A video conferencing system for the United States Army: Group decision making in a geographically distributed environment

doi:10.1016/0167-9236(92)90008-D

Decision Support Systems

Volume 8, Issue 2, April 1992, Pages 181-190

https://doi.org/10.1016/0167-9236(92)90008-D Get rights and content

Abstract

The purpose of this article is to review the physical design, software requirements, organizational culture and management issues in a video conferencing system. The audience for the paper is researchers and future users of GDSS from both academia, government and business. The author's approach will be to discuss software, hardware features, and management improvements potential. Though this sytem is within the U.S. Army's culture, business organizations are exploring distributed GDSS. Organizational computing and organizational information for all organizations will hinge on GDSS. Since the author could approach this writing from the academic role, Major in the U.S. Army Reserves or GDSS researcher looking to secure research or grant fund, it is best to chose one role and write accordingly. The author chooses GDSS researcher and will try, without bias, to cover this exciting example of distributed GDSS. The Army's difficulty in using this system is that after building it, the usage was not as expected. Their purpose is to improve utilization. Initially, the physical system is described. The software support, which doesn't currently exist, for users (Tool Kit) is defined for various levels of implementation. For constant improvement of the GDSS, evaluation procedures are outlined. Since this effort is viewed as developmental, future research directions are suggested. The Army;s cost justification for the system is the travel cost savings. Cost savings are important to business and government organizations alike; however, the author feels effectiveness will become the driving force in the future. For example, timeliness will gain in value. Currently, the decision process forces a decision when required. This process will change to require a certain level of information and evaluation within the time-frame. These information analyses will be made possible by the distributed GDSS.

References (31)

L. Adelman
Distributed Tactical Decision Making: Conceptual Framework And Empirical Results
Report no. M86-005, DTIC no. AD-A170 302
(1986)
A. Basu et al.
Computer Based Support of Reasoning in the Presence of Fuzziness
Decision Support Systems
(1986)
R.P. Bonasso
P.R. Capps et al.
Airland Battlefield Environment (ALBE) Tactical Decision Aid (TDA) Demonstration Program
Report no. ETL-R127, DTIC no. AD-A189 712
(1987)
S. Christos
CO OP2.0 Distributed Decision Support System for Strategic Planning
DTIC no. AD-A168 443
(1986)
G. DeSanctis et al.
Group Decision Support Systems: A New Frontier
G. DeSanctis et al.
A Foundation for the Study of Group Decision Support systems
Management Science
(1987)
G. Desanctis et al.
Building a Software Environment for GDSS Research
A. Dutta et al.
Computer Based Support of Reasoning in the Presence of Fuzziness and Uncertainty
Decision Support Systems
(1986)
J.J. Elam et al.
Using Artificial Intelligence Techniques to Enhance the Capabilities of Model Management Systems
Decision Sciences
(1987)

D.C. Farwell

A Model Based Approach to Decision Support System Flexibility

Interfaces

(1982)

Y. Fijol et al.

Group DSS (Decision Support System) and Decision Outcome Measures: A Comparative Study in Distributed versus Non-Distributed Settings

DTIC no. AD-A180 949

(1987)

E.H. Forman et al.

Expert Choice

(1985)

R.B. Gallupe et al.

Computer-Based Support for Group Problem-Finding: An Experimental Investigations

MIS Quarterly

(1988)

S.L. Gass et al.

The Army Manpower Long-Range Planning System

Operations Research

(1988)

Cited by (13)

