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A framework for ‘configuring participation’ in living labs

Published online by Cambridge University Press:  14 November 2022

Fumiya Akasaka Open the ORCID record for Fumiya Akasaka [Opens in a new window] ,
Yuya Mitake ,
Kentaro Watanabe  and
Yoshiki Shimomura
Fumiya Akasaka*
Affiliation:
Human Augmentation Research Center, National Institute of Advanced Industrial Science and Technology (AIST), Chiba, Japan
Yuya Mitake
Affiliation:
Human Augmentation Research Center, National Institute of Advanced Industrial Science and Technology (AIST), Chiba, Japan
Kentaro Watanabe
Affiliation:
Human Augmentation Research Center, National Institute of Advanced Industrial Science and Technology (AIST), Chiba, Japan
Yoshiki Shimomura
Affiliation:
Department of System Design, Tokyo Metropolitan University, Tokyo, Japan
*
Corresponding author F. Akasaka [email protected]
Rights & Permissions [Opens in a new window]

Abstract

In recent years, ‘living lab (LL)’, a design approach that actively involves users as partners from the early stage of the design process, has been attracting much attention. Compared with the traditional participatory design or co-design approaches, one of the distinctive features of the LL approach is that the process of and opportunity for user participation tends to be long-term and complex. Thus, LL practitioners must appropriately plan and design effective integration of user participation into the design process to promote co-creation with users. In other words, LL practitioners are required to ‘configure user participation’ for the effective promotion of co-creation. However, to date, the knowledge on how to properly configure long-term and complex user participation in LLs has not been systematically clarified, nor have its methodologies been developed. This study develops a novel framework for configuring user participation in LLs. Through a literature review and analysis on LL case studies, we identified the 11 key elements in five categories that should be considered while configuring user participation in LLs. Furthermore, on the basis of the identified elements, we developed a novel framework for configuring user participation in LLs, which is called the participation blueprint. We have demonstrated its use and have also discussed its theoretical and practical contributions to the LL and co-design research community.

Keywords

Co-designLiving LabConfiguring participationParticipation blueprint
Type
Research Article
Information
Design Science , Volume 8 , 2022 , e28
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Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2022. Published by Cambridge University Press

1. Introduction

In recent years, co-creating products and/or services with users has gained increasing importance in response to the rising complexity of social issues and the diversification of values. In this context, ‘living lab (LL)’ (Følstad Reference Følstad2008; Bergvall-Kåreborn, Holst & Stahlbrost Reference Bergvall-Kåreborn, Holst and Stahlbrost2009; Almirall, Lee & Wareham Reference Almirall, Lee and Wareham2012; Leminen, Westerlund & Nyström Reference Leminen, Westerlund and Nyström2012), which is a design approach that actively involves users as partners from the early stage of the design process, has been attracting attention. In LL, users are actively involved in a co-creative design process. Here, they collaboratively identify challenges to overcome, create ideas for responding to the challenges and test them in real-life environments (Bergvall-Kåreborn & Stahlbrost Reference Bergvall-Kåreborn and Stahlbrost2009). Therefore, users are expected to ‘participate’ in various phases of the LL process.

A design approach where users participate in its process is traditionally called participatory design (PD; Schuler & Namioka Reference Schuler and Namioka1993; Kensing & Blomberg Reference Kensing and Blomberg1998). It has been actively studied and practised since the 1970s, primarily in Scandinavian countries. Compared with the traditional PD approach, one of the distinctive features of the LL approach is that the process of and opportunity for the users to participate tends to be long-term and complex. While traditional PD often involves users in the specific phases of the design process (mainly idea generation and/or prototyping; Brandt Reference Brandt2006; Kensing & Greenbaum Reference Kensing and Greenbaum2012), LL involves users in various phases, such as in problem exploration, idea generation, prototyping and tests (experiments; e.g., Almirall et al. Reference Almirall, Lee and Wareham2012; Juujärvi & Pesso Reference Juujärvi and Pesso2013). Each participation opportunity often involves a different set of participating users (Akasaka and Nakatani Reference Akasaka and Nakatani2021); some participation opportunities are small (i.e., involving only a few people), whereas others are large (i.e., involving hundreds of people; Schuurman et al. Reference Schuurman, De Moor, De M arez and Evens2011). This long-term and complex process of user participation is one of the key features of the LL approach. Given these characteristics of LLs, it is necessary for LL practitioners to appropriately plan and design how to effectively integrate user participation into the design process to effectively promote co-creation with users in LLs. In human–computer interaction (HCI) research, Vines et al. (Reference Vines, Clarke, Wright, McCarthy and Olivier2013) proposed ‘Configuring Participation’ as a concept that indicates a detailed consideration of the participation process, such as timing, form, role, scale and method of user participation. In their words, LL practitioners are required to configure user participation to effectively promote co-creation in LLs.

