+ Page 144 +

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Jacobs, Jim.  "Providing Data Services for Machine-Readable
Information in an Academic Library: Some Levels of Service."
The Public-Access Computer Systems Review 2, no. 1 (1991): 144-
160.
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1.0  Introduction

Many libraries are facing two trends that are moving them closer
to providing services for electronic information products: (1)
information in electronic formats is becoming more plentiful,
diverse, and obtainable; and (2) a growing number of library
users want--and demand--access to information in electronic
formats.

One need not look far to find examples of these trends.  The
proliferation of CD-ROM's in the U.S. government depository
program is a good example [1].  Other examples include the
availability of electronic journals [2] on floppy disk and
through electronic mail delivery, commercially available
databases of images and maps, and the wide variety of numeric
data files available on computer tape from all levels of
government, private vendors, and data archives such as the Inter-
University Consortium for Political and Social Research (ICPSR)
[3].

Similarly, faculty and students are quite likely today to have
easy access to personal computers or powerful workstation-class
machines and to feel more comfortable with information in
electronic form.  As a result, many library users already prefer
to have the information they require in a machine-readable
format, rather than in paper form.

How can libraries deal with these products and the demands for
service that go with them?  To address this, I will list some
examples of different kinds of services that a user of electronic
information might consider important and that a library might
consider offering [4].

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The four lists are "Levels of General Data Services," "Levels of
Computing Services," "Levels of Library Data Services," "Levels
of Reference Data Services."  (For the purposes of this paper, I
have defined "data service" as any kind of service for electronic
information.)  The lists focus on academic support services,
especially library services, for nonbibliographic electronic
information products, which I will refer to as "machine-readable
information" [5] or "data files."

I specifically exclude bibliographic information products in this
discussion for two reasons.  First, there is ample literature on
dealing with electronic bibliographic information in libraries.
Second, although many libraries now have experience dealing with
bibliographic files (e.g., online public catalogs, bibliographic
CD-ROM databases, and online bibliographic vendors such as Dialog
and BRS), nonbibliographic data products provide different
challenges.

Examples of the kinds of products which fall into the
nonbibliographic category of machine-readable information include
the following: (1) numeric data such as census information,
results of survey research, and economic time-series; (2)
cartographic data such as census TIGER files; (3) image data such
as photographs and satellite images; (4) and textual data such as
the full texts of literary works.

Three assumptions or themes underlie these lists.

First, most libraries can provide some kind of service for
electronic information without attempting to provide complete
service for all conceivable combinations of users and electronic
products.

Second, libraries should not avoid dealing with these data
resources because of their formats.

Third, it is not necessary, and probably not desirable, for a
library to attempt to provide "full service" for machine-readable
information on its own.   Different campus units (e.g., computer
center, survey research centers, and academic departments) might
each provide some services which complement those provided by the
library and each other.  Together, these units may be able to
provide better service than any single unit could individually.
It is important to analyze one's local academic and computing
environment in order to best fit the services into that context
[6].

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There is one important caveat before we begin looking at levels
of service.  Although the discussion is intended to be "generic,"
it is important to remember that every situation is different.
The examples used here are just that--examples.  They are not
intended to be prescriptions for service or suggestions for
strategies to follow.  Rather, They are reference points that may
be used to reflect on one's own situation.


2.0  Levels of General Data Service

What kinds of services might a user of machine-readable
information expect?  What kinds of services might an organization
(not necessarily a library) provide?  The following is a list of
six levels of service which attempt to answer these questions.

Although these levels are not intended to be prescriptive, levels
one through three are basic services that should be provided if a
campus is to have any level of data services at all.  The primary
purpose of this list is to help identify what services are
already being provided and to help select those services that the
library might provide.  The levels are listed somewhat
hierarchically.  Higher levels tend to be more complex or require
more staff; they often build on services provided at lower
levels.


