Have you ever wondered what goes on underground, under our homes, offices, etc? An array of pipes run that carry water and even gas. A leak/crack in a system this wide and complex would mean hours of tiring search and wastage of resources. A team of three students from Indraprastha Institute of Information Technology, B.Tech. , the batch of 2023, have provided a solution that not only saves resources, but also saves time and a couple of bucks by telling the exact location of the leak.
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Wearable technology in the form of smart tattoos is not a dream of the future; it’s a thing of now. Say "Hello" to Smarttoo, a smart tattoo designed using gold, silver, copper and carbon. These beautiful wearables, which can act as remote controls directly from the skin, explore unused real estate space in the field of wearables. Smarttoo enables interaction with the skin on an epithelial level and boasts of larger possibilities regarding input modality.
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In collaboration with Weave Lab and DI Lab at IIIT-Delhi, three of us from B.Tech (Batch of 2022) were successfully able to print a circuit onto a flexible copper clad kapton sheet by simply using a vinyl mask, nail-paints, and ferric chloride solution. This is the first time anyone has done that here at our institute and the three of us are proud of providing this technique to our fellow lab-mates.
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In collaboration with Weave Lab and DI Lab at IIIT-Delhi, the three of us, while working under Dr. Aman Parnami on the project of Electroadhesion, built an interactive tic tac toe game on an electroadhesive pad. An electroadhesive pad is a simple two-electrode structure which, when provided with a high voltage input sticks to the surface on which it has been kept. Consequently, this electroadhesive pad can be stuck to a vertical, horizontal, or angular surface. The pad can even attract light objects like paper, aluminum foil, etc. Slightly heavier objects like thermocol can be loosely stuck to the pad with a coating of metal underneath.
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