However, to date, the knowledge on ‘how to properly configure long-term and complex user participation in LLs’ has not been systematically clarified, nor have its methodologies been developed. Recently, the use of the LL approach has gained traction across a variety of organisations, from companies and designers to local governments, Non-Profit Organisations and civic communities (Emilson, Hillgren & Seravalli Reference Emilson, Hillgren and Seravalli2014; Malmborg et al. Reference Malmborg, Light, Fitzpatrick, Bellotti and Brereton2015). Many of them have less experience in participatory approaches including LLs. Building knowledge and developing methodologies for configuring user participation is, therefore, an important issue that the co-design and LL research community should address.

The purpose of the study is to develop a novel framework for configuring user participation in LLs through a literature review. We first collected a wide range of case study papers on LL. We focused on case study papers because they present concrete descriptions of knowledge (or know-how) for the effective promotion of LL practices, based on experiences from actual LL projects. Through a literature survey and analysis, we identified key elements that should be considered when configuring user participation in LLs. Based on the elements identified, we developed a novel framework for configuring user participation in LLs.

The contributions of this study are as follows. First, this study clarifies the elements should be considered while configuring user participation in LLs. It makes an important contribution to the theory construction in the field of LLs and co-design, especially the theory on user participation. Second, this research develops and presents a novel framework as a practical tool for configuring participations in LLs. This framework is a practically useful outcome for design practitioners in planning and managing co-design projects including LLs. Thus, this study makes not only theoretical contributions, but also practical contributions to the LLs and co-design research community.

2. Related studies

2.1. Participatory design

Research on PD, a design approach with user participation, was initiated in the 1970s in Scandinavia. In early PD research, practical studies based on action research approaches (Kensing & Greenbaum Reference Kensing and Greenbaum2012) were conducted to explore challenges to introduce new technologies and to improve the power of workers in various ‘workplaces’. Examples of these workplaces include the steel industry (Nygaard & Bergo Reference Nygaard and Bergo1975), the printing industry (Bødker et al. Reference Bødker, Ehn, Kammersgaard, Kyng and Sundblad1987) and the medical field (Bjerknes & Bratteteig Reference Bjerknes and Bratteteig1988).

Later, in the 2000s, the concept of co-design, which emphasises the equality of the relationship between designers and users, emerged (Sanders & Stappers Reference Sanders and Stappers2008; Steen, Manschot & De Koning Reference Steen, Manschot and De Koning2011). During that time, the scope of PD expanded. Research projects, such as ‘Community-Based PD’ (DiSalvo, Clement & Pipek Reference DiSalvo, Clement and Pipek2012; Grönvall, Malmborg & Messeter Reference Grönvall, Malmborg and Messeter2016), a PD approach involving regional civic communities, and ‘Large-Scale PD’ (Dalsgaard Reference Dalsgaard2010; Dalsgaard & Eriksson Reference Dalsgaard and Eriksson2013), a large-scale PD project in an urban setting, started developing. Early PD research focused on the workplace, which was a spatially and culturally closed realm. Community PD and large-scale PD focused on local communities and cities, respectively, which are open realms. In this open participatory approach, various users participated in design through various channels (Dalsgaard Reference Dalsgaard2010). As a result, ‘participation’ in design has become increasingly complex and diverse.

2.2. Living labs

LL initially referred to a laboratory that imitated everyday spaces, to evaluate various technologies and devices (Schuurman, De Marez & Ballon Reference Schuurman, De Marez and Ballon2015; Hossain, Leminen & Westerlundd Reference Hossain, Leminen and Westerlundd2018). Typical examples of this approach include MIT PlaceLab (Intille et al. Reference Intille, Larson, Beaudin, Nawyn, Munguia-Tapia and Kaushik2005) and Georgia Tech’s Aware Home (Kidd et al. Reference Kidd, Orr, Abowd, Atkeson, Essa, MacIntyre, Mynatt, Starner and Newstetter1999). Influenced by the Scandinavian PD research, it evolved into a co-creation approach that emphasised the long-term participation of users or citizens.

Figure 1 depicts the LL process model, which was developed by one of the authors based on a survey of actual LL cases (Yasuoka et al. Reference Yasuoka, Akasaka, Kimura and Ihara2018). Although the design phases themselves (the nodes of the process model) in this figure are not significantly different from those of the typical design process, the LL process can be characterised by the following three points. First, users are involved as co-creative design partners from the early to late stages of the process. Second, this co-creative design process is often long-term (e.g., several months to several years). Finally, the prototypes are experimentally tested in a real-life environment from a comparatively early stage. Given these characteristics, in LLs, users participate in various phases of the design process (e.g., problem exploration, idea generation, prototyping and testing; Juujärvi & Pesso Reference Juujärvi and Pesso2013). The format and scale of the user participation often differ in each phase (Arlati et al. Reference Arlati, Rödl, Kanjaria-Christian and Knieling2021). The user roles (e.g., information provider and co-designer) are also diverse (Nyström et al. Reference Nyström, Leminen, Westerlund and Kortelainen2014; Leminen, Nyström & Westerlund Reference Leminen, Nyström and Westerlund2015). Therefore, when we organise LL projects, it is important to properly plan and design the role, form and scale of the users, considering the phase and purpose as well as the users’ characteristics (Dalsgaard & Eriksson Reference Dalsgaard and Eriksson2013).

