![]() The first approach customizes the sensing design in a digital environment, where users define the geometry, shape and sensing inputs in a computer and print out customized functional patterns. Two types of manufacturing methods are used and characterized. This collection of work demonstrates design principles and examples in the following four areas: manufacturing, customizable computer aided design, fabrication with physical manipulation and multi-modal sensing techniques. This platform utilizes recent advancements in low-cost, roll-to-roll conductive inkjet printing technology as an enabler for creating a scalable, physically and functionally adaptive and customizable sensing system. This dissertation presents a research platform to investigate design principles and applications for flexible sensate surfaces. ![]() Often, we find ourselves confined by existing sensing infrastructures that are not designed to adapt the complexity of the physical world. To achieve the vision of ubiquitous computing, common man-made objects need to be designed from the ground up to incorporate computers and sensors. ![]() However, the world is highly variable in physical forms. New technologies based on this mission enable us to more easily sense, interact, and communicate with objects. We live in a world where everyday artifacts begin to be designed and augmented as media interfaces. ![]()
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