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Auflistung nach Schlagwort "DIY"

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  • Zeitschriftenartikel
    Argus Vision: A Tracking Tool for Exhibition Designers
    (i-com: Vol. 18, No. 1, 2019) Skowronski, Moritz; Klinkhammer, Daniel; Reiterer, Harald
    Contemporary exhibitions are increasingly staged using extensive and often interactive media. To create such exhibitions, exhibition design companies employ professionals from a wide range of different disciplines. The support of interdisciplinary exhibition designers in the design process is one goal of research in Human-Computer Interaction. This includes the deployment of Do-It-Yourself (DIY) Tools that enable professionals from all disciplines involved to design and create interactive media themselves. In this paper, we will present Argus Vision, a DIY Tool, which allows exhibition designers the use of camera-tracking to rapidly prototype and develop immersive exhibitions and interactive installations. We successfully used Argus Vision in two real-world case studies both in the prototyping and in the deployment of two installations in exhibitions. Additionally, we conducted expert interviews with exhibition designers, investigating the tool’s usefulness for them.
  • Konferenzbeitrag
    Argus Vision: A Tracking Tool for Exhibition Designers
    (Mensch und Computer 2018 - Tagungsband, 2018) Skowronski, Moritz; Klinkhammer, Daniel; Reiterer, Harald
    Contemporary exhibitions are increasingly staged using extensive and often interactive media. To create such exhibitions, exhibition design companies employ professionals from a wide range of different disciplines. The support of interdisciplinary exhibition designers in the design process is one goal of research in Human-Computer Interaction. This includes the deployment of Do-It-Yourself (DIY) Tools that enable professionals from all disciplines involved to design and create interactive media themselves. In this paper, we will present Argus Vision, a DIY Tool, which allows exhibition designers the use of camera-tracking to rapidly prototype and develop immersive exhibitions and interactive installations. We successfully used Argus Vision in an exhibition as well as in a proof-of-concept study in our lab. Additionally, we conducted expert interviews with exhibition designers, investigating its usefulness for them.
  • Konferenzbeitrag
    Biomaterials for Prototyping in HCI
    (Mensch und Computer 2024 - Workshopband, 2024) Nicolae, Madalina; Roussel, Vivien; Koelle, Marion; Lefez, Claire; Roudaut, Anne; Nittala, Aditya Shekhar; Huron, Samuel; Teyssier, Marc; Steimle, Jürgen
    While prototyping is a widespread practice among researchers, creating sustainable, functional devices remains challenging due to the limited range of available tools and materials. We present several approaches to sustainable prototyping of functional devices. Our methods range from using bio-based and bio-degradable materials as sustainable alternatives to biologically growing electronic substrates. These methods enable a new class of interactive devices that integrate electronic components with sustainable materials. Our research on Interactive Bioplastics [1] introduces a DIY approach for producing conductive bioplastics that are compatible with digital fabrication techniques. Furthermore, [2] introduces an integrated fabrication framework for sustainable soft shape-changing interfaces made of bioplastics. Finally, our work on Biohybrid Devices [3] showcases how the biological growth of living bio-materials--such as Bacterial Cellulose--can be used as assembling and embedding process for electronics. In addition to presenting various artifacts, we highlight the processes introduced by our fabrication frameworks [1-3] and engage the audience in discussions about the life-cycle phases of producing artifacts, promoting a critical reflection of sustainable practices in prototyping.
  • Zeitschriftenartikel
    Do-It-Yourself-Plattformen für individuelle Wearables – Konzeption einer Maker-Plattform und Potenzialanalyse
    (HMD Praxis der Wirtschaftsinformatik: Vol. 57, No. 4, 2020) Leiner, Patrick; Ruppert, Elena; Eiletz, Matthias; Uhl, Florian; Greff, Tobias; Werth, Dirk
    Die Do-It-Yourself (DIY)-Mentalität blickt auf eine lange Tradition zurück und erfreut sich zunehmender Beliebtheit. Trendthemen, wie das Selbstbauen von Drohnen, werden ebenso aufgegriffen wie DIY-Möbel. Außerdem steigt das Angebot an Internetplattformen, die Anleitungen, DIY-Kits oder -Kurse anbieten. Dieser Ansatz lässt sich deshalb in einer Welt, die von Digitalisierung und Innovationen geprägt ist, auch auf smarte Produkte transferieren. Alle Trends zeigen, dass die intelligente Mensch-Maschinen-Interaktion, insbesondere im Bereich der Verwendung von Smart Wearables oder Smart Clothes, absehbar zunimmt. Am Markt existieren bereits Portale mit Vertriebsmöglichkeiten für Smart Wearables als DIY-Produkte. Diesen mangelt es allerdings noch an Qualität sowie einem systematischen Austausch zwischen Kunden und Herstellern, sodass kein einheitlicher Ablauf von der Konfiguration smarter Produkte bis zu ihrer qualitätsgesicherten Auslieferung als DIY-Kit oder Prototyp besteht. Dabei bietet solch ein ganzheitlicher Prozess die Chance, Smart Wearables individuell und mit reduzierterer Komplexität zu erstellen. Hierdurch entsteht außerdem das Potenzial, vielfältige, neue Produkte für den Markt zu schaffen und somit eine Testplattform für produktnahe Gründer zu etablieren. An diesem Punkt setzt das Projekt MYOW (Make Your Own Wearable) an und stellt sich der Herausforderung, diesen Prozess für selbstkreierte Smart-Wearable-Prototypen abzubilden. Um das zu erreichen, wird ein gesichertes Netzwerk aus Herstellern, DIY-Makern, Mode-Designern und Dienstleistern mittels einer Webplattform abgebildet und mit einer professionellen Produktinfrastruktur verknüpft. Die Plattform bietet somit im Kern eine smarte Assistenz im Produkterstellungsprozess, welche den Nutzer in den Mittelpunkt stellt und ihn von der Idee bis zum lieferfähigen Smart Wearable unterstützt. Das Paper adressiert somit die Frage nach der bestmöglichen Realisation einer nutzerzentrierten, ganzheitlichen Smart-Wearable-Creation-Plattform und deren Einsatzmöglichkeiten. The do-it-yourself (DIY)-mentality looks back on a long tradition and enjoys increasing popularity. Trend themes such as DIY-drones are being taken up as well as DIY-furniture. There is also an increasing number of Internet platforms offering instructions, DIY-KITs or courses. In a world characterized by digitalization and innovation, this approach can therefore also be transferred to smart products. All trends show that intelligent human-machine interaction, especially in the use of smart wearables or smart clothes, will increase in the foreseeable future. There are already portals on the market with sales opportunities for smart wearables as DIY products. However, these still lack quality and a systematic exchange between customers and manufacturers, so that there is no uniform process from the configuration of smart products to their quality-assured delivery as DIY kits or prototypes. Such a holistic process offers the opportunity to create smart wearables individually and with reduced complexity. This also creates the potential to create diverse new products for the market and thus establish a test platform for product-related founders. This is where the MYOW project comes in and meets the challenge of mapping this process for self-created smart wearable prototypes. To achieve this, a secure network of manufacturers, DIY makers, fashion designers and service providers will be mapped by means of a web platform and linked to a professional product infrastructure. The platform also offers smart assistance in the product creation process, which focuses on the user and supports him from the idea to the deliverable smart wearable. The paper thus addresses the question of the best possible realization of a user-centered, holistic smart-wearable-creation-platform and its possible applications.