3Com Decking 09 1765 001 User Manual

®
AirConnect  
®
Site Survey  
Administrator Guide  
Version 1.5  
Part No. 09-1765-001  
Published June 2000  
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PREPARATION  
1
Introduction  
Installing an AirConnect wireless network begins with conducting a site survey.  
A site survey involves the use of the AirConnect Site Survey utility to determine the  
physical requirements for a site-specific AirConnect wireless network. A site survey  
analyzes the installation environment and provides users with recommendations  
for equipment and placement. The site may be a warehouse, manufacturing plant,  
office building, or retail space.  
The AirConnect Site Survey utility determines the location of APs, as well as  
the number necessary to provide optimal coverage. Only qualified site survey  
technicians should use the AirConnect Site Survey utility to conduct site surveys.  
When installing an AirConnect network, complete coverage may require multiple  
antennas. If the facility is small, or the coverage area is free from physical  
obstructions, one AP and antenna might be sufficient.  
If you are unfamiliar with the AirConnect wireless infrastructure and the  
components that compose it, refer to Appendix A AirConnect Overview”  
for an overview of AirConnect technology.  
Inspecting the  
Survey Area  
During the planning stages of the site survey, a representative from the site survey  
team will visit the proposed AirConnect radio coverage site. As a standard practice  
in the site survey consultation, the representative gathers facility drawings and  
completes a Site Survey Requirements document and a site survey questionnaire.  
The representative documents the wiring used within the facility (10BaseT,  
10Base2, fiber optic) and assesses its applicability to AirConnect components.  
Several trial installation areas should be selected. The site survey team analyzes  
each proposed installation area to document radio transmission constraints and to  
develop preliminary AP placement alternatives to be tested during the actual site  
survey. The findings from the initial site inspection should be documented in a Site  
Survey Request Form and serve as the outline of the site survey.  
The following variables should also be considered in the site survey requirements  
definition:  
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RF systems already in use  
Location of host system(s)  
Available AC power  
Interfering metal fire breaks and wall structures  
Doorways and passages causing RF propagation  
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6
CHAPTER 1: PREPARATION  
The completion of the RF Site Survey Requirements document is a coordinated  
effort between the site survey team and the customer management team.  
The RF Site Survey Requirements document does not identify potential installation  
constraints within the customer site, nor does it recommend AP and antenna  
placement location. The RF Site Survey Requirements document represents a  
preliminary overview of the customer site, and is used as a baseline for refining site  
survey requirements.  
Environmental The site survey team selects trial AirConnect component installation areas away  
Considerations from transformers, heavy-duty motors, fluorescent lights, microwave ovens,  
refrigerators, and other industrial equipment. Areas with excessive moisture, heat,  
and dust are inappropriate for installing an AirConnect wireless network.  
Signal loss can occur when metal, concrete, walls, or floors block AP transmission  
areas. AirConnect AP antennas are trial-mounted in open areas or added to an  
existing AP to boost the AirConnect coverage area.  
The positioning of an AP depends on the floor plan of the site. The site survey  
team makes AP placement recommendations based on the following installation  
site variables:  
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Indoor installation site  
Large or small proposed radio coverage area  
Wide or narrow proposed coverage area  
Open coverage area or area with documented obstructions  
Direct-Sequence In a direct-sequence radio coverage cell, APs with identical direct-sequence  
Considerations channels cannot share the same cell. Direct-sequence access points operating  
on different channels require careful survey area testing to ensure that radio  
transmissions do not interface.  
Antenna Placement  
Considerations  
Radio coverage requirements relate directly to installation site constraints. With an  
omnidirectional antenna, the radio range of the AP (transmitting at 1Mbps) could  
have a radius up to 1000 feet (303 meters) in open areas. However, in office or  
retail environments, obstructions can reduce the coverage to a radius of 180 to  
250 feet (54 to 76 meters). The coverage area is also referred to as a cell.  
The final location of AP antennas is critical to the successful operation of the  
system. When conducting the survey, consider the exact conditions in the  
installation area. These conditions include all losses due to cabling and connectors.  
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Requesting a Site Survey  
7
Site Electrical AirConnect APs draw power from wall outlets or over CAT 5 cabling using the  
Considerations AirConnect PowerBASE-T adapter. AP performance is subject to degradation due  
to inherent or random electrical problems or site-specific disturbances.  
