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Article

The “Other” Workplace Design Factors: An Insight into What New Zealand Workers Want

by
James Olabode Bamidele Rotimi
* and
Eziaku Onyeizu Rasheed
School of Built Environment, Massey University, Auckland 0632, New Zealand
*
Author to whom correspondence should be addressed.
Sustainability 2024, 16(19), 8381; https://doi.org/10.3390/su16198381
Submission received: 7 August 2024 / Revised: 16 September 2024 / Accepted: 19 September 2024 / Published: 26 September 2024
(This article belongs to the Section Green Building)
Versions Notes

Abstract

:
The recent COVID-19 pandemic has led to a reassessment of workplace necessities. It has resulted in the current shift from traditional workplace design to creating work experiences—a new paradigm in workplace management. Hence, while some conventional workplace factors remain important to the experiences of workers and, thus, to their well-being, comfort, and productivity, recent studies suggest other factors, not widely known, as important in creating the appropriate work experience. Our study explores these other factors in the workplace that contribute to or may be very important to, workers’ comfort, well-being and productivity. These include working mode; facilities; sustainability practices; and diversity, equity, and inclusion (DEI)—cultural connection. A sample of 149 occupants across offices in New Zealand was conveniently collected for the study and analysed using descriptive and content analysis in SPSS v24. The results show that the occupants prefer to have private offices in the workplace and separate meeting rooms for better concentration on work. In terms of working mode, a combined model of remote working and in-office working is preferred. Furthermore, occupants prefer to have access control and fire safety systems essentially in the workplace and for their offices to be cleaned daily. For sustainable measures in the workplace, the respondents choose the following as practical and convenient: turning off computers outside work hours, using more LED light bulbs in the office, opening windows and doors when required, and using a motion sensor lighting system. Interestingly, most of the respondents did not think having a cultural connection in their workplace was important. The study findings represent significant progress in identifying the needs of contemporary office workers. These findings assist facility managers and workplace designers in developing more proactive approaches to anticipated user issues in buildings.

1. Introduction

Buildings are designed and built to meet the needs of their potential users, and the way buildings perform affects users’ comfort and well-being [1]. With the recent COVID-19 pandemic, the importance of improving the well-being and comfort of building users is now recognised as a means of transforming decades of underperforming buildings into better-performing buildings [1].
Contemporary research has studied the indoor environment of office buildings to identify its broad effects on the health and well-being, comfort satisfaction, productivity, and performance of building occupants [2]. These studies suggest that parameters/factors, namely thermal comfort, indoor air quality (IAQ), visual comfort, and acoustic quality, together (collectively known as the indoor environmental quality (IEQ)) are the major factors responsible for workers’ comfort, productivity, and well-being [3,4].
That said, there is growing evidence that the relationship between IEQ and workers’ productivity is exaggerated. Byrd and Rasheed [5] argued that the expectation of an optimal IEQ, which increases worker productivity, is non-existent. The authors pointed out that despite a building’s compliance with IEQ criteria, workers will still resort to exceptional measures to alter their working environment in a bid to achieve comfort. They noted the existence of “other” factors prevalent in the office environment that may have a greater influence on worker productivity than IEQ, such as “loss of sleep”, “workload”, being “undervalued at work”, and “poor management”. Rasheed et al. [1] supported this notion when they found that IEQ factors were better predictors of comfort than productivity, suggesting that other factors not captured in their study may have a more significant effect on workers’ productivity. These “other factors” influence the design of the work environment as opposed to the architectural outer shell and technical installations of the building.
Some of these “other factors” in the work environment that affect worker comfort and productivity have been acknowledged by research. For example, past works have noted that the building occupants’ satisfaction is affected by factors like layout, control over the indoor environment, size, and aesthetics [6,7]. Another set of studies highlighted the effect of office layout, availability of amenities, and cultural diversity on worker comfort satisfaction and building performance [7,8,9,10,11,12,13,14] and identified safety and security, layout, storage, and privacy as common problems associated with building performance.
Despite the opposing views, there is a collective understanding that an appropriate work environment is necessary for workers’ comfort and productivity. However, what constitutes a proper work environment remains debatable because it is multi-faceted, with various interrelated and interdependent factors at play. Therefore, this current study focuses on the “other factors” by investigating their impact on worker comfort, satisfaction, and productivity in the workplace. Those other factors include the office type, remote working, safety and security, cleaning frequency, office facilities, sustainable measures and practices, cultural connections, and diversity and inclusion. Thus, we intend to gain insights into the aspects of the workplace where workers’ preferences lie. In the subsequent section, the pertinent literature is reviewed, culminating in a clear demonstration of the rationale for the current study. After the review, the methods section describes the study approach, sampling, data collection, and analysis methods. The results and discussion sections follow, and finally, the paper concludes with the study’s insights, limitations, and future research.

2. Workplace Design and Productivity

There is a current shift from traditional workplace design to creating workplace experiences. As more than 90% of human activity occurs indoors [15,16], workplace design must focus on supporting workers’ work experiences [17,18].
Designing the appropriate workplace that supports workplace experiences considers the various interrelated and interdependent factors. These include physical, environmental, social, and personal factors that create the complex relationships between worker comfort and productivity and work environments [19,20]. For example, Danielsson et al. [19] depicted that the workplace environment could substantially influence female employees more than male employees due to differences in their sensitivities towards the work environment and noise disturbances.
While environmental factors are recognised as the central focus of workplace research and are significant players in this relationship, the part played by other factors is often generalised. Most times, anthropometrics and ergonomics pre-eminently oversimplify the multi-faceted influence of these other factors on worker comfort and productivity in workplace designs. However, recent research has highlighted the need for evolving design theories and ideas in the physical structure of work environments.

