Introduction Background

Virtually Connected:
How to Avoid Communication Hang-ups
Connie L. Delisle, Ph.D. Candidate, MSc, BA, BEd, University of Calgary, Alberta
Janice Thomas, Ph.D., MBA, BSc, University of Calgary, Alberta
Introduction
Background
The familiar words, “Houston, we have a problem,” drift across
a room filled with seasoned project managers pouring over their
tools and techniques for a solution to the latest project crises. The
intensity of the moment negates all opportunities for real learning—project managers respond involuntarily, developing associations with any action that disarms the external environmental
trigger. The process of communicating itself becomes paramount in a time-pressured environment. However, project managers tend to dismiss essential internal processes like
communication as something they do well as innately as breathing. Communication then becomes confused with the rewards of
communication. Similarly, the term communications becomes
synonymous with the media used to do the communication
(Trevino, Klebe, Lengel, & Daft, 1987). Research tends to feed this
technical view by focusing on identifying the one best or richest
media for communication, often ignoring the process of communication itself.
The concept of open communication originating in the 1930s
(Rogers, 1987) has matured somewhat, although science tends
to “pretty much beat the same old dead horse” (Field, 1999).
Research proceeds on the assumption that an individual, like a
computer, has a hard drive or mental space set aside to send and
receive communications. However, the principles of Field’s
(1999) Corporeal Field Theory dispute this notion. Field suggests
that communication does not expand into a space that’s already
there; rather, the space itself expands (perhaps in different dimensions) to carry the communication forth. Thus, the deep
level of communication that may occur on other dimensions remains hidden from the view of conventional scientific inquiry.
This paper challenges the conventional thinking about communication within the context of virtual project teams. The paper
presents preliminary results from the third phase of a multiyear
cross-sectional research project exploring the nature of communication by identifying the level of communication, media use for
different types of communications, and the impact of anticipating future interaction. This paper presents findings about the nature of how virtual project teams communicate. The theoretical
and practical viewpoints provide value in their direct application
to virtual project teams who are committed to adopting communication behaviors that promote success and avoid hang-ups.
A Guide to the Project Management Body of Knowledge (PMBOK®
Guide) specifically addresses the topic of communication in
Section 10. However, treatment of communication focuses on
what it does rather than why it exists. For example, Section 10.1
of the PMBOK® Guide states that “Project Communications
Management includes the processes required to ensure timely and
appropriate generation, collection, dissemination, storage, and ultimate disposition of project information.” The narrow focus on
communication relates to its function as an input—[application
of tools and techniques] output mechanism (PMI®, 1999). As
well, traditional communication studies often report the number
of messages sent or received or the time spent communicating as
measures of open communication (Rogers, 1987; Trevino, Klebe,
Lengel, & Daft, 1987). The foundation of these principles lie in acceptance of a restrictive theory of media choice that offers senderreceiver models as if communication exists without the critical
reflection of the participants. A broader view of communication
encompasses critical social, holographic and quantum principles
that account for the reciprocal conscious and unconscious influence individuals when communicating.
A more holistic view of communication sees individuals as
more than passive receptacles of information that happens to experience communication hang-ups when they do not follow a
process protocol. Taken from a broader viewpoint, many project failures stem from interpersonal communication breakdowns at an unconscious level as root causes (Thomas, 2000).
Typically, project managers respond to the perceived communication breakdown by referencing previous experiences or
“know how” with the intent of implementing tighter controls on
costing and scheduling. The theme of insufficiency—not enough
control, not enough communication binds the threads of the
team’s project fabric. Gathering the team around for a “water
cooler” type of open chat may be more effective in stimulating
the art of real communication that encourages learning rather
than the formation of shallow associations gleaned from past experiences (usually negative).
The need for immediate and open communication seems particularly salient in time-constrained environments where project teams do not, if ever, meet face to face. Virtual project teams
appear temporary in nature; may never or seldom meet face to
Proceedings of the Project Management Institute Annual Seminars & Symposium
September 7–16, 2000 • Houston,Texas, USA
face; and they use communication technology to deliver a product/service or experience (Hartman & Guss, 1996). This phenomenon appears to have gained momentum over the last five
years, spurred by an information technology boom. This in turn
produces a radical shift in how people understand communication (Dejgaard, 1999; Hartman & Guss, 1996; Kocian & Scheer,
1997). Project organizations respond to competitive pressures by
streamlining their physical structure and reorganizing personnel. In doing so, they often recognize the high cost of their organized and permanent labor force. Thus, shifting to temporary
labor or “virtual” project teams seems financially attractive.
