Abstract
The Covid-19 pandemic instigated a rapid shift to remote learning in schools of architecture in the United Kingdom. Through the largest survey of its kind of architectural students and tutors in the UK, this research compares experiences in the physical design studio and its remote equivalent. The context of the pandemic provided a unique opportunity to survey a range of cohorts, at different stages in their architectural education to compare these two modes of studio delivery. The findings show a fall in student satisfaction after the move to remote learning in every metric assessed. Peer interaction and support were particularly effected. More formal teaching interactions, such as reviews, crits and tutorials, also suffered but to a lesser extent. For teaching staff, some small improvements in the working environment were observed as well as organisational factors. However, these small gains were outweighed by the negative changes. The research suggests that despite the replication of teaching activities digitally, the situated learning of design education and the facilitation of informal learning scenarios are critical components of design education. This research contributes to the ongoing characterisation of architectural education’s signature pedagogy and suggests that for effective remote learning, design studio education must be reconceptualised, and alternative pedagogies embraced. This can direct educators looking to develop remote design studio learning as well as highlighting areas in which the traditional model of architectural education may be enhanced.
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Introduction
This research sets out to compare staff and students experiences of in-person and remote learning in architectural education. The enforced closure of physical design studios during the Covid-19 pandemic provided a unique cohort of students who directly experienced both in person and remote forms of delivery, within a single academic year, and in every architecture programme in the UK. This research describes the findings of a nationwide survey.
The design studio and its associated pedagogy has been widely adopted in the UK as the primary means of educating architects (Vowles et al., 2012). Its physical context has been recognised as an integral component to the profession’s “signature pedagogy” in which future architects embed cognitive and performative professional skills (Shulman, 2005). The validation provided by the Royal Institute of British Architects (RIBA) explicitly requires that all validated RIBA part 1 and part 2 courses should have design projects constitute a minimum of half of all assessment (RIBA, 2014). Despite the increasing prevalence of virtual design processes, the spatial dimension of the studio has remained central to the pedagogy of the architectural profession (Corazzo, 2019; Brown, 2020). The shutting of design studios and university buildings in the UK, offered a chance for this cohort of students to reflect on the value of the physical studio and highlight its shortcomings and benefits.
Literature Review
Studies into the design studio have frequently referred to Donald Schön’s work on the design studio (Schön, 1985) which focussed on the formal interactions between student and tutor in this setting. His observations and case studies framed an understanding of the cognitive processes taking place during design. Subsequent scholars have sought to challenge his conception of the design studio, highlighting a range of complex behaviours, experiences and interactions which frame learning in this context (inter alia Stevens 2002; Webster, 2004; Vowles, 2005; Quinlan et al., 2007; Webster, 2008; Corazzo, 2019; Brown, 2020). The studio has also been identified as a site for power asymmetries and exclusivity (inter alia Datta 2007; Webster, 2007) or a space in which norms are habitually reproduced (inter alia Dutton 1987; Banham, 1991; Stevens, 2002). A range of studies have attempted to replicate the environment of the design studio remotely, however this remains at the level of individual case studies (inter alia Abbasi et al., 2018; Lahti & Seitamaa-Hakkarainen 2014; Salman et al., 2017; Lotz et al., 2019; Jones et al., 2020).
Donald Schön’s work on the Design Studio (Schön, 1985) focussed on the formal interactions between student and tutor in the studio setting. Teaching took place through the tutor demonstrating their own internal reflective actions to the student by simulating their design process through drawing. Schön emphasised the performative nature of design studio teaching in which the knowledge of tutors is made specific to the student’s situation through such demonstration and simulation (Goldschmidt et al., 2010).
Scholars have critiqued Schön’s limited conception of learning and emphasised the complex, interdependent pedagogy of the studio (Webster, 2008; Brown, 2020). While the pedagogic benefits of Schön’s approach are questionable, particularly the assumed automatic learning through observation and the downplaying of individual student lived experiences (Webster, 2004), his work highlights the fundamental inheritance of in-situ learning in architecture. For example, the various constructions of studio-supervisor offered by Belluigi (2016) assume a one-to-one relationship facilitated by the physical design studio. In a study by Quinlan et al., (2007), they suggest that personal qualities of the tutor (particularly attentiveness and ‘presence’) are highly desirable by students. Demonstrating both credibility and authenticity are required by tutors to build meaningful relationships with students over time, emphasising the experiential qualities afforded by an in person, place-based, education.
