Collaborative innovation: a technological perspective

IF 0.5 Q4 BUSINESS
Angélica Pigola, P. R. Costa, M. Mazieri, I. Scafuto
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Cui et al., 2020), corporate engagement with startups (Shankar Shepherd, 2019), innovation networks (Aarikka-Stenroos et al., 2017), and innovation ecosystems (Granstrand Holgersson, 2020).Collaborative innovation takes over the existence of an inter-organizational activities executed by people that together perform with high level of interdependence something innovative (T. Cui et al., 2020; Davis Eisenhardt, 2011). Some authors (Adner Kapoor, 2010; T. Cui et al., 2020; Rico et al., 2008) highlight that this interdependence is characterized along two dimensions: technological and behavioral. Technological interdependence is linked to knowledge and the exchange of resources for research and development, and behavioral interdependence is associated with the field of communication, social interaction between collaborative actors and the coordination of these relationships to innovate.Other perspectives in the literature explain and theorize about collaborative innovation as knowledge-sharing trajectories (Majchrzak Malhotra, 2016; Trkman Desouza, 2012), or multi-actor collaboration (Torfing, 2019), or building collaborative capabilities (Swink, 2006) among other approaches. In this editorial, we bring some thoughts and idea about collaborative innovation under a technological perspective to incentive researchers to go beyond in innovative technologies research embedded in collaboration.Collaboration efforts also became a common way of firms to enhance innovations and its technological development with clear determinants about their beneficial effects, and therefore, the literature is well stablished in this subject (Pereira et al., 2018). However, collaboration only succeeds when technological resources and capabilities are combined, and parties define jointly how to enhance and use them accordingly (Snow, 2015).Collaborative innovation as a new technological paradigm refers to a network innovation model supported by interactions of multiple parties such as enterprises, universities and research institutions as core elements and government, financial institutions, nonprofit organizations, intermediaries as auxiliary elements (W. Zhang et al., 2021). Notwithstanding, collaboration networks operating in different organizational levels are present in various patterns and characteristics of evolution, they require different actors and capabilities in the network composition to become a remarkable asset in developing technologies to be patented afterwards in some cases (Gomes et al., 2017).In facing of risks of failures during innovative trajectories, firms invest in collaborative initiatives as an attempt to mitigate cost impacts, share responsibilities and greater technical performance in the process of technology lifecycle development. Thus, technological alliances are useful means to attend these goals (Kim Song, 2007). Technological alliances are critical to enable digital transformation and innovation. Briefly, Zhang et al. (2021) highlight technological alliance as a voluntary interfirm cooperation involving codeveloping technologies through sharing and exchanging of these technologies to meet business needs (W. Zhang et al., 2021).The collaborations in various technological domains help to bring heterogenous knowledge, complementary resources, and capabilities for a better innovation performance (Swink, 2006; W. Zhang et al., 2021). Under the perspective that innovation is essentially knowledge creation (Nonaka, 1994), collaborative innovation through a technological perspective may be configured by different activities, processes, or routines of generation, sharing, integration, and utilization of knowledge produced during the innovation process lifecycle (Nonaka, 1994; W. Zhang et al., 2021). Further, this configuration of activities, processes, or routines support the development of evolutionary technological capabilities (Sampson, 2007).In the field of technological innovations, the evolution now is more collaborative in nature (J. Zhang et al., 2019). Collaboration is a trend for technological prosperity. Analyzing collaborative innovation in the literature is a great challenge even if the focus on technologies is defined because various aspects and applications of collaboration to innovate invade the academic literature in many forms. For instance, Zhou and Ren (2021) analyzed low-carbon technology collaborative innovation in industrial cluster; Shen et al. (2021) studied collaborative innovation in supply chain systems; Wan et al. (2022) highlight that blockchain application intensify collaborative innovation through distributed computing, cryptography and game theory; Li and Zhou (2022) researched on the mechanism of Government–Industry–University–Institute collaborative innovation in green technology; and Fan et al. (2022) pointed out that collaborative innovation also may act as a driver to mobilize and coordinate scientific and technological resources within a city, further promoting innovative development among cities.On the other hand, technological collaborative innovations has its own dark side for firms: it has been costly, it demands money, efforts, and time (Torugsa Arundel, 2016; Wegrich, 2019), and, further, it provokes operational adjustments, technological reconfiguration, and legal barriers to overcome to be effective for innovation (McGuire Agranoff, 2011; Vivona et al., 2022). To address this side of collaborative innovation, Vivona et al. (2022) developed the cost theory to systematize all insights from the literature in four main factors: governance, compactness, reliability, and institutionalization to shed light on a broader range of costs for innovation incurred by collaborative arrangements. Governance refers to relationships in hierarchical level and the number of collaborators involved, reliability refers to relationships’ quality; compactness is about the degree of formality in relationships that connect collaborators; and