2.1. Other Factors in Workplace Design

Recent research indicated that the workplace comprises various factors in constant complex relationships impacting workers’ comfort, well-being, satisfaction, and even productivity. Byrd and Rasheed [5] highlighted this when they proved that social factors such as loss of sleep, individual health/well-being, workload, poor management, and being undervalued at work outweighed environmental factors (temperature, lighting, air quality, and noise) for their impact on workers’ productivity. They maintained that these “other” factors should be given due attention in research and the design of future workplaces.
For example, the emergence of more efficient open-plan offices and flexible working spaces from conventional cellular and traditional “static” offices results from the increasing awareness that workers require more social connections and interactions. By definition, conventional cellular or enclosed workplaces are designed to provide a private room for one or two individuals. At the same time, open-plan offices lack interior walls, leading to a high capacity of individual workers in distinct workspaces [21].
The benefits and limitations of both cases are prominent. Cellular offices are known to increase solitude, lessen undesirable interference [22], and surpass open-plan office designs for indoor environmental quality (IEQ) performance [21]. However, open-plan offices are aesthetically charming and easier to redesign when a different population fits in. Due to this reason, open-plan offices have become a well-liked workplace design precisely for offices desiring to lower stable overheads and expand the worker population [23]. Some studies have attributed the greater worker satisfaction in open-plan offices to enabling teamwork and coordination [24]. De Paoli et al. [25] observed that most workers in a new building prefer open and flexible workplaces as it helps them enhance knowledge sharing, coordination, and innovation. Common limitations of open-place offices include loss of privacy, prevalent noise, and being unsuitable for technical and concentrated tasks [24].
The recent COVID-19 outbreak has seen an unprecedented change in working style—introducing a new normal of working from home (WFH) [26]. Vyas and Butakhieo [27] noted that the COVID-19 restrictions offered a unique perspective on how well WFH works. The authors pointed out that WFH may be essential to reshaping the current working style structure and allowing for more flexibility in the work environment. Although the benefits are laudable, especially considering the financial burden on workers for transportation and lack of work–life balance, it may be too soon to “call it”. Research evidencing how the layout and other aspects of a home affect workers’ health, comfort, and productivity deserves focus. Although some studies have covered some aspects [28,29,30], some more investigations about how WFH (fully or partially) affects workers’ physiological and psychological reactions to stress and presenteeism are required [31].
The role furniture and office layout play in creating a workplace experience is established. The comfort and health implications of a particular type of furniture in the style of office layout ensure that these considerations are at the heart of every furniture design and layout plan. For example, past studies have shown the relationship between the type of furniture workers use and musculoskeletal or visual comfort [32,33] and stimulating physical activity or reduced sitting time [34,35].
Notably, the performance of furniture or the effectiveness of an office layout in supporting workers and providing required comfort is mediated by how they are used. Improper use of furniture can reduce their performance and have a negative effect on workers’ comfort, satisfaction, and productivity. For instance, Anjum et al. [36] observed that 24% of workers were least satisfied by the appearance of furniture and office layouts. Lueder and Allie [37] pointed out that designers need to consider providing training in the correct use of furniture, as many users need to be made aware of how their furniture can be adjusted to alleviate physical discomfort and potential musculoskeletal disorders.
Creating a workplace experience also means that anthropometrics and ergonomic considerations are not the only determinants of how a work environment is designed, arranged, and even furnished. For instance, greening the indoor work environment has been established to benefit health and comfort. The air-cleaning ability of plants [38,39,40] and exposure to views and scenery [41,42] are evidenced as an advantage to creating a biophilic workplace design. Lee et al. [43] noted that workers in buildings with the Green Mark (GM) Standard have superior IEQ performance than those in Non-Green Mark (NGM) buildings. Singh et al. [44] observed that green office buildings decrease perceived absenteeism, respiratory allergies, depression, and stress.
In worker-centric office designs, other considerations like diversity, equity, and inclusion (DEI) are also significant in ensuring that the work environment supports all workers. However, a limited number of studies have investigated the significance of these aspects on workers’ comfort and productivity.
DEI in the work environment entails recognising and accepting differences of employees, such as gender, age, ethnicity, religion, culture, and disability [26,45], and designing a work environment that accommodates and values the differences in their workplace experiences. The commonly investigated DEI aspects involve utilising the gender and age of the workforce to overcome discrimination and isolation while enabling equality [46,47,48]. Other limited works on the importance of DEI have been directed to harnessing the differences towards creating a productive work environment [49,50,51]. For instance, Nyagadza et al. [52] studied the Zimbabwean labour market and noted that teamwork, participation, and cohesiveness are integral to enhancing workplace DEI.
Theofanos et al. [48] pointed out that most studies solely focused on gender differences in promoting diversity in the work environment while ignoring other essential aspects such as race and ethnicity. For instance, Cherian et al. [53] evaluated the impact of multicultural work team performance at Abu Dhabi University, identifying the impact cultural diversity played in the university’s productivity levels. Mensah [54] reported on the influence of sociocultural values on job satisfaction within Ghanaian society. Salama [55] explored the relationship between leadership and cultural diversity challenges in the construction sector of Dubai.
Similar research has been conducted in New Zealand, exploring the significance of cultural diversity in the workplace. For example, Vine [56] examined the influence of an ethnicised Māori workplace on interaction patterns in workplace meetings for a Māori male manager—Caleb. The author identified Māori norms and values underlying the manager’s adoption of his interaction patterns. Schurr et al. [57] investigated how leaders in ethnically diverse (Pakeha and Māori workplaces) construct themselves as influential leaders interacting with subordinates. They noted that by behaving in ways per the norms developed in their ‘ethnicised’ communities of practice, leaders and other organisational members reinforce, maintain, and shape these politeness norms. Haar and Brougham [58] found that Māori employees who felt their cultural values were understood in the workplace reported better job outcomes and satisfaction.
An overlooked aspect of DEI is cultural connection’s role in the workplace, especially in supporting worker comfort, well-being, and productivity. Cultural connection in the workplace denotes an environment where cultural differences are represented in the design and management of work experiences. Workplace designs that acknowledge the cultural connection of their workers provide the opportunity to remain connected to one’s culture, enabling self-reflection and foundational beliefs that guide work ethics and commitments. Cultural connection is integral to creating a cohesive and conducive work environment by promoting inclusive work experiences and influencing the design of the physical workplace. As such, it is plausible to question whether a workplace that has been designed to highlight the cultural connection of workers is important to their comfort and productivity.
Our hypothesis is that an inclusive workplace design comprises all multi-faceted aspects that create a familiar yet unique work experience for each worker. An appropriate work experience will ensure a pool of talented workforce and make the organisation attractive to other stakeholders.

2.2. Problem Statement

Anjum et al. [36] noted that research needs to be conducted into how users (workers) feel about these places to establish the required improvements and facilities. Many past studies that have attempted to identify the factors influencing an appropriate work environment and understand the relationships between workers and the work environment employ objective and subjective measures. Objectively, experiments and tests are conducted to establish a link between varying indoor work environments and workers’ ability to perform assigned tasks. Subjectively, self-evaluated comfort/satisfaction/productivity indicators are captured through post-occupancy evaluation (POE) surveys [18,59,60]. POE is valuable in evaluating occupant satisfaction with the indoor environment, thereby determining whether the building performs to ensure occupants’ health and comfort and to which degree [1,25,61].
As expected, previous POE studies show that the work environment significantly affects occupants’ health, well-being, and productivity [62,63]. However, most of these studies have been dominated by specific IEQ factors in the workplace. Limited work has explored the part played by “other” factors in the workplace [64,65]. Our study focuses on these other factors, namely facilities, DEI, and sustainability, and investigates workers’ preference for their factors with respect to their comfort, satisfaction, and productivity.
Also, past studies have been limited to case studies of specific office buildings and spaces with unique work expectations and configurations. The findings and conclusions are reactive (after the fact) and not generalisable. These results in workplace designs that do not provide inclusive work experiences. Our study takes a proactive approach, rather than the prevalent reactive approach, by investigating New Zealand office workers’ preferences in their workplaces.
Our study is not limited to case study office buildings; however, we aimed to identify non-IEQ-related factors prevalent in the workplace that can affect worker comfort, satisfaction, and productivity. These factors are integral to the design of new workspaces and the retrofit of existing ones. No previous work has obtained generalisable workers’ workplace preferences that are not limited to specific case study office buildings. The findings of this study provide a more robust account of contributing factors that enable more user-centred designs for worker comfort, satisfaction, and productivity.
Also, as limited research has investigated workers’ perceptions of DEI and the possible impacts on their work experience [66], we explore the extension of DEI studies beyond cultural diversity and awareness of cultural connection. While awareness and diversity require the sentience and representation of different cultures, cultural connection ensures that workers’ traditional values and beliefs influence workplace design.
We investigate the importance of cultural connection to the design of the physical workplace. For instance, Houkamau and Sibley [67] found that Māori who are more strongly oriented towards a traditional Māori belief system are less likely to be individualistic—opting for relationships (whanaungatanga), mainly based on whakapapa, i.e., genealogy at work. Other core cultural values include generosity, caring for others, compassion (mannakitanga), and reciprocity (utu) [68,69]. Such belief systems influence workers’ preference for more inclusive and collaborative shared spaces that promote interaction in the workplace, amongst other features.
Cultural connection has not received as much attention as diversity and awareness, and most studies remain within the boundaries of establishing a relationship between these aspects and workers’ productivity. In this study, we explored the perception of workers on the importance of a workplace designed to provide a cultural connection for workers as a part of “other” factors significant to workers’ comfort, satisfaction, and productivity.