2.1  Level One: Pre-Acquisition Services

There are several things which need to be done before any
machine-readable information is acquired.  These include (1)
receiving requests for data; (2) helping users identify which
data files are required; and (3) identifying different sources,
formats, and costs of data.  On campuses where survey data are
important, there should be an ICPSR membership.  That membership
requires annual funding and a person to serve as the ICPSR
Official Representative to process all requests for data and
handle communications with the Consortium.  That person should
also promote ICPSR membership and services on campus.

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2.2  Level Two: Data Acquisition Services

Once a campus has made a decision to acquire data files someone
must insure that they are compatible with local hardware and
software and that orders are placed accurately.  Next, tapes and
other media as well as codebooks or documentation for the
machine-readable information must be received and processed.
Records of orders placed and received must be kept and bills must
be paid.  Finally, someone must notify the requester that the
data files have been received and provide for physical access to
computer tapes (or other medium), codebooks, and technical
specifications needed by users to access the data files on their
storage medium.


2.3  Level Three: Data Access Services

It is important that all authorized data users can easily learn
what data files are locally available and how to gain access to
those files.  Some kind of list or catalog of available data
files must be provided, along with the codebooks and technical
documentation that will allow authorized users to gain access to
these files.


2.4  Level Four: Basic Data Advisory Services

Once data files have been acquired, are users "on their own" or
will there be consulting services available?  Data consultation
or advisory services would require staff who are familiar with
the contents and structure of studies, can refer users to
particular studies, help users interpret codebooks, and explain
how data files are laid out on the storage medium.


2.5  Level Five: Data Analysis Advisory Services

Another level of advisory or consultation service would involve
staff familiar with statistics, statistical software, and
particular academic disciplines.  These staff members could
advise users on appropriate statistical procedures, help users
choose appropriate statistical software, write statistical
programs, interpret results, debug statistical programs, and
debug analytical procedures.

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2.6  Level Six: Comprehensive Data Analysis Services

This level of service would do everything for the user.  Staff
would analyze data as requested and deliver finished output to
users requesting analytical products such as charts, graphs,
measures of significance, and cross-tabulations of variables.  It
should be noted that, although this is a rare service to find in
an academic setting, it is not unknown.  As is true of all these
levels of service, some users will expect such service.  It is
only prudent to anticipate user requests for service and have a
clear policy delineating those services that can and cannot be
provided.


3.0  Levels of Computing Services

Providing services for machine-readable information does not have
to include providing computing services, but users of machine-
readable information must use computers and providers of data
services should be aware of whom is providing computing services
for those users.

In these days of smaller, faster, less expensive computers, it is
increasingly common for individual users to have adequate
computing power on his or her desktop.  Libraries interested in
equal access to information should question whether the fact that
many people have their own computers changes the library's
commitment to those who do not.  Even if users have their own
computers, they must somehow obtain data files they want in
formats compatible with their machines and then manage to load
them physically into their machines.  These processes require
some level of computing service on the campus.

In general, there are four basic computing resources, in addition
to human resources, that must be provided in each of the levels
listed below.  These resources are hardware, software, computer
"cycles" (i.e., the computer actually performing a task), and
delivery or storage medium.  The primary issue is who will
provide these services.

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3.1  Level One: Data Storage Services

Obviously, data files must be stored somewhere on some medium.
Will the data files be online or will they require loading or
mounting?  If stored "offline," who provides the service of
loading the files into a host computer?  Is a proper storage
environment for the chosen medium provided?  Will backup copies
of files be made?  Will someone check whether the files were
received in the format ordered and that they were received
accurately without errors?


3.2  Level Two: Copying and Subsetting Services

Will users be able to copy data files, either whole files or
parts of files, to their own account, machine, or disks/tapes?
Who will provide instructions for how to do this?  Who will
provide the hardware, software, and computer cycles for this
work?  Will the user move data across a network or within a
single machine?

