Space meets knowledge The impact of workplace design On knowledge sharing ? Free Essay Example from StudyTiger

Abstract

An examination of the role the physical workplace plays in creating opportunities and barriers that influence knowledge management has become a matter of substantial debate. Design of good workplaces for knowledge sharing is considered a major challenge for any organisation. This study provides an insight into the impact of the design and use of the physical workplace on knowledge sharing. Evidence presented in this study substantiates the position that the physical presence of an employee has the potential to impact performance and knowledge management. This assessment will be of use to researchers seeking to further examine the area of knowledge management.

Introduction

Knowledge management, described as the intentional management of information has become increasingly important to organisations (Nonaka and Takeuchi, 1995; Alavi, 1997; Garvin, 1997; Wiig, 1997; Davenport and Prusak, 1998; Ruggles, 1998; Hansen, 1999; Zack, 1999a). In large part this has been fuelled by the exponential growth of the knowledge economy and the increasing number of knowledge workers who have become as essential for many firms competitiveness and survival (Tallman and Chacar 2010). For many emerging organisations face to face contact is essential in the dissemination of knowledge within that infrastructure (Ibid). The process of internal knowledge management is a dynamic element that must be maintained in order to produce results.

Literature Review

Knowledge is defined as a dynamic human or social process that allows a justification of personal belief as regards the truth (Nonaka 2011). Interaction between people, employees and consumers is one of the primary methods of communicating innovative and inspirational progress. Modern studies in the field of knowledge management have begun to shift focus from the importance of the physical workplace to those engaged in knowledge work (Becker 2004). The recognition of inherent value in the employee base adds incentive to capitalize on the low cost innovative opportunities that knowledge sharing creates (Tallman et al 2010). With critical insight established through the direct contact of the employees, the means of communication becomes a critical concern (Dakir 2012). International companies are recognizing this same value of face to face interaction as the social interaction between management sections, benefits production and development levels world-wide (Noorderhaven and Harzing 2009).

In their discussion of social capital, Cohen and Prusak (2001) emphasise the importance of the physical workplace for the exchanging of knowledge, specifically the distribution of ideas amongst individuals in a situation where they could not assume that others knew what they were required to know. Becker (2004) hypothesises that the choices an organisation makes about how space is allocated and designed directly and indirectly shapes the infrastructure of knowledge networks – the dense and richly veined social systems that help people learn faster and engage more deeply in the work of the organisation. This corresponds with the Dakir (2012) argument that technology is no substitute for live interaction among the members of the organization. Davenport et al (2002) undertook a study among 41 firms that were implementing initiatives to advance the performance of high-end knowledge workers who were regarded as critical to the company’s aims. They focused upon determining the elements that affected the knowledge work performance. Surprisingly, the issue that was most frequently dealt with by these firms involved the physical workplace – “the other common ones were information technology and management” (Davenport 2005, p. 166).

Davenport (2005) emphasises that the recognition of the importance of knowledge work has grown in recent years, but that our understanding of the physical conditions in which knowledge can flourish has failed to keep pace. The inclusion of emerging communication technology has been argued to provide a better opportunity for employee interaction (Rhoads 2010). This same element of improved long distance communication is credited with diminishing the valued impromptu inspiration that many firms rely on during day to day operations (Denstadli, Gripsrud, Hjortahol and Julsrud 2013). According to Davenport et al (2002) workplace design should be seen as a key determinant of knowledge-worker performance, while we largely remain in the dark about how to align ‘space’ to the demands of knowledge work. Davenport (2005) emphasises the point that “there is a good deal said about the topic, but not much known about it” (p. 165). Most of the decisions concerning the climate in which work takes place have been created without consideration for performance factors. This fact continues to diminish opportunities for in-house knowledge sharing and effective dissemination of intelligence (Denstadli et al 2013).

Becker (2004) points out that the cultivation of knowledge networks underpins the continuing debate about office design, and the relative virtue of open versus closed space. Duffy (2000) confirms these views when he admits that early twenty-first-century architects “currently know as little about how workplaces shapes business performance as early nineteenth-century physicians knew how diseases were transmitted before the science of epidemiology was established” (p. 371). This makes every emerging decision regarding effective knowledge sharing critical to the development of any organisation.