3. Methods

Our study aimed to identify non-IEQ-related (other) workplace factors influencing worker comfort, satisfaction, and productivity. To achieve this, we explore three non-IEQ aspects of the workplace using mixed methods, namely the following:
  • Facilities: such as furniture, office type, meeting rooms, working remotely/WFH, cleaning, safety, and security
  • Diversity, equity, and inclusion (DEI): These include cultural connection, gender equality, and sexual orientation. These factors were analysed with regard to cultural connection, gender equality, age, ethnicity/race, disability, and religion.
  • Sustainability: These include sustainable practices and policies. We delved into the aspects of sustainable practices that support workers’ work experience, exploring their practicality and viability to their comfort and productivity.
The research approach undertaken in the study is essentially exploratory as it aims to gain insights into the experience and interpretation of events by office occupants who have widely differing stakes and roles [70]. To address the three aspects highlighted, we conducted a perception-based study using self-evaluated questionnaires that required workers to evaluate their preferences for workplace facilities. Self-evaluation is commonly used in social science studies to retrieve participants’ opinions and perceptions in the workplace [71,72,73].
We followed a sequential approach to the development of the questionnaire by first extracting the parameters tested from the existing literature on various physical and social factors influencing workers’ comfort, satisfaction, and productivity. The questions were mostly quantitative (Q1–10), while Q11 on diversity and inclusion required a qualitative (open-ended) question. Secondly, we validated the questions (Q1–11) asked through a pilot study, and finally, we administered the questionnaire to office workers through the Qualtrics online survey platform.
The questions examined in this paper are categorised as follows (Table 1):
  • Socio-demographic information: gender, age, ethnicity, duration of residence in NZ and work, and time spent in workspace type and location.
  • Workplace parameters tested: furniture, office type, meeting rooms, working remotely/WFH, cleaning, safety and security, cultural connection, and sustainable practices.
The target population was office workers across New Zealand. At the time of conducting this study, there is no information on the number of office workers (employees who occupy office spaces) in the country. Also, simple regression analysis was deemed sufficient to achieve the aim of our study because it helps to describe the correlation between an independent and dependent variable (in this study, the relationship between non-IEQ-related workplace factors and worker comfort, satisfaction, and productivity [74]. According to Hair et al. [74], simple regression analysis needs at least 50 samples and generally 100 samples for most research situations. As such, we aimed for a minimum of 100 samples of office workers in New Zealand.
The questionnaire was distributed across the country via online platforms between November 2020 and February 2021, during the summer season in New Zealand. A total of 204 responses were collected, and 149 (38.8%) were deemed viable for analysis using IBM SPSS 24 [75,76].
The respondents’ demographic is mostly female (61%) and younger people aged between 30 and 49 and below 30 years (71.9%). The workers have different ethnicities; however, most are Europeans (38.3%) and Asians (37.6%). Furthermore, nearly all workers have lived in New Zealand for more than 1 year (98%), with a majority having lived between 1 and 10 years (43%).
The study participants are well familiar with their workspace and indoor environment, as most of the workers spend 8 h or more at the buildings (69.8%), have worked in the current building (76.5%), and the workspace for a year or more than a year (65.1%). Also, most workers share the workspace with more than eight other co-workers in cubicles or open-plan offices (38.3%). Table 2 shows the demographic variables of concern in the study. We believe these variables capture much of the variation that might influence office worker preferences of non-IEQ factors at their workplace. We acknowledge other demographic, professional, and personal factors that could potentially influence an individual’s preferences for their work environments. We have held certain control variables constant to prevent their interference with the study findings, such as workers’ cadre/position, which may determine their workplace configuration; previous work environment, where past experiences may shape current preferences; physical ability/disability, which may influence workplace features; and personality traits (introversion/extroversion), which may affect preferences for layouts.
As the study aims to identify non-IEQ-related workplace issues that affect worker comfort, satisfaction, and productivity, the data scales were ordinal, and data were analysed using descriptive and content analysis.
The results for each parameter investigated are presented based on the following categories, namely gender, age, time spent in NZ, type of workspace, type of building, and proximity. Each parameter is critically analysed based on its mean, standard deviation, frequency of responses, and opinion differences.
The mean shows the value that appears most frequently in a data set, while the standard deviation measures how dispersed the responses are with the mean. As the data are categorical, the cross-tabulation Chi-square test of goodness of test with a confidence level of 95% was used to determine if there is a statistically significant correlation between the demographic variables and workers’ preferences [77]. Chi-square has been used in past works to test for correlations, associations, and differences [78,79].

4. Presentation of the Results

The chi-square goodness-of-fit test showed a significant association between preference for all the variables tested and all the demographic groups (p > 0.05). This means that their responses for each variable were influenced by their demographics. The results for each variable are presented in the following subsections.

4.1. Opinions on Facilities in Workplaces

4.1.1. Sufficient and Appropriate Furniture

The occupants were asked whether sufficient and appropriate furniture was available to carry out the routine work in the workspace. Table 3 presents the occupants’ preference rating on the availability of furniture. Generally, the majority (79.51%) preferred no change in the current availability of furniture in the office space (M = 1.86; Std Dev = 0.43). This was followed by some workers who felt the furniture was insufficient and wanted more furniture (17.21%), while very few indicated they wanted less furniture in their workspace (3.28%). The chi-square goodness-of-fit test showed a significant association between preference for furniture and all the demographic groups (p > 0.05). This means that their demographics influenced their responses on the sufficiency and appropriateness of the furniture in their workplaces.

4.1.2. Office Layout

Office layout is another factor that must be considered when designing the workspace. Table 4 includes the occupants’ response towards current office layouts of their offices. Possible suggestions given to the occupants are private rooms, cubical/open-plan offices, duo offices, shared offices with 2–4 others, and shared with 5–8 others.
The chi-square test of goodness-of-fit showed that there was a significant association between preference for office layout and all the demographic groups (p > 0.05), except for the type of workspace. This means there was a significant difference in workers’ opinions based on their current type of workspace, i.e., whether they share their workspace with another worker(s) or not (p = 0.04).
Generally, more (38.52%) preferred private offices (M = 2.48; Std Dev = 1.52). This was followed by cubical/open-plan offices (22.13%). The next preferred office space was the shared office with 5–8 other workers (16.39%) and shared with 2–4 others (14.75%). Duo office spaces were the least preferred workspaces (8.20%).
The majority preferred private rooms, showing how occupants value their privacy and upkeep concentration on their work.

4.1.3. Meeting Rooms

Table 5 summarises the workers’ responses to their preferred meeting room choice. As shown in the table, most of the workers prefer a conference room away from their workspace, followed by those who prefer a meeting room within the office with a comfortable seating area. Very few prefer a workspace with chairs opposite their desk.
Interestingly, the perception of workers was generally consistent on having meeting spaces away from their workspaces or within the workspace who spend more time in the office (46.7%; 45.3%) and those who work in educational buildings (for example, lecturers and administrators) (46.2%; 44.6%), respectively. In both cases, having chairs opposite their desks for meetings was least preferred.
The chi-square test of goodness-of-fit performed showed that there was a significant association between preference for meeting rooms and all the demographic groups (p > 0.05).