Figure 1. Living lab process model (illustrated based on Yasuoka et al. (Reference Yasuoka, Akasaka, Kimura and Ihara2018)).

2.3. Configuring participation

Vines et al. (Reference Vines, Clarke, Wright, McCarthy and Olivier2013) reconsidered the concept of ‘Participation’ in design, based on their recognition of the problematic overuse of participatory approaches in design research in the HCI field. In their paper, Vines et al. (Reference Vines, Clarke, Wright, McCarthy and Olivier2013) proposed the notion of ‘configuring participation’ as a key concept that must be considered by practitioners and researchers of PD projects. The term ‘configuring participation’ here refers to designing the process of participation in design, in other words, the configuration of the participation experience itself.

Vines et al. (Reference Vines, Clarke, Wright, McCarthy and Olivier2013) argued that participation in design occurs not only in the state of yes and no, or in and out, but that it has various degrees of awareness and engagement across the design process. Therefore, it is important for practitioners of the participatory approach to consider configuring participation across all forms and levels. These include, for example, passive and active participation. As mentioned above, user participation in LLs often tends to be more long-term and complex than in typical PD. Therefore, it is even more important to appropriately configure user participation across the LL processes.

2.4. Existing works related to configuring participation

Existing studies related to configuring participation can be divided into two categories: the first proposes specific methods for effectively managing each participation opportunity in the design. The methods here mainly correspond to a structured dialogue with users, and a participatory workshop (WS). For example, Kensing and Halskov proposed a participatory WS method, called the future WS, to generate new actions to change the current state through dialogue between designers and users (Kensing & Halskov Reference Kensing and Halskov1992). Foverskov & Binder (Reference Foverskov and Binder2011) and Hussain & Sanders (Reference Hussain and Sanders2012) proposed a method for the participatory prototyping of services using physical objects, such as mock-ups and dolls. Brandt & Messeter (Reference Brandt and Messeter2004) proposed a method for creating services with users through game-style WS, using photos and cards. The methods described in this section are only for configuring ‘single’ participation opportunity. They cannot manage the configuration of multiple and complex user participation, which is the focus of this study.

The second category refers to configuring multiple and diverse participation in the design process. These types of studies are often published as case studies that report and discuss the results and findings of design projects, in the areas of LLs and large-scale PDs. For example, Ogonowski et al. (Reference Ogonowski, Ley, Hess, Wan and Wulf2013) reported the results and findings of an LL project that lasted for more than 2 years for the development of a home entertainment device. This revealed the importance of creating a space where users with different attributes (e.g., tech-savvy and nontech-savvy) can simultaneously participate and build trust with the participants. Through the practical experience of a large-scale PD project in a city (Aarhus in Denmark), Dalsgaard & Eriksson (Reference Dalsgaard and Eriksson2013) clarified the keys to be considered when designing and operating a participatory WS in a large-scale and long-term PD project. They summarised the findings as design considerations for future practitioners. These studies provided specific findings for the effective promotion of LLs, some of which are related to configuring participation. However, these findings are derived from a single case study, meaning they have limitations regarding generalisation and the systematisation of knowledge. In addition, practical methods or methodologies have not been developed, creating a difficult situation for practitioners to utilise the findings in their actual practices.

3. Research approach

3.1. Overview

The purpose of the study is to develop a novel framework for configuring user participation in LLs through a literature review. Figure 2 illustrates the overall approach of the study. As shown in Figure 2, we first collected a wide range of ‘case study papers’ on LLs. Many researchers from various regions and research fields have published case studies reporting on their LL project practices. Such research not only provides theoretical descriptions, but also concretes descriptions of the insights or lessons learned from the case studies. We therefore gathered case study papers as useful data sources to obtain knowledge (or know-how) for the effective promotion of LL practices obtained from actual LL project experiences. We then surveyed the contents of each literature and extracted the findings, or the lessons learned from them. The extracted findings were then analysed by using an affinity diagram (Beyer & Holtzblatt Reference Beyer and Holtzblatt1997). The findings were categorised into meta-groups. Through this process, we identified the key elements that should be considered when configuring participation in LLs. Based on the analysis results, we finally developed a framework for configuring the participation in LLs. This can act as a practical tool for future LL practitioners or researchers.

