Unlike Wi-Fi access, 3G mobile broadband is available anywhere users have a mobile phone signal-from. From taxis, to trains, to remote stretches of road - your workforce will have access to critical data. If your company is even considering about deploying mobile broadband to its workforce, read this guide now!
A few short years after 3G service brought us anytime, anywhere broadband-and before Apple rolled out its 3G iPhone-4G networks began raising the bar in select markets. This latest evolution in wireless networking offers faster wireless data transmission speeds, vastly superior coverage and support for a new generation of mobile applications and services.
Today, the widespread availability of 3G and 4G cellular or wireless broadband networks enables digital signage to be deployed virtually anywhere. Combined with cloud-enabled network management and content delivery systems, 3G and 4G wireless broadband networks are propelling digital signage deployments at an accelerated pace. In countless venues, digital signage networked via wireless broadband signal penetrates hard-to-reach locations, new markets, and can achieve a faster return on investment.
Published By: Motorola
Published Date: Oct 30, 2007
For many wireless broadband network operators, the term "unlicensed reliability" is seen as an oxymoron. For many, the idea of building a high-speed network in the unlicensed band isn't a good one. A great deal has been said about crowded frequencies, self-interference and costly network rips. About how microwaving popcorn can cause interference. About disgruntled and perplexed customers. And ex-customers.
In this white paper learn how e-signatures are making workflows easier and more productive than ever before.
Learn how e-signatures remove the last barrier between a hybrid paper-to-digital workflow to an all-electronic process, dramatically accelerating closure in any type of transaction that requires a contract—sales, employment and hiring, purchase orders, legal agreements, and more.
This white paper presents how a radically consolidated, scalable core network architecture based on multi-core processor technology can significantly reduce the cost of the core network and thereby reducing the cost to serve the first WIMAX subscribers.