Venous Materials
Interactive Sensors and Display for Tangible Media Group, MIT Media Lab
Venous Materials project envisions a new way to design dynamic tangible interactions using fluidic Interfaces. It is a new type of interactive material that is inspired by veins systems in nature and the human body. When the user applies pressure or motion to the material, it dynamically displays geometric patterns and colors. The different patterns are displays that function as tangible sensors, that can animate dynamic graphics, create responsive objects for learning activities, and visualize body movement and balance.
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Download Press Kit № 108491 Interactive Sensors and Display for Tangible Media Group, MIT Media Lab by Hila Mor to access high-res images, essential texts, translations, and exclusive interviews—all in one.
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Venous Materials by Hila Mor
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Interactive Sensors and Display by Hila Mor
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Hila Mor Venous Materials
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Hila Mor Interactive Sensors and Display
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Venous Materials Interactive Sensors and Display Press Releases
Press releases tailored for Venous Materials are available in the languages: English.
Venous Materials Interactive Sensors and Display Media Articles
Our articles on Venous Materials, prepared for immediate use, are offered in several languages, including Spanish, English, Korean, Indonesian, Japanese, Russian, Chinese (Mandarin), Portuguese, Italian, Dutch, Hindi, German, French, Turkish and Arabic (Standard).
Unique Properties
Venous Materials technology developed through research on current Microfluidics, that is specifically designed for human interaction and user experience. A specilized computational tool was developed for the design process and to simulate and visualize of the color change and display of the flow within the material, according to the user input. Production process involves laser engraving and manual lab processes. Materials used are PDMS silicone and ecoline ink.
Tags
Interaction Design, Material research, Dynamic Graphics, Microfluidics, Computational Aided Design, Sensors and Displays, Venous Structures
Production Technology
Through utilizing latest research with Microfluidics technology, Venous Materials was developed while focus on human interaction and UX design. To realize the design and production process, a specialized computational design and simulation tool was developed. This tool allows to simulate and visualize of the color change and display of the flow within the material, according to the user physical input. Production process involves laser engraving and lab processes. Materials used are PDMS silicone and ecoline ink.
Design Challenge
While current computer chips and electronics usually require rigid and bulky components that challenges the integration with varied objects or fabrics, Venous Materials is soft and self-contained mechanism that utilizes the motion of daily activities as its energy source. Design of micro-fluid dynamics is not intuitive task, our approach and computational tool allows the design, simulation, and prototyping of fluidic interactive sensors that can be embedded in, or attached to, any object.
Project Duration
The project started June 2019 and finished April 2020 in Cambridge, MA, at the MIT Media Lab, Tangible Media group
Operation Flow
The displayed flow pattern and color change of the fluidic channels within Venous Materials inform the users of the motion and physical force that is applied on the material. The users can interact with Venous Materials by deforming or applying pressure on the material, which drives the fluid flow within the internal channels to visualize the dynamic responsive display. Therefore, Venous Materials simultaneously functions as a sensor and display of tangible information.
Research
This work present design and fabrication methods for interactive fluidic mechanisms that respond to deformation by mechanical inputs from the user. The Venous design tool provides designers with a simple way to create and validate designs of fluidic structures. It allows users to design the geometry, and simulate the flow with intended mechanical force dynamically. This leads to Interactive applications of Venous Materials, to augment human movement and everyday objects.
Inspiration
This project is inspired by venous structures that are ubiquitous throughout nature and inside the human body. By changing colors, veins can inform us of internal and external physical conditions. For example, veins in leaves transmit pigments that drive color change, which informs us of the internal condition of the leaf and which season it is.
Image Credits
All Photo/video credit to Tangible Media Group, MIT Media Lab
Project Overview
Venous Materials Interactive Sensors and Display has been a Silver winner in the Design Quality and Innovation award category in the year 2020 organized by the prestigious A' Design Award & Competition. The Silver A' Design Award celebrates top-tier designs that embody excellence and innovation. This award acknowledges creations that are not only aesthetically pleasing but also highly functional, reflecting the designer's deep understanding and skill. Silver A' Design Award recipients are recognized for their contribution to raising industry standards and advancing the practice of design. Their work often incorporates original innovations and elicits a strong emotional response, making a notable impact on the improvement of everyday life.
Silver Recognition
Hila Mor was recognized with the coveted Silver A' Design Award in 2021, a testament to excellence of their work Venous Materials Interactive Sensors and Display.
Hila Mor Press Releases
Access a rich repository of press releases on Hila Mor, offered to press and media professionals for unrestricted use in their stories. Journalists can access 3 press releases immediately, ready for your use.
Venous Materials: A Breakthrough in Interactive Sensor Design
Introducing Venous Materials, an innovative project by Hila Mor, which reimagines interactive sensor design inspired by the venous structures found in nature and the human body. Combining Microfluidics technology with user experience design, this project pushes the boundaries of material interaction and dynamic graphics.
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