However, successfully restructuring to virtual teams that may seldom or never meet means a corresponding deep level shift in
value and attitudes toward communication.
Conventional Thinking
Traditional project teams led by a project manager typically experience much of the communication flow from the top down.
Researchers traditionally measure the internal communication
infrastructure by the number of communication paths
(N2–N)/N where N = number of persons on a project (Carter &
Baker, 1992). According to this formula, more communication
paths require more technological infrastructure to successfully
carry or transfer information about a project to the appropriate
receivers (Carter & Baker, 1992). In contrast, virtual project
teams communicate by sharing of leadership and power so that
the direction of communication resembles more of a fluid semipermeable matrix than a rigid one or two-way arrow. Sharing of
leadership fundamentally changes the intent and tone of communication to one of collaboration from interpersonal competition. Regardless of the context, the adage “that more
communication is better” has not lessened the presence of communication hang-ups. Therefore, virtual project teams continue
to learn how to challenge conventional thinking by accepting that
communication has a multidimensional nature. Essentially,
communication goes beyond treating sender-receiver pairs because they do not exist in a vacuum. In reality, communicators
themselves challenge the validity of each communication as well
as question the context or norms that contain rather than control the communication. This central tenant of critical social theory reinforces the idea that communicating parties acts critically
to shape and reshape the communication quality, content, and
intensity.
Communication quality, content, and intensity have typically
been studied from a cognitive perspective (what we think about).
Walther (1996) suggests that viewing the problem through a
cognitive lens may over emphasize the importance of computation and information processing. Consequently, Frankel (1999)
purports that although an individual’s cognition plays a role in
elaborating and refining a repertoire of skills that are adaptive,
emotions underlie the continuous estimation of values of urgency, opportunity, risk and uncertainty that help an individual
to make sense of their circumstances. Unfortunately, the dominant media use and media richness theory focus heavily on the
syntax of language. Cognition overrules emotions in terms of the
western science fixation with communication as a rational
learned task much like the function of a computer neural net
learning how to process bits of information (Yu, 1997).
Another major limitation in media use and richness theories
lies in the naive assumption that face-to-face communication
means optimal communication (Yu, 1997). Typically, virtual
project teams meet face to face at least once during the conceptual or planning phase. This initial physical connection seems
very important in building trust within the team and creating a
web to enable open communication. The dynamics of these
meetings tend to differ from regular business meetings because
they provide a forum for the team to share stories and analogies
that make sense to their project. Meetings in a virtual environment seem less about turn taking and control and more about
establishing meaningful connections. Chen (1997) makes a
strong argument that the opportunity of being in constant faceto-face communication or conducting personal meetings over email discussion matters less than the situational awareness of
what other group members do. These rare moments of physical
connectedness allow the team to see the emotional and intellectual fabric of the team develop through sharing of stories, key understandings, or symbols. This allows them to make a common
sense of activities and events without being physically connected.
Gaps in Understanding
Current understanding of communication runs deeper than
just the physical absence or presence or communication technology. Dance (1999) asserts that communication acts on a continuum of intervals of energy. Communication has an essentially
digital quality where communication from one person to another
goes beyond a simple one-to-one relationship (Dance, 1999). For
example, project teams have the ability to fill in missing information (analysis by synthesis) by internally generating or “shadowing” what members say (or do) making predictions of what
people say more probable. Walther (1996) suggests that the communication may even be hyper-personal (better than face to
face) on virtual project teams because of anticipation of future
interaction. He found that anticipation of future interaction (a
team knew if it would work with a client or each other again) leveled the playing field between virtual communication and faceto-face interaction on “the immediacy, similarity, composure
and receptivity of group members” (1996, pg. 12).
The issue of when communication occurs also needs to be addressed. Communication may be constantly occurring, but may
limit connectivity due to the dissipative nature of the brain in
storing temporal and spatial information where the energy to
connect becomes too diffuse to focus on understanding each
other. Alternately, Chen (1997) sees synchronicity in communication being analog not binary. Thus, communication can be differentiated on a temporal continuum where the team directs the
type and depth of communication continuum by shifting its level
of awareness. However, neither explains instantaneous or synchronous communication that may occur in teams separated by
Proceedings of the Project Management Institute Annual Seminars & Symposium
September 7–16, 2000 • Houston,Texas, USA
geographic distance. For example, one team member has a
“thought” or “feeling” and dials to call the other who makes the
same call at the same time.