institutionalization that measure what the extent the relationships in practice have been pre-established. This cost perspective may be explored empirically.The decentralization of technological collaborative innovation, its nonlinear, globalized, and networked form transformed its process to more collaborative approaches among entities (Fan et al., 2020). Lopes and Farias (2022) showed that technology tools support the establishment of relationships of trust promoted by leaders committed to well-established goals, being a characteristic of governance that has a positive influence on collaborative innovation processes. Hwang (2020) mentioned that several countries have implemented policies to facilitate technological convergence by supporting collaborative innovations. The author also mentions that collaborative innovation is a crucial strategy to facilitate technological convergence. In sum, firms have been increased collaboration in technological activities and collaboration works as an enabling to learn about turbulent technological change and uncertainties to enhance the ability to deal with innovations (Dodgson, 1993).Technological collaborative innovation is considered essential to promote the flow of resources, knowledge, and technology among entities, considering that innovation is no longer a closed and isolated system. The main premise is technologies do not exist in isolation. Only by exchanging materials, energy, and information with the environment the innovation system be renewed and developed. Therefore, the integrator condition of technological collaborative innovation is also conducive to a more comprehensive disclosure of the collaborative mode and overall performance of technological innovation activities (Fan et al., 2020).Technological collaborative innovation is not a merely coordination of an orderly arrangements of efforts to pursue a common technological purpose (Mooney, 1953), or a merely cooperation to join agreed-on goals into a share comprehension about design systems or reconfigure technological resources (Gulati et al., 2012). It merges cooperation (commitment towards same end) with coordination (complexity to work together effectively) (Vivona et al., 2022). This view may be much more explored by the researchers to enhance the practical aspects of this perspective.In general, collaboration itself does not survive in the face of inevitable behavioral problems which requires an establishment of trust characterized by receptive organizational cultures, community of interest, and continually supplement knowledge for the purpose of  collaboration in highly successful technological innovations (Dodgson, 1993). 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引用次数: 1

Abstract

Collaborative innovation become one of the most strategy decision across firms and a well-defined phenomenon that became popular among practitioners and researchers (A. S. Cui O’Connor, 2012; Liu et al., 2017). Many theories were considered to explain collaboration phenomena such as resources-based view, organization theory, strategy, information processing theory, the economic theory of complementarities among others (Barney, 1991; Cassiman Veugelers, 2006; Daft Lengel, 1986; Milgrom Roberts, 1995; Tushman Nadler, 1978). However, technology advances provide new variations in collaboration to innovativeness. For example, collaborative activities with suppliers and customers (Karhade Dong, 2021),  community source projects (Liu et al., 2017) or collaboration with distant partners (T. Cui et al., 2020), corporate engagement with startups (Shankar Shepherd, 2019), innovation networks (Aarikka-Stenroos et al., 2017), and innovation ecosystems (Granstrand Holgersson, 2020).Collaborative innovation takes over the existence of an inter-organizational activities executed by people that together perform with high level of interdependence something innovative (T. Cui et al., 2020; Davis Eisenhardt, 2011). Some authors (Adner Kapoor, 2010; T. Cui et al., 2020; Rico et al., 2008) highlight that this interdependence is characterized along two dimensions: technological and behavioral. Technological interdependence is linked to knowledge and the exchange of resources for research and development, and behavioral interdependence is associated with the field of communication, social interaction between collaborative actors and the coordination of these relationships to innovate.Other perspectives in the literature explain and theorize about collaborative innovation as knowledge-sharing trajectories (Majchrzak Malhotra, 2016; Trkman Desouza, 2012), or multi-actor collaboration (Torfing, 2019), or building collaborative capabilities (Swink, 2006) among other approaches. In this editorial, we bring some thoughts and idea about collaborative innovation under a technological perspective to incentive researchers to go beyond in innovative technologies research embedded in collaboration.Collaboration efforts also became a common way of firms to enhance innovations and its technological development with clear determinants about their beneficial effects, and therefore, the literature is well stablished in this subject (Pereira et al., 2018). However, collaboration only succeeds when technological resources and capabilities are combined, and parties define jointly how to enhance and use them accordingly (Snow, 2015).Collaborative innovation as a new technological paradigm refers to a network innovation model supported by interactions of multiple parties such as enterprises, universities and research institutions as core elements and government, financial institutions, nonprofit organizations, intermediaries as auxiliary elements (W. Zhang et al., 2021). Notwithstanding, collaboration networks operating in different organizational levels are present in various patterns and characteristics of evolution, they require different actors and capabilities in the network composition to become a remarkable asset in developing technologies to be patented afterwards in some cases (Gomes et al., 2017).In facing of risks of failures during innovative trajectories, firms