Subscribe / Unsubscribe Enewsletters | Login | Register

Pencil Banner

Ericsson makes bus windows part of a Wi-Fi network

Stephen Lawson | May 23, 2013
Translucent layers of metal inside glass windows could block outside signals and reinforce those inside.

The Wi-Fi antenna that Ericsson built into the glass pane of a window is barely visible as a faint red diamond shape near the bottom of the window.
The Wi-Fi antenna that Ericsson built into the glass pane of a window is barely visible as a faint red diamond shape near the bottom of the window.

Ericsson may have a contender for oddest networking product if it commercializes the wireless bus windows it demonstrated at this week's CTIA Wireless trade show.

The windows would have built-in, translucent antennas connected to an internal Wi-Fi system for passenger use while on the road. In the example Ericsson showed at CTIA, the dual-band Wi-Fi antenna was just a square of barely visible red metal embedded between layers of glass.

The mobile infrastructure giant demonstrated the concept on the upper level of its booth at CTIA, above a showcase of other technologies designed for so-called heterogeneous networks with both Wi-Fi and cellular radios. On Tuesday, the company announced enhancements to its network management software that will allow carriers to do a better job shifting subscribers between the two systems for the best possible coverage.

Ericsson's solution had its origin in a problem for wireless users on buses, cars and trains. For insulation and sun protection, some windows are now being built with thin, translucent layers of aluminum sandwiched between glass. Combined with the metal that covers the rest of a vehicle, those windows essentially create a so-called Faraday cage, a box that blocks all outside radio waves, said Bryan Coley, a marketing program manager at Ericsson.

Travelers in such a vehicle can't get online using the outdoor cell network, because it's signals are blocked. But Ericsson researchers decided to use the metal-in-glass principle to their advantage by building antennas into the windows along with the insulating metal. Though the window antennas are simple passive antennas, each one reinforces the internal network's signal.

The resulting network becomes like an in-flight Wi-Fi system on an airliner. Passengers log in to an internal Wi-Fi network that uses a longer range technology, such as LTE, to connect to the outside world.

At the same time, using signal-blocking windows and internal Wi-Fi prevents a situation that can strain outdoor cellular networks and is one of the problems with cellphone use on planes. If an airline passenger turns on a phone, it can cause cell towers on the ground to try to connect with it, diverting bandwidth that could be used by people on the ground. A train full of passengers unknowingly trying to get on cell towers as they speed past can make it hard for carriers to manage traffic. Plus, it can quickly draw down the battery life of the phones as they work hard to grab faint signals, Coley said.

 

1  2  Next Page 

Sign up for CIO Asia eNewsletters.