The following AirConnect AP electrical installation alternatives are listed from  
optimal to preferred for a particular installation area:  
1 Isolated ground circuit with online, uninterruptable power supply (UPS) that also  
acts as filter and surge suppressor  
2 Isolated ground circuit with surge suppressor  
3 Dedicated circuit with UPS  
4 Dedicated circuit with surge suppressor  
3Com recommends using one of the preceding installation alternatives when  
using a Network Controller Unit. Deviation from theses options can cause data  
loss and serious transmissions problems.  
NOTE: The AP must be provided with power 24 hours a day. 3Com recommends  
that AP power never be provided from an Energy Management System.  
If a nondedicated circuit is necessary, 3Com recommends that the circuit does not  
support the following:  
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Hard wired devices  
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Devices with components intended or known to produce heat (space heaters,  
laser printers, heat guns, soldering irons, etc.)  
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Single devices drawing more than 20% of the rated value of the circuit  
Multiple devices drawing a total of more than 60% of the rated circuit value  
Requesting a  
Site Survey  
The Site Survey Request Form contains detailed information about a customer, the  
3Com Sales Associate representing that customer, an updated floor plan of the  
customer facility, host operating system considerations, and the quantity and type  
of AirConnect components being installed.  
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CONDUCTING A SITE SURVEY  
2
Introduction  
The AirConnect Site Survey utility is used to establish a two-way data network  
using both stationary and mobile devices at various points within the proposed  
radio coverage area. Assess AP signal strength using various AP configurations.  
The AirConnect Site Survey utility runs under Windows 95/98, and NT.  
Site Survey  
Installation  
A site survey requires the AirConnect Site Survey utility be loaded on the wireless  
clients and the desktop computer used in the survey.  
CD-ROM Installation To install the AirConnect Site Survey utility from CD-ROM:  
1 Insert the Administrator CD-ROM in the CD-ROM drive.  
2 Click Start and select Run.  
3 Enter x:\Admin\SSurvey\Disk1\Setup.exe  
where xrepresents the letter assigned to the CD-ROM drive.  
4 Click OK.  
5 Complete the installation following the instructions provided with the AirConnect  
Site Survey utility.  
6 Select Yes when asked if backup copies of replaced files are required.  
Selecting Yes invokes the site survey utility uninstall feature for possible use.  
The AirConnect Site Survey utility installation is completed. Launch the site survey  
utility by clicking on the program icon appearing on the Windows desktop.  
AirConnect Wireless  
Network Trial  
Before using the AirConnect Site Survey utility, an AirConnect wireless LAN  
infrastructure is created to test AirConnect component radio signal strength.  
In addition to the AirConnect Site Survey utility, the following equipment is  
required to create an AirConnect wireless network:  
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AirConnect Access Points  
Laptop computer  
PowerBASE-T and AC power supply  
CAT 5 cable  
Access Point mounting bracket  
AirConnect wireless clients with extra batteries  
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Starting the Site Survey Utility  
9
To install a trial AirConnect wireless network, use the following procedure.  
1 Mount the APs.  
Mount APs at the locations recommended on the floor plan drawing. Start with  
the most difficult coverage area first. Position the APs so that their antennas are  
not obstructed.  
2 Power on the APs.  
Use the PowerBASE-T and interconnecting 8-wire CAT 5 cable if an AC wall socket  
is not conveniently located.  
3 Observe AP LED behavior.  
Check the LEDs to verify normal boot operation. After the boot cycle is complete,  
the STATUS LED flashes approximately once every second to indicate that the AP is  
operating properly.  
4 Power on the AirConnect wireless clients to be used for the site survey.  
NOTE: The AirConnect Site Survey utility should already be loaded on the  
AirConnect mobile devices used to perform the survey.  
When the device is powered on, a message indicating the AP is not connected to a  
boot server will be displayed. This is normal, since the AP is not yet connected to  
an Ethernet network.  
5 Set the AirConnect AP and wireless client Network IDs.  
Set the wireless client(s) and AP to the same Net ID.  
An AirConnect wireless network now exists and can be tested for radio  
transmission effectiveness with the AirConnect Site Survey utility.  
Starting the Site  
Survey Utility  
Click the AirConnect Site Survey utility icon from the Windows desktop to launch  
the utility. The Site Survey utility Welcome dialog box appears.  
You can use the Site Survey utility Welcome dialog box to open an existing site  
survey area workspace, create a new workspace, create a new workspace from an  
existing site survey area workspace, or open a recently used workspace.  