Organizational culture and leadership in ERP implementation
2008, Decision Support Systems
This paper theorizes how leadership affects ERP implementation by fostering the desired organizational culture. We contend that ERP implementation success is positively related with organizational culture along the dimensions of learning and development, participative decision making, power sharing, support and collaboration, and tolerance for risk and conflicts. In addition, we identify the strategic and tactical actions that the top management can take to influence organizational culture and foster a culture conducive to ERP implementation. The theoretical contributions and managerial implications of this study are discussed.
Anonymous mechanisms in group decision support systems communication
1998, Decision Support Systems
Using group decision support systems (GDSS) as a backdrop, this paper looks at the issues surrounding anonymity, with particular emphasis on how it may be achieved. Ensuring anonymity requires more than simple encryption. Anonymity is viewed as a composite of three types of anonymity—environmental, content-based and procedural. Each type is investigated and procedures developed to improve the anonymity of the system. Behavioral and operational costs are identified for each of the three types of anonymity. For some meetings, the benefits of supporting anonymous communication may not justify the costs. Mechanisms providing complete procedural anonymity in various system configurations are presented. It is shown that five separate mechanisms can be used to provide procedural anonymity. The impact of relaxing each of these mechanisms is also investigated. Even though a system provides anonymity, participants may be skeptical. This skepticism can reduce the overall efficiency of the group. For this reason it is important to be able to convince groups that their comments are indeed anonymous. The issue of how to convince individuals that their anonymity is secure is discussed and a partial solution to this problem is presented.
The intellectual development and structure of decision support systems (1991-1995)<sup>1</sup>
1998, Omega
This study extends an earlier benchmark study which examined the intellectual structure, major themes and reference disciplines of decision support systems (DSS) over the last two decades (1970–1990). Factor analysis of an author cocitation matrix over the period 1991 through 1995 extracted five major areas of DSS research (group DSS, model management, implementation, design and an unnamed factor) and three contributing disciplines (cognitive science, organizational science and multiple criteria decision making). The DSS area has undergone profound structural changes over the past five years (1991–1995) and made meaningful progress over the past two and a half decades. It is in the process of solidifying its domain and demarcating its reference disciplines. We have highlighted several notable trends and developments in the DSS research areas.
Facilitating space-time differences, group heterogeneity and multi-sensory task work through a multimedia supported group decision system
1995, Decision Support Systems
Group work outside of the decision laboratory exhibits several interesting characteristics. Communication is frequently off-line, particularly if individuals are geographically separated. Group members have different backgrounds (e.g., in focus groups, mixed customer and company groups) and do not necessarily share the same information or values. Tasks can have significant visual and auditory components, as for instance in product development. While these characteristics are by no means exclusive, they represent important factors which now can be addressed by multimedia supported group decision systems.
The article discusses these and related aspects of group decision making and explains design alternatives to handle them. Proposed technology solutions include a multimedia group communication and e-mail facility, a visualization tool (“virtual tour guide”), a multimedia directory, and a problem structuring tool. The software tools have been recently developed. Some initial experiences with the technology are also presented.
A tool kit for multimedia supported group/organizational decision systems (MSGDS)
1995, Decision Support Systems
When one attempts to define a tool kit for a multimedia decision system, the initial step is to define what is not included. Therefore, the author has started the process by defining what is in a Decision Support System (DSS) Tool Kit and what is in a Group Decision Support System (GDSS) Tool Kit. A Multimedia Supported Group/Organizational Decision Systems (MSGDS) Tool Kit contains features that are unique to applications for the multimedia platform and conceptualization of decision problems.
Video conferencing human-machine interface: A field study
1994, Information and Management
In a field study of an established video conferencing system (VCS), ten months of usage data were collected and analyzed with the hope of determining the interaction between three user interface dimensions: user profile, task domain, and technology. A validated survey instrument was used to collect user demographics and measures of certain user perceptions of the system. The degree of usage and measured perceptions provide a measure of the effectiveness of the VCS interface. Specific attention was placed on the differences in system usage and perceptions between three task groups: operational, tactical, and strategic. This indicates that the effectiveness of a VCS interface may be task dependent. Several significant interactions were found and are reported, including the effect of number of remote groups, group size, optional equipment, and training.

View all citing articles on Scopus

^∗: The author was a Visiting Scholar of the Haas School of Business at the University of California, Berkeley and Major of the U.S. Army Reserves, assigned to the Assistant Secretary of the Army, Individual Mobilization Assignment, Washington, DC.

^∗∗: Myron Hatcher is Professor of Information Systems and Decision Sciences at California State University, Fresno. He received his Sc.D. in Operations Research from the Johns Hopkins University in 1977. Professor Hatcher has written numerous articles in Management Science and the Health Research and Management field. His current research interests are in group decision support systems' (GDSS) theoretical development and implementations. Specifically, research interests are GDSS tools, user interface, uncertainty in GDSS, and public health applications.

View full text

A video conferencing system for the United States Army: Group decision making in a geographically distributed environment

Abstract

Distributed Tactical Decision Making: Conceptual Framework And Empirical Results

Report no. M86-005, DTIC no. AD-A170 302

Computer Based Support of Reasoning in the Presence of Fuzziness

Decision Support Systems

Airland Battlefield Environment (ALBE) Tactical Decision Aid (TDA) Demonstration Program

Report no. ETL-R127, DTIC no. AD-A189 712

CO OP2.0 Distributed Decision Support System for Strategic Planning

DTIC no. AD-A168 443

Group Decision Support Systems: A New Frontier

A Foundation for the Study of Group Decision Support systems

Management Science

Building a Software Environment for GDSS Research

Computer Based Support of Reasoning in the Presence of Fuzziness and Uncertainty

Decision Support Systems

Using Artificial Intelligence Techniques to Enhance the Capabilities of Model Management Systems

Decision Sciences

A Model Based Approach to Decision Support System Flexibility

Interfaces

Group DSS (Decision Support System) and Decision Outcome Measures: A Comparative Study in Distributed versus Non-Distributed Settings

DTIC no. AD-A180 949

Expert Choice

Computer-Based Support for Group Problem-Finding: An Experimental Investigations

MIS Quarterly

The Army Manpower Long-Range Planning System

Operations Research