4.1.4. Working Mode (Home or In-Office)

The respondents were asked to identify their preferred working mode. These included working in the office, a combination of working from home and in the office, and working remotely (working from home or anywhere else). The responses are summarised in Table 6.
The chi-square test showed that there was a significant association between preference for the working mode and all the demographic groups (p > 0.05), except for age and proximity. This means that their responses differed significantly for both demographics (p = <0.000; 0.003, respectively).
As seen from Table 6, most workers surveyed indicated they like to work remotely for a few days and in the office on other days. Another considerable number of occupants indicated they prefer to work in-office only. The next preferred working mode was anywhere else (not from home or the office), and the least was working from home.
Unlike other variables tested, the responses to this question varied amongst some demographics of the respondents. Workers under 30 years old preferred to work in any way else that is not at home or in the office (38.1%), while those above 30 years old preferred a combination of home and office work modes (46.5%; 53.4%).
Workers who shared office space with one other person (60.7%), whose desk spaces are located at the centre of the workspace (48.3%), and those who work in “other” building types (39.3%) preferred to work mostly in the office. In contrast, the rest of the groups preferred a combination of home and office work modes.

4.1.5. Cleaning

The workers were asked about their preference for the frequency of cleaning at their workplace, and the results are summarised in Table 7.
As expected, the respondents’ preferences for cleaning showed that the majority preferred to have their workspaces cleaned daily. This is followed by weekly cleaning. Only very few respondents prefer their workplaces to be cleaned every month. Therefore, facilities managers can schedule the cleaning parties according to the type of cleaning. For example, emptying the garbage bins and cleaning the bathrooms can be scheduled daily, while vacuuming can be performed weekly. The cleaning jobs that need monthly attention are cleaning and disinfecting office furniture and equipment.
The chi-square test of goodness-of-fit performed showed that there was a significant association between preference for cleaning patterns and all the demographic groups (p > 0.05), except for gender (p = 0.017) and age (p = 0.02).

4.1.6. Safety and Security Systems

In workplace design, safety and security systems play a considerable role in assuring a peaceful environment for people to carry out their work. For this variable, the respondents were asked to choose the safety and security systems they preferred to have in their workspaces. They could choose more than one system. The results are presented in Table 8.
Regarding building type, more workers in commercial buildings voted for access control (67.7%) and fire safety (63.4%) as preferred systems in the workplace. In educational buildings, more workers voted for fire safety (63.4%), lockable storage, and access control (56.1% each) as preferred systems. Workers in home offices voted most for access control (80%) and other (100%) as the preferred security and safety systems in their workplace.
In their opinion, by age, most of the workers below 30 years old voted for fire safety (79.1%) and access control (74.4%) as preferred systems in their workplace. More workers between 30 and 49 years old preferred to have access control (60.9%) and fire safety (56.3) in their workplaces. Workers between 50 and 65 years old voted mostly for ‘other’ systems (100%) and access control (65%) as preferred systems. The respondents who are aged 65 years and above all voted for lockable storage, CCTV cameras, cybersecurity, and other systems as preferred systems (100%).
Regarding gender, access control received the most votes amongst male (64.8%) and female workers (67%), although more female workers voted in favour of access control. For male workers, fire safety (59.3%) and lockable storage (51.9%) followed suit. For female workers, fire safety was the second most voted system (65.9%), followed by lockable storage (50.5%). Workers with no identified gender voted for lockage storage, cybersecurity, and other systems, which preferred security and safety systems in the workplace.
Generally, all the safety and security systems given in the list were selected by the respondents. However, many prefer access control (65.8%) and fire safety (62.4%) as must-have security and safety systems in the workplace. This was followed by lockable storage (49.7%), cybersecurity (43.6%), and CCTV cameras (39.6%). Other systems received the least number of votes (3.4%), including earthquake resilience of the office buildings.

4.1.7. Preferred Facilities

The respondents were asked to select the facility they prefer to have in their workplace to support their tasks. These included more storage, private toilets, lifts, lounge/cafeteria, parking lot, staircases, and others.
As shown in Table 9, more workers in commercial buildings prefer having lounges/cafeterias (58.1%) in their workplaces. This is followed by private toilets (46.2%) and parking lots (44.1%), staircases (29%), lifts (28%) and more storage (21.5%). Twenty-five per cent (25.8%) of the workers noted a preference for other facilities. More workers in educational buildings also prefer having lounges/cafeterias (53.7%), followed by parking lots (43.9%) and private toilets (34.1%). Those in home offices prefer having more parking spaces and lounges/cafeterias (40% each).
Half of the workers aged 65 years old and above voted for more storage, private toilets and parking spaces. Those between 50 and 65 years old voted most for lounge/cafeterias (55%) and parking spaces (50%) in their workplace. This was followed by private toilets (40%) and lifts (30%). Fifty-one per cent (51.6%) of workers within the age range of 30–49 years old voted for lounge/cafeterias, 39.1% voted for private toilets, 35.9% voted for parking spaces, and 28.1% voted for lifts. More storage received 25% of the votes, while 20.3% voted for staircases and other facilities. For workers below 30 years old, more workers voted for lounge/cafeteria as a preferred facility in the workplace (62.8%). This was followed by parking spaces (48.8%), private toilets (44.2%), staircases (25.6%), and lifts (18.6%). The systems that received the least votes were more storage and other systems (16.3% each).
In their opinion by gender, most of the male and female workers preferred having lounges/cafeterias (48.1% and 57.1%, respectively). For the male workers, parking spaces were the second most voted facility (46.3%), followed by private toilets (31.5%) and lifts (22.2%). Private toilets received the second-highest votes from female workers (45.1%). Parking lots followed this with 42.9% of their votes. Staircases and lifts received 30.8% and 28.6%, respectively. More storage and other facilities received 5.88% each of the votes from female workers.
Generally, most of the workers preferred having a lounge/cafeteria in their workplace (55%). This was followed by parking lots (43.6%) and private toilets (40.9%). Lifts and staircases received 25.5% and 22.1% of all the votes, respectively. More storage received 21.5% of the votes, while other facilities received 18.8% of the votes as preferred facilities in the workplace. The other facilities identified by workers included having a convenience shop near the office, a decent kitchen or kitchenette to cook lunch, bike storage, more showering facilities and meeting rooms, a gaming area, a gym, quiet rooms, and end-of-trip facilities.