Figure 2. Approach of this study.

3.2. Collecting and selecting the literature

To collect a wide range of case study papers on LLs, we used three academic databases (DBs). The first is the Web of Science (WoS), which is one of the world’s largest academic DBs. Given that LL is applied to various fields, such as smart cities, healthcare and information systems, we chose the WoS that contains tremendous numbers of academic papers and conference proceedings from a wide range of fields. The other two DBs are the ACM Digital Library (ACM DL) and the IEEE Xplore, which are operated by the Association for Computing Machinery (ACM) and the Institute of Electrical and Electronics Engineers (IEEE). Both are among the world’s largest academic societies in the field of information technology, computer science and information engineering. Given that LL and its related fields (such as PD and co-design) originated from research involving information system development in an organisational and societal context, several practical studies on PD projects, including LLs, have been published in ACM- and IEEE-related journals and conferences.

In this study, we searched for academic papers that included the words ‘living lab’ and ‘design’ in its basic information (title, keywords and abstract) from the above-mentioned DBs. We considered them to be appropriate keywords for collecting papers mentioning ‘practical case studies on design projects using the LL approach’. The detailed search settings are presented in Table 1. As shown in Table 1, we did not filter by the papers’ publication year. All the papers in each DB as of the date (18 May 2021) were considered search targets. In this study, only the journal papers and international conference proceedings were retrieved. We excluded other styles of publication (e.g., reports and book chapters). We also excluded non-English papers. As a result, a total of 594 papers were found. Of these, 379 papers were from WoS, 46 were from ACM DL and 169 were from IEEE Xplore.

Table 1. Detailed search settings to collect literature

Abbreviations: ACM DL, ACM Digital Library; DB, data base; IEEE, Institute of Electrical and Electronics Engineers; WoS, Web of Science.

After the data collection, for the purpose of creating a corpus (a list of papers to be deeply investigated in this study), we selected papers through the process shown in Figure 3. First, we extracted basic information, such as the paper’s title, author list, journal’s name or proceedings, publication year and the abstract. We then read each paper’s title and abstract, and selected the papers that included descriptions regarding ‘findings obtained through the practice of LL projects’. Papers that were difficult to judge based on the information given only in the title and abstract were tagged as ‘pending’. The main body of the pending paper was read to judge whether to include them in the corpus. In this selection process, duplicate papers that were included in multiple DBs were eliminated.

Figure 3. Selection process.

As a result of the selection process, 115 papers were included in the corpus. We subsequently checked if it was possible for the authors to obtain the full text of the papers. Two papers that were not available were excluded from the corpus. Finally, we compiled a corpus containing 113 papers for the literature review (see the Supplementary Material). The formats and publication years of the papers included in the corpus are shown in Figure 4.

Figure 4. Papers collected in this study.

3.3. Investigating and analysing the literature

Figure 5 shows the procedure to analyse the literature. We read the papers’ full text included in the corpus and exhaustively extracted their descriptions related to ‘findings or lessons learned from the case’ in each paper. We listed them in the form of a spread sheet. Thereafter, from the descriptions listed, we picked up the findings or lessons that specifically referred to ‘user participation’ in LLs. Here, we selected the findings on user participation as exhaustively as possible by working with several researchers. We then transcribed the titles of the selected findings onto digital sticky notes on a web-based digital whiteboard tool. Finally, we analysed the selected findings using an affinity diagram (Beyer & Holtzblatt Reference Beyer and Holtzblatt1997) to categorise them into semantically similar meta-groups. We collaboratively conducted this analysis by using the web-based digital whiteboard service. We first synchronously categorised the findings, and thereafter asynchronously checked the results several times.

Figure 5. Analysis procedure.

By conducting this type of bottom-up analysis, we exploratively clarified the key elements that should be considered when configuring the user participation in LLs. The detailed results and findings of the analysis are explained in the next section.

4. Results

4.1. Key elements for configuring participation in LLs

As a result of our analysis, we identified five categories and 11 elements that should be considered when configuring participation in LLs. The categories and elements are shown in Table 2. The details of each category and the key elements therein are described below, together with some representative descriptions in the literature surveyed in this study. In the following section, we refer to the single opportunity of user participation (e.g., interviews, questionnaires, participatory WS, dialogue and user testing) as ‘points of participation (PoPs)’. In this context, the ‘participation’ in LL can be regarded as a combination of one or more PoPs.

Table 2. Key elements to be considered in configuring participation in LLs

Abbreviation: PoP, point of participation.