If an existing site survey workspace is opened containing one or more survey areas,  
the Site Survey Test dialog box displays. Use the Site Survey Test dialog box to  
specify the ICMP and WNMP test parameters for the survey area. If an existing  
survey workspace does not have a survey area defined, the Site Survey dialog box  
displays. Use the Site Survey dialog box for entering the site survey area name,  
surveyor, and description. The Site Survey Test and Site Survey dialog boxes are  
described in greater detail in the sections that follow.  
Closing the Welcome dialog box enables the File, Edit, View, Area, and Help  
pull-down menus. Use these menus to create a new site survey, view radio  
coverage areas within an existing site survey template, run a ping test for a survey  
area, display and configure the Edit menu property pages, and display help  
information for the usage of the utility.  
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10  
CHAPTER 2: CONDUCTING A SITE SURVEY  
Site Survey File Menu  
Use the File menu to create a new survey area workspace, open an existing survey  
workspace, define a new survey area, save the survey workspace, upload/  
download existing survey workspace data, import survey workspace data, and  
display recent survey information.  
Creating a New Select New Site Survey in the File menu to open a Site Survey dialog box. Use  
Site Survey the Site Survey dialog box to enter the site name, surveyor, and description. If a  
workspace is open, the user is prompted to save the existing workspace first.  
Click OK to display the new workspace name in the status bar at the bottom of  
the screen  
Selecting an Existing Select Open Site Survey in the File menu to open a dialog box displaying files  
Site Survey with the extension .ssw.If an invalid file is read, an error message displays;  
otherwise, a progress dialog box is shown and the workspace is loaded. The Site  
Survey Test dialog box generates if the workspace has at least one defined area.  
The Site Survey Area dialog box displays if the existing workspace does not have a  
defined area. The status bar displays the workspace and area name.  
Defining a New Site Select New Area in the File menu to display a Site Survey Area dialog box. Use the  
Survey Area Site Survey Area dialog box to enter the area name and description. The Delete  
button is grayed when defining a survey area. The Test Name field lists the tests  
defined for that area. Add a new test by clicking the ellipsis () button. An error  
message displays if the Area Name field is left blank or the name of an existing  
area is entered. The area name displays at the bottom of the screen.  
Save/Save As Select Save in the File menu to save the open survey using the existing survey  
name. Select Save As in the File menu to save the survey using a different name.  
Upload/Download Select Upload in the File menu to display a File Save As dialog box. Use the Save As  
dialog box to indicate the target destination for the site survey workspace files.  
A pop-up dialog box indicates the results of the file upload.  
Select Download in the File menu to display a File dialog box. Use the dialog box  
to navigate to the location of the site survey workspace on the desktop computer.  
A pop-up dialog box indicate the results of the file download.  
Importing a Site Survey Select Import in the File menu to display an Import Areas and Tests dialog box. Use  
the Import Areas and Tests dialog box to import survey areas and/or tests from  
another survey workspace. Select Import Areas and/or Import Tests to replace  
older survey workspace files with updated ones. Click the Import button to display  
a dialog box displaying files with the extension .ssw.”  
Displaying Recent Select Recent Site Surveys in the File menu to display the last four site survey  
Site Surveys workspace files created or accessed. Selecting any workspace in the list loads that  
workspace. If there is at least one area defined for the workspace, the Site Survey  
Test dialog box displays it. The status bar at the bottom of the dialog box displays  
the status, filename, area name, and workspace name. If a workspace is already  
open, the user is prompted to save the existing workspace first.  
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Site Survey Edit Menu  
11  
Site Survey Edit Menu  
The Site Survey utility Edit menu contains Site Survey, Area, and Settings  
pull-down menus.  
Use these menus to edit an open AirConnect site survey, display a list of coverage  
areas within the survey, and use the Setup, Meter Settings, Sounds and Logging  
property pages to configure surveyor, system sounds, and test data logging  
information.  
Editing Site Survey Select Site Survey in the Edit menu to display the Site Survey dialog box. Use  
Information the Site Survey dialog box to enter the site name, surveyor, and description. If a  
workspace is already open, the user is prompted to save the existing workspace.  
Click OK to display the new workspace name.  
Surveyor. Enter the surveyor name in the Surveyor field to automatically  
update the New Site Survey dialog box. Click OK to save the updated surveyor  
name in the registry for subsequent surveys.  