Exhibit 1. Communication Fabric
Communication Beyond Convention
The literature review clearly identified that communication does
not occur as a flat pitch. Lessons from the physical science
(physics and math) provide a broader perspective about crucial
aspects of communication that remain untapped by western
science. A flaw exists in the notion that communication fulfills
its trajectory by converting kinetic energy into potential energy
(Chiao, Kwiat, & Steinberg, 1993). For example, the energy generated by team members superficial talking does not simply
progress to deep level communication. Instead, virtual project
teams communicate through each other, rather than through
media to each other along predetermined lines of communication. Exhibit 1 shows the relationship between communication
energy.
Angle α and β may theoretically relate to steepness of the
angle or breadth of communication between two sources (lines)
(γ). However, the depth of the communication energy as depicted
by Ψ only becomes knowable as the relationship emerges over
time. Thus, communication cannot be described as a precise
mathematical point where it occurred or did not occur (Chiao,
Kwiat, & Steinberg, 1993). Communication behaves more like a
wave in terms of quantum explanations. The height of the wave
indicates the potential for communication to occur within a
given context whereas the width (depth) (Ψ) represents the uncertain, intrinsic nature of communication that may not be
known if we do not move outside conventional thinking.
pcweek/fasttrack98/methodology.html. Data from the larger
sample will be analyzed by Summer 2000.
This process ensured the draw of a random sample (including
equal opportunity regardless of gender) enabling the adoption
of a confidence level of 95% (95 times out of 100, the mean of
the sample appears near the mean of its population). To reduce
bias and capture potential responder effects, the survey was
available by postal mail and e-mail. The Number Cruncher
Statistical System (NCSS) served as the data analysis software.
The rules for nonparametric tests applied to the pilot whereas
parametric tests will be used to analyze results from the total
sample.
Method
Findings
This paper presents the results of the pilot study (20 participants)
of the third phase of a larger study conducted as part of a multiyear three-phase project. The research began with a literature
review of the following theories: media use, media consequence,
structuration, quantum mechanics, and holographic theory as
each pertains to human communication. Gaps in understanding
communication served as a launch to design the questionnaire.
This part of the study investigated the nature of communication
in the context of virtual projects and their teams. The random
sample for survey three consisted of 250 randomly selected and
randomly assigned subjects from a population of the top 500
Zdnet-Fortune 500 companies. Zdnet uses a fast-track approach
entailing selection of nine indicators that signify innovative enterprises who use Internet-oriented technologies. Zdnet attached
weightings to each indicator to show its relative importance and
awarded points to each enterprise in the ZD Market Intelligence
database based on the presence of the identified Internet technologies. The enterprises with the top 500 scores were then identified and ranked. Full details about the indicators used in
fast-track methodology are presented at http://zdnet.com/
This paper provides a summary of relevant findings related to the
nature of communication and its relationship to success in virtual projects and their teams. The results will not be compared
to traditional teams because the larger study seeks to make sense
of virtual teams themselves before meaningful comparisons may
be made.
Level of Communication
The results show a strong correlation r = .87, p<.05 between project managers or leaders suggesting new ideas to the team and the
team’s willingness to listen to these ideas. A positive correlation
(r =.67, p<.05) exists between team members asking for each
other’s suggestions and ideas and their willingness to listen to the
outcomes. The strength of the correlation may depend in part on
the team members meeting face to face or having a previously established relationship. Overall, the results suggest that project
managers can most readily facilitate open communication by
asking for suggestions from the team, acting on criticism, listening to complaints, and receiving bad news gracefully.
Proceedings of the Project Management Institute Annual Seminars & Symposium
September 7–16, 2000 • Houston,Texas, USA
Media Use
The literature validates that no one media provides a solution to
keeping communication open. However, subjects report that
virtual project teams have a preference for conventional media.
These media include: phone for primary use; phone for secondary use; and phone and face to face as an optimal solution.
However, virtual project teams have access to a use a wide range
of media as it suits their schedule and purpose. The respondents
listed having access to the telephone, face-to-face meetings, email, teleconference, pager and group decision support systems.
