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The world’s most powerful and sophisticated wireless internet equipment is on the verge of entering a major, and potentially dangerous, upgrade.
The Pentagon plans to spend $1.8 billion over the next five years to upgrade the world’s wireless networks.
The upgrades will expand the capacity of wireless networks to handle more traffic, as well as make them more secure.
But the upgrades are a long way from being ready.
The Pentagon has spent $100 billion to upgrade military networks over the past 10 years.
Many of those upgrades were done in the late 1990s and early 2000s, and were largely aimed at providing greater internet speeds to U.S. military forces.
The upgrade is expected to be done by the end of the decade.
For now, the upgrade will be done mostly on existing military networks, which are not capable of handling the increased bandwidth that the upgrades will bring.
For example, the U.K. military has a 10Ghz network that it plans to upgrade in 2020, but has not yet begun upgrading.
The U.N. Security Council voted in 2014 to authorize an additional $6 billion to the United Nations Security Council to support the upgrade of U.W. military networks.
The upgrade will require a major rethinking of how the network is organized.
In the old days, wireless networks were usually designed to work with the same kinds of radio frequencies as wired internet connections.
Today, a wireless network has to work differently because of how wireless communications are routed.
For instance, a new wireless network can operate at a distance of several kilometers (km) from the existing network, while a wired network is more likely to work closer to the home.
In some cases, new wireless networks are already in use.
In Australia, the Federal Government recently bought a 3G wireless network in the city of Brisbane.
The new wireless system can operate in a distance as short as 1.5 km, or about 10 miles (16 km), from existing wireless networks, but is not capable in most cases of providing internet speeds that are comparable to wired connections.
That will change if the Pentagon decides to upgrade to a higher bandwidth standard.
The Army, for instance, has a 5G network that has been in service since 2006, and is designed to be more powerful than current wireless networks of 5G.
The current 5G standard is 5.2Gbps, which is about twice as fast as the 5G technology deployed by the U,N.
and U.A.E. governments.
The upgrades to wireless networks also will require the network to be connected to a larger data center, which will take a considerable amount of space.
That will make the network harder to maintain, and make it more difficult for governments to update it.
The upgraded wireless network will also require more network hardware, because it will need to be upgraded from the wireless network that the old network used.
The Army is currently working on a new network that will be capable of working in a much smaller space.
However, it’s not clear when the Army will begin upgrading its existing network.
The Air Force is working on an upgrade of its existing wireless network, which would use more spectrum.
However it would still need to upgrade its existing radio frequencies, which could take a long time.
The U. Navy is also planning to upgrade several types of wireless networking equipment, and could begin the upgrade as early as next year.
However that upgrade is not expected to include the upgrade that will involve upgrading the network that was used to transmit military communications from military bases to civilian homes.
The Navy is currently in the process of upgrading its network to meet the needs of future missions.
It will upgrade its air space radio frequency spectrum in 2019.
It is also upgrading its radio frequency network to provide faster internet access, including for the use of drones.