invest in collaborative initiatives as an attempt to mitigate cost impacts, share responsibilities and greater technical performance in the process of technology lifecycle development. Thus, technological alliances are useful means to attend these goals (Kim Song, 2007). Technological alliances are critical to enable digital transformation and innovation. Briefly, Zhang et al. (2021) highlight technological alliance as a voluntary interfirm cooperation involving codeveloping technologies through sharing and exchanging of these technologies to meet business needs (W. Zhang et al., 2021).The collaborations in various technological domains help to bring heterogenous knowledge, complementary resources, and capabilities for a better innovation performance (Swink, 2006; W. Zhang et al., 2021). Under the perspective that innovation is essentially knowledge creation (Nonaka, 1994), collaborative innovation through a technological perspective may be configured by different activities, processes, or routines of generation, sharing, integration, and utilization of knowledge produced during the innovation process lifecycle (Nonaka, 1994; W. Zhang et al., 2021). Further, this configuration of activities, processes, or routines support the development of evolutionary technological capabilities (Sampson, 2007).In the field of technological innovations, the evolution now is more collaborative in nature (J. Zhang et al., 2019). Collaboration is a trend for technological prosperity. Analyzing collaborative innovation in the literature is a great challenge even if the focus on technologies is defined because various aspects and applications of collaboration to innovate invade the academic literature in many forms. For instance, Zhou and Ren (2021) analyzed low-carbon technology collaborative innovation in industrial cluster; Shen et al. (2021) studied collaborative innovation in supply chain systems; Wan et al. (2022) highlight that blockchain application intensify collaborative innovation through distributed computing, cryptography and game theory; Li and Zhou (2022) researched on the mechanism of Government–Industry–University–Institute collaborative innovation in green technology; and Fan et al. (2022) pointed out that collaborative innovation also may act as a driver to mobilize and coordinate scientific and technological resources within a city, further promoting innovative development among cities.On the other hand, technological collaborative innovations has its own dark side for firms: it has been costly, it demands money, efforts, and time (Torugsa Arundel, 2016; Wegrich, 2019), and, further, it provokes operational adjustments, technological reconfiguration, and legal barriers to overcome to be effective for innovation (McGuire Agranoff, 2011; Vivona et al., 2022). To address this side of collaborative innovation, Vivona et al. (2022) developed the cost theory to systematize all insights from the literature in four main factors: governance, compactness, reliability, and institutionalization to shed light on a broader range of costs for innovation incurred by collaborative arrangements. Governance refers to relationships in hierarchical level and the number of collaborators involved, reliability refers to relationships’ quality; compactness is about the degree of formality in relationships that connect collaborators; and institutionalization that measure what the extent the relationships in practice have been pre-established. This cost perspective may be explored empirically.The decentralization of technological collaborative innovation, its nonlinear, globalized, and networked form transformed its process to more collaborative approaches among entities (Fan et al., 2020). Lopes and Farias (2022) showed that technology tools support the establishment of relationships of trust promoted by leaders committed to well-established goals, being a characteristic of governance that has a positive influence on collaborative innovation processes. Hwang (2020) mentioned that several countries have implemented policies to facilitate technological convergence by supporting collaborative innovations. The author also mentions that collaborative innovation is a crucial strategy to facilitate technological convergence. In sum, firms have been increased collaboration in technological activities and collaboration works as an enabling to learn about turbulent technological change and uncertainties to enhance the ability to deal with innovations (Dodgson, 1993).Technological collaborative innovation is considered essential to promote the flow of resources, knowledge, and technology among entities, considering that innovation is no longer a closed and isolated system. The main premise is technologies do not exist in isolation. Only by exchanging materials, energy, and information with the environment the innovation system be renewed and developed. Therefore, the integrator condition of technological collaborative innovation is also conducive to a more comprehensive disclosure of the collaborative mode and overall performance of technological innovation activities (Fan et al., 2020).Technological collaborative innovation is not a merely coordination of an orderly arrangements of efforts to pursue a common technological purpose (Mooney, 1953), or a merely cooperation to join agreed-on goals into a share comprehension about design systems or reconfigure technological resources (Gulati et al., 2012). It merges cooperation (commitment towards same end) with coordination (complexity to work together effectively) (Vivona et al., 2022). This view may be much more explored by the researchers to enhance the practical aspects of this perspective.In general, collaboration itself does not survive in the face of inevitable behavioral problems which requires an establishment of trust characterized by receptive organizational cultures, community of interest, and continually supplement knowledge for the purpose of  collaboration in highly successful technological innovations (Dodgson, 1993). Thus, this can be a new chapter for technological collaborative innovations.
