CAn cctv see the electric frog?
CAn cctv see the electric frog?
CAn cctv see the electric frog?
In a world where survival hinges on humans ability to evade the relentless gaze of surveillance cameras , where the lens constantly surveying its territory and leading humans to its will like a herd of sheep. Drawing from the camouflage abilities of octopuses and the tactile transformation of a frog, individuals harness the power of transformative garments to blend into their urban habitats seamlessly to run away from the gaze of a CCTV. These garments, reminiscent of nature’s exquisite craftsmanship, morph in shape, and color, responding intuitively to the ever-shifting urban landscape. By using techniques like UV-reactive and thermo-reactive paints and advanced 3D printing called bistable auxetic surfaces(open-public source pattern developed by Tian Chen, Julian Panetta, Max Schaubelt and Mark Pauly), individuals can effortlessly adapt to any environment, echoing the resilience and efficiency of their animal counterparts. In this intertwined realm where clothing becomes an extension of the wearer, humans reclaim their autonomy in the face of constant surveillance, embracing the art of survival with newfound prowess and adaptability.
In a world where survival hinges on humans ability to evade the relentless gaze of surveillance cameras , where the lens constantly surveying its territory and leading humans to its will like a herd of sheep. Drawing from the camouflage abilities of octopuses and the tactile transformation of a frog, individuals harness the power of transformative garments to blend into their urban habitats seamlessly to run away from the gaze of a CCTV. These garments, reminiscent of nature’s exquisite craftsmanship, morph in shape, and color, responding intuitively to the ever-shifting urban landscape. By using techniques like UV-reactive and thermo-reactive paints and advanced 3D printing called bistable auxetic surfaces(open-public source pattern developed by Tian Chen, Julian Panetta, Max Schaubelt and Mark Pauly), individuals can effortlessly adapt to any environment, echoing the resilience and efficiency of their animal counterparts. In this intertwined realm where clothing becomes an extension of the wearer, humans reclaim their autonomy in the face of constant surveillance, embracing the art of survival with newfound prowess and adaptability.
In a world where survival hinges on humans ability to evade the relentless gaze of surveillance cameras , where the lens constantly surveying its territory and leading humans to its will like a herd of sheep. Drawing from the camouflage abilities of octopuses and the tactile transformation of a frog, individuals harness the power of transformative garments to blend into their urban habitats seamlessly to run away from the gaze of a CCTV. These garments, reminiscent of nature’s exquisite craftsmanship, morph in shape, and color, responding intuitively to the ever-shifting urban landscape. By using techniques like UV-reactive and thermo-reactive paints and advanced 3D printing called bistable auxetic surfaces(open-public source pattern developed by Tian Chen, Julian Panetta, Max Schaubelt and Mark Pauly), individuals can effortlessly adapt to any environment, echoing the resilience and efficiency of their animal counterparts. In this intertwined realm where clothing becomes an extension of the wearer, humans reclaim their autonomy in the face of constant surveillance, embracing the art of survival with newfound prowess and adaptability.
bistable auxetic surface by Tian Chen, Julian Panetta, Max Schaubelt and Mark Pauly
bistable auxetic surface by Tian Chen, Julian Panetta, Max Schaubelt and Mark Pauly
Developed by Tian Chen, Julian Panetta, Max Schaubelt and Mark Pauly, bistable auxetic surface is a recently published cut pattern. It allows two state of being within one material. When pulled from one side, it expands everywhere which then creates a 3D surface.
Developed by Tian Chen, Julian Panetta, Max Schaubelt and Mark Pauly, bistable auxetic surface is a recently published cut pattern. It allows two state of being within one material. When pulled from one side, it expands everywhere which then creates a 3D surface.
Developed by Tian Chen, Julian Panetta, Max Schaubelt and Mark Pauly, bistable auxetic surface is a recently published cut pattern. It allows two state of being within one material. When pulled from one side, it expands everywhere which then creates a 3D surface.
Inspired by camoflage used by the animal kingdom. The closest depiction was UV and Thermo inks where depending on the condition, the clothings colors will change. By Using both at the same time, It can create more drastic changes depending on the context.
Inspired by camoflage used by the animal kingdom. The closest depiction was UV and Thermo inks where depending on the condition, the clothings colors will change. By Using both at the same time, It can create more drastic changes depending on the context.
Inspired by camoflage used by the animal kingdom. The closest depiction was UV and Thermo inks where depending on the condition, the clothings colors will change. By Using both at the same time, It can create more drastic changes depending on the context.
gracias
@aime.antoine