This kind of service fits nicely into a traditional library
model.  For instance, much like a user checks out a book or
copies an article from a journal, he or she might copy data of
interest from a CD-ROM onto a floppy disk and take it home.  With
the drop in prices of CD-ROM drives, some users may have their
own drives and libraries may want to consider checking out CD-ROM
disks.  What the user does with the data and what computer
resources he or she uses might be of no more concern to the
library than whether a user reads a book under a tree on the
campus commons or at a desk in a dorm room.


3.3  Level Three: Data Retrieval Services

Some data files will be used simply to retrieve a quick fact, a
table, a single image, or a brief excerpt of text.  Again, who
will provide the instruction and computer resources for this
service?  Many libraries may find it convenient and possible to
provide this sort of service for some products distributed on CD-
ROM, and it is certainly manageable because no single patron uses
any one machine for very long.

+ Page 150 +

Unfortunately, there are many other complicating issues.  Here
are some example issues.  Is there common software available for
all files that are needed to answer users' questions or must
library staff learn multiple software products in order to help
patrons?  Are data files documented sufficiently so that users
understand the meaning of the answer they have retrieved?  Are
librarians sufficiently familiar with the data files on hand to
refer library users to the right files in an accurate and
efficient manner?


3.4  Level Four: Data Analysis Services

One important reason for distributing information in machine-
readable format is so that the raw data can be analyzed.  Whether
this involves performing statistical analysis on a complex census
file, overlaying cartographic data over satellite images, or
finding word frequencies in a text file, users want data in
machine-readable form so that they can manipulate them.  A simple
analysis might be no more than creating and sorting a list of
counties with high per capita income.  A more complex analysis
might involve performing an advanced statistical procedure on a
data file of many variables and thousands of observations.  Even
simple analysis may take quite some time on a personal computer.
Advanced analysis may simply be inappropriate on any but large
mini- or mainframe computers.  Any kind of analysis will require
appropriate software (e.g., statistical, textual, or geographic
software).

While libraries might want to provide computers for some kinds of
analysis, they may have to develop policies defining appropriate
use.  Libraries considering providing analytical computing
services should realize that they are, in effect, considering
becoming a computing center.


4.0  Levels of Library Data Services

Let's explore the kinds of data services that a library might
provide.  This list may serve as one possible application of the
more general levels listed above.  The numbering of these levels
does not necessarily correspond to the "Levels of General Data
Service" listing.  This section serves as an example of how
different organizational situations are different and require
their own solutions.

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4.1  Level One: Passive Referral Services

The lowest possible level of service (other than no service at
all) may already be in place; however, minor service enhancements
may be desirable.

This level of service can be provided by a knowledgeable
reference staff equipped with an adequate supply of printed
materials and access to appropriate online databases that list
sources of and collections of machine-readable information.  No
additional staff or separate service center is required, although
some staff training and some additional reference tools may be
needed.

At this level of service, staff determine whether a certain kind
of information exists in machine-readable form, where it can be
obtained, and how much it costs.  This level of service is
passive in that it does not actively seek patrons or users of
machine-readable information, but simply responds to questions by
referring patrons to vendors or other collections.

Normal online bibliographic searches for library users could be
broadened to include databases that list machine-readable
information (e.g., ERIC, RLIN, NTIS, and ICPSR Guide).  The
service could be further enhanced by adding "codebooks" (i.e.,
descriptions of the contents of machine-readable data files) to
the general collection of books.  These codebooks would aid
researchers in identifying useful data files, and they would
often provide actual useful data themselves, such as frequencies
of response to individual questions.


4.2  Level Two: Active Education and Referral Services

This level adds the education of users and promotion of services
to level one activities.  It is the active counterpart to level
one.  Level two aspires to make users, and potential users, of
the library aware both of the existence of information in
machine-readable form and of the services which the library can
provide in identifying such products.  Education and promotion
may be in the form of user instruction classes and seminars,
special workshops on "new" sources of information for particular
subjects, informal contacts between librarians and faculty, and
newsletters.