The first category identified was ‘Phase (of participation)’. As shown in Figure 1, the LL design process consists of multiple phases, such as team building, problem exploration, idea generation, prototyping, user testing and social implementation. These are often set up across multiple phases. (Note that the number and content of the participation points vary depending on the purpose of the project.) In addition, Colomer et al. (Reference Colomer, Salvi, Cabrera-Umpierrez, Arredondo, Abril, Jimenez-Mixco, Garcia-Betances, Fioravanti, Pastorino, Cancela and Medrano2014) recommended implementing multiple participation tasks (i.e., user tests) during the test phase, depending on the level of the prototype quality (operational reliability, accuracy, etc.). This implies that various participation points can exist even within a particular phase. Consequently, it is necessary for LL practitioners to carefully consider in which ‘phase’ (i.e., when) to set the PoP in the LL process. Another important aspect to note is that each PoP has different ‘purposes’ (i.e., a purpose to set up the user participation). Therefore, in the LL practice, the strategic planning of the purpose of setting up PoPs is important, along with the perspective of ‘when’ (Menny, Voytenko & McCormick Reference Menny, Voytenko and McCormick2018).

The second category was ‘Participants’. We found that the three elements ‘Attribute’, ‘Scale’ and ‘Role’ of the participants (users) need to be considered when planning the PoPs in LLs. ‘Attributes’ refers to the characteristics of users regarding their abilities (e.g., technology savvy or not) and attitudes (e.g., motivation). ‘Scale’ refers to the number of users participating in each PoP. Existing studies show that the scale of the participation should be optimised according to the purpose and phase of the participation (Menny et al. Reference Menny, Voytenko and McCormick2018). In addition, existing studies suggest considering the ‘role’ of users in the design process. Leminen, Westerlund & Nyström (Reference Leminen, Westerlund and Nyström2014) identified a variety of user roles (such as informants, testers and co-creators), and the level of engagement varies according to the role. It is important to assign appropriate roles and engagement levels for each user, rather than having all the participants be actively involved and play a central role (Schuurman et al. Reference Schuurman, De Moor, De Marez and Evens2010).

The third category is the ‘Format (of participation)’. The format of participation at each PoP includes various ‘channels or places’, for example, ‘digital participation’, using PCs and smartphones, and ‘face-to-face participation’, such as participatory WSs. In addition, to realise effective collaboration with users at each PoP, it is also important to consider the kind of method that should be applied. Various methods have been applied in past LL projects. These are such as the participatory WS method originally proposed in the PD field (García-Guzmán et al. Reference García-Guzmán, Del Carpio, De Amescua and Velasco2013; Kopeć, Nielek & Wierzbicki Reference Kopeć, Nielek and Wierzbicki2018), the idea competition method to obtain several ideas (Reichel & Schelhowe Reference Reichel and Schelhowe2008) or the use of gamification to encourage users’ proactive participation (Kopeć et al. Reference Kopeć, Nielek and Wierzbicki2018; Jiang, Xiao & Cao Reference Jiang, Xiao and Cao2020).

The fourth category is the ‘Contact’, which refers to the point of contact with the participants. Existing studies mention two important aspects of contact with the participants. The first is the initiation of contact with the participants, in other words, the ‘recruitment’ of participants. Since the recruitment method influences the appropriateness and number of participating users, it is important to carefully consider the recruitment of the participants (Svensson, Eriksson & Ebbesson Reference Svensson, Eriksson and Ebbesson2010; Panek et al. Reference Panek, Hlauschek, Schrenk, Werner and Zagler2011; Ogonowski et al. Reference Ogonowski, Ley, Hess, Wan and Wulf2013). The second is maintaining continuous contact with the participants, that is, the ‘communication’, with the participants. Previous LL studies have noted the importance of setting up a contact point to maintain a continuous relationship with the users (Šifrer et al. Reference Šifrer, Pucihar, Kljajić-Borštnar and Lenart2012; Ley et al. Reference Ley, Ogonowski, Mu, Hess, Race, Randall, Rouncefield and Wulf2015; Ahmadi et al. Reference Ahmadi, Eilert, Weibert, Wulf and Marsden2020). This is especially for responding to questions from the users and to communicate in detail with them.