In a meta-study of design studios in architecture and the arts, Corazzo (2019) identified six key themes that the material space of the design studio enabled: a place to make artefacts; a bridge between academic and professional contexts; to provide meaning to educational activities; to enable or constrain experience and interaction; to provide the background to learning; and to shape disciplinary identities. An implicit belief in a resultant “studio culture” has governed the pedagogic approaches of architectural education institutions in the UK despite a limited definition of its parameters (Vowles et al., 2012). Nevertheless, the design studio is widely accepted to be a rich learning medium which nurtures peer interaction and independent learning (McClean, 2009).
Scholars have frequently cited the importance of social structures within the design to enhance learning. Vowles (2005) identifies the importance of social interaction, communicating with peers whether verbally or visually, to both the processes of design and education. Moreover, the social processes of the studio, the formation of the community and the norms that are validated through shared practice contribute to a “thickly authentic” environment (Shaffer & Resnick, 1999). In the studio this translates to a coherence between activities which reproduce the norms of the wider profession (Shaffer, 2003). The intense culture of the design studio also facilitates strong social bonds. McClean (2009) notes the capacity of the design to enable pastoral support from both peers and tutors. Students described a “peer dynamic”, and compared the studio to a “home”, a place which offered peer support and pastoral care (McClean, 2009, p.207, p.207).
The relationship between space and learning is fundamental to the character of the design studio. However, this connection has been severed in much of the literature on learning in higher education (Neary et al., 2009). As a place of both formal and informal learning activities, it bridges the divide between these two settings (Boys, 2010, p.2, p.2). The design studio is not only the backdrop for learning and social interaction but is implicit in these activities. Drawing from the work of Lefebvre & Nicholson-Smith (1991), McGregor (2004) asserts that the place of learning might be understood through the “materially embedded practices” and space itself is essential to the production and reproduction of social structures (Corazzo, 2019). As numerous scholars have suggested, this has the potential for unequal power dynamics that perpetuate existing hierarchies (Datta, 2007; Webster, 2007), as well as uncritically reproducing behaviours of the profession (Dutton, 1987; Banham, 1991; Stevens, 1995).
Attempts to replicate the design studio experience remotely have often focussed on generating digital spaces where students can share work and interact asynchronously (Lotz et al., 2015). While there have been reported success in virtual online studios (Abbasi et al., 2018; Lahti & Seitamaa-Hakkarainen 2014; Salman et al., 2017; Lotz et al., 2019; Jones et al., 2020) and blended approaches (Mohammed, 2017; Rodriguez et al., 2018), these typically utilise formal online spaces (such as e-portfolios or online databases) to simulate peer interaction.
In UK architectural education, the research conducted by Hannah Vowles (Vowles et al., 2012), perhaps offers us the most recent insight into design studio culture. The report highlights the perceived value of developing a “studio culture” in the UK. Despite the advancement of digital technologies, the physical studio remained critical as a place of peer learning and student staff interaction.
In the context of the international pandemic, it is also helpful to differentiate between genuine online learning and the emergency remote delivery that was observed during this period recognised by Hodges (2020). As the authors assert, designed online learning create learning ecosystems to support students through building communities and support networks. By contrast, emergency remote teaching tends to aim to make instructional resources reliably accessible. While the authors are unaware of any studies which take a sample of students familiar with the physical design studio and compare this with a move to remote learning, it must be understood in the context of the unplanned and instantaneous shift to online delivery. Nevertheless, this provides a unique opportunity to enhance both remote and face-to-face learning through a comparative understanding of the successes of each mode of delivery.
Aims of the research
This research aimed to compare student and staff experiences of in person design studio teaching and remote delivery. It sought to establish satisfaction with each mode of delivery to highlight areas to be addressed by educators. Through this comparison, it also intended to identify the key characteristics that are valued by students and staff in design led architectural education.
Methodology
The Covid-19 pandemic, which forced the closure of schools of architecture in the UK, provided a unique opportunity to compare the experiences of a single cohort of students in two contrasting learning environments (in-person and remote). The scale and totality of the closures provided a large and unique population of students who had experience of both modes of delivery sequentially.
The research used an internet survey methodology to capture satisfaction with their architectural education, before and after the closure of the studios. The research sought to gather responses from a population of staff and students in all RIBA validated architecture schools in the UK. An internet survey had the advantage of being fast, easy to distribute, convenient and easy to complete. It also allowed for increased anonymity and accuracy through the reduction of human error (Cohen et al., 2017). It allowed customisation of the release of the survey for different schools of architecture; in all cases the survey was released to students in the days following their final submissions. The survey was hosted on the online platform Jisc Online Surveys (Jisc, 2022).