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4.3  Level Three: Data Cataloging Services

On campuses where there are already machine-readable information
collections outside the library, level three is a very important
and fairly easy step to take to improve data services.  There may
be a collection of data files on campus in a computer center,
data archive, social science research center, or even a
department or faculty office, but these data files are not
accessible to all potential users because there is no central
listing of them.  The library might offer to catalog the data
files or the codebooks, or both, and add those cataloging records
to its online or card catalog.  If there is no current easy
access to the code book collection, the library might also offer
to house and maintain it, or the library might choose to buy
copies for its collection, adding yet another access point.


4.4  Level Four: Data Acquisition Services

This level involves the addition of machine-readable information
to the library collections.  Although this may not seem to be an
immediate prospect, libraries that are government depositories
are already having to decide whether or not to accept machine-
readable depository items.

Decisions will have to be made as to: (1) which media will be
collected (e.g., tape, floppy disks, compact disks, and video
disks); (2) which formats will be collected (e.g., for tapes:
what densities, number of tracks, and character modes); (3) what
level and kind of cataloging or other bibliographic access will
be provided; (4) where machine-readable information will be
stored; (5) what criteria will be used to select and acquire
machine-readable information; (6) what kind of access will be
available; and (7) who will have access.  It would be wise to
write a formal collection development policy statement for
machine-readable information in order to both address these
issues within the library and to communicate to faculty and other
users how much, or how little, the library can do.

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4.5  Level Five: Data Consultation Services

Deciding to acquire data files raises the question of what other
kinds of services will be provided for the information acquired.
Data consultation services can be offered when there is machine-
readable information on campus, whether it is acquired by the
library or by another agency on campus.  These services also can
be offered on widely differing levels.


4.6  Level Six: Archival Services

It is fairly easy to buy a few data files on tape and, in one way
or another, add them to the library collections.  However, it
will take much more effort and time to archive campus machine-
readable information.  This level of service might well be
omitted as it is not a necessary prerequisite to higher levels of
service.

This level could be seen as an extension of level three or level
four services.  As an extension of level three services,
archiving data files would mean assuming responsibility for a
large collection of data files all at once.  This is unlikely to
happen unless there is currently no formal location for the
collection.  For example, it is only informally housed in a
faculty office.  As an extension of level four services,
archiving data files would involve storing and making accessible
files acquired or produced by individuals on campus.

Just as in a traditional archive, it is very important to have a
clear statement of what you will accept and what you will not.
Documentation, or the lack of it, can be a particularly sensitive
issue when evaluating locally produced data files.

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4.7  Level Seven: Data Analysis Services

Not every library will want to provide all levels of service, but
data analysis services may be the least likely to be offered.  In
general, libraries do not offer this kind of service even for
printed materials with the exception of "ready reference"
questions.  The more complex the question, the less likely most
libraries are to provide answers.  The obvious example of this
service orientation in terms of printed materials are medical and
legal questions, which for ethical and legal reasons are
virtually never answered.  Another example is that few libraries
answer questions which involve interpretation of tables of
statistics.

To continue the analogy with printed sources, data service at
level five would be comparable to helping someone locate the
appropriate volume of the printed census, the appropriate table
in that volume, and the appropriate explanations of how the data
were collected and how they are presented, but would leave the
user to read, interpret, and choose which numbers actually answer
his or her questions.  By contrast, level seven service would
take a question or a precise request for data analysis from a
user and provide that user with an answer to the question or a
customized product of data analysis.  This would require all the
sophistication of the other levels, plus a more experienced staff
and more staff time than any other level.


5.0  Levels of Reference Data Services

Assuming you have some data files and you want to provide some
sort of reference service for those files, where do you start?
Or, more appropriately, where do you stop?  Here are some
examples of levels of reference service.  Once again, these
examples, which are based on an academic library context, are
meant to help guide your thought and help you plan within your
own context.  They are not meant to be definitive guidelines.

