Open Design. Bas van Abel. Читать онлайн. Newlib. NEWLIB.NET

Автор: Bas van Abel
Издательство: Ingram
Серия:
Жанр произведения: Изобразительное искусство, фотография
Год издания: 0
isbn: 9789063693596
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       MICHEL AVITAL

      A shift in communications infrastructure is an important factor in how open design has taken shape and the possibilities it offers. It is a transition from the ‘internet of things’ to the things of the internet. Michel Avital analyses the main drivers behind open design, open innovation and open source. He describes the major features of open design and explores the preconditions for open design in relation to four aspects: object, process, practice and infrastructure, with a specific focus on infrastructure.

      Michel Avital is an associate professor of Information Management at the Amsterdam Business School, University of Amsterdam, The Netherlands. For Michel, open design “signifies open-access digital blueprints that can be adapted at will to meet situational requirements, and can subsequently be used by consumers to fabricate products on demand by commercial, off-the-shelf production methods. The open design model diminishes the traditional vertical value chain that is formed by designer-manufacturer-distributor-consumer relationships and offers an alternative, open web of direct links between designers and consumers. The resulting short-spanned, transient and non-hierarchical relationships forge dynamic and flexible arrays of design blueprints that are not only user-centred but also user-driven.”

       http://avital.feb.uva.nl/

      ‘Openness’ is a recurring and increasingly frequent theme in recent buzzwords that populate the discourse on the forefront of technology, from open source via open innovation to open design. A review of related articles in the popular press and trade magazines indicates that the modifier open often denotes better, cheaper and faster. Apparently, the qualities inherent in openness or being open have materialized as the underlying enablers that pave the way for creativity, innovation and prosperity. In keeping with the thrust of this volume, this article contextualizes open design, focusing in particular on the characteristics of the infrastructure that are most conducive to its generative capability in relationship to innovation.

       The Context of Open Design

      Openness pertains to accessibility. Openness is a relative characteristic that refers to the degree to which something is accessible to view, modify and use. The ability to view refers to sharing SHARING content and the availability of detailed information about the subject matter. The ability to modify refers to sharing labour and empowering changes, improvements and extensions of subject matter. The ability to use refers to sharing ownership and enabling semi or unrestricted reuse of the subject matter or parts thereof. These are the three fundamental operations that are implied by accessibility. Subsequently, from a systems theory perspective, openness relates to the transparency and permeability of any natural or constructed boundaries. Yet openness is not merely a technical attribute that conveys flow or lack thereof; it is an embedded trait that pervades the structure of a thriving civil society. From a social perspective, openness is a core characteristic of an infrastructure that conveys and reinforces sharing, reciprocity, collaboration, tolerance, equity, justice and freedom. The application of openness, OPEN EVERYTHING as implied by various accessibility features, to a growing number of central ubiquitous practices that drive the human enterprise, has turned into a megatrend that can be labelled the Rise of Open-X. Megatrends are widespread trends which have a major impact and are likely to affect all levels – individuals, organizations, markets, countries and civil society – for a long duration. Understanding megatrends TRENDS and their rolling effects can provide valuable information for developing futuristic scenarios and can subsequently help to shape current actions in anticipation of that future. So far, as described below, Open-X has materialized in various configurations that can be classified according to three archetypes: open innovation, open source and open design. The three archetypes are juxtaposed in the table on the previous page as a preliminary overview to point out their different respective value propositions and thrust (as a distributed collective action), core openness orientation, and prime actors involved.

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       Open Innovation

      The value proposition and thrust of open innovation is ‘distributed knowledge’ processes that emphasize the view-related capabilities of openness. The prime actors of open innovation are organizations. According to the traditional doctrine, industry leaders self-create the most and the best ideas; innovation should therefore be fostered by internal development teams behind high organizational walls and protected as a trade secret. In contrast, according to open innovation, industry leaders make the best use of internal and external ideas to develop better business models. In other words, superior outcome should be expected with permeable boundaries between a firm and its environment, which allow idea flow, knowledge KNOWLEDGE exchange, and intellectual property trade. Reaching out and tapping into external knowledge resources extends the generative and innovative capabilities of a firm, as demonstrated by industry leaders like Procter & Gamble, Boeing, Philips and many others. The tenets of open innovation have promoted the proliferation of communities of practice and laid the foundations of crowdsourcing. CROWDSOURCING

       Open Source

      The value proposition and thrust of open source is ‘distributed development’ processes that emphasize the modification-related capabilities of openness. The prime actors of open source are developers. The open source concept originated in the software industry; according to the traditional doctrine, software is developed in commercial software firms by professional personnel, guarded through legal and technical measures, and then licensed for a fee. In contrast, according to the open source business model, software is developed through coordinated peer production by independent volunteers.

      THE APPLICATION OF OPENNESS TO A GROWING NUMBER OF PRACTICES THAT DRIVE THE HUMAN ENTERPRISE, HAS TURNED INTO A MEGATREND THAT CAN BE LABELED THE RISE OF OPEN-X.

      Subsequently, everyone can freely access the source code, and can modify and redistribute it under the same terms, thus nourishing continuous cycles of improvement, adaptation, and extension in a distributed fashion. Reaching out and tapping into external development resources extends the generative and innovative capabilities of a core project. Inspired by the impact of high-profile projects like Linux and Mozilla Firefox, the tenets of the open source development, licensing and distribution model have promoted the proliferation of open source projects of all sorts – from digital content development (e.g. Wikipedia), via vehicles (e.g. c,mm,n) and beverages (e.g. Free Beer - Vores øl), to 3D printers (e.g. RepRap), just to name a few. OPEN EVERYTHING

       Open Design

      The value proposition and thrust of open design is ‘distributed manufacturing’ processes that emphasize the use-related capabilities of openness. The prime actors of open design are consumers. Although designers undoubtedly play a pivotal role in fostering open design by producing and sharing suitable design blueprints, BLUEPRINTS ultimately the consumers who engage in distributed manufacturing are the core players and raison d’être of open design. According to the traditional doctrine, design is mostly a preliminary stage prior to commercial manufacturing and distribution. In contrast, open design is directed toward consumers who engage in fabrication, passing over the conventional manufacturing and distribution channels. Open design implies that the design blueprints are publicly available, sharable, licensed under open-access terms, and distributed digitally in a general design specification file format (e.g. dxf, dwg). Moreover, open design is not black-boxed or exclusive; it implies reconfigurable and extensible design that can be fabricated in distributed and scalable fashions through commercially available, off-the-shelf, multipurpose means of production.

      A structured description of the unique features and boundaries of open design is provided in the table on the next page. The inherent reconfiguration and extension potential of a user-driven open design reinforces the generative