Deprez and Tissen (2009) illustrate the strength of the knowledge sharing process using Google’s approach: “one company that is fully aware of its ‘spatial’ capabilities”. The spatial arrangements at Google’s offices can serve as a useful example of how design can have a bearing on improving the exchange of knowledge in ways that also add value to the company. The Zurich ‘Google engineering’ office is the company’s newest and largest research and development facility besides Mountain View, California. In this facility, Deprez and Tissen (2009) report: “Google has created workspaces where people literally ‘slide into space’ (i.e. the restaurant). It’s really true: Google Is different. It’s in the design; it’s in the air and in the spirit of the ‘place’. It’s almost organizing without management. A workplace becomes a ‘workspace’, mobilizing the collective Google minds and link them to their fellow ‘Zooglers’ inside the Zurich office and to access all the outside/external knowledge to be captured by the All Mighty Google organisation” (2009, p. 37).

What works for one organisation may not work for another and this appears to be the case in particular when it comes to Google (Deprez et al 2009). Yet, some valuable lessons in how the workplace can be used to good effect can be gained from Google’s operations. For this precise reason, research was carried out at Google Zurich to provide both theoretical and managerial insights into the impact of the design and use of the physical workplace on knowledge sharing (Ibid).

Studies comparing the performance of virtual and co-located teams found that virtual teams tend to be more task oriented and exchange less social information than co located ones (Walther & Burgoon 1992; Chidambaram 1996). The researchers suggest this would slow the development of relationships and strong relational links have been shown to enhance creativity and motivation. Other studies conclude that face-to-face team meetings are usually more effective and satisfying than virtual ones, but nevertheless virtual teams can be as effective if given sufficient time to develop strong group relationships (Chidambaram 1996). This research implies the importance of facilitating social interaction in the workplace, and between team members (virtual and co-located) when the team is initially forming. Hua (2010) proposes that repeated encounters, even without conversation, help to promote the awareness of co-workers and to foster office relationships. McGrath (1990) recommends that in the absence of the ability to have an initial face-to-face meeting other avenues for building strong relationships are advised to ensure the cohesiveness and effectiveness of the team’s interaction. So although interaction alone is not a sufficient condition for successful collaboration, it does indirectly support collaboration. Nova (2005) points out that physical proximity allow the use of non verbal communication including: different paralinguistic and non-verbal signs, precise timing of cues, coordination of turn-taking or the repair of misunderstandings. Psychologists note that deictic references are used in face-to-face meetings on a regular basis, which refers to pointing, looking, touching or gesturing to indicate a nearby object mentioned in conversation (Ibid).

Newlands et al (2002) analysed interactions of two groups performing a joint task in either face-to-face or a video conference system. They found that deictic hand gesture occurred five times more frequently in the face-to-face condition the virtual interaction. More recent research has found that extroverts gesticulate for longer and more often in meetings than introverts (Jonnson 2006). Barbour and Koneya (1976) famously claimed that 55 per cent of communication is non-verbal communication, 38 per cent is done by tone of voice, and only 7 per cent is related to the words and content. Clearly non-verbal communication is a key component of interaction and virtual interaction systems need to replicate this basic need, especially in the early stages of team forming or when the team consists of a high proportion of extroverts. The physical co-location of teams also facilitates collaboration (Ibid). A seminal piece of research carried out by Allen (1977) demonstrated that the probability of two people communicating in an organisation is inversely proportional to the distance separating them, and it is close to zero after 30 metres of physical separation. Furthermore, proximity helps maintain task and group awareness, because when co-located it is easier to gather and update information about the task performed by team members (Dakir 2012).

A recent survey of workers at highly collaborative companies found that most “collaborative events” are short (with 34% lasting fewer than 15 minutes) and the majority take place at the desk (Green 2012). It is likely that these impromptu interactions relate to sharing information (perhaps on the PC) or answering queries rather than lengthy intense discussion and development of joint ideas. Interactions at desks may facilitate tacit knowledge sharing by overhearing relevant conversations between team members, but such interactions can also be considered a distraction if not relevant (Denstadli et al 2013).

Methodology

There are two acknowledged methodological approaches: quantitative and qualitative (Creswell 2005). The quantitative method involves identifying variables in a research question which are then utilized in order to collate numerical data (Ibid). The qualitative research is open to interpretation allowing personal answers to be incorporated into the study (Creswell 2005). The researcher considered both options in order to complete the necessary goals.

Types of Data

There are two forms of data: primary, or newly generated data, or secondary, previous data generated within existing studies (Creswell 2005). This study required the acquisition of primary data creating the need for relevant instruments. A survey with 5 open-ended questions has been created and subsequently conducted with centred on 548 employees working at Google Zurich. This was done in order to explore the perceptions of Google employees with regard to the environment in which they work with a focus on factors that affect knowledge sharing in the work environment.