+ Page 155 +

5.1  Level One: Data File Identification Services

If someone asks "Do you have the PSID?" [7], your reference desk
staff should be able to understand the question, find out if the
PSID is on campus, and, if it is, where it is, who has access to
it, and what the access procedures are.  Also, in a case like
this one, you'd want to be able to identify which parts of PSID
you have and if they are in some special format or not.

Adding catalog records for your data file holdings to your online
or card catalog can accomplish most of this.  However, general
awareness of data files is also necessary.  Special guides that
list your local holdings and guides explaining how to access data
files would also help.  Such guides might be created by the
library, the computer center, a research center on campus, or a
combination of such organizations.


5.2  Level Two: Basic Data File Recommendation Services

If a patron asks "Do you have some statistics on income?", you
could, if you had cataloged machine-readable information, search
your catalog by subject and find National Longitudinal Survey,
Current Population Survey, the Census of Population and Housing,
the Survey of Income and Program Participation, and numerous
other entries.  But how helpful is that?

A more useful service might provide at least some guidance on the
differences among these files.  Reference staff should know the
difference between aggregate data and micro-data [8], and they
should comprehend to difference between cross-sectional and
longitudinal studies [9].  They should understand what a panel
study [10] is and be comfortable talking with users about sample
size, choice of sample, level of observation (e.g., household and
individual), geographic detail, and so forth [11].

+ Page 156 +

5.3  Level Three: Advanced Data File Recommendation Services

Providing service for large data files is somewhat like providing
service for a collection of manuscripts.  Typically, a data file
will record information on dozens, or even hundreds, of topics;
and, typically, few of these topics are indexed in traditional
library catalogs.  Just as an archivist may remember a letter
from an ex-slave buried in the papers of an Ohio school teacher,
a data archivist may remember that a particular poll asked a
question about day care availability for single parents.  Such
familiarity, which comes from reading codebooks as data files are
acquired and from working closely with data users as they use
data files, increases the access points to a collection.


5.4  Level Four: Data File Use Advisory Services

Data archivists learn about limitations of data files and hear
about their problems by working with users and data and by
talking with other librarians.  An example of a data file
limitation is data that are stored in a special format and
require a specific piece of software for access.  Researchers who
use a data file will be well aware of some problems associated
with it, but other problems will not be so well known.  As
librarians acquire this kind of knowledge, they can help users by
sharing it with them.

For example, several problems with the content of U.S. foreign
trade data were discussed at a recent meeting of the Association
of Public Data Users: (1) for several years, foreign trade data
had a "carryover" problem (data reported for one month actually
included trade from earlier months); (2) the change to the
Harmonized system of classifying industries makes it very hard to
compare current data with older data; (3) exports are not counted
as carefully as imports; (4) aggregate figures are revised, but
industry level figures are not [12].  It is apparent how this
information, not all of which is documented, would be very
helpful to a user of U.S. foreign trade data.

+ Page 157 +

5.5  Level Five: Data Extraction Services

When librarians help novice or occasional data file users to
obtain subsets from large data files, their familiarity with how
particular data files are organized and arranged is important.
Even if computer or programming assistance is not provided, it is
helpful to understand the different data structures so that you
can help the user identify if the needed data need is available
and if they will be easy to extract.  For example, each record in
the Citibase database is a time series; therefore, it is very
easy to extract time series from Citibase [13].  In other data
files, time series data may be available, but it may be embedded
in variables, with each record consisting of an observation for a
person or a household.  Extracting a time series from such a data
file would be a much more difficult process.


6.0  Conclusion

Nonbibliographic machine-readable data files provide many
challenges for libraries and their campuses.  Many of these
challenges can be met by combining the resources and skills of
different units on campus in order to provide a coherent service.
The key to providing such a service is analyzing local resources
and needs and making wise choices among a wide range of possible
services.  Libraries have an important role to play in the
provision of data services, and they can provide many data
services with little or no change to staffing or other resource
allocations.