ICMP Host Addr. Enter an ICMP Host Address in the field provided (not needed  
for WNMP ping tests). The default address is the default address of the AP.  
Ping Count. Enter the number of pings to be transmitted during the ping test in  
the Ping Count field. The default Ping Count is 100, with a maximum of 2000.  
Rerun Count. Enter the number of times the ping test is transmitted in the  
Rerun Count field. The default Rerun Count is 100. The rerun can be continuous  
Packet Size. Enter the packet size transmitted during the ping test in the Packet  
Size field. The default Packet Size is 128 bytes, with a maximum of 1472 bytes.  
Threshold Time. Enter the maximum acceptable time to send out and receive  
the total number of pings for each test in the Threshold field. Choose a Threshold  
Time from1 second to 3600 seconds. The default Threshold Time for 100 pings is  
13 seconds.  
Auto Rerun. If Auto Rerun is activated, the Site Survey utility test suite (in either  
Automatic or Manual mode) runs continually until the surveyor stops the tests.  
Editing Site Survey Select Area in the Edit menu to display the Site Survey Area List dialog box. Use  
Area Properties the Site Survey Area List dialog box to display a list and description of survey areas.  
Select an area and click Edit Area to display the Site Survey Area dialog box. Add  
new tests and survey area descriptions as needed. Click OK to save the changes to  
the site survey workspace. Click Delete to remove the area from the current site  
survey workspace.  
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12  
CHAPTER 2: CONDUCTING A SITE SURVEY  
Editing Setup Properties Select Settings in the Edit menu to access the Setup, Meter Settings, Sounds, and  
Logging tabs. Use these dialog boxes to change default settings for the current  
site survey workspace.  
Setup Property Page  
Select the Setup tab to change the following default site survey workspace  
information:  
Edit Note on Error. Activate Edit Note on Error to display a pop-up dialog box  
for entering notes when an error condition is detected during the site survey ping  
test. Undocumented physical barriers (metal or block walls) could exist that the  
surveyor can describe as a possible reason for signal deflection and test failure. The  
reason for the error is automatically created as part of the note.  
Override All Test ICMP Host Addresses. Check this box to use the ICMP host  
address entered on this page for all tests. Checking this box does not replace the  
host address saved for each test  
Meter Settings Property Page  
Select the Meter Settings property page to set bounds (thresholds) for the signal  
quality gradient bars in the Round Trip, Missed Beacon, and Transmit Retry fields.  
The circular RTT Avg, Missed %, and Retry % indicators on the Site Survey Test  
dialog box show green if the average of the previous tests (20 tests for RTT Avg,  
40 tests for Retry %, and 20 tests for Missed %) is below the lower threshold.  
The circular indicators on the Site Survey Test dialog box show red if the average  
of the previous 30 tests is above the upper threshold. Test results between the  
bounds set on the Meter Settings property page result in Yellow displays on the  
circular indictors on the Site Survey Test dialog box.  
Sounds Property Page  
Select the Sounds property page to change the following default site survey  
workspace information:  
Play on Timeout. Select Play on Timeout to emit an audible timeout tone every  
time a ping test timeout is reached.  
Play on Roam. Select Play on Roam to emit an audible roaming tone every time  
an wireless client roams between APs.  
Play on Threshold. Select Play on Threshold to emit an audible threshold tone  
every time the threshold time is met or exceeded.  
Play on Test Complete. Select Play on Test Complete to emit an audible test  
complete tone every time a suite of ping tests has been transmitted.  
The default for the Sounds property page is all sounds enabled. Set the volume  
level and/or sound by using the Windows Control Panel Volume and Sounds  
applet or the Sounds task tray applet.  
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Navigating the View Menu  
13  
Logging Property Page  
Select the Logging property page to change the following default site survey  
workspace logging information.  
Enable Logging. Select Enable Logging to enable Short Logging Format or  
Detailed Logging Format. If unchecked, no logging takes place during the ping  
tests. The default is Short Logging Format. Short logging provides an overview of  
ping transmission test activity. Detailed logging provides a comprehensive review  
of ping test activity.  
Short Logging Format. Select Short Logging Format to generate a text file  
consisting of the site survey workspace and area name, the surveyor name, date,  
test start and end time, AP BSSID, packet size, ping count, and test totals. The test  
totals section indicates elapsed test time, the number of retries, roundtrip ping  
transmission time, and the number of timeouts. If an out-of-range condition  
exists, it is also logged.  