4.2. Sustainable Practices

The workers were required to choose the most practical among 17 sustainable measures in the workplace. They were allowed to choose more than one option. The results are depicted in the figures below and discussed based on the age, gender, and building type of the workers surveyed.
From Table 10, reusing kitchen utensils was voted the most as a practical (64.5%) sustainable measure in commercial buildings. This is followed closely by turning off computers outside work hours (63.4%) and using motion sensor lighting (54.8%) and LED light bulbs (53.8%). Opening windows and doors (52.7%), adjusting clothing when cold or too warm, and having more recycling bins received 51.6% of the votes. Having more indoor plants also received votes from most workers in commercial buildings (50.5%). In educational buildings, only using more LED light bulbs (53.7%) and turning off computers outside work hours (51.2%) were voted by most workers as practical, sustainable measures. For workers in home offices, two measures were voted by most workers—using motion sensor lighting and opening windows and doors when required (53.3% each).
Regarding age, the measures voted by most workers under 30 years old include turning off computers outside work hours (62.8%), using motion sensor lighting (55.8%), using LED light bulbs (53.5%), turning off printers outside work hours, and reusing kitchen utensils (51.2% each). For workers aged between 30 and 49 years old, the sustainable measures voted as practical include opening doors and windows when required (57.8%), turning off computers outside work hours (56.3%), using more LED light bulbs, and having more indoor plants (53.1% each). Workers between 50 and 65 years old voted mostly for turning off computers outside work hours, having more recycling bins in the workplace, and opening windows and doors as required (57.5% each). These measures were followed by adjusting clothing when cold or too warm and reusing kitchen utensils (55% each). The next most voted measures were using more LED light bulbs and having more indoor plants (50% each). Fifty per cent (50%) of workers above 65 years old voted for adjusting clothing when cold or too warm, turning off computers outside work hours, reusing kitchen utensils, using more LED light bulbs, having more indoor plants, and opening windows and doors as required.
The sustainable measures voted as most practical by most of the male workers were turning off computers outside work hours (61.1%), opening windows and doors as required (57.4%), having more recycling bins in the workplace (53.7%), using more LED light bulbs, and adjusting clothing when cold or too warm (51.9%). Other measures, namely turning off kitchen equipment outside work hours and using motion sensor lighting, were voted by 50% of the male workers as practical. For female workers, turning off computers outside work hours (57.1%) and using more LED light bulbs (52.7%) were voted the most practical, sustainable measures.
Overall, the results show that turning off computers when not in use was the most practical sustainable measure for workers in the workplace (58%). This is followed by using more LED light bulbs (52.3%), opening windows and doors when required (51%), using motion sensor lights (50.3%), and having more recycling bins in the workspace (49.7%). Adjusting clothing when cold or too warm and reusing kitchen utensils received 4.7% votes each. Forty-six per cent (46.3%) voted for having more indoor plants, and 41.6% voted for turning off printers outside work hours. The rest of the votes are provided in the figures above.
In addition, we questioned whether workers would want mandatory sustainable practices in their workplaces. Most of the respondents answered yes (57%) and I do not mind (35%) to this question. Only 8% of the workers would not appreciate making sustainable practices mandatory in the workplace.

4.3. Cultural Connection

Workers were asked to rate the importance of integrating cultural connection in the design and creation of their workplace. The responses range from very important (4) to not at all (1). The mean score and standard deviation (SD) were calculated, which indicates how close the responses are to the mean value (see Table 11).
Regarding their opinions on building type, 26.9% of workers in commercial buildings did not find cultural connection as an important feature of their workplace, while 22.6% each found it as moderately or very important. Fourteen per cent (14%) perceive it as slightly important. Cultural connection was found to be slightly important and not important (29.3 each) by workers in educational buildings. The rest found it to be moderately or very important (19.5% each). For home offices, cultural connection was mostly regarded as not important (46.7%) and slightly important (13.3%). Only 20% of the workers felt it was moderately and very important in their work environments.
For age, cultural connection was regarded as not important by workers who are below 30 years old (32.6%). Workers between 30 and 49 years old perceived it as very important (37.5%). Most of the workers between 50 and 65 years old voted it as not important (27.5%), followed by those who voted it as very important (25%).
Based on gender, most male workers did not think cultural connection was an important aspect of their workplace (37%). Others saw it as slightly and moderately important (20.4% each), while 22.2% felt it was very important. For female workers, more of them voted cultural connection as very important (28.6%) and not important (25.3%). The rest felt it was moderately important (22%) or slightly important (16.5%).
Overall, our results showed that workers perceived that cultural connection in the workplace design is a slightly important feature with a mean value (m) of 2.45 (SD = 1.19; min value = 1; max value = 4). Interestingly, 31.2% of the workers surveyed do not perceive cultural connection as important in their workspaces. The rest of the workers surveyed regarded cultural connection as slightly important (19.1%), moderately important (22.7%), and very important (27%) in their workplaces.

5. Discussion

Today’s organisations are largely focused on creating workplace experiences that are conducive to workers and enable productivity. Creating appropriate workplace experience—a situation where the workplace supports the required deliverables expected of the worker—remains essential to aligning workplace activities to the strategic goal of organisations. Poor working conditions contribute to workers’ low performance and well-being. In this study, we investigated NZ workers’ preferences for an ideal office, exploring various factors in the workplace that research has proved to impact workers’ comfort, well-being, and productivity. We analysed the vote counts for each factor tested based on the respondent’s demography.
For most of the factors, workers’ preferences did not differ based on their demographics except for a few factors (p > 0.05). For example, workers’ preferences for office layout differed based on whether they shared offices or not (p = 0.04). Those in private offices shared offices with 2–4 others, and those in open-plan offices preferred private offices. Workers who shared offices with one other person preferred sharing with 2–4 people, while those who shared with 5–8 people were happy to continue sharing with 5–8 people in their workspace. Also, workers’ age and desk proximity influenced their preferences for their working mode (p < 0.001; 0.003, respectively). For instance, workers below 30 years old prefer to work anywhere else that is not an office or at home, while those between 30 and 65 years old prefer a combination of working from home and in the office. Likewise, workers with desks close to a window or external wall prefer a combination of working from home and in the office, whereas those with desks at the centre of the office space prefer working in the office. Supporting our findings, Bae et al. [22] found that in medium age groups (35–54 years old), women may be more affected by the type of workplace. Khoshbakht et al. [79] showed that women and older people were more easily distracted and that unwelcome interruptions had a significantly higher negative impact on their productivity. This supports past works that refute the generalisation of findings without acknowledging the effect of the diverse characteristics of individuals on their perceptions and opinions [5,65].
Generally, workers noted that no change is required to the furniture in their workspaces. They prefer being in private offices and having conference/meeting rooms away from their desks. Workers favour a combination of working from home and in the office and having their workspaces cleaned daily. For safety and security systems, the workers surveyed voted access control and fire safety as the preferred systems in their workplaces. The other important system identified is the earthquake-proofing of their office buildings. Past works support these findings. For example, Rahanjam and Ilbeigi [80] note that office user satisfaction was influenced by the quality, cleanliness, and safety of offices. Vischer and Wifi [21] noted that private rooms provide more solitude and have less interference. Rasheed et al. [65] observed the preference for private offices in their study, while Haapakangas et al. [28] showed that workers become distracted in larger workgroup settings in the workplace.
Research on the impact of working from home on worker comfort, well-being, and productivity is still evolving. In support of our findings, past works have shown the benefits of working from home and in the office. The benefits of working from home include a flexible schedule, cost-saving for transportation, better work–life balance, and fewer work-based distractions [30,81,82]. On the other hand, working full-time from home can have adverse effects on presenteeism and lead to a decline in social support and worker productivity [31]. Similarly, previous studies noted that workers prefer to work in the same spot after a while, indicating that remote work should be introduced cautiously [26,82].
Regarding workplace facilities, the workers wished for more lounges and cafeterias, parking spaces, and private toilets. Interestingly, more workers voted for having lifts rather than staircases as a must-have facility in the workplace. Worthy of note is the high percentage of other factors voted by workers. The most prominent other factor was showering facilities. Mulyapradana et al. [14] pointed out that a well-set-up office layout and equipment (facilities) are required to support work activities. As emphasised by Chandrasekar et al. [69], a poorly designed work environment negatively impacts the degree of creativity and cooperation of workers.
For sustainable measures that are practical for workers, they voted for turning off computers outside work hours, using more LED light bulbs in the office, opening windows and doors when required, and using a motion sensor lighting system. Workers in commercial buildings favour reusing kitchen utensils as the most practical, while those in educational buildings opt for using more LED light bulbs. Those in home offices voted for opening windows and doors when required and more LED light bulbs. There was not a notable difference in opinions based on workers’ age and gender. As expected, most workers would welcome mandatory sustainable practices in their workplaces.
Despite efforts by research to show the significance of cultural connection in the workplace, our respondents felt it was not an important aspect of workplace design. Most workers in our sample population felt it was only slightly important to their comfort, well-being, and productivity (m = 2.45). Specifically, more male workers found it to be unimportant in the workplace than female workers. Only workers aged 30–49 years old found it to be important, while more workers in commercial buildings voted it as important than those in educational buildings.
Table 12 and Table 13 deductively summarise the findings of this study. Table 12 shows the facilities that respondents prefer to have in their workplaces. These facilities fall into the category of “other” factors in the workplace and are noted to have an impactful influence on workers’ work experience and impact their comfort, well-being, and productivity. Table 13 depicts the sustainable measures in the workplace regarded as practical for workers.