The fifth category is ‘Motivation Management’. Many LL cases contain multiple PoPs throughout their design process. Some of them may require a long period of user involvement (e.g., in the case of conducting a long-term social service experiment). Participating in a design many times, or for a long period of time, is generally a highly burdensome process for users, resulting in participants sometimes dropping out from LL projects (Ogonowski et al. Reference Ogonowski, Ley, Hess, Wan and Wulf2013; Georges, Schuurman & Vervoort Reference Georges, Schuurman and Vervoort2016; Habibipour et al. Reference Habibipour, Georges, Schuurman and Bergvall-Kåreborn2017). Therefore, maintaining and stimulating participants’ motivation is a very important issue for LL practitioners. The results of the literature review of this study indicate that the two factors ‘Motivators’ and ‘Obstacles’ are important to address this issue. The former refers to factors that stimulate participants’ motivation, such as incentives for participation (Kviselius et al. Reference Kviselius, Ozan, Edenius and Andersson2008) and the empowerment of users (Vallentin-Holbech et al. Reference Vallentin-Holbech, Dalgaard, Dietrich, Rundle-Thiele, Majgaard, Lyk and Stock2020). The latter denotes factors that hinder the participants’ motivation, such as a heavy burden on participants (Ley et al. Reference Ley, Ogonowski, Mu, Hess, Race, Randall, Rouncefield and Wulf2015), a loss of trust in the prototype (Alaoui & Lewkowicz Reference Alaoui and Lewkowicz2015) or insufficient usability of the prototype (Åström et al. Reference Åström, Ruoppila, Ertiö, Karlsson and Sarah-Kristin2015). To achieve continuous and active user participation, it is important to provide attractive motivators to participants and eliminate obstacles as much as possible.

4.2. Participation blueprint – a framework for configuring participation in LLs

The five categories and 11 elements described in Table 2 are important findings from the literature review and study analysis. While there is no doubt about the importance of these text-based findings, it is also worth noting that these forms of knowledge (i.e., long and academic descriptions of knowledge) are difficult for practitioners to use. In this study, we translate text-based knowledge into a diagrammatic framework that will support LL practitioners in configuring participation in LLs.

Figure 6 illustrates the framework proposed in this study. This framework, which we call ‘participation blueprint (PBP)’, is a tool to support configuring user participation in LLs, with visual representations. The PBP consists of five lanes, corresponding to the five categories (phase, participants, format, contact and motivation management) identified in this study. The elements in each category are represented as the sublanes of each category. Especially, in the ‘Phase’ lane, the six steps of team building, problem exploration, idea generation, prototyping, testing and social implementation are described based on the LL process model, as shown in Figure 1.

Figure 6. Participation blueprint.

By using the five lanes of the PBP, LL practitioners can comprehensively consider how to configure user participation from various perspectives for each design phase. Note that the PBP is merely a tool to give LL practitioners’ viewpoints to support them in configuring user participation. In other words, it does not deterministically impose an ideal form of user participation on LL practitioners, as do manuals. Rather, it is a tool to support them in flexibly designing PoPs that are suitable for their projects, according to the context and circumstances of the field or region. In addition, during the LL project, it will be important for LL practitioners to modify and update the pre-described PoPs on the basis of the project status and progress. The PBP is thus a tool to support LL practitioners to flexibly configure and operate user participation processes in LL projects based on the context of the field.

4.3. How to use the PBP

Example case

In this section, we exemplify how user participation can be planned and described with the PBP framework. Figure 6 shows the example case. Here, all the PoPs in an LL case, which are promoted by one of the authors, have been illustrated. In the illustrated example application, we have first (i) depicted the PoPs that were operated in the case, and then (ii) planned additional PoPs to improve the participatory process in the case. In Figure 6, for the ease of readers’ understanding, the PoPs that were actually operated are coloured yellow, and additional PoPs are coloured green.

The case considered is an LL project aimed at building social relationships among citizens and for building local community in a suburban area of Tokyo, Japan. One of the serious problems people faced in this region was a decrease in social connections among the elderly due to the COVID-19 pandemic. In particular, we focused on a large housing complex in the area. Many of the residents there had been ageing; they had not been able to communicate with other residents due to the restrictions that had been imposed on the activities of residents’ associations. Moreover, many elderly people were not familiar with using digital devices, which limited their communication options and thus were unable to maintain contact with the local communities. The loss of social contacts may also lead to a decline in the Quality of Life of residents there.

In this project, we designed a digital communication service for supporting the community living in a housing complex, in collaboration with the local people (e.g., members of the neighbourhood association and residents of the complex). This project focused on activating and maintaining multigenerational communication in the area, such as between younger and older generations. In the following paragraph, we have explained the usage of the PBP on the basis of the case description, which is illustrated in Figure 6.

Using the PBP

In the PBP, each PoP is configured by describing the elements of each sublane in the ‘vertical’ direction (see Part [A] in Figure 6). By using the PBP in this direction, LL practitioners can discuss and plan the detailed contents of PoPs from various perspectives, as on the basis of the 11 elements depicted in Table 2. For example, Part [A] in Figure 6 describes that a ‘participatory WS’ was conducted at ‘a meeting place in a housing complex’, with the participation of ‘two’ of the ‘neighbourhood association members’, to ‘clarify the issues that local residents perceived’ in the ‘issue exploration phases’, and that the role of the participants was that of ‘informants’. In addition, Part [A] in Figure 6 also shows that the participants were recruited upon ‘request from the local government’. The contact points oversaw ‘a local government employee’. The users were participating with an ‘intrinsic motivation to revitalise the neighbourhood association’.