Detailed Logging Format. Select Detailed Logging to generate a text file  
added to the Short Log content. Device roaming information, survey and site area  
descriptions, and error log notes are included in the Detailed Log.  
Clear Log contents before each test. Select Clear Log contents before each  
test to automatically clear the content of the log before a test suite is run.  
Confirm before log contents are cleared. If activated, the surveyor is  
prompted to decided whether the log file should be cleared before the test suite  
is run.  
Navigating the  
View Menu  
The Site Survey utility View menu contains Adapter Info, Areas, Known APs, Noise  
Meter, and Signal Quality pull-down menus.  
Use the pull-down menus to view AirConnect WLAN adapter driver and firmware  
data, site survey areas, APs within range of a target AirConnect mobile device, or a  
graph depicting wireless client signal quality. You can also create a text file of the  
log file.  
Viewing Adapter Info Select Adapter Info in the View menu to display an Adapter Information dialog  
box. Use the Adapter Information dialog box to display AirConnect WLAN adapter  
driver and firmware version, adapter type and firmware type. The information is  
view only and cannot be modified.  
Viewing Site Survey Select Areas in the View menu to display the Site Survey Area List dialog box. Use  
Area Info the Site Survey Area List dialog box to display a list and description of survey areas.  
Select an area and click Edit Area to display the Site Survey Area dialog box. Add  
new tests and survey area descriptions as needed. Click OK to save the changes to  
the site survey workspace. Click Delete to remove the area from the current site  
survey workspace.  
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14  
CHAPTER 2: CONDUCTING A SITE SURVEY  
Viewing Access Select Known APs in the View menu to display APs in range of the target wireless  
Point Info client. Use the Known APs dialog box to view the AP BSSID, number of associated  
wireless clients, wireless client type, and status and data rate. An icon next to each  
AP indicates whether the AP is mandatory or preferred and if the AP is associated.  
A list of APs within range of the wireless client is also shown. Select an AP and  
right click to change the AP type to Mandatory or Roaming. Click the Rates button  
to display the Transmission Rates dialog box. Use the Transmission Rates dialog  
box to set the transmission rate to 1Mb, 2Mb, 5.5Mb or 11Mb. Checking multiple  
rates defaults the wireless client to a lower rate if the higher rate AP association  
cannot be established. At least one rate is required.  
Viewing Mobile Unit Select Noise Meter in the View menu to display a graph of relative signal strength  
Noise Info indicator (RSSI) values and channel numbers. Use the Noise Meter dialog box to  
view the wireless client BSSID and the RSSI minimum, maximum, and average  
values. The RSSI values displayed in the graph are continuously updated with the  
last 6 received values displayed in blue. Click Reset to reset the graph to zero and  
begin a new display as RSSI values are received.  
Viewing Mobile Unit Select Signal Quality in the View menu to display the percentage of missed  
Signal Quality Info beacons, the percentage of transmission retries and the percentage of CRC errors  
logged during the ping test. Use the Signal Quality dialog box to display the  
strength of the radio signal transmitted by an AP. This information is useful in  
determining if the trial site survey AP placement locations are effective for  
providing radio coverage to the proposed radio coverage area.  
Navigating the  
Area Menu  
The Site Survey utility Area menu contains New, Select, Clear Log Contents, Edit  
Notes, Run ICMP Test, and Run WNMP Test menu items.  
Use the menu items to create and edit a site survey area, view the settings of a  
survey area, clear a site survey log, edit or delete notes in a survey log, and start  
and stop ICMP and WNMP tests.  
Creating a New Select New in the Area menu to display a Site Survey Area dialog box. Use the Site  
Survey Area Survey dialog box for entering a survey area name and description. If a workspace  
is already open, you are prompted to save the existing workspace. Click OK to  
display the new workspace name.  
Selecting and Editing an Click Select in the Area menu to display the Site Survey Area List dialog box. Use  
Existing Survey Area the Site Survey Area List dialog box to display a list and description of survey areas.  
Select an area and click Edit Area to display the Site Survey Area dialog box. Add  
new tests and survey area descriptions as needed. Click OK to save the changes to  
the site survey workspace. Click Delete to remove the area from the current site  
survey workspace.  
Clearing the Text File Use the Clear Log Contents option to delete the log contents for the active survey  
Log for an Open workspace.  