Sampling
The sample was an “unrestricted sample” (Watt, 1997) from the target population of all students and staff from RIBA validated schools of architecture in the UK. 798 students and 120 tutors from 29 UK universities responded to the survey. The survey was distributed through members of the Standing Conference of Heads of Schools of Architecture (SCHOSA) to administer in their respective schools. The surveys were distributed immediately after students’ final submissions, with each school representative responsible for this timing. All students were either taking their first degree (RIBA Part 1) or RIBA Part 2 (typically an undergraduate masters degree).
Survey questionnaire
The online survey was via a questionnaire which utilised two primary different question types. These are outlined in Table 1.
The primary mode of data collection was through labelled semantic differential items. This labelling has been shown to yield most accurate response among a general population to avoid confusion between unlabelled responses (Garland, 1990).
Each theme was broken into a series of unambiguous items Each item consisted of an object relating to an overall theme and a ‘response scale’ (Johns, 2010), in most cases asking for the respondent’s level of satisfaction with each metric. A five-point scale with a neutral mid-point was used in both surveys for all semantic differential questions as these are more typically understood by participants than more granulated scales (Garland, 1990). Each object was intensity free (i.e. did not include a positive or negative assertion or a magnitude). They were considered to be “concrete”, a singular unambiguous concept. Each object was assessed through a single, relevant, and concrete attribute requiring only a single item (Rossiter, 2002).
While satisfaction was the primary attribute assessed, data are presented as positive vs. negative responses in the findings. The themes, items and attributes to which staff and students responded are presented in Tables 2 and 3. A “non-applicable” option was also provided in every case.
There were also a range of free text responses which asked for advantages, disadvantage, challenges and opportunities for remote working as well as any further comments. These were included on both the tutor and student questionnaires.
Analysis
The findings analyse the cumulative responses to individual items and treats the data as ordinal (Boone & Boone, 2012). Data are presented in mostly graphical form. The semantic differential items were assumed to be non-parametric and are presented using descriptive statistical measures such as cumulative responses, relative difference between related items (i.e. the difference as a proportional increase or decrease of the original metric) and total satisfaction. When using terms such as satisfaction, the survey sums all positive responses (“fairly satisfied” and “very satisfied”) without weighting them which would imply magnitude or interval data.
Over 4000 individual qualitative free text responses were analysed. Thematic analysis was used adopting the six stages described by Braun and Clarke (2006). Familiarisation was achieved through reading through the comments, and these were then categorised into initial codes. In many cases, a single response might contain multiple pieces of coded data. Codes were then collated into themes. These themes were then reviewed once all data had been coded. This enhanced the definition of each theme. Finally, the report sought to concisely capture these themes. Coding was done at a semantic level (i.e. hidden meaning in the was assumed). This was appropriate to the concise and precise nature of the comments. The themes were quantified (Boyatzis, 1998) to identify the most common trends.
Research ethics
All data were collected anonymously, and responses contained no data which could identify individuals. Individuals were made aware of the data storage practices at the start of the research and it was mad clear they could withdraw from the survey at any point before submitting. Due to the anonymous collection procedure, data could not be removed relating to an individual after submission. Individuals could not be directly nor indirectly identified so the data were excluded from the UK General Data and Protection Regulation (UK GDPR).
Limitations and bias
Scholars have noted methodological issues related to sampling in web-based surveys, not least the tendency for self-selection and accessibility (Duffy, 2002). This is largely negated by the population profile, all of whom have access to the internet and computers through their university membership and are frequently surveyed from within and without their institutions.
The semantic differential approach has significant advantages over Likert type responses. By rating an object through a given attribute, rather than being asked to agree or disagree with a statement, the problems of acquiescence bias are negated (Friborg et al., 2006). Despite introducing greater cognitive load on participants, this has still been shown to produce more reliable responses (Friborg et al., 2006). Bipolarity of terms is necessary to a semantic differential test and accordingly, clear, relevant terms with clear oppositions were chosen (satisfaction / dissatisfaction, good / poor, easy / difficult) (Verhagen et al., 2015).
Items were asked in a consistent order (first the physical design studio was rated, then the remote design studio). While studies have noted the contextual influence of items (the preceding item can influence the response to the latter) (Landon Jr,, 1971), in this instance, due to the repetition of questions, consistent ordering would reduce the cognitive load on participants and reduce errors (Friborg et al., 2006). The work is presented as a change in attributes across the design studio and the remote studio, with the design studio being asked first acting as a consistent point of comparison for respondents for responses (Landon Jr,, 1971).
The timing of the survey also limits how the results can be interpreted. It was circulated at the end of term, a point at which students had immediately finished their studies. Without some reflective distance, the responses may have used as a proxy for widespread anger and disruption caused by the pandemic, as well as dissatisfaction with assessments. Moreover, the results contrast the students’ current experience of remote learning with their remembered experience of live teaching.