This example shows that the PBP enables us to simultaneously consider perspectives, such as when, for what purpose, where and with whom to implement the PoP; what the user role is; how the users can be contacted and what motivates the users to participate in the design process. LL practitioners can discuss and plan the content of the PoP that is appropriate for its phase and purpose, for example, a face-to-face participatory WS with a small number of users for conducting an intensive discussion of ideas, or a large-scale questionnaire for collecting a wide range of opinions from users. Furthermore, LL practitioners can consider factors that are often overlooked, such as the contact point and the users’ motivation to participate, which are important for improving the quality of the participation process.

In contrast, after multiple PoPs have been described, reviewing the PBP ‘horizontally’ along the lanes allows us to understand the entire structure of the participatory process under consideration, especially the diverse forms of participation. For example, as shown in Part [B] in Figure 6, by looking horizontally at the ‘Participants’ lane, LL practitioners can easily evaluate in advance whether the participatory process is configured to allow for the involvement of a variety of people. From the whole structure of the ‘Channel or Place’ lane, LL practitioners can review what kind of participation environment (physical place and digital participation tools) must be prepared to seek the user participation throughout the design process.

In this example, checking the lanes horizontally allowed us to recognise the bias of the participants and participation formats in the LL process. Therefore, for improving the participation process in this LL, we added three new PoPs (i.e., PoPs coloured green in Figure 6). First, we added a ‘large-scale questionnaire using online forms’ in the challenge exploration phase (Part [a] in Figure 6). Although interviews were actually conducted with only five residents to explore issues to be solved, it would have been more effective to seek people’s opinion by administering the questionnaire at a large-scale to understand the potential issues. Second, in the idea generation phase, ‘a participatory WS where the residents played the role of co-designers’ was added (Part [b] in Figure 6), since we noticed that activities for co-creating service concepts with residents were really important to obtain their agreements. Third, in the user test phase, we added ‘social experiments of the service app’ (Part [c] in Figure 6). This addition was made because such experiments were important to verify the usability and the acceptability of the app.

As mentioned above, the proposed PBP enables LL practitioners to reflect on the appropriateness and diversity of the planned participation process. In PD projects, including LLs, it has been reported that some problems (e.g., bias in opinions) are caused due to participants’ bias towards a certain group (Gebhardt, Brost & König Reference Gebhardt, Brost and König2019). Therefore, ensuring the diverse forms of participation (i.e., preparing various formats for participation and involving a variety of users as participants) is important in LL practice. The PBP framework developed in this study makes configuration of a diverse participation process possible.

5. Discussion

5.1. Theoretical contributions

As mentioned above, although the importance of configuring participation in design has been argued in design research thus far, there has been little research on systematising knowledge or developing methodologies for configuring participation. In response to this, in this study, through a literature review of LL case studies, we have identified the key elements (the five categories and 11 elements shown in Table 2) that should be considered while configuring the user participation in LLs. These key elements can contribute to the theoretical discussion of user participation in LLs. In LL research, realising continuous and active user participation has been an important issue. Previous studies have often adopted the case study approach and derived findings and lessons learnt from the case. However, these results are highly context-dependent knowledge on LL practices. In contrast, this study integrated the results of the previous studies into more generalised, structured knowledge on user participation, which can be used in a variety of contexts. We therefore believe that this study includes an important achievement for building a theoretical foundation of LLs.

Looking at a different but related research arena such as the field of urban planning and public policy, Arnstein’s ‘Ladder of Citizen Participation’ (Arnstein Reference Arnstein1969) has been proposed as a theory of citizen participation. It is a model that divides the level of citizen participation into eight stages (manipulation, therapy, informing, consultation, placation, partnership, delegated power and citizen control). ‘Operation’ is at the bottom and ‘citizen control’ is at the top of the ladder. It states that reaching the top of the ladder, that is, giving greater authority to citizens, is important. This model conceptually clarifies how citizens (i.e., users of public services) should participate in discussions of public issues. However, it does not address the question of how exactly user participation should be configured.

In response to Arnstein’s model’s limitation, the five categories and 11 elements identified in this study are structural and concrete knowledge for configuring the user participation in LLs. In addition, because the categories and elements were derived based on a survey of many existing LL case studies, they may be generalised to a certain extent. Our findings are therefore important in contributing to the establishment of a theory for participation in design.

5.2. Practical contributions

In this study, beyond the literature review and analysis, we proposed the PBP, which is a novel framework for configuring participation in LLs. In an LL project that involves complex and/or long-term user participation, it is difficult to determine the entire process of user participation at the beginning of the design process. LL practitioners should therefore flexibly change and reconfigure the process. They should also format the user participation, depending on the situations that arise during the project (Hillgren, Seravalli & Emilson Reference Hillgren, Seravalli and Emilson2011).

