Wireless connectivity is everywhere. Your hotel? Of course. Trade conference? Absolutely. People expect to connect without wires. They now depend on it.
When we designed our wireless networking solution, we saw little point in developing yet another conventional thin AP + controller architecture. That technology can’t provide hotels with the high performance, wired-like reliability they require. Our technology is based on modern cell phone tower technology, where multiple radios per tower and directional antennas produce greater capacity and coverage.
What does this superior architecture translate to in operation? Noteworthy performance improvements over conventional thin AP architectures: 4X the coverage and up to 8X the bandwidth and capacity per access device. All with better security and the equivalent reliability of wired networking. And at the user level, organizations see dramatic gains in productivity and satisfaction, too.
When we help Microsoft deliver wireless access to 3,000 developers in a single room, a speaker can interactively direct the audience to web sites as part of the presentation. When the Oregon Convention Center asks us to deliver wireless, they know we can cover over 1 million square feet with the least infrastructure requirements and the best wireless performance. And when we provide wire-like reliability for Hilton’s wireless network, guests rest assured that they will get a reliable, high performance connection every time. Wireless isn’t a “nice-to-have” anymore. Done right, it’s a strategic IT infrastructure advantage that fuels hospitality organizations and lets them do more than ever before.
With Xirrus Wireless Network solutions, you can:
- Meet and exceed the bandwidth expectations of hotel guests
- Effectively support cutting-edge wireless devices and applications
- Protect you’re your guests from risk and security breaches
- Future proof you investment with a highly scalable Wi-Fi solution
As an example, a typical conference center covered with nine Wi-Fi Arrays compared to 69 traditional access points.