Findings
Teaching in the physical design studio is considered integral to architectural education by students and staff
Before the move to online learning, 88% of all students were either fairly satisfied or very satisfied with their experience of the design studio (Fig. 1). This fell to 30% satisfaction after the studios were closed, a relative fall of 65%. Total satisfaction fell in the move to online learning across every metric surveyed. Only 7% of students preferred remote delivery to face to face learning. This also was true of staff who showed a marked drop in satisfaction comparing the two modes of delivery (Figs. 2) and 4% of staff preferred remote delivery to face-to-face teaching. This was despite only 25% of students surveyed being offered a permanent workspace in the studio pre-pandemic.
Peer learning and support networks were particularly affected by the closure of design studios
The move to remote learning severed peer networks and support systems (Fig. 3). Students described a lack of community, poor motivation and being unable to benchmark their progress. For example, total satisfaction with seeing the work of students in their year group fell by 72% following the move to online learning; the largest fall in any metric. These concerns were echoed by teaching staff (Fig. 4). The loss of peer support networks also had impacts on student mental health and wellbeing; the move to remote studio teaching inducing a sense of isolation in many of the respondents.
In qualitative comments, 51% of students cited the lack of peer learning and support as a major disadvantage. 28% of students said their ability to learn from their peers had been negatively impacted. Often this was through the loss of being able to see the work of other students. A similar number cited the loss of peer support. Many talked about the loss of studio culture, lack of informal learning experiences and the motivational support provided by other students. The loss of a sense of community was also a major concern.
39% of staff described how the remove to remote tutoring had impacted negatively various aspect of “studio culture”. 8% of staff used this term directly while other spoke about the loss of peer interaction (16%) lack of informal engagement (8%) and low levels of social interaction (5%). The loss of the professionalism of the studio, the notion of a “shared experience” and the ability for students to see the work of their peers were also mentioned.
There was no significant difference in the demographic groups surveyed
The survey found that the demographic groups of gender (Fig. 6), ethnic group (Fig. 7), study status (home, EU or overseas) (Fig. 8), were not statistically significant different in changes in overall satisfaction.
Impacts on mental health and well-being
Pastoral support was also widely impacted (Fig. 8). Students showed a 36% fall in relative satisfaction with pastoral support from tutors and a 57% drop in satisfaction with central support services, including wellbeing support. Tutors all showed a 55% fall in the perceived ease of assessing student wellbeing and a 53% relative fall in ease of providing pastoral support.
18% of students reported impacts on the personal health and well-being as a significant disadvantage from remote teaching. 11% described how the move to working from home had significantly reduced their motivation, productivity or focus. 2% of students directly referred to the impact on their mental health in free text comments, while 4% cited isolation as a major disadvantage. Other impacts included lack of exercise, the challenges of transitioning environments, impacts on routine and time management and a loss of confidence.
Spending time at home or with family was the biggest advantage for 6% of students. Lifestyle improvements (such as more exercise or a better diet) was cited by 4% of respondents. 5% of students found working remotely meant they were more relaxed or had more rest. 6% of students reported lower levels of stress, anxiety or pressure as being the biggest advantage.
19% of tutors reported practical and personal disadvantages of moving to remote studio working. These included the work being more time consuming, more stressful, poorer working environment and too much screen time. Other issues included a lack of flexibility, exhaustion, privacy, home distractions, staff isolation, mental health and cost.
The practicality and convenience of remote learning was considered its biggest advantage
Both students and staff reported some practical aspects of remote teaching and learning as being advantageous. These included no need to commute, savings in cost and time, flexible working and enhance work life balance. 32% of students mentioned how the move to remote studio had advantages in terms of practicality and convenience. Not having to commute meant many students could save time and money. For some it liberated time in their day allowing them more time for relaxation, hobbies, or spending time with families. Other students were able to save money through being at home, either by living with family to reduce living costs or avoiding spending when at the university. 12% of students found the physical environment they were working in to be preferable to the studio. For many it was more comfortable or convenient and avoided having to move equipment or work to and from the studio.
24% of students identified improvements in their lifestyle as a key opportunity of remote working. This included greater time efficiency, cost savings, reduced travelling and commuting and a better work-life balance. Several students relished the chance to be at home or with their family. Others suggested lower stress, improvements in physical health and living more sustainably were all opportunities for remote working.