Survey Area  
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Navigating the Area Menu  
15  
Editing the Note File for Select Edit Note in the Area menu to display the notes file for the active survey  
an Open Survey Area area. Use the Edit Note option to edit or delete the survey test notes entered for  
the active survey workspace.  
Running ICMP or Select Run ICMP Test or Run WNMP Test in the Area menu to display the Site  
WNMP Tests Survey Test dialog box.  
Use the Site Survey Test dialog box to specify ICMP or WNMP test parameters.  
ICMP and WNMP tests are ping tests assessing radio transmission roundtrip, delay  
time and transmission signal strength.  
Setting ICMP or WNMP Test Parameters  
Use the Site Survey Test dialog box to set the following ICMP or WNMP test  
parameters:  
Access Point. the Access Point field of the Site Survey Test dialog box lists the  
associated AP. Choose a different access point from the list of available APs by  
clicking the ellipsis () button.  
Area. Define a new survey area by clicking the ellipsis button next to the Area  
pull-down menu.  
Test. Use the Test pull-down menu to list the tests defined for the active survey  
area. Use the ellipsis button to open a dialog box or entering new test settings.  
Test Statistics Use the Test Statistics field of the Site Survey Test dialog box to  
view the total ping roundtrip time, the number of tests remaining in the run, the  
number of test runs remaining, and the ping test transmit data rate.  
Four graphs on the bottom of the Site Survey Test dialog box display an average  
roundtrip time, missed beacon percentage, retry percentage, and threshold  
percentage. Bounds (thresholds) set in the Meter Settings property page establish  
the limits for the variables in the graphs.  
Results List Box Use the Results List Box to view ping count, errors, retry  
percentage, roundtrip time, and missed beacons values. Scroll backward or  
forward in the list. The list displays the last test suite run.  
Start. Click Start to begin the ICMP or WNMP test. Once started, the Start  
button changes to a Stop button.  
Edit Note. Click Edit Note to display a dialog box for entering notes for the test.  
Each note is added to the log file.  
Clear List. Use the Clear List button in Site Survey Test dialog box the clear the  
results list box.  
Test Totals. Click the Test Totals button within the Site Survey Test dialog box to  
display the Site Survey Totals dialog box.  
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16  
CHAPTER 2: CONDUCTING A SITE SURVEY  
Use the Site Survey Totals dialog box to display survey area final test results,  
including test start time, total number of tests, total number of runs, total test  
roundtrip time, average test roundtrip time, and total number of timeouts. The  
two checkboxes indicate if the user cancelled the test run and whether the test  
was run to completion.  
Setting New Test Parameters  
Open the New Test Settings dialog box by clicking the ellipsis button next to the  
Test pull-down menu in the Site Survey Test dialog box.  
Use the New Test Settings dialog box to enter a test name, define test packet sizes,  
select a test ping count, enable the test Auto Rerun, Sounds and Logging features,  
change host address information and display the Settings property pages.  
Test Name. Use the Test Name field in the New Test Settings dialog box to enter  
the test for the active survey workspace.  
Packet Size. Use the Packet Size field in the New Test Settings dialog box to  
enter a packet size for the ICMP or WNMP test.  
Ping Count. Use the Ping Count field in the New Test Settings dialog box to  
type in a ping count value for the ICMP or WNMP test.  
Threshold. Use the Threshold field in the New Test Settings dialog box to type in  
threshold value for the ICMP or WNMP test.  
Host Address The host address entered in the Settings Setup property page  
displays in the Host Address field. Change the host address value by typing it in.  
Auto Rerun. Select the Auto Rerun option in the New Test Settings dialog box  
to enable the Auto Rerun test feature.  
Enable Sounds. Select the Enable Sounds option in the New Test Settings  
dialog box to enable the Sounds feature.  
Logging. Select the Logging option in the New Test Settings dialog box to  
enable the Logging feature.  
Advanced. Click the Advanced button in the New Test Settings dialog box to  
access the Settings property pages for the active survey area workspace.  
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AIRCONNECT OVERVIEW  
A
Introduction  
AirConnect from 3Com is made up of a series of products that work together  
to deliver high-speed digital wireless networking. This technology provides  
connectivity between wireless clients and network nodes in a variety of indoor  
environments, and also provides bridging architecture between wired and wireless  
network segments. AirConnect is based on the IEEE 802.11HR standard, and  
delivers 11 Mbps data transfer rates.  
