the people who utilize them. Existing computing disciplines have not addressed these issues sufficiently and there appears to be an intellectual gap. It is this niche that
INFORMATION SCIENCE vs. INFORMATION TECHNOLOGY FIELD Information
technology
Some people feel that it is just a passing fad, while others question if it is too technical in nature to deserve
“information science is inexorably connected to
the status of an academic discipline. Some researchers
information technology. A technological imperative is
define information technology field as “the study of
compelling
of
information technology use and impact from a
information science” (Saracevic, 1999, p. 1052).
scientific perspective” (Finkelstein & Hafner, 2002).
Information technology itself is a vague concept and
No doubt information technology has a great impact on
often refers to all of computing in the broadest sense,
the evolution of information science, and in the
including hardware, software, applications, infrastructure,
meanwhile the latter also has a keen interest in
services, and resources. While recognizing that
understanding the meaning and impact of information
information technology plays a critical role in shaping
technology. However information science focuses on
many
and
the information aspects of information technology and
information systems, our primary concern is to discuss
always sees information technology as an instrument to
fields such
as
the
information
key
There are different attitudes towards this new field.
technology of the information science discipline, since
constraining
the
discipline.
enabling
and
is
information technology field can fill in as a computing
evolution
science
ߧሬ㈀ણ⎞⫏⤻Ấણ 35ņ1Ň Ř4 – 22ņᖁʪ֓Ҝ౺߈ሶŇ 17
its goal of providing better information services.
infrastructure. Information contents and meaning
Information technology field is the complement of
extraction from data are not of their primary concerns.
information science’s perspective with its emphasis on the technology itself more than on the information contents it conveys. These two fields share some areas of common interests. The study of information, for example, including
its acquisition,
organization,
structure, communication, management and use, is one of the primary interests of the information technology field as well. These areas have been studied extensively in information science. In this respect the information technology field focuses more on how information technology changes and reshapes the flow of information within broader contexts of organizations. Another area of common interests includes the study of the positive and negative impacts of information technology on human beings, organizations, and the society as a whole.
Other research areas such as
knowledge management, data warehousing and data mining, information visualization, and collaborative computing that are currently actively studied by information science and information systems fields, are also considered parts of the territory of information technology field. Even though there are many overlaps in terms of research interests, information technology field is unique in emphasizing the techniques and tools for designing, developing and deploying large complex systems and for managing information technology infrastructure for all kinds of organizations. Information
technology
professionals
a
expected to assume the responsibilities for selecting hardware and software applications appropriate for integrating
relevant
products
and
services with organizational needs and infrastructure. They are also responsible for installing, tailoring and maintaining hardware and software products for computing users within organizations. As we indicated before, their primary interests are to properly plan, implement
18
and
maintain
an
In this paper we have reviewed and discussed the questions of (a) what information science is about and what its territory looks like, and (b) what relations IS has with computing disciplines, specifically, the computer science,
information
systems,
and
information
technology field. This has been done through discussing some representative IS definitions and examining the major problem areas that IS has addressed over time. We have also examined the similarities and differences among IS, computer science, information systems, and information technology field in terms of their definitions, major research topics, primary foci, practice areas for professionals, and educations. The interdisciplinary nature of IS is commonly acknowledged, but the relations of IS to computing disciplines are not well understood and only discussed sparsely and cursorily. Our detailed discussions on the disciplinary relations in this paper will bridge the knowledge gap in this respect. It will also help clarify the roles that IS has been playing in human being’s pursuit of understanding the nature of information phenomena. It is also our hope that this study can help IS educators better define their positions and goals in the complicated networks of disciplinary relations,
where
computing
and
information
technologies are playing a dominant role, and to some play
different role in the organization and society. They are
organizations,
CONCLUSIONS
organization’s
Journal of Library and Information Science
IT
extent, are colonizing many related disciplines. Information is a basic characteristic of our modern age. It has been used in both everyday languages as well as in scientific parlance. There are many disciplines dealing with some certain aspects of information. Historically, IS used to play a lead role in the exploration of information phenomena. But nowadays it has more and stronger competitors. Within IS there are different schools/traditions as well. Researchers that have no backgrounds or interests in documentation/library and information studies see and define IS significantly
35ņ1ŇΚ4 – 22ΰApril, 2009α
differently from those working with schools/departments
fast-moving nature of the field and the changing
of library and information studies. For example, in his
expectations from society. The computing-oriented and
excellent
David
technologies-driven IS education also makes it more
Luenberger, an Engineering professor with Stanford
difficult to delineate the boundary between IS and
University, expressed his IS view by examining the five
computing disciplines.
textbook
Information
Science,
“Es” of IS: Entropy, Economics, Encryption, Extraction, and Emission (Luenberger, 2006). While people with backgrounds
in
computing
and
communication
disciplines are more familiar with Luenberger’s notion, scholars
with
library
and
information
science
background might criticize its lack of any attention to information users and use, and somewhat cursory discussions on information retrieval topic (Wilson, 2006).