The most cited advantages for staff were themed around the practical improvements that remote working offered. This was mentioned by 54% of staff. 28% of staff described not having to commute as one of the biggest advantages while others mentioned time management (6%) and flexibility to organise and undertake their teaching (8%). Other factors described by five or fewer tutors included the lower carbon footprint, more efficient teaching, convenience, structure, their home or office working environments (both physical comfort and with fewer distractions), the ability to learn digital skills, the students’ pre-submission of work (easing organisation) and the expansion of geographic limits that remote working offered. Overall, however, staff found educational delivery more challenging remotely (Fig. 9).
The quality of student and staff interactions was compromised
Both students and staff perceived the quality of formal teaching interactions (reviews, juries, crits and tutorials) to have fallen after the move to online teaching (Figs. 10 and 11). Staff highlighted a concern with the nature of these interactions. Being able to “teach through drawing” was considered essential to architectural tutorials and significantly compromised through the move to remote teaching. Establishing relationships with students was also seen to be adversely affected by the move, which was particularly reflected in the responses from staff.
43% of staff described how their interactions with students had been compromised since the move to remote learning. 22% wrote about a sense of disconnection and lack of face-to-face encounters was a major disadvantage. 10% directly described how communication with students was more challenging remotely. Other comments included a perceived lack of student engagement, the inability to assess student’s capabilities and a focus on linear or didactic teaching methods. Staff also described how group tutorials, pastoral care, student parity and student support had all been compromised.
Enabling access to physical and digital resources for students and staff is essential for the success of remote teaching
Staff and students reported that providing access to digital and physical resources would significantly enhance their remote learning experience. This included access to hardware and the necessary software that previously would have been provided on campus. Staff frequently articulated the need for the resources and training to replicate in person teaching methods, particularly being able to draw remotely.
39% of students cited practical issues with working remotely. Lack of access to physical or digital resources was a major concern (cited by 29% of students). 12% reported that their working environment was unsuitable or impractical. Smaller numbers mentioned the absence of non-digital working was a big disadvantage and 6 students of 798 said technical issues (internet connection, software problems etc.) was a significant issue. 23% of respondents identified these concerns as a major challenge for remote learning in the design studio. Other challenges included workspace, “over management”, staff mental health, fatigue, personal commitments, staff training, technical issues and extended time for preparation and interactions.
31% of students said that accessing resources and facilities would be a challenge. This included access to digital resources and physical facilities (such as workshops), accessing suitable spaces to work and technical knowledge as a challenge to operate in a remote learning environment.
For staff, 23% cited personal or practical challenges. Inadequate equipment and resources were most frequently mentioned.
Discussion
The results demonstrate a near ubiquitous view of staff and students of archtiecture in the UK of the essential nature of the design studio. Yet, while the removal of studios had an overwhelmingly negative impact on practical delivery of programmes, it was the cultural, pastoral and communal aspects that were most keenly felt by staff and students. The inability for students to learn from each other, seeing the work of others and sharing skills and knowledge, was directly challenged in a remote environment. This was echoed by tutors who perceived large impacts on the quality of all student interactions measured, such as working in teams and receiving technical help. “Studio culture” is a frequently cited term (Ward, 1990; Koch, 2002; Vowles et al., 2012) often associated with intangible social networks and “hidden curricula” that are built throughout architectural education (Dutton, 1987; Ward, 1990). It was mentioned widely in the survey from both staff and students. The physical design studio enables immediate moral support, benchmarking, and peer learning that may be contributory factors to developing an effective studio culture.
The quality of teaching interactions also suffered in the move to online learning however, there was an asymmetry observed between students and staff. Tutors perceived much larger negative impacts on the quality of these interactions. While their assessment of verbal feedback from individual tutorials was comparative to the student response factors such as the relative ease of exploring design, options was considered far more challenging. Even tasks which may have been enhanced by closer interaction with a computer (such as exploring design precedents) were also considered more challenging remotely by tutors. The one-to-one tutorial, often held at a desk or over a drawing board commonly operationalises drawing as a process between tutor and student in which the tutor acts intuitively often through drawing (Schön, 1985). Despite robust pedagogic critiques of this mode of teaching (Webster, 2004) teaching through demonstration and imitation is a primary tutor characteristic (Webster, 2004). For the tutor, demonstrating through pointing, manipulating a model, sketching or tracing are ways in which they might articulate their feedback (Goldschmidt et al., 2010). Despite technical “fixes” (tablets and stylus combinations or visualisers) the limitations of digital communications made the beneficial use of these nuanced interactions between staff and students far more challenging to achieve. Studies have suggested a student preference for a more reflective approach (Quinlan et al., 2007), which might explain the misalignment between student and staff responses, the tutors placing greater emphasis on the transmissive qualities of these interactions.