The core hardware products that make up an AirConnect network include the  
following:  
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PC card, installed in a wireless client (laptop or desktop computer)  
Access point, or AP, which serves as a wireless network node  
PowerBASE-T (optional), which provides bus power to the access point when  
connected to an Ethernet network  
Also included in your AirConnect kit are an AP mounting bracket and hardware,  
a serial cable, a power adapter and associated power cables, and two CDs: the  
AirConnect Administrator CD, and the AirConnect User CD.  
AirConnect Network  
Topologies  
To better understand how the various AirConnect products work together to  
create a wireless network, it might be helpful to depict a few of the possible  
AirConnect network topologies. The topology used in a particular environment  
depends on many factors, such as the functionality of the AP in the network, or  
desired data transfer rates. Your AirConnect network topology will probably  
resemble one of the following scenarios, or perhaps a combination of two or  
more.  
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18  
APPENDIX A: AIRCONNECT OVERVIEW  
Peer-To-Peer Network The simplest AirConnect topology consists of one AP providing a single-cell  
network for wireless clients. In this scenario, as shown in the following figure, the  
wireless clients (laptop and desktop computers with the AirConnect NIC installed)  
communicate through the AP on a peer-to-peer network. The clients can be  
moved anywhere within the coverage area of the AP, and still communicate with  
each other. The AP in this instance serves the same purpose as a stand-alone  
network hub, and is not connected to any other network segments.  
Same-Site Separate In this scenario, as shown in the figure below, Multiple APs can coexist as separate  
Networks networks at the same site without interference using different network identifiers  
(wireless LAN service areas). The wireless clients can move within the coverage  
area of one AP and remain connected, or can roam (if configured to do so) to the  
coverage area of a different AP, and communicate with the wireless clients  
associated with that AP.  
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AirConnect Network Topologies  
19  
Single AP Bridge Another possible AirConnect topology is a single AP bridging an Ethernet and  
wireless network. As shown in the next figure, the AP, wired to a network server or  
LAN through an Ethernet cable, serves as a network node and provides the link  
between the server and the wireless clients. The wireless clients can move freely  
throughout the coverage area of the AP while remaining connected to the server.  
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20  
APPENDIX A: AIRCONNECT OVERVIEW  
Multiple-AP Full This network topology will be used in most enterprise environments: multiple APs  
Coverage Network wired to an existing LAN to provide complete wireless network coverage. In this  
scenario, as shown in the next figure, wireless clients can roam seamlessly  
between different coverage areas and remain connected to the network.  
Theory of Operation  
To improve AP management and performance, you should understand basic AP  
functionality and configuration options. The AP includes features for different  
interface connections and network management.  
The AP provides MAC layer bridging between its interfaces. The AP monitors  
traffic from its interfaces and, based on frame address, forwards the frames to the  
proper destination. The AP tracks the frames sources and destinations to provide  
intelligent bridging as wireless clients roam or network topologies change. The AP  
also handles broadcast and multicast message initiations and responds to wireless  
client association requests.  
MAC Layer Bridging The AP listens to all packets on all interfaces and builds an address database using  
the unique IEEE 48-bit address (MAC address). An address in the database  
includes the interface media that the device uses to associates with the AP. (The  
AP internal stack interface handles all messages directed to the AP.) The AP uses  
the database to forward packets from one interface to another. The bridge  
forwards packets addressed to unknown systems to the default interface (either  
Ethernet or PPP).  
Each AP stores information on destinations and their interfaces to facilitate  
forwarding. When you send an Address Resolution Protocol (ARP) request packet,  
the AP forwards the request over all enabled interfaces (Ethernet, PPP, or radio),  
except over the interface on which the ARP request packet was received.  
(Radio-received ARP request packets echo back to other APs over radio.)  
Upon receiving the ARP response packet, the AP database keeps a record of the  
destination address along with the receiving interface. With this information, the  
AP forwards any directed packet to the correct destination. The AP forwards  
packets for unknown destinations to the Ethernet interface.  
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Theory of Operation  
21  
The AP removes from its database destinations or interfaces not used for a  
specified time. The AP refreshes its database when it transmits or receives data  
from these destinations and interfaces.  
Filtering and Access Control  
The AP provides facilities to limit the wireless clients that associate with it and the  
data packets that can forward through it. Filters provide network security or  
improve performance by eliminating broadcast/multicast packets from the radio  
network.  
