User's Manual
Table Of Contents
Deployment Guide 15
PLANNING
In general, the way to increase capacity is to add more access points (within reason) and tune down the radio power
to avoid interference. One reason for deploying a high capacity network is to create a WLAN for voice and data
applications. In such a WLAN, everyone has a VoIP handset running wirelessly all the time.
In general, the following table shows the standard densities for office deployments.
Overcoming Physical Impediments
Not every potential deployment is a standard business campus.The following scenarios are a few that merit special
consideration.
•Open Space
Open spaces, such as a large foyer or an outdoor area, are very easy to cover with Wi-Fi because there are few
impediments to propagation and fewer opportunities for multipath interference. In such spaces, Wi-Fi signals
can propagate many hundreds of feet. This is good if you want to provide coverage for just a few users.
You will run into challenges if there are many users and high capacity service goals. In these situations, it is
important to tune down the RF to a minimal level. If you are using Aerohive cooperative RF control, the HiveAPs
do this on their own automatically. Another trick is to take advantage of obstacles that block Wi-Fi. Look for
trees or walls and put neighboring access points on either side of them. Doing so limits the interference of the
two access points and allows for the installation of more access points with less interference.
•Warehouse and Retail
Warehouse and retail environments present many challenges. One of the largest challenges is that RF
characteristics often change because of varying inventory levels and, in the case of retail, seasonal displays
(such as tinsel or a stack of soda cans on an end cap). Additionally, metal shelves and high ceilings can be
challenges to propagation. To resolve with these issues, it is wise to put at least one access point per aisle to
ensure coverage for that aisle. This usually requires a higher density of access points than would otherwise be
required.
•Configuring Antennas
As anyone who has administered a WLAN system in the past knows, proper configuration of the access point
antennas at the outset can save you lots of trouble. HiveAPs come standard with fixed omnidirectional
antennas. You typically orient these antennas vertically, positioning the antennas on all HiveAPs in the same
direction. Omnidirectional antennas create a coverage area that looks like a doughnut, broadcasting to the
sides much more effectively than up or down (see Figure 1 on page 16). In general, this is good for most office
environments because you have large flat floors. However, it can be a problem in environments with high
ceilings.
Office Requirements Expected Data Rate Using 802.11g
for Each Access Point
Access Point Density
Coverage (low capacity) 12 Mbps to 24 Mbps 1 access point per 8000 square feet
Standard office deployment 36 Mbps 1 access point per 5000 square feet
Standard office deployment with
voice
54 Mbps 1 access point per 2000 – 3000 square
feet
Note: Data rate is not the same as TCP throughput. Because of various headers, inter-frame gaps, and session
creation, real TCP throughput usually does not exceed 22 Mbps at data rates of 54 Mbps.