6. Conclusions

Office workers’ preferences regarding New Zealand office design, facilities, and diversity inclusion were investigated in the current study. These aspects are important to promote the design and creation of appropriate work experiences for worker comfort, well-being, and productivity. A survey was conducted on workers in office buildings in New Zealand. The subjective responses collected from workers were analysed and discussed based on their demographics to identify the occupants’ preferences.
Considering most of the responses given by occupants, several insights are worth noting. Office occupants prefer to have private rooms and separate meeting rooms away from the seating area so that they will not be distracted from work. In terms of facilities, remote working for a few days is preferred due to concerns about employee productivity and performance and working parents. The preferred safety and security systems are access control and fire safety systems, and there were expectations for the workplaces to be cleaned daily. Practical, sustainable measures noted were turning off computers outside work hours and using more LED light bulbs. These preferences could be considered key performance indicators for office designs and for which future post-occupancy evaluations could be undertaken. This could lead to long-term positive impacts on workplace comfort and productivity.
Our study findings highlight some significant scientific contributions. Firstly, our study is one of the few studies that have focused on the significance of non-IEQ-related (Other) factors to worker comfort and productivity, especially in New Zealand. Also, our study offers further support for the need to highlight the importance of considering these other factors in the design of future workplaces. Specifically, our study opens the opportunity for more studies in this area of research and highlights significant findings worthy of critical investigations.
That said, we acknowledge the limited data collected. Further studies are required with a larger sample for results to be generalised (or not) across New Zealand. Similarly, there are potential limitations to generalizing the study findings to countries with significantly different building types, environmental conditions, and levels of technological development. Thus, future studies may undertake a comparative analysis of different contextual backgrounds and demographics, which may yield a more nuanced interpretation of our results and their broader implications. Also, our study was limited to non-IEQ-related factors, meaning future studies will be needed into other factors that are related to IEQ in the workplace. In the same vein, the study acknowledges other variables, such as workers’ cadre/position, previous work environment, physical ability/disability, and personality traits that may influence office worker preferences. These are treated as control variables in this study, and we suggest future studies consider them. Finally, it would be interesting to compare non-IEQ and IEQ-related factors regarding their relevance to worker comfort and productivity.
In summary, the results of this current study make a valuable contribution to the establishment of a standardised POE protocol for office buildings in New Zealand. This includes essential insights into user preferences for office design, facilities, and diversity and inclusion. This research programme highlights the significance of users’ opinions and their interactions with buildings, supporting a shift to a more holistic and user-centric approach to the management of facilities. This approach prioritises the needs, preferences, and experiences of building occupants in the design, management, and evaluation of office buildings. These have ramifications for the achievement of broader sustainability targets through resource efficiency, sustainable design practices, and occupants’ sustainable behaviours.

Author Contributions

Conceptualization, J.O.B.R. and E.O.R.; methodology, E.O.R.; validation, E.O.R.; formal analysis, E.O.R.; investigation, J.O.B.R. and E.O.R.; resources, J.O.B.R. and E.O.R.; data curation, J.O.B.R. and E.O.R.; writing—original draft preparation, E.O.R.; writing—review and editing, E.O.R. and J.O.B.R.; visualization, J.O.B.R.; project administration, J.O.B.R.; funding acquisition, J.O.B.R. All authors have read and agreed to the published version of the manuscript.

Funding

This research was funded by the Facilities Management Association, New Zealand Foundation (Ref: 3000037745).

Institutional Review Board Statement

The study was conducted in accordance with the Declaration of Helsinki and approved by the Massey University Human Ethics Committee (approval code: 4000021079 (Low Risk) and approval date: 29 June 2020).

Informed Consent Statement

Informed consent was obtained from all subjects involved in the study.

Data Availability Statement

The data presented in this study are available on request from the corresponding author.

Conflicts of Interest

The authors declare no conflict of interest.

