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INDOOR
WIRELESS LAN
BATTERY BACKUP SOLUTION
POINT TO POINT BRIDGES
OUTDOOR WI-FI
WIRELESS BACKHAUL
GOVERNMENT
EDUCATION
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OUTDOOR
WIRELESS- The
Cisco Aironet 1500 Series is part of the Cisco Unified
Wireless Network architecture. It operates with Cisco
wireless LAN controllers and Cisco Wireless Control System
(WCS) software, centralizing key functions of wireless LANs
to provide scalable management, security, seamless mobility,
and advanced network services, such as multiple Service Set
Identifiers (SSIDs) and quality of service (QoS) for voice,
video, and data applications. Designed to support zero-touch
configuration deployments, the Cisco Aironet 1500 Series
easily and securely joins the mesh network, and is available
to manage and monitor the network through the controller and
WCS graphical or command-line interfaces (CLIs). Compliant
with Wi-Fi Protected Access 2 (WPA2) and employing
hardware-based Advanced Encryption Standard (AES) encryption
between wireless nodes, the Cisco Aironet 1500 Series
provides end-to-end security.
INTELLIGENT WIRELESS ROUTING-
The Cisco Aironet 1500 Series can be installed anywhere
power is available, without the need for a network
connection. Intelligent wireless routing based on the
patent-pending Adaptive Wireless Path Protocol, which
was designed specifically for wireless environments,
enables a remote access point to dynamically optimize
the best route to the wired network within the mesh,
providing resiliency to interference and helping ensure
high network capacity. Deployment and management costs
for the Cisco Aironet 1500 Series are reduced through
support of zero-touch configuration deployments and
through the access points' ability to self-heal in
response to interference or outages. Intelligent
self-forming, self-optimizing, and self-healing
algorithms minimize network convergence time, reducing
network downtime for isolated outages or system
maintenance.
The Cisco Aironet 1500 Series dedicates a radio for
access-point-to-access-point communications, allowing
the mesh network to maximize use of the total available
channels, minimize the occurrence of interference, and
minimize latency, resulting in more capacity and support
for real-time applications such as voice than is
available with solutions that use only a single radio.
When more capacity is needed, additional sectors need
onlybe enabled-for example, by provisioning a network
connection to a remote access point. The mesh will
dynamically re-optimize itself when this is done.
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