Our goal is to make farmers imagine, and collectively create, adequate equipment and the means of production on the farm. This is in contrast to a trajectory of over-investment, over-indebtedness and over-sizing.
We believe we can make technical choices and invent sophisticated low tech solutions. We don’t want to be overwhelmed by trendy, plug-and-play and miraculous high-tech tools that will only make us more dependent, will be more intrusive and less controllable.
In 2011, we set ourselves up as a staffed organisation working to promote farm-based inventions. Our aim was to collectively develop new technological solutions adapted to small-scale farming, and to make these skills and ideas widely available through courses and educational materials.
We have also been offering resources and guidance to farmer-driven projects involving the building or renovation of agricultural buildings.
We have five trucks equipped with the machinery and materials we need to run about 80 practical training courses on farms and workshops across France per year.
Materiom is a non-profit working at the intersection of design, digital fabrication, ecology, and material science.
2018/09/25: not only are Defense Distributed's sales of gunmaking tools unaffected, but also that the company will continue its battles with a group of attorneys general from more than a dozen states, who have sued Defense Distributed and the State Department to reverse a legal win that would allow the gun rights group and others to post digital blueprints for firearms online.
Without Wilson, Defense Distributed's Sullivan admits, the company's ideological marketing will be tough to replicate. But he insists its message will still get out.
2018-09-18: In recent decades, China and India have presented the world with two different models for how such countries can climb the development ladder. In the China model, a nation leverages its large population and low costs to build a base of blue-collar manufacturing. It then steadily works its way up the value chain by producing better and more technology-intensive goods. In the India model, a country combines a large English-speaking population with low costs to become a hub for outsourcing of low-end, white-collar jobs in fields such as business-process outsourcing and software testing. If successful, these relatively low-skilled jobs can be slowly upgraded to more advanced white-collar industries. Both models are based on a country's cost advantages in the performance of repetitive, non-social and largely uncreative work -- whether manual labor in factories or cognitive labor in call centers. Unfortunately for emerging economies, AI thrives at performing precisely this kind of work.
Without a cost incentive to locate in the developing world, corporations will bring many of these functions back to the countries where they're based. That will leave emerging economies, unable to grasp the bottom rungs of the development ladder, in a dangerous position.
the best thing emerging economies can do is to "recognize that the traditional paths to economic development -- the China and India models -- are no longer viable." Countries with "less-educated workers" are advised to build up human-centered service industries.
2018/06/01: Data on the global use of energy and raw materials indicate that absolute efficiency has never occurred: both global energy use and global material use have increased threefold since the 1970s.
Therefore, efficiency is better understood as a rearranging of resources expenditures, such that efficiency improvements in one end of the world economy increase resource expenditures in the other end.
Many people believe that issues of scarcity can be solved by using more efficient production methods., but this is nothing but The Jevons Paradox.
Smart City is a technology-led urban response to global environmental challenges.
Smart City may imply technological determinism, privatisation and depoliticisation.
ICT may open the prospect of alternative, non-capitalist urban transformations.
Degrowth should establish a critical dialogue with ICT-led urban transformations
2018/09/12: From crops to cattle, developing and refining living organisms through selective breeding is a 10,000-year-old practice. Industrial fermentation is a well-honed tool for converting biology into foodstuffs or commodity compounds. Major global industries routinely transform biomass into flat-pack furniture, cotton T-shirts, and vanilla flavourings.
However, biodesign fans are today repackaging biodesign, describing it as an ecological remedy, a technological breakthrough, an economic opportunity, and a manufacturing and industrial revolution. For this issue, we question whether biodesign can deliver the accompanying social transformation that those dreams imply, and explore how it might otherwise begin to challenge modern industrial, social, and economic paradigms.
Whether it’s Bolt Threads’ biosilk plastic, other companies’ promises of lab-grown “clean” meat ousting ecologically-damaging factory farming, or the development of less toxic textile-dyeing processes to mitigate the impact of fast fashion, drop-in replacements serve to make us feel better for our polluting lifestyles. However, what remains unresolved is the space in which these alternatives still operate in—the capitalist system that demands continual growth—no matter the costs. The over-consumption that industrial design is predicated upon today is under increasing scrutiny.
By designing with biology, start-ups like Bolt Threads can potentially challenge how consumer products are made, their life cycles, and enhance the performance of materials that could improve product lifespans.
Scaling these technologies to reduce environmental impact, these new bioindustrialists still need to access the same instruments of capital and consumption that inhibit systemic change. Herein lies the uncomfortable paradox: whose role is it to link new industrial processes with systemic economic, social, and political change?
while the practice of craft, especially those such as knitting, quilting, needlework and woodworking, may at first appear to be relatively private activities, the benefits also substantially arise from the social connections craft enables.
These have even been reported across whole communities impacted by disaster, such as the recovery following the 2011 Christchurch earthquake.
One of the strengths of craft practice, especially as a contributor to well-being, is precisely that it can be both solitary and collective, and it’s up to the individual to decide.
2016/11/16: overview of the main risks and opportunities of the Digital DIY phenomenon, and of how the H2020 DiDIY project has studied it
To understand DiDIY (Digital DIY) and creativity, the potential social impact of DiDIY and for information about many new initiatives such as makerspaces and online ‘platforms for creativity’, look at the following studies, proposals and other resources
2014/12/08: The implications of such a paradigm shift in manufacturing for environmental sustainability are enormous. ‘Because they only use the exact material required, 3D printers could eliminate waste from traditional manufacturing – in which up to 90% of raw material is discarded’ In addition to realising economies in the use of raw materials, the type of distributed manufacturing undergirded by RepRap-like 3D printing implies a massive reduction in global transportation costs attendant upon the localisation of production (Rifkin 2011). Clearly, large-scale industrial infrastructures and the mass production model itself are no longer needed if people are able to micro-manufacture whatever they need in the comfort of their homes. And that is good for the environment
2016/08/17: People often ask me: is this 3D printing thing actually useful to somebody? My answer: it surely is, for children affected by leukemia!
Digital Do-It-Yourself (DiDIY) may be defined as the ensemble of all those manufacturing activities (and mindsets) that are made possible by digital technologies. The concept of DiDIY is both wider, and deeper, than that of, for example, "making" and "makers".
Because most plant varieties have been optimized for Big Ag and long-distance distribution, plant biologists can explore many new avenues to find cultivars that will perform even better when grown inside. Marcelis’s experiments, for instance, suggest that fine-tuning the lights in a food computer could double the shelf life of lettuce and double the vitamin C in tomatoes. A generation from now, mothers may pass along to their kids their favorite recipe for tomatoes along with the family recipe for tomato sauce.
Siamo in grado di creare i sentieri di montagna in 3D che hai percorso a piedi o con la tua mountain bike e lo realizziamo fisicamente in stampa 3D ...