The results of the example case descriptions using PBP show that it allowed us to configure user participation considering various viewpoints. This indicates the potential of PBP to provide useful clues for LL practitioners in planning user participation. In addition, using PBP in this study allowed us to identify the biases of participants and participation formats in our previous case and obtain insights to configure more diverse user participation in future projects. These results suggest the ‘potential’ usefulness of PBP in supporting the planning, modification and reconfiguration of user participation in LL projects.

The existing gap between research and practice, that is, the Research–Practice Gap (Norman Reference Norman2010; Buie, Hooper & Houssian Reference Buie, Hooper and Houssian2013) has been regarded as a serious challenge in design research. This gap indicates that the knowledge obtained through design research is rarely utilised by design practitioners. Colusso et al. (Reference Colusso, Bennett, Hsieh and Munson2017) refer to tools and methods such as design cards (Wölfel & Merritt Reference Wölfel and Merritt2013; Fedosov et al. Reference Fedosov, Kitazaki, Odom and Langheinrich2019) to fill this gap as ‘translational resources (TRs)’. They strongly emphasise the importance of researchers actively developing TRs to effectively utilise research results in design practice. The PBP developed in this study may be regarded as a framework for facilitating the utilisation of the findings shown in Table 2. Therefore, the PBP is exactly the TR that connects the results of the literature survey, the analysis and LL practices. Therefore, the PBP is not just theoretical knowledge, but a useful, practical framework that can provide support to future LL practitioners.

5.3. Limitations

In this study, we collected case study papers on LL as a data source and analysed them to identify key elements that should be considered when configuring user participation. Case studies contain project descriptions and practical knowledge obtained from the project, but information on detailed context and minor activities is often missing. Such incompleteness of data sources is one of the limitations of this study. In future, we will conduct in-depth interviews with LL practitioners to extract richer, contextual information of LL practices. Such additional investigations will help to identify elements or perspectives that this study missed and, if necessary, will revise or enhance the results of this study.

Meanwhile, in this study, we proposed the PBP, which is a novel framework for configuring user participation in LLs. It is developed based on the findings of a literature review and is expected to be useful in practice. However, in this study, we have only presented a case example of the use of the PBP. We have not yet verified its usefulness in a practical setting. Therefore, our future research will include applying the PBP to the planning and configuring of user participation in actual LL projects, which the authors are promoting, and analysing the results thereof to verify its usefulness. In the future case applications, we will contribute to the LL research community by investigating questions such as whether PBP is useful in supporting inexperienced practitioners or how it can support experienced practitioners.

While the framework for configuring user participation has been presented in this study, we have not yet developed a ‘methodology’ that includes the detailed procedures for using it. To enable effective use of PBP by LL practitioners, further discussion on ‘how to use’ the PBP is strongly required, such as defining the detailed procedures and rules to use PBP for planning and configuring user participation in LLs. In this context, it is also important to construct methods to support configuring user participation using the PBP. This is such as clarifying patterns and building a DB of knowledge on the user participation process. In the future, we will further develop a detailed procedure, and support the methods described above. We also aim to establish a comprehensive methodology for configuring the user participation process in LLs.

6. Conclusion

In this study, we focused on ‘configuring user participation’ in LLs. Through a literature survey and analysis, we identified the key elements that should be considered when configuring user participation in LLs. Furthermore, we developed a novel framework for configuring user participation in LLs, which is called the PBP. We demonstrated how to use the PBP with an example case. The example showed that the proposed PBP enables LL practitioners to consider multifaceted LL activities based on the key elements identified in this study, when discussing and planning the details of user participation. It also presented that the PBP is useful for LL practitioners to reflect on the appropriateness and diversity of the planned participation process. On the basis of the example description, we also discussed its theoretical and practical contributions to the LL research community. Our future research will include applying the PBP to the planning and configuration of user participation in actual LL projects to verify its usefulness. We also plan to develop a methodology for configuring user participation in LLs.

Supplementary Materials

To view supplementary material for this article, please visit http://doi.org/10.1017/dsj.2022.22.

Financial support

This study is partially supported by JSPS KAKENHI Grant No. JP21K21327.

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Figure 0

Figure 1. Living lab process model (illustrated based on Yasuoka et al. (2018)).

Figure 1

Figure 2. Approach of this study.

Figure 2

Table 1. Detailed search settings to collect literature

Figure 3

Figure 3. Selection process.

Figure 4

Figure 4. Papers collected in this study.

Figure 5

Figure 5. Analysis procedure.

Figure 6

Table 2. Key elements to be considered in configuring participation in LLs

Figure 7

Figure 6. Participation blueprint.

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