For many students, the move to remote working did not significantly alter satisfaction with their working environment. Yet those aspects of the studio space which arguably characterise its subject specific nature (the amount of layout space and access to technical resources particularly) suffered a far greater impact. Descriptions of the design studio frequently note the space given to students and the ability to make a mess, to personalise their working environment and scope to create objects at scale (inter alia Shaffer 2003; van Dijkum and CFDM, 2013; Corazzo 2019). Teaching staff considered the move to online learning particularly beneficial to acoustics and noise control in their workplace, which suggests deficiencies in these aspects of the studios where they typically worked.
The survey highlighted challenges in supporting student wellbeing and offering pastoral care. Mental health and well-being are of particular concern in architectural education with rates tripling in the last five years (Mirza & Nacey Research for the RIBA, 2020). While in part this may be due to structural and cultural challenges (for example the implicit expectations of staff for students to overwork) a supportive environment in which staff are facilitated to support students and recognise potential issues can be fostered. The move to remote learning made connections harder to forge and support harder to administer. The familial and home-like qualities instilled by the physical design studio (McClean, 2009) were broken, severing students’ social connections and the support and motivation this offers.
There were no significant differences in the different demographic groups surveyed in overall satisfaction, either by gender, ethnic group or student status. Within the free text comments however, both students and staff described how access to technical resources was a major limiting factor of working remotely. The survey did not capture economic status, and without further research no conclusions can be drawn on the impact of “digital poverty”. However, findings by (Summers et al., 2022), corroborates suggestions that students from more disadvantaged backgrounds had a larger drop off in engagement. While the picture may be more nuanced than only “digital poverty” evidence in the free comments suggests for some students, space to work and access to a computer or specialist software was a key barrier. This would have resulted in significant inequalities across the student body with respect to access to resources compared to the broad equality offered by a universal studio provision. It is likely the learning opportunities and academic output for some students were disproportionally diminished because of the removal of physical studios.
Conclusions
It is hard to exaggerate the clear dissatisfaction with the emergency remote learning necessitated by the Covid-19 pandemic for architecture students. It may also suggest that educators were unable to capitalise on some of the potential opportunities of genuine online learning due to the speed at which the changes were introduced. The characterisation of architecture’s signature pedagogy by both its tutors and students as implicitly place based, spatial and in-person, has arguably framed the responses to the survey. The tradition of the “studio culture” is so deeply embedded in the identity of the profession that it may lead to both students and tutors being resistant to the sort of radical change that was implemented at speed and through necessity because of a national “lock down”.
The survey findings illustrate the value of building rich learning communities when providing online education; enabling peer-to-peer learning and support should be at the forefront of any fully digital approach to design education. It also suggests areas of relative success upon which educators might take advantage. For example, equipping and training staff to operate effectively in tutorials remotely, is an area in which some minor changes might offer significant improvements.
Attempting to translate a studio-based pedagogy to an online equivalent is clearly problematic without careful design and planning. While some practical changes might improve the digital studio offer, to effectively deliver a remote architectural education, alternative pedagogies must be considered which embrace the opportunities that remote learning offers and deliver remedies to its associated problems. Not only does this include embracing new methods and techniques of teaching, but also reconceptualising architectural education to move away from a place-based pedagogy. It remains to be seen whether any alternative pedagogy can provide equivalent benefits to those seen in the successful situated design studio.
Perhaps the greatest challenge is to replicate the pastoral and social support implicit in the physical design studio. While face-to-face formal interactions might be loosely substituted in remote learning, the intangible, unstructured and spontaneous activity cannot so easily be replaced. Aspects of peer-to-peer support, which can happen with relatively few barriers or hinderances in a physical studio, were perceived as significantly lost in the move to remote teaching. The psychological benefits of physical proximity, human contact and interaction appear important elements in fostering a sense of studio community in which lasting relationships are forged. These relationships appear to play a significant part in students’ evaluations of the quality of their overall student experience. What endures from the university experience is often the relationships formed through intense studio-based activity, and that activity can also establish a pattern of creative working which persists, with individuals seeking to replicate it when creating their own design practice environments in later life. The place-based pedagogy, when supported by an array of associated facilities (such as workshops, wi-fi, security, working space etc.) creates a relatively level playing field of educational opportunity. When this is removed students with financial means are able to replace key aspects of it, whereas students without are disadvantaged. Students who rely more on various forms of academic peer or tutor support, or who are isolated from non-academic support networks, find the loss of studio brings with it the loss of social support, which adversely impacts their well-being and performance. Addressing this challenge in the virtual realm, without leaving students isolated, or without support, should be a priority for educators.