Overall, there appears to be a gap between the use of one familiar media and the availability of a much broader range of communication tools. Change in communication media may not be
accompanied by the appropriate training. However, the complexity of this line of questioning makes it very difficult to determine if one or more media are involved in any one full
communication action (i.e., to send a document, a person may
have used e-mail to alert the receiver, a courier to send the material, and a telephone call to confirm receipt). The more deeply
rooted problem stems from conventional media choice theory
failing to address communication beyond the selection of media
(Walther, 1996).
Strength of Relationship and Anticipation of Future
Interaction
The results show a strong correlation between the strength of relationships and the anticipation of future interaction with different parties connected to the virtual project team. The strongest
correlation (r = .83, p<.05) existed between senior managers and
clients. A strong correlation (r = .78, p<.05) also exists between
peers (project teams) and senior managers. From a social information processing perspective, people strive to develop relationships. Based on impressions of those we relate to,
assumptions about others are tested over time (Walther, 1996).
Thus, the rate rather than the amount of information exchanged
distinguishes virtual teams from their traditional counterparts.
Although less information exists in an electronic interaction,
Walther suggests that anticipation of future interaction accounts
for the differences between use of virtual communication media
and face-to-face interaction. Walther and Burgoon (1992) also
noted that over time, virtual teams appeared more socially oriented than face-to-face or traditional teams.
Dimensions of Communication
Respondents reported whether they believed that communication occurs in a dimension beyond their immediate and rational (cognitive) perception. The results suggest that just over half
believe this statement to be true. One respondent reported that
it was a “gut feel/vibes that someone was in trouble with their
part of the project on the other side of the world.” Another
wrote that “an employee remembered the thoughts we shared
weeks ago … on his own volition, he sent a planning document
at the immediate moment I needed it. He could not have done
this without anticipating my individual interpretation of the
original communication.”
Success and Communication
The results show a strong positive correlation between communication and success. The respondents rated the degree of success
of the virtual project, the virtual project team, and the overall
communication of the team. The correlation between the overall communication and the success of the virtual project (r = .70,
p<.05) suggests that communication plays a key role in delivery
of a successful project. However, a weaker correlation (r = .40) existed between communication and the success of the virtual project team itself. This suggests a more complex relationship of
factors influences the overall success of the virtual project team.
Conclusions
Research recognizes communication as crucial to project success
in traditional teams. In virtual teams, communication not only
acts as a vehicle to pass information, but it also suggests a unique
way of working. Communication becomes exponentially important in this setting. We set out to do three things in this
paper. First, we explored the gaps in the conventional understanding of communication and introduce some new theoretical frameworks that may prove useful for project managers
attempting to work in a virtual world. Second, we presented the
preliminary findings from a survey designed to explore the nature of communication and its relationship to success in virtual
projects and their teams. Third, we provide some practical tips
for those attempting to understand and enable open communication within virtual teams.
Reviewing the literature on communication in general and
that work on communication that project managers use to learn,
we found a serious time lag in the adoption of newer or less conventional and potentially useful communication theories. The results of this research suggest a need to broaden the scope of our
current understanding of communication. Theoretical presumptions seem strong, and the literature consistently points out
the pitfalls of electronic communication compared to its superior (perceived as) alternative, face-to-face communication.
These presumptions however, have not been tested from the
perspectives put forth by this paper. The reality of virtual teams
makes it crucial that we rethink communication. This paper
provides an introduction to communication theories that may
impact how we manage in a virtually connected world.
Historic concepts of communication seem useful in revealing
the complexity in studying and understanding communications. Existing formulas to calculate the breadth of communication still play an important role in helping shape our
understanding of communication in the past and present. For example, a virtual project in this sample population has, on average, 350 communication pathways. Although the concept may be
too simplistic to convey deep meaning, the approach shows the
Proceedings of the Project Management Institute Annual Seminars & Symposium
September 7–16, 2000 • Houston,Texas, USA
potential for miscommunication to be staggering. This in turn
magnifies the need for project managers to understand communication in a comprehensive way, and to apply sophisticated
analysis to its operation on projects. Preliminary research in
this area, as presented in this paper provides insights that can be
applied now and studied for further application in the future.
Preliminary findings from the large-scale survey suggest the
following:
• A strong correlation exists between team members asking for
each other’s suggestions and ideas and their willingness to listen
to the outcomes.
• Subjects report a preference for face-to-face communication,
but in practice they have access to a wide variety of media.
• The evidence points to a strong relationship between strength
of relationship and anticipation of future interaction.
