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The flat boombox was developed throughout my final project at the Royal College of Art. This object is the result of an exploration of how flat electronics will change the typology of consumer electronics. A flat film-speaker component is housed by a 0.5mm thick sheet of acid-etched stainless steel. Flat printable electronics enable a reducing volume, materials and components.
The flat boombox was developed throughout my final project at the Royal College of Art. This object is the result of an exploration of how flat electronics will change the typology of consumer electronics. A flat film-speaker component is housed by a 0.5mm thick sheet of acid-etched stainless steel. Flat printable electronics enable a reducing volume, materials and components.
The flat boombox was developed throughout my final project at the Royal College of Art. This object is the result of an exploration of how flat electronics will change the typology of consumer electronics. A flat film-speaker component is housed by a 0.5mm thick sheet of acid-etched stainless steel. Flat printable electronics enable a reducing volume, materials and components.
The flat boombox was developed throughout my final project at the Royal College of Art. This object is the result of an exploration of how flat electronics will change the typology of consumer electronics. A flat film-speaker component is housed by a 0.5mm thick sheet of acid-etched stainless steel. Flat printable electronics enable a reducing volume, materials and components.
The final result of my graduation project from the University of Wuppertal is the world‘s first wireless ultrasound system, designed to create more exact and efficient diagnosis. Enabling the probe to work wirelessly will have a huge impact on how future doctors work. Throughout my research I learned how such a wireless device could be a more exact alternative to our current stethoscopes.
The final result of my graduation project from the University of Wuppertal is the world‘s first wireless ultrasound system, designed to create more exact and efficient diagnosis. Enabling the probe to work wirelessly will have a huge impact on how future doctors work. Throughout my research I learned how such a wireless device could be a more exact alternative to our current stethoscopes.
The final result of my graduation project from the University of Wuppertal is the world‘s first wireless ultrasound system, designed to create more exact and efficient diagnosis. Enabling the probe to work wirelessly will have a huge impact on how future doctors work. Throughout my research I learned how such a wireless device could be a more exact alternative to our current stethoscopes.
NutriSmart is a working prototype of a plate that reads future tagged food. An integrated RFID-reader detects edible RFID-tags and therefor enables an exact tracking of the consumer‘s intake. Moreover, the system can send hazard alerts to allergy patients.