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Table 1. Questions to evaluate office occupants’ perceptions and preferences.
Table 1. Questions to evaluate office occupants’ perceptions and preferences.
ParameterQuestions (1–11)Response Options
Furniture Q1: Is the furniture in your workspace sufficient and appropriate for the work you do?Want more; No change—OK; Want less
Office typeQ2: What type of office layout do you prefer as your workspace?Private; Cubical/Open-floor plan; Duo (shared with 1 other); Shared (shared with 2–4 others); Shared (shared with 5–8 others)
Meeting RoomsQ3: How do you prefer the availability of meeting rooms for use? With an adjoining conference room; Within the office with a comfortable seating area; At workspace with chairs opposite my desk
Working RemotelyQ4: Would you rather work remotely or in-office?Remotely (anywhere else); Remotely (from home); Half remotely/half in-office; In-office
Safety and SecurityQ5: What type of safety and security systems do you prefer in your workspace?Lockable storage; CCTV cameras; Access control; Fire safety; Cybersecurity; Other—Yes or No
CleaningQ6: How frequently would you prefer your workspace to be cleaned?Daily; Weekly; Monthly
FacilitiesQ7: Which facility(s) do you prefer in your office building?More storage, more private toilets, lifts, lounges/cafeterias, more parking lots, staircases, others (please specify)—Yes or No
Sustainable MeasuresQ8: Which of these sustainable measures do you think is practical in your workspace?Less use of artificial lighting; Less use of air conditioners (HVAC); Adjusting clothing when cold or too warm; Turning off computers outside work hours; Turning off printers outside work hours; Turning off kitchen equipment outside work hours; Reusing kitchen utensils (cups, cutlery and plates); More use of LED light bulbs; Use of motion sensor lighting; Less use of hot water; More indoor plants; Have more recycling bins in the workspace; Have a compost bin in the workspace; Opening windows and doors as required; Less use of dishwashers; Less use of microwaves; Other (please specify)—Yes or No
Mandatory sustainable practice Q9: Would you like a mandatory sustainable practice standard in your office building?Yes; No; I do not mind
Cultural ConnectionQ10: How important is a cultural connection in your workspace to your ability to work?Not at all; Slightly important; Moderately important, Very important
Diversity and inclusionQ11: Please state what you would like to have in your office that makes it more inclusive of workers’ diversity.Open-ended question
Table 2. Participants’ background information.
Table 2. Participants’ background information.
DemographynPercentages
Gender14961.1 (Female) 36.2 (Male)2.7 (prefer not to say)
Age14943.0 (30–49 years)28.9 (Below 30 years)26.8 (50–65 years)1.3 (above 65 years)
Ethnicity14938.3 (European)37.6 (Asian)15.4 (Other)6.7 (Black, Middle Eastern)2 (Māori, Pasifika)
Time spent in NZ14943 (1–10 years)40.9 (More than 20 years)14.1 (11–20 years)2 (Less than a year)
Normal work base14990.6 (Yes)9.4 (No)
Time spent in the office building14976.5 (A year or more)23.5 (Less than a year)
Time spent in present workspace14965.1 (A year or more)34.9 (Less than a year)
Time spent in office building each day14969.8 (8 h or more)30.2 (Less than 8 h)
Type of office
building14961.7 (Commercial)27.5 (Educational)10.1(Home Office)
Time spent working at the computer each day14954.4 (Less than 8 h)45.6 (8 h or more)
Private or shared workspace14938.3 (Cubical or Open plan)20.8 (Private office)18.1 (Shared with 2–4 others)12.8 (Shared with 1 other)10.1 (Shared with 5–8 others)
Workspace location14960.4 (Close to a window within 1.5 m20.1 (Close to an exterior wall within 1.5 m19.5 (At the centre of the office)
Table 3. Office workers’ preference rating on furniture.
Table 3. Office workers’ preference rating on furniture.
DemographyMeanSDWant More (%)No Change (%)Want Less (%)Chi-Square Test
GenderMale1.8510.40816.781.51.9X2 = 1.194
p = 0.879
Female1.8460.46919.875.84.4
Prefer not to answer1.7500.50025.075.00.0
AgeBelow 301.7440.44125.674.40.0X2 = 5.846
p = 0.441
30–491.8440.47920.375.04.7
50–651.9500.38910.085.05.0
Above 652.0000.0000.0100.00.0
Time Spent in present workspaceLess than a year1.7500.51928.867.33.8X2 = 5.495
p = 0.064
More than a year 1.8970.39513.483.53.1
Time spent in office each dayMore than 8 h1.7330.49528.968.92.2X2 = 4.410
p = 0.110
Less than 8 h1.8940.41614.481.73.8
Type of WorkspacePrivate office1.7420.44525.874.20.0X2 = 8.837
p = 0.356
Shared with 1 other 1.9470.52415.873.710.5
Shared with 2–4 others1.7780.42422.277.80.0
Shared with 5–8 others 1.8000.56126.766.76.7
Cubicle/open plan office1.9120.39112.384.23.5
Proximity1.5 m close to a window/door1.8780.39214.483.32.2X2 = 8.632
p = 0.71
1.5 m close to an exterior wall1.8670.57123.366.710.0
At the centre of the office1.7240.45527.672.40.0
Type of BuildingCommercial1.8500.48820.474.25.4X2 = 7.822
p = 0.098
Education1.9020.3009.890.20.0
Home Office1.6670.48833.366.70.0
Table 4. Preference rating on office layout.
Table 4. Preference rating on office layout.
DemographyMeanSDAlone (%)Cubicle/Open-Floor (%)Shared with 1 Other (%)Shared with 2–4 Others (%)Shared with 5–8 Others (%)Chi-Square Test
GenderMale2.7961.69838.99.313.011.127.8 X2 = 5.839
p = 0.665
Female2.6041.57040.79.915.416.517.6
Prefer not to answer1.5001.00075.00.025.00.00.0
AgeBelow 302.3491.60253.54.79.328.614.0X2 = 17.713
p = 0.125
30–492.8131.63235.910.912.517.223.4
50–652.7001.62037.510.022.55.025.0
Above 652.5000.7070.050.050.00.00.0
Time Spent in present workspaceLess than a year2.4231.60148.111.55.819.215.4X2 = 8.386
p = 0.078
More than a year2.7631.61237.18.219.611.323.7
Time spent in office each dayMore than 8 h2.1711.48554.311.45.720.08.6X2 = 5.841
p = 0.211
Less than 8 h2.7901.62736.88.817.512.324.6
WorkspacePrivate office1.9361.18154.812.916.116.10.0X2 = 27.091
p = 0.04
Shared with 1 other3.3161.60026.321.121.131.60.0
Shared with 2–4 others2.9261.85940.711.111.137.00.0
Shared with 5–8 others3.4671.59820.06.720.013.340.0
Cubicle/open plan office2.4571.53643.910.517.512.315.8
Proximity1.5 m close to a window/door2.9561.62833.37.814.418.925.6X2 = 11.571
p = 0.171
1.5 m close to an exterior wall2.0671.48456.713.310.06.713.3
At the centre of the office2.2761.48648.310.320.76.913.8
Type of BuildingCommercial2.6561.63841.98.612.915.121.5X2 = 9.285
p = 0.319
Education2.8541.63636.64.919.514.624.4
Home Office2.0001.25446.726.713.36.76.7
Table 5. Preference rating on meeting rooms.
Table 5. Preference rating on meeting rooms.
DemographyMeanSDAway from Workspace (%)Within the Workspace (%)Opposite My Desk (%)Chi-Square Test
GenderMale1.5370.60551.942.65.6X2 = 1.058
p = 0.901
Female1.5170.61954.938.56.6
Prefer not to answer1.2500.45275.025.00.0
AgeBelow 301.4490.69766.721.711.6X2 = 00.717
p = < 0.069
30–491.5180.61754.539.16.4
50–651.5540.50144.655.40.0
Above 651.5000.57750.050.00.0
Time Spent in present workspaceLess than a year1.5470.64553.538.48.1X2 = 0.789
p = 0.674
More than a year1.4880.59256.238.94.9
Time spent in office each dayMore than 8 h1.6130.63446.745.38.0X2 = 2.846
p = 0.241
Less than 8 h1.4620.59659.035.85.2
WorkspacePrivate office1.5850.69252.835.811.3X2 = 12.834
p = 0.118
Shared with 1 other1.2260.42577.422.60.0
Shared with 2–4 others1.5480.77261.921.416.7
Shared with 5–8 others1.4440.57759.337.03.7
Cubicle/open plan office1.5580.52045.352.71.1
