New project by Neri Oxman and the team at Mediated Matter Group / MIT Media Lab explores the possibility of a controlled space in which seasonal honeybees can thrive year-round. Light, humidity, and temperature are engineered to simulate a perpetual spring environment. Bees are provided with synthetic pollen and sugared water, and evaluated regularly for health and wellbeing. In this initial experiment, humans and honeybees co-habitate, enabling natural cultivation in an artificial space across scales, from organism- to building-scale.
The Synthetic Apiary bridges the organism- and building-scale by exploring a “keystone species": bees. We investigate the cohabitation of humans and bees through a controlled atmosphere and observation of resulting behaviors. The project applies Mediated Matter’s ongoing research into biologically augmented digital fabrication with silkworms and eusocial insect communities to product, architectural, and possibly urban, scales. Many insect communities present collective behavior known as “swarming,” prioritizing group over individual survival, while constantly working to achieve common goals. Often, groups of these eusocial organisms leverage collaborative behavior for relatively large-scale construction. For example, ants create extremely complex networks by tunneling, wasps generate intricate paper nests with materials sourced from local areas, and bees deposit wax to build intricate hive structures.
Support CreativeApplications.Net
Since 2008, CreativeApplications.Net (CAN) has been a driving force, tirelessly influencing and shaping the conversations surrounding technology, society, and critical making. With a community of 1600+ members and a vast library boasting over 3,500 meticulously curated projects, experiments, texts, and reviews, CAN stands resolute as an unparalleled resource for students, educators, practitioners, curators, and cultural producers.
However, as we navigate the stark reality of independent publishing, we need your help! Please embark on this journey with us, extending your support by joining our community as a Member and contributing to our shared mission of propelling CAN forward.
Joining CAN is only $20 per year! (less than $2 per month) and it includes:
Access thousands of projects, scores of essays, interviews and reviews.
Post your projects, events, announcements.
Join our Discord for events, open calls and even more projects.
Tutorials (beginners and advanced) with code examples and downloads.
Find employers who have recruited here in the past (over 1,000 jobs).
Special offers and giveaways (events, books and media).
No advertisements or banners of any kind, ad-free reading!
Joining CAN as an organisation (up to 40 users) is $200 per year and it includes:
Everything in the 'Standard' option plus:
Submit articles/announcements as often as you need, carefully edited and published on the site by our team of writers.
Reach thousands of daily CAN readers through articles and social media.
Join our Discord to publicise events, open calls or projects.
Your activities are boosted on our social media channels.
Developed at the MIT Media Lab’s Mediated Matter Group, ‘Data-Driven Material Modeling’ refers specifically to the process of the creation of high-resolution, geometrically complex, and materially heterogeneous 3D printed objects at product scale.
Since 2008, CreativeApplications.Net has been a driving force, tirelessly shaping the conversations about technology, society, and critical making. From online and offline publications to live events, CAN has shaped many of the innovative creative practices we know today.
As a member, you can access all content on CAN, post your own projects, join the conversations, and enjoy ad-free reading!
Your support also ensures we keep the site as ad-free as possible, allowing us to focus on what we do best: showcase amazing work. Above all, you will join because you believe in the value of CAN and wish to see it thrive for years to come.
We use cookies to ensure that we give you the best experience on our website. Please be aware that your experience may be disrupted until you accept cookies.OKNoRead more