协同创新:技术视角
协同创新成为企业最具战略性的决策之一,也是一种在从业者和研究人员中流行的明确现象(a.S.Cui O'Connor,2012;刘等人,2017)。许多理论被认为可以解释协作现象,如基于资源的观点、组织理论、战略、信息处理理论、互补性经济理论等(Barney,1991;Cassiman-Veugelers,2006;Daft Lengel,1986;Milgrom-Roberts,1995;Tushman Nadler,1978)。然而,技术进步为合作创新提供了新的变化。例如,与供应商和客户的合作活动(Karhade Dong,2021)、社区来源项目(Liu et al.,2017)或与远方合作伙伴的合作(T.Cui et al.,2020)、企业与初创公司的合作(Shankar-Sherpherd,2019)、创新网络(Aarikka Stenroos et al,和创新生态系统(Granstrad-Holgersson,2020)。协作创新接管了由人们执行的组织间活动的存在,这些活动在高度相互依存的情况下共同表现出创新性的东西(T.Cui et al.,2020;Davis Eisenhardt,2011)。一些作者(Adner Kapoor,2010;T.Cui等人,2020;Rico等人,2008)强调,这种相互依存关系有两个维度:技术和行为。技术相互依存关系到知识和研发资源的交换,行为相互依存关系涉及沟通领域、合作参与者之间的社会互动以及协调这些关系以进行创新。文献中的其他观点将协作创新解释为知识共享轨迹并将其理论化(Majchrzak-Malhotra,2016;Trkman-Desouza,2012),或多参与者协作(Torfing,2019),或构建协作能力(Swink,2006)等方法。在这篇社论中,我们从技术的角度提出了一些关于合作创新的想法和想法,以激励研究人员超越合作中的创新技术研究。合作努力也成为企业加强创新及其技术发展的一种常见方式,其有益效果具有明确的决定因素,因此,在这一主题上的文献已经很好地建立起来(Pereira等人,2018)。然而,只有当技术资源和能力相结合,各方共同定义如何相应地增强和使用它们时,协作才会成功(Snow,2015)。协作创新作为一种新的技术范式,是指由企业等多方互动支持的网络创新模式,大学和研究机构为核心要素,政府、金融机构、非营利组织、中介机构为辅助要素(W.Zhang et al.,2021)。尽管如此,在不同组织级别中运行的协作网络以各种模式和进化特征存在,它们需要网络组成中的不同参与者和能力,才能在某些情况下成为开发技术的显著资产,并在之后获得专利(Gomes et al.,2017)。面对创新轨迹中的失败风险,企业投资于合作举措,试图减轻成本影响,在技术生命周期开发过程中分担责任并提高技术性能。因此,技术联盟是实现这些目标的有用手段(Kim Song,2007)。技术联盟对于实现数字化转型和创新至关重要。简言之,张等人(2021)强调技术联盟是一种自愿的企业间合作,通过共享和交换这些技术来共同开发技术,以满足业务需求(W.Zhang et al.,2021)。各种技术领域的合作有助于带来异质知识、互补资源,以及提高创新绩效的能力(Swink,2006;W.Zhang等人,2021)。在创新本质上是知识创造的观点下(Nonaka,1994),通过技术视角的协同创新可能由创新过程生命周期中产生的知识的生成、共享、集成和利用的不同活动、过程或例程来配置(Nonaka,1994;W.Zhang等人,2021)。此外,这种活动、过程或例程的配置支持进化技术能力的发展(Sampson,2007)。在技术创新领域,进化现在在本质上更具协作性(J.Zhang et al.,2019)。协作是技术繁荣的趋势。
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