Proximity1.5 m close to a window/door1.4720.59157.637.54.9X2 = 1.616
p = 0.806
1.5 m close to an exterior wall1.5390.64153.838.57.7
At the centre of the office1.5770.63750.042.37.7
Type of BuildingCommercial1.4470.55958.538.43.1X2 = 5.748
p = 0.219
Education1.6310.65146.244.69.2
Home Office1.5830.77658.325.016.7
Table 6. Preference rating on working mode.
Table 6. Preference rating on working mode.
DemographyMeanSDAnywhere else (%)From Home (%)Remotely in Office (%)In-OfficeChi-Square Test
GenderMale2.6001.14328.76.341.323.8X2 = 11.319
p = 0.079
Female2.9050.96813.610.946.928.6
Prefer not to answer3.8000.4220.00.020.080.0
AgeBelow 302.1911.10538.119.028.614.3X2 = 30.952
p = < 0.001
30–492.8891.00916.28.146.529.3
50–653.3150.7054.11.453.441.1
Above 653.5000.7070.00.05050
Time spent in present workspaceLess than a year2.7181.08722.49.442.425.9X2 = 2.891
p = 0.409
More than a year2.9081.01215.88.644.730.9
Time spent in office each dayMore than 8 h2.8611.03116.810.442.830.1X2 = 1.789
p = 0.617
Less than 8 h2.7811.07621.94.746.926.6
WorkspacePrivate office2.5351.03223.316.344.216.3X2 = 16.213
p = 0.182
Shared with 1 other 3.2861.04910.710.717.960.7
Shared with 2–4 others 3.0441.01013.08.739.139.1
Shared with 5–8 others 2.9551.04618.20.050.031.8
Cubicle/open plan office2.7251.01320.47.152.020.4
Proximity1.5 m close to a window/door2.5441.01824.411.150.014.4X2 = 19.830
p = 0.003
1.5 m close to an exterior wall2.5001.15730.0113.333.323.3
At the centre of the office3.3790.7193.43.444.848.3
Type of BuildingCommercial2.7621.07421.96.645.026.5X2 = 10.706
p = 0.098
Education3.0690.8356.910.351.731.0
Home Office2.7861.19721.417.921.439.3
Table 7. Preference rating on cleaning pattern.
Table 7. Preference rating on cleaning pattern.
DemographyMeanSD DailyWeeklyMonthlyChi-Square Test
GenderMale1.4590.58958.836.54.7X2 = 12.022
p = 0.017
Female1.3540.48064.635.40.0
Prefer not to answer2.0000.0000.0100.00.0
AgeBelow 301.2670.44673.326.70.0X2 = 15.060
p = 0.020
30–491.4330.49856.743.30.0
50–651..5520.62651.741.46.9
Above 651.0000.000100.00.00.0
Time Spent in NZLess than a year1.5000.57750500.0X2 = 6.605
p = 0.359
1–10 years1.3120.49169.129.81.1
11–20 years1.3930.62963.323.36.7
More than 30 years1.5110.52450.048.91.1
WorkspacePrivate office1.4790.58356.339.64.2X2 = 9.471
p = 0.304
Shared with 1 other1.5520.50644.855.20.0
Shared with 2–4 others1.3820.49061.838.20.0
Shared with 5–8 others1.4740.51352.647.40.0
Cubicle/open plan office1.3130.52871.625.43.0
Proximity1.5 m close to a window/door1.3770.51763.834.61.5X2 = 1.134
p = 0.889
1.5 m close to an exterior wall1.5320.58451.144.74.3
At the centre of the office 1.3900.49461.039.00.0
Type of BuildingCommercial1.45050.54357.140.72.2X2 = 2.340
p = 0.674
Education1.34150.52668.329.32.4
Home Office1.46670.50553.346.70.0
Table 8. Preference rating on safety and security.
Table 8. Preference rating on safety and security.
FacilitiesOverallGender (%)Age (%)Building Type (%)
MaleFemalePrefer Not to AnswerBelow 30 Years30–49 Years50–65 YearsAbove 65 YearsCommercialEducationalHome Office
Lockable storage49.751.950.510055.845.352.510048.456.140
CCTV camera39.642.638.52539.534.4451004329.346.7
Access control65.864.8675074.460.9655067.756.180
Fire safety62.459.365.92579.156.3555063.463.453.3
Cybersecurity43.646.34410041.943.847.510045.246.336.7
Other3.43.73.310073.11001003.24.9100
Table 9. Preference rating on facilities.
Table 9. Preference rating on facilities.
FacilitiesOverallGender (%)Age (%)Building Type (%)
MaleFemalePrefer Not to AnswerBelow 30 Years30–49 Years50–65 YearsAbove 65 YearsCommercialEducationalHome Office
More storage21.522.222016.325205021.519.526.7
Private toilets40.931.545.17544.239.1405046.234.126.7
Lifts25.522.228.6018.628.13002824.413.3
Lounge/Cafeteria5548.157.110062.851.655058.153.740
Parking lot43.646.342.92548.835.9505044.143.940
Staircases22.19.330.8025.620.322.502914.60
Other18.813222516.320.320025.87.36.7
Table 10. Practical sustainable measures in offices.
Table 10. Practical sustainable measures in offices.
OverallGender (%)Age (%)Building Type (%)
MaleFemalePrefer Not to AnswerBelow 30 Years30–49 Years50–65 YearsAbove 65 YearsCommercialEducationalHome Office
Less use of artificial lighting39.642.637.45048.835.937.5045.229.333.3
Less use of air conditioners (HVAC)28.935.223.17530.22535034.42213.3
Adjusting clothing when cold or too warm47.751.9447546.543.8555051.641.540
Turning off computers outside work hours58.461.157.15062.856.357.55063.451.246.7
Turning off printers outside work hours41.63742.97551.237.540047.334.126.7
Turning off kitchen equipment outside work hours38.35030.85044.235.937.5035.541.546.7
Reusing kitchen utensils (cups, cutlery, and plates)47.744.448.47551.240.6555064.59.846.7
More use of LED light bulbs52.351.952.75053.553.1505053.853.740
Use of motion sensor lighting50.35049.57555.85047.5054.83953.3
Less use of hot water20.829.615.42527.915.622.5019.42226.7
More indoor plants46.344.447.35032.653.1505050.541.533.3
Have more recycling bins in the workspace49.753.747.35046.548.457.5051.646.346.7
Have a compost bin in the workspace38.335.239.65032.642.235047.324.420
Opening windows and doors as required5157.446.27534.957.857.55052.746.353.3
Less use of dishwashers25.529.623.12530.221.927.502919.520
Less use of microwaves12.11311251412.5100149.86.7
Other measures7.41.91104.79.47.509.74.90
Table 11. Importance of cultural connections in the workplace.
Table 11. Importance of cultural connections in the workplace.
MeanSDMinMaxNot at AllSlightly
Important		Moderately ImportantVery
Important
Overall2.4501.1901431.219.122.727.0
Building Type
Commercial2.5811.2121426.914.022.629.0
Educational2.3001.1141429.329.319.519.5
Home office2.1331.2461446.713.320.020.0
Age
Below 302.1541.0401432.620.927.99.3
30–492.6611.2671428.114.117.237.5
50–652.4471.1791427.522.520.025.0
Above 651.0001.4141450.00.050.00.0
Gender
Male2.2781.1881437.020.420.422.2
Female2.5831.1951425.316.522.028.6
Prefer No2.0001.0001425.025.025.00.0
Table 12. Most preferred facilities in workplaces.
Table 12. Most preferred facilities in workplaces.
Most Preferred Facilities/Factors in the Workplace
Private offices
Meeting rooms away from desk spaces
Work from home and in office—combined
Daily workplace cleaning
Access to controls
Fire safety
Lounge/Cafeteria
Parking spaces
Private toilets
Table 13. More practical sustainable measures in workplaces.
Table 13. More practical sustainable measures in workplaces.
Practical Sustainable Measures in the Workplaces
Turning off computers outside work hours
Using more LED light bulbs
Opening windows and doors when required
Using motion sensor lighting system
Reusing kitchen utensils
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Rotimi, J.O.B.; Rasheed, E.O. The “Other” Workplace Design Factors: An Insight into What New Zealand Workers Want. Sustainability 2024, 16, 8381. https://doi.org/10.3390/su16198381

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Rotimi JOB, Rasheed EO. The “Other” Workplace Design Factors: An Insight into What New Zealand Workers Want. Sustainability. 2024; 16(19):8381. https://doi.org/10.3390/su16198381

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Rotimi, James Olabode Bamidele, and Eziaku Onyeizu Rasheed. 2024. "The “Other” Workplace Design Factors: An Insight into What New Zealand Workers Want" Sustainability 16, no. 19: 8381. https://doi.org/10.3390/su16198381

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