In this paper we have addressed the relations of IS to three major fields of computing disciplines: computer science,
information
systems
and
information
technology field. IS and computer science share such common interest areas as information retrieval, search engines, digital libraries, human-computer interface, data mining, knowledge discovery, and databases. However the primary focus of computer science is on the theoretical basis and complexity of computing,
IS education has been constantly changing. We have
especially on the development of efficient algorithms
witnessed the introduction of IS contents into library
and data structures. Our analysis in this paper has
schools curricula and the subsequent renaming of
showed that the interests of IS on the technical ends of
library schools to become library and information
computing only cover a small portion of the complete
science schools. We have also observed another wave
computing spectrum. IS is regarded as one of the
of movement toward the so-called I-schools. We have
secondary reference disciplines by some information
seen some new approaches to IS education as well.
systems researchers. The focal points of information
Some institutions are attempting to build bridges to
systems discipline are on the information systems
connect information related fields by integrating
enabled
library and information studies with computing
organizational contexts. This field emphasizes the
disciplines. Several other universities have created new
design and development of information systems in the
IS programs that emphasize data and application
business contexts. Information technology as a field of
aspects
research and education is quite young. Its primary
of
computing
departments.
Cornell
under
computer
University
science
initiated
by
information
technologies
within
an
concern is the techniques and tools for developing and
interdisciplinary IS degree program and brought
maintaining large complex systems and for managing
together researchers and faculties from computer
information
science and other social sciences. This program
organizations of any kind.
claimed to concentrate on the areas where computer science and the social sciences overlap and reinforce each other. Regardless of the names and labels used by these programs, one thing in common is that computing and information technology related courses are dominating IS education agenda nowadays. IS research and education are inevitably affected by the pervasion
of
modern
information
technologies.
Changes in IS education naturally reflect the
technology
infrastructure
within
The application of computers and computing in information retrieval is traditionally seen as the basis of the relationship between computer science and IS. As the core of IS, information retrieval has a proud history, and, to some extent it is nearly the synonym of IS. From its early days, information retrieval as a research area has also attracted the attentions of some elite computer scientists. However, it has not been a mainstream area in computer science between 1960s
ߧሬ㈀ણ⎞⫏⤻Ấણ 35ņ1Ň Ř4 – 22ņᖁʪ֓Ҝ౺߈ሶŇ 19
and early 1990s. In his acceptance address for the 2003
their insightful comments and valuable input in
ACM SIGIR Gerald Salton Award, Croft (2003)
preparing the final form of this manuscript.
demonstrated
clearly
how
information
retrieval
evolved as a marginal area of computer science before 1990s. By the end of 1990s, with the rapid development of Internet, the boom of WWW, the advent of Web search engine, and the availability of large scale full text databases for information retrieval experiment, information retrieval “has gained a place with other technologies at the center of the stage” (Baeza-Yates & Ribeiro-Neto, 1999, p. 3). Croft (2003) argued convincingly that the advent of the Web search engine has validated the longstanding claims made by information retrieval researchers that simple queries and ranking were the right techniques for information access in a largely unstructured information world. There is little doubt that information retrieval has provided the basic research on the algorithms and data structures for the Web Search engine and continues to develop new capabilities. Croft further summarized what information retrieval as a field of computer science has accomplished. As such, more and more computer scientists tend to claim that information retrieval is a newly found territory of their empire, though admitting that it has a strong root in library and information science. Information science community is not unaware of this phenomenon. Ellis et al. pointed out that “information retrieval is now as much as a subfield of computer science as it is of information science---indeed, one might say ‘more’, rather than ‘as much’ ” (Ellis et al., 1999, p. 1101). An interesting question ensues from the dispute over the disciplinary identity issue: if information retrieval is more recognized as a subfield of computer science, then, what core components are still left in IS? What will the fate of IS look like in the future?
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M.
(1999).
The
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The author wishes to acknowledge the two anonymous referees and the English editor of JLIS for
Journal of Library and Information Science
ACM, AIS, and IEEE-CS Joint Task Force for
176, 101-108.
ACKNOWLEDGEMENT
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