Librarians interested in more information about machine-readable
information and data services should investigate membership in
the ICPSR, IASSIST [14], and APDU.

+ Page 158 +

Notes

1. Depository Library Council, Subcommittee on Electronic
Distribution, "Preliminary Report, March 9, 1988," Administrative
Notes 9, no. 8 (May 1988): 20-26; and U.S. Government Printing
Office, GPO Special Survey 89-300 (Washington, D.C., U.S.
Government Printing Office, October 1989).

2. Ron Eisner, "Publishers Work Toward Starting Reputable Online
Science Journals," The Scientist 5 (4 March 1991): 4-5.

3. For a list of studies available from ICPSR, see the annual
publication: Guide to Resources and Services.

4. Earlier examples of lists of levels of service appear in the
following sources: Howard D. White, "Libraries and Access to
Social Science Data," in Reader in Machine-Readable Social Data,
ed. Howard D. White (Englewood, Co. Information Handling
Services, 1977), 175-194; Laine G. M. Ruus, "The University of
British Columbia Data Library: An Overview," Library Trends 30
(Winter 1982): 397-406; Edward P. Bartkus, "Use of Numeric
Databases in Reference and Information Services," Drexel Library
Quarterly 18 (Summer-Fall 1982): 205-219; JoAnn Dionne, "Why
Librarians Need to Know About Numeric Databases," in Numeric
Databases, ed. Ching-chih Chen and Peter Hernon (Norwood, NJ:
Ablex Publishing Corporation, 1984), 237-246; and Ann S. Gray and
Sue A. Dodd, "The Roles of Libraries and Information Centers in
Providing Access to Numeric Databases," in Numeric Databases, ed.
Ching-chih Chen and Peter Hernon (Norwood, NJ: Ablex Publishing
Corporation, 1984), 247-262.  The lists presented here are
derived from these earlier works, personal experience, and
numerous communications with other librarians attempting to deal
with these issues.

5. An excellent overview of nonbibliographic databases is
provided in: RASD/MARS Committee on Nonbibliographic Databases
and Data Files, "Information Sheet I: What Are Nonbibliographic
Databases," RQ 26 (Spring 1987): 280-284.

+ Page 159 +

6. Diane Geraci, "Categorizing Your Local Environment" (Paper
presented at Management of Machine-Readable Social Science
Information Workshop, ICPSR Summer Program in Quantitative
Methods of Social Research, Ann Arbor, MI, August 1990).

7. James N. Morgan, "Panel Study of Income Dynamics" (Ann Arbor,
MI: Survey Research Center, Inter-University Consortium for
Political and Social Research, 1989). (Computer file)

8. Aggregate data are those which have been created by combining
values for a number of individual observations into a larger
unit.  An example would be census data files which contain values
that are totals for geographic areas such as blocks and counties,
without the values for each individual respondent to the census.
Micro-data are those which contain values for individual
respondents.

9. Cross sectional data provide observations on a group sample at
a particular point in time.  Longitudinal studies are studies
across time.

10. A panel study interviews the same group of individuals (the
"panel") several times over a period of months or years.

11. A good source of definitions of survey research concepts is
P. McC. Miller and M. J. Wilson, A Dictionary of Social Science
Methods (Chichester, England: John Wiley and Sons, 1983).

12. The Association of Public Data Users (APDU) is an
organization of users, producers, and distributors of federal,
state, and local government statistical data.  The executive
director is Susan Anderson, Princeton University Computing
Center, 87 Prospect Ave., Princeton, NY 08544.

13.  Citibase: Citibank Economic Database (New York: Citibank).
(Computer file)

14. IASSIST: The International Association of Social Science
Information Service and Technology.

+ Page 160 +

About the Author

Jim Jacobs
Data Services Librarian
University of California, San Diego
Central University Library, 0175-R
9500 Gilman Drive
La Jolla, CA 92093-0175
JAJACOBS@UCSD.EDU

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