In light of increasing cashlessness, platform economies, Open Banking APIs, financial bots and cryptocurrencies, money is on the move - once inert, money is gaining agency, becoming programmable, automated, data-driven and part of 'more than human' infrastructures. These financial futures demand that designers engage with difficult questions of economy and value, while retaining a sensibility to the many subtle and social qualities of money and our everyday economic interactions. This one-day workshop will therefore bring together practitioners and researchers to explore design challenges related to four broad themes: Designing with Transactional Data; Designing Alternative Representations of Value; Money, Automation, Power, and Control; and Financial Futures with Vulnerable Users. Developing scenarios related to these themes, the workshop will cultivate a rich design space to establish the value of design-led research in shaping our financial futures.
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In the last month, the Visual Methodologies Collective participated in Regenerative Futures, a month-long design challenge to envision what a more desirable future could look like. Launched by SPACE10, a research and design lab based in Copenhagen, the call invited to use different AI generative models to develop a vision of the future home, community, or city.The call invited to reflect on different speculative briefs: resilient futures (How will future communities co-exist with non-human species? And how might the design of our homes and communities nurture surrounding ecosystems?), symbiotic futures (As we look to the future, how can we design homes as spaces of refuge and resilience? How will they flex to sudden climatic changes, while being conscious of the land and ecology around them?) collective futures (What would a self-sustaining city look like? How can we adapt and evolve existing structures and streets to better support collective living?)
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“Empowering learners to create a sustainable future” This is the mission of Centre of Expertise Mission-Zero at The Hague University of Applied Sciences (THUAS). The postdoc candidate will expand the existing knowledge on biomimicry, which she teaches and researches, as a strategy to fulfil the mission of Mission-Zero. We know when tackling a design challenge, teams have difficulties sifting through the mass of information they encounter. The candidate aims to recognize the value of systematic biomimicry, leading the way towards the ecosystems services we need tomorrow (Pedersen Zari, 2017). Globally, biomimicry demonstrates strategies contributing to solving global challenges such as Urban Heat Islands (UHI) and human interferences, rethinking how climate and circular challenges are approached. Examples like Eastgate building (Pearce, 2016) have demonstrated successes in the field. While biomimicry offers guidelines and methodology, there is insufficient research on complex problem solving that systems-thinking requires. Our research question: Which factors are needed to help (novice) professionals initiate systems-thinking methods as part of their strategy? A solution should enable them to approach challenges in a systems-thinking manner just like nature does, to regenerate and resume projects. Our focus lies with challenges in two industries with many unsustainable practices and where a sizeable impact is possible: the built environment (Circularity Gap, 2021) and fashion (Joung, 2014). Mission Zero has identified a high demand for Biomimicry in these industries. This critical approach: 1) studies existing biomimetic tools, testing and defining gaps; 2) identifies needs of educators and professionals during and after an inter-disciplinary minor at The Hague University; and, 3) translates findings into shareable best practices through publications of results. Findings will be implemented into tangible engaging tools for educational and professional settings. Knowledge will be inclusive and disseminated to large audiences by focusing on communication through social media and intervention conferences.
The project Decolonising Education: from Teachers to Leading Learners (DETeLL) aims to develop a multi-site approach for interventions towards inclusion and decolonisation in order to change the hierarchical nature of higher education in the Netherlands. DETeLL identifies the model of the ‘traditional teacher’ as embodying the structural exclusions and discriminations built into the classroom and proposes the figure of a ‘Leading Learner’ as a first step towards a radical change in the educational system. In collaboration with the education departments in the Theatre and Dance Academy at ArtEZ, the post-doc will build up a research and teaching programme that engages with students and teachers in the faculty to create a prototype of an inclusive and diverse educational practice. RELEVANCE: Education should be the critical space in which changes occur in order to shape best possible futures. In DETeLL’s acceptation, decolonisation refers to a complete change in the way of thinking and behaving. It does not refer only to the urgency of dealing with historical colonial legacies embedded in society, but also to the subversion of the deeply oppressive colonial culture that (also unconsciously) regulates public and private living, whether this is related to gender, race, class or sexuality issues. RESULTS: 1) Create a theory and practice-based scientific base-line of decolonisation and art education; 2) Provide a definition of ‘Artist educator as Leading Learner’ following a practice- based methodology of intervention; 3) Design and Pilot a new teaching programme for theatre education at ArtEZ to be then upscaled to all educational departments in a follow-up project); 4) Produce a strong interdisciplinary and international output plan: 3 academic publications, 2 conferences, 4 expert group workshops. NETWORK: ArtEZ; University of Amsterdam (UvA); Ghent University; UCHRI; Hildesheim University; Cape Town University. The partners will serve as steering committee through planned expert group meetings.
In the past decade additive manufacturing has gained an incredible traction in the construction industry. The field of 3D concrete printing (3DCP) has advanced significantly, leading to commercially viable housing projects. The use of concrete represents a challenge because of its environmental impact and CO2 footprint. Due to its material properties, structural capacity and ability to take on complex geometries with relative ease, concrete is and will remain for the foreseeable future a key construction material. The framework required for casting concrete, in particular non-orthogonal geometries, is in itself wasteful, not reusable, contributing to its negative environmental impact. Non-standard, complex geometries generally require the use of moulds and subsystems to be produced, leading to wasteful, material-intense manufacturing processes, with high carbon footprints. This research proposal bypasses the use of wasteful scaffolding and moulds, by exploring 3D printing with concrete on reusable substructures made of sand, clay or aggregate. Optimised material depositing strategies for 3DCP will be explored, by making use of algorithmic structural optimisation. This way, material is deposited only where structurally needed, allowing for further reduction of raw-material use. This collaboration between Neutelings Riedijk Architects, Vertico and the Architectural Design and Engineering Chair of the TU Eindhoven, investigates full-scale additive manufacturing of spatially complex 3D-concrete printed components using multi-material support systems (clay, sand and aggregates). These materials can be easily shaped multiple times into substrates with complex geometries, without generating material waste. The 3D concrete printed full-scale prototypes can be used as lightweight façade elements, screens or spatial dividers. To generate waterproof components, the cavities of the extruded lattices can be filled up with lightweight clay or cement. This process allows for the exploration of new aesthetic, creative and circular possibilities, complex geometries and new material expressions in architecture and construction, while reducing raw-material use and waste.
