A 'virtual wall' that improves wireless security and performance

08 Nov 2017

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A team of researchers led by Dartmouth College may have finally solved the problem of how to inexpensively improve wireless signal strength for indoor spaces with multiple rooms. The same technology for enhancing office and home Wi-Fi signals can also be used to strengthen wireless security.

 
For only $35 and 23 minutes, Wi-Fi users can increase signal strength and boost security in offices and homes / Xia Zhou  

The research, presented on Wednesday, 8 November, at ACM's BuildSys 2017 in Delft, Netherlands, relies on 3-D printing to produce a cheap, customized reflector that directs wireless signals to where users need them most.

"Through this single solution, we address a number of challenges that plague wireless users," said Xia Zhou, an assistant professor of computer science at Dartmouth. "Not only do we strengthen wireless signals, we make those same signals more secure."

Customising the coverage of wireless networks inside buildings is critical for users to improve signal reception in desired areas while weakening signals in others. By shaping signals, users can increase wireless efficiency through lessening the signal-deadening impact of building materials and interior layouts.

Such a system can also make it more difficult for attackers by adding to existing security measures like encryption through physically confining wireless signals to limited spaces. This also leads to reduced interference.

Achieving the goal of improved wireless performance is particularly challenging indoors because of the complex interactions of radio signals with the environment. Existing approaches to optimising wireless signals rely on directional antennae to concentrate signals, but this equipment is either difficult to configure or beset by high cost.

Through experiments presented in the research paper, the team improves upon previous studies that placed an aluminum soft-drink can behind a Wi-Fi access point to strengthen signal in one direction. The current research generalises this idea by presenting a systematic approach to optimising reflector shapes for enabling a more developed set of signal distributions.

After assessing interior layouts and the target areas to strengthen or weaken signal strength, the Dartmouth research team placed a "computationally optimised" signal reflector around a wireless router. The reflector, composed only of plastic and a thin layer of metal, redirects wireless signals to the desired coverage areas.

After testing the approach in two different interiors for signal strength and speed, the researchers reported that optimised 3-D reflectors provide numerous benefits including: strong physical security, low cost, and ease of use for non-expert users.

The researchers tested the reflector with a variety of off-the-shelf Wi-Fi access points, including those using the latest Wi-Fi protocol 802.11ac.

"With a simple investment of about $35 and specifying coverage requirements, a wireless reflector can be custom-built to outperform antennae that cost thousands of dollars," said Zhou.

To create the technology, the research designed an algorithm that optimises a reflector's 3-D shape to target wireless coverage. The team also developed an approach to simulating how radio signals spread and interact with objects in their environment.

With information on a specific interior space, locations of wireless access points and the desired target area, the system computes an optimised reflector shape in only 23 minutes. Researchers found that the reflectors can decrease strength by up to 10 dB where the signal is not wanted and increase strength by 6 dB where it is desired. The reflector is also relatively easy to place.

Because the current design is limited by its static shape, the research team will now study reflectors made of different materials so that the device can automatically adapt its shape when the interior layout changes. The team will also examine higher frequency bands such as millimeter waves and visible light.

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