Methods of Data Collection

The qualitative data analysis employed a Content Analysis technique to reveal participant perceptions of their work environment. The survey questions were designed to explore employee perceptions regarding the following dimensions:

1) Activities that allow for increased exchange of knowledge;

2) Advantages of frequent interaction with colleagues;

3) Individuals or groups dependent on the frequent interaction with co-workers orgroup members;

4) Factors that facilitate interaction within the workplace

5) Factors that inhibit interaction with others in the workplace.

Survey participants responded to five open-ended questions and rated their answers using a five-point Likert scale where 5 was ‘most important’. Using a Content Analysis approach (Creswell 2005; Leedy and Ormrod 2005; Neuendorf 2002), the interview responses were analysed. Content Analysis is a qualitative data reduction method that generates categories from key words and phrases in the interview text; it is an evidence-based process in which data gathered through an exploratory approach is systematically analysed to produce predictive or inferential intent (Creswell 2005). Content Analysis was used to identify themes or common concepts in participants’ perceptions regarding the culturally and environmentally distinctive factors that affect interaction in the workplace (Neuendorf, 2002). This process permitted the investigator to quantify and analyse data so that inferences could be drawn.

The Content Analysis of survey interview text was categorically coded to reflect various levels of analysis, including key components, words, sentences, or themes (Neuendorf 2002). These themes or key components were then examined using relational analysis to determine whether there were any relationships between the responses of the subjects. The analysis was conducted with Nvivo8® software which enables sorting, categorising, and frequency counts of invariant constituents (relevant responses). Content Analysis was used to critically evaluate the survey responses of the study participants, providing in-depth information regarding the factors related to workplace interaction.

Sample Respondent Characteristics

The invited population consisted of 675 individuals and a total of 548 individuals participated in the survey resulting in a response rate of 81 per cent. Of these 548 completed surveys, 35 responses were discarded because the respondents only partially completed the survey. The final sample consisted of 513 respondents. The key characteristics of these respondents are summarized in Table 4-1.

Table 4-1 Sample Respondent Characteristics

FactorDescriptionFrequency EducationHigh School

Bachelor Degree

Certificate Degree

Master Degree

PhD Degree

Other:15

118

231

121

9 Tenure< 2 years

2-5 years

> 5 years153

331

29 Time Building Use< 1 year

1 year

2 years

> 2 years140

102

271

0 Time Desk Use< 3 months

3-6 months

7-12 months

> 12 months143

159

126

85 Age< 20 years

21-30 years

31-40 years

41-50 years

> 50 years0

216

255

7 GenderMale

Female428

85 MobiltyZurich Office

Other Google Office

Home Office

Travelling

Other88.9%

3.9%

2.7%

0.5% PositionEngineering

Sales and Marketing

GandA

Other:428

59 NationalityGermany

Switzerland

United States

France

Poland

United Kingdom

Romania

Hungary

Netherlands

Sweden

Spain

Australia

Russian Federation

< 10 respondents73

136 Survey Findings

In order to provide an audit trail of participant responses to the thematic categories that emerged from the data analysis, discussion of the findings precedes the tables of data, within a framework consisting of the five survey questions. An overall summary is provided at the conclusion of the discussion of findings. During the analysis of data, common invariant constituents (relevant responses) were categorically coded and associated frequencies were documented. Frequency data included overall frequency of occurrence as well as frequencies based on rating level (5 = most important to 1 = least important). Invariant constituents with a frequency of less than 10 were not included in the tables. Study conclusions were developed through an examination of the high frequency and highly rated invariant constituents in conjunction with the revealed thematic categories.

Question 1: Main Activities that Allow Exchange of Knowledge

Table 4-2 provides high frequency invariant constituents (relevant responses) by survey participants demonstrating themes within the data for Question 1. Thematically, the analysis revealed the following primary perceptions of participants in terms of main activities that allow knowledge exchange: (a) meetings of all types; (b) whiteboard area discussions; (c) video conferencing; (d) email, and (e) code reviews. These elements demonstrated a high frequency of importance ratings, and a moderate percentage of respondents rated these elements as ‘most important’ (rating 5). Other themes revealed through the analysis included the importance of writing and reading documentation, Instant Messaging (IM) text chat, Internet Relay Chat (IRC), and extracurricular/social activities. All other invariant constituents with a frequency of greater than 10 are shown in Table 4-2.