We present a low-cost, secure, and easy-to-configure approach that uses an easily-accessible, 3D-fabricated reflector to customize wireless coverage.
The user simply 3D prints the reflector and places it around a Wi-Fi access point to realize the tar- get coverage. We conduct experiments to examine the ...
We present a low-cost, secure, and easy-to-configure approach that uses an easily-accessible, 3D-fabricated reflector to customize wireless coverage.
A low-cost, secure, and easy-to-configure approach that uses an easily-accessible, 3D-fabricated reflector to customize wireless coverage.
We present a low-cost, secure, and easy-to-configure approach that uses an easily-accessible, 3D-fabricated reflector to customize wireless coverage.
Nov 10, 2017 · The team created an inexpensive, customized, 3D printed reflector that will actually direct wireless signals to where users really need them.
WiPrint uses an optimization algorithm to produce a reflector shape. This reflector is then fabricated and applied to an AP to achieve this desired signal ...
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Customizing indoor wireless coverage via 3D-fabricated reflectors. X Xiong, J Chan, E Yu, N Kumari, AA Sani, C Zheng, X Zhou. Proceedings of the 4th ACM ...
Nov 13, 2017 · We present a low-cost, secure, and easy-to-configure approach that uses an easily-accessible, 3D-fabricated reflector to customize wireless ...
Customizing indoor wireless coverage via 3D-fabricated reflectors · Author Picture Xi Xiong. Dartmouth College. ,; Author Picture Justin Chan.