This research has impacts for all schools of architecture who educate in the tradition of the design studio. By understanding factors which are highly valued by students, as well as those most under threat from the potential closure of physical studios, educators might mitigate the impacts of both the pandemic and economically motivated studio closures.
Further work is planned to repeat this survey over several years. This will help disentangle reactive responses to the current pandemic and identify lasting trends and attitudes which may form a basis for more meaningful and lasting change.
References
Abbasi, N., Adams, N., Gide, E., O’Brien, D., & Lawrence, P. (2018). Online delivery of architecture and building design studios: a case study of Central Queensland University. 469–475
Banham, R. (1991). A black box: the secret profession of architecture. New Statesman and Society, 3, 22–25
Belluigi, D. Z. (2016). Constructions of Roles in Studio Teaching and Learning. International Journal of Art & Design Education, 35(1), 21–35. https://doi.org/10.1111/jade.12042
Boone, H. N., & Boone, D. A. (2012). Analyzing likert data. Journal of extension, 50(2), 1–5
Boys, J. (2010). Towards creative learning spaces: Re-thinking the architecture of post-compulsory education. Routledge
Brown, J. B. (2020). From denial to acceptance: a turning point for design studio in architecture education. Distance Design Education
Cohen, L., Manion, L., & Morrison, K. (2017). Research Methods in Education. London, UNITED KINGDOM: Taylor & Francis Group
Corazzo, J. (2019). Materialising the Studio. A systematic review of the role of the material space of the studio in Art, Design and Architecture Education. The Design Journal, 22(sup1), 1249–1265
Datta, A. (2007). Gender and Learning in the Design Studio. Journal for Education in the Built Environment, 2(2), 21–35. https://doi.org/10.11120/jebe.2007.02020021
Duffy, M. E. (2002). Methodological issues in web-based research. Journal of Nursing Scholarship, 34(1), 83–88
Dutton, T. A. (1987). Design and Studio Pedagogy. Journal of Architectural Education (1984-), 41(1), 16–25. https://doi.org/10.2307/1424904
Friborg, O., Martinussen, M., & Rosenvinge, J. H. (2006). Likert-based vs. semantic differential-based scorings of positive psychological constructs: A psychometric comparison of two versions of a scale measuring resilience. Personality and Individual Differences, 40(5), 873–884
Garland, R. (1990). A comparison of three forms of the semantic differential. Marketing Bulletin, 1(1), 19–24
Goldschmidt, G., Hochman, H., & Dafni, I. (2010). The design studio “crit”: Teacher–student communication. Artificial Intelligence for Engineering Design Analysis and Manufacturing, 24(03), 285–302
Hodges, C. (2020). The Difference between Emergency Remote Teaching and Online Learning. 27, 1
Jisc (2022). Jisc Online Surveys [Online]. Available from: https://www.onlinesurveys.ac.uk/ [Accessed 24/02/2022].
Johns, R. (2010). Likert items and scales [Online]. Available from: https://www.ukdataservice.ac.uk/media/262829/discover_likertfactsheet.df.(11.04.2018) [Accessed 01/06/2020].
Jones, D., Lotz, N., & Holden, G. (2020). A longitudinal study of virtual design studio (VDS) use in STEM distance design education.International Journal of Technology and Design Education,1–27
Koch, A. (2002). The redesign of studio culture: A report of the AIAS Studio Culture Task Force. American Institute of Architecture Students
Lahti, H., & Seitamaa-Hakkarainen, P. (2014). Designing Teaching–Teaching Designing: Teacher’s Guidance in a Virtual Design Studio. Journal of Learning Design, 7(1), 10–26
Landon, E. L. Jr. (1971). Order bias, the ideal rating, and the semantic differential. Journal of Marketing Research, 8(3), 375–378
Lefebvre, H., & Nicholson-Smith, D. (1991). The production of space. Oxford Blackwell
Lotz, N., Jones, D., & Holden, G. (2015). Social engagement in online design pedagogies. In: R. Vande Zande, E. Bohemia and I. Digranes, eds. Proceedings of the 3rd International Conference for Design Education Researchers Aalto University. 1645–1668
Lotz, N., Jones, D., & Holden, G. (2019). OpenDesignStudio: virtual studio development over a decadeThe DRS LearnXdesign Conference 2019, 9–12 July 2019 Ankara
McClean, D. (2009). Embedding learner independence in architecture education: reconsidering design studio pedagogy. (Doctoral dissertation), Robert Gordon University
McGregor, J. (2004). Studying SpatialityBritish Educational Research Association Annual Conference, 16–18 September University of Manchester. Education-line
Mirza & Nacey Research for the RIBA (2020). RIBA Education Statistics 2018/19. London
Mohammed, M. F. M. (2017). Blended E-learning in the architectural design studio: an experimental model. International Journal of Parallel Emergent and Distributed Systems, 32(sup1), S73–S81
Neary, M., Harrison, A., Crelin, G., Parekh, N., Saunders, G., Duggan, F. … Austin, S. (2009). Learning landscapes in higher education: Clearing pathways, making spaces, involving academics in the leadership, governance and management of academic spaces in higher education
Quinlan, A., Corkery, L., & Marshall, N. (2007). Positioning the Design Tutor’s presence in the Design Studio for successful student design learning. 2007. 1–6
RIBA (2014). RIBA procedures for validation and validation criteria for UK and international courses and examinations in architecture [Online]. Available from: https://www.architecture.com/-/media/gathercontent/validation-procedures-and-criteria/additional-documents/validationprocedures2011secondrevision2may2014pdf.pdf [Accessed 25/06/2020].