• Virtual project teams seem to acquire a sixth sense in that team
members often develop a commonality of sensemaking that allows them to separated in time and geography, they can often
come to the same conclusions. How this develops may be an area
important for further study.
• As expected, a strong correlation exists between overall project success and communication. This important finding validates
other work that has only assumed it to be true.
Finally, the practical assistance provided to practitioners becomes the ultimate aim of research. Although we consider the results presented here as preliminary, we feel comfortable
providing the following practical tips for practicing project managers. Bear in mind that while our interest falls within the virtual team environment, most of these suggestions may enhance
communication on traditional teams as well.
Practical Tips
• To spark creativity, determine who on the team conceptually
stimulates communication. Allow them to freely express conceptual ideas to the team without discounting or rationalizing
their input. As well, determine which members synthesize this information so that it may be digested on mass.
• Media use should reflect the level of comfort of the team
members, not hype from the information technology marketers.
Allow for the team to choose the most comfortable media for
communication and agree what kind of media suites the type of
communication activity. Plan at least one face-to-face gathering
near the start of the project to introduce all the players.
• Build a strong relationship with the client, in anticipation
that there will be future interaction. Extend this relationship to
the team and include them in meetings between the clients and
senior managers.
Virtual team leaders (project managers) need to listen openly to
bad news brought forth by the team. An open chat space may encourage team members to provide ideas, comments and opinions
on how to handle bad news gracefully. Discuss this openly in the
team as a way of diffusing conflict.
• Virtual team leaders should also act on criticism of their own
style of communication and accept that they contribute to misunderstandings as much as the team members. Establish review
processes for each milestone met on the project—the entire
team must be responsible for their actions.
References
Chen, Lee Li-Jen. (1997). Social and psychological processes in networked environments: Conceptual framework and theoretical model.
Dissertation Proposal, unpublished. The University of Calgary, Calgary
Alberta.
Carter, Donald, E., & Baker, Barbara Stilwell. (1992). CE concurrent
engineering: The product development environment for the 1990s.
Addison-Wesley Publishing Company, Inc.
Chiao, Raymond, Kwiat, Paul, & Acphraim Steinberg. (1993). Return
to the Garden of Eden. Scientific American.
Dance, F.E.X. (1999, June). Subject: Very intriguing. E-mail.
Fdance@du.edu.
Dejgaard, Søren. (1999). Complexities of virtual organisation:
Towards a framework. In Walter Baets (Ed.), A Collection of Essays on
Complexity and Management, (pp. 53–73). World Scientific Publishing.
Field, Paul E. Corporeal Field Organon. (1998). Chemistry
Department, Virginina Tech University. pfield@vt.edu
_http://www.chem.vt.edu/chem-dept/field/organon.htm
Frankel, Carl. (1998). Emotions and emotions and economic knowledge: Drivers of self-regulatory information processing. Pacific Graduate
School of Psychology, dissertation draft.
Hartman, Francis, & Guss, Connie L. (1996). Virtual teams:
Constrained by technology or culture? Proceedings from the International
Conference on Engineering and Technology (IEMC). Vancouver BC,
Canada.
Kocian, Claudia, & Scheer, August-Wilhelm. (1997). Kiesel—The
virtual competence centre for environmental issues. The Electronic
Journal of Organizational Virtualness (e-JOV). http://www.virtual-organization.net
Project Management Institute (PMI). (1999). A guide to the project
management body of knowledge (PMBOK® guide). http://www.pmi.org
Rogers, Donald. (1987). The development of a measure of perceived
communication openness. The Journal of Business Communication, 24
(4).
Thomas, Janice. (2000). Making sense of project management.
Unpublished dissertation. University of Alberta.
Trevino, Linda Klebe, Lengel, Robert H., & Daft, Richard L. (1987).
Media Symbolism, media richness, and media.
Walther, B. Joseph. (1996). Computer-mediated communication:
Impersonal, interpersonal and hyperpersonal interaction.
Communication Research, 23 (1), 3–43.
Walther, J.B., & Buroon, J.K. (1992). Relational communication in
computer-mediated interaction. Human Communication Research, 21,
460–487.
Yu, Raymond. (1997). Information technology and media choice of
CFO. http://www.ozemail.com.au/ ~raymondy/thesis/about.html
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Proceedings of the Project Management Institute Annual Seminars & Symposium
September 7–16, 2000 • Houston,Texas, USA