Rodriguez, C., Hudson, R., & Niblock, C. (2018). Collaborative learning in architectural education: Benefits of combining conventional studio, virtual design studio and live projects. British Journal of Educational Technology, 49(3), 337–353
Rossiter, J. R. (2002). The C-OAR-SE procedure for scale development in marketing. International journal of research in marketing, 19(4), 305–335
Salman, M., Kominek, A., Melvin, E., Sabie, S., & Sabie, D. (2017). Delivery of Design Studios for On-Line Platforms and its Impact on Teaching and Learning Outcomes. Proceedings of the joint 8th IFEE 2017 and 3rd TSDIC2017 Sharjah, United Arab Emirates, April 18–20
Schön, D. A. (1985). The Design Studio. London: RIBA Publications Ltd.
Shaffer, D. W. (2003). Portrait of the Oxford Design Studio: An Ethnography of Design Pedagogy. WCER Working Paper No. 2003-11. Wisconsin Center for Education Research (NJ1)
Shaffer, D. W., & Resnick, M. (1999). " Thick” authenticity: New media and authentic learning. Journal of interactive learning research, 10(2), 195–216
Shulman, L. S. (2005). Signature pedagogies in the professions. Daedalus, 134(3), 52–59
Stevens, G. (1995). Struggle in the studio: A Bourdivin look at architectural pedagogy. Journal of Architectural Education, 49(2), 105–122
Stevens, G. (2002). The favored circle: The social foundations of architectural distinction. MIT press
Summers, R., Higson, H., & Moores, E. (2022). The impact of disadvantage on higher education engagement during different delivery modes: a pre- versus peri-pandemic comparison of learning analytics data. Assessment & Evaluation in Higher Education, 1–11. https://doi.org/10.1080/02602938.2021.2024793
van Dijkum, N. and CFDM (2013). An ethnographic study of architecture students and their workspaces: A small architecture school in the city. TU Delft, Delft University of Technology
Verhagen, T., Hooff, B. V. D., & Meents, S. (2015). Toward a better use of the semantic differential in IS research: An integrative framework of suggested action. Journal of the Association for Information Systems, 16(2), 1
Vowles, H. (2005). The ‘crit’asa ritualised legitimation procedure in architectural education.Changing architectural education,223
Vowles, H., Low, J., & Doron, H. R. (2012). Investigating Architecture Studio Culture in the UK: A Progress Report. Journal for Education in the Built Environment, 7(2), 26–49. https://doi.org/10.11120/jebe.2012.07020026
Ward, A. (1990). Ideology, culture and the design studio. Design Studies, 11(1), 10–16. https://doi.org/10.1016/0142-694X(90)90010-A
Watt, J. (1997). Using the Internet for quantitative survey research. Quirk’s Marketing Research Review, 248, 1–5
Webster, H. (2004). Facilitating critically reflective learning: excavating the role of the design tutor in architectural education. Art Design & Communication in Higher Education, 2(3), 101–111
Webster, H. (2007). The analytics of power: Re-presenting the design jury. Journal of Architectural Education, 60(3), 21–27
Webster, H. (2008). Architectural Education after Schön: Cracks, Blurs, Boundaries and Beyond. Journal for Education in the Built Environment, 3(2), 63–74
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Grover, R., Wright, A. Shutting the studio: the impact of the Covid-19 pandemic on architectural education in the United Kingdom. Int J Technol Des Educ 33, 1173–1197 (2023). https://doi.org/10.1007/s10798-022-09765-y
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DOI: https://doi.org/10.1007/s10798-022-09765-y