The Access Control List (ACL) contains MAC addresses for wireless clients allowed  
to associate with the AP. This provides security by preventing unauthorized access.  
The AP also uses a disallowed address list of destinations. This feature prevents the  
AP from communicating with specified destinations. This can include network  
devices that do not require communication with the AP or its wireless clients.  
Depending on the setting, the AP can keep a list of frame types that it forwards or  
discards. The Type Filtering option prevents specific frames (indicated by the 16-bit  
DIX Ethernet Type field) from being processed by the AP. These include certain  
broadcast frames from devices unimportant to the wireless LAN but which utilize  
bandwidth. Filtering out unnecessary frames also improve throughput.  
DHCP Support The AP uses Dynamic Host Configuration Protocol (DHCP) to obtain a leased IP  
address and network configuration information from a remote server. DHCP is  
based on BOOTP protocol. DHCP can coexist or interoperate with BOOTP. An AP  
sends out a DHCP request searching for a DHCP server to acquire the network  
configuration and firmware filenames. Because BOOTP and DHCP interoperate,  
the one that responds first becomes the server that allocates information. The  
DHCP client automatically sends a DHCP request to renew the IP address lease as  
long as the AP is running. (This parameter is programmed at the DHCP server. For  
example, Windows NT servers typically are set for 3 days.)  
The AP can optionally download two files when a boot takes place, the firmware  
file and an HTML file, because firmware versions 4.00-31 and above support Web  
servers. Users can program the DHCP or BOOTP server to transfer these two files  
when a DHCP request is made.  
When the AP receives a network configuration change or is not able to renew the  
IP address lease the AP sends out an SNMP trap.  
Media Types The AP supports bridging between Ethernet, radio, and serial media.  
The Ethernet interface fully complies with Ethernet Rev. 2 and IEEE 802.3  
specifications. The AP supports 10BASE-T wired connections and full-speed  
filtering. The data transfer rate over radio waves is 11 Mbps. The Ethernet  
interface is optional for single-cell or PPP-connected networks.  
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22  
APPENDIX A: AIRCONNECT OVERVIEW  
The radio interface conforms to IEEE 802.11 HR specifications. The interface  
operates at 11 Mbps using direct-sequence radio technology. The AP supports  
multiple-cell operations with fast, transparent roaming between cells. With the  
direct-sequence system, each cell operates independently. Each cell provides a  
11 Mbps bandwidth. Adding cells to the network provides increased coverage  
area and total system capacity. The AP supports wireless clients operating in Power  
Save Polling (PSP) mode or Continuously Aware Mode (CAM) without user  
intervention.  
The DB-9, 9-pin, RS-232 serial port provides a User Interface (UI) or a Point to Point  
Protocol (PPP) connection. The UI provides basic management tools for the AP. The  
PPP provides a link between APs using a serial connection. The serial link supports  
short haul (direct serial) or long haul (telephone line) connections. The AP is a Data  
Terminal Equipment (DTE) device with male pin connectors for the RS-232 port.  
Connecting the AP to a PC requires a null-modem cable; connecting the AP to a  
modem requires a straight-through cable.  
Bridging Support The AP PPP interface, accessible from the serial port at the rear of the AP, provides  
two types of bridging operations: Internet Protocol (IP) bridging between an AP  
and a computer, and between two APs (with one AP connected to a LAN). To  
establish an Internet Protocol bridge with an AP, ensure that the computer  
includes the appropriate Telnet software with PPP and TCP/IP protocols. Using  
Telnet, a remote computer can connect to any AP on an Ethernet network, as long  
as data transfers through IP packets.  
A PPP link provides the option of using a direct serial link or modem to extend  
wired Ethernet topologies. Once in PPP mode, the AP automatically attempts to  
communicate with the other device using the Data-Link Bridging (DLB) protocol.  
An AP using DLB communicates on the MAC level, and receives and transmits  
Ethernet frames.  
If the other device does not support DLB, the AP attempts to communicate using  
Internet Protocol Control Protocol (IPCP). An AP using IPCP communicates on the  
IP level, and receives and transmits IP packets.  
The PPP implementation in the AP uses the Link Control Protocol (LCP) and  
Network Control Protocol (NCP) as described in:  
I
I
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I
RFC 1171: the Point-to-Point Protocol, July 1990  
RFC 1220: PPP Extensions for Bridging, April 1991  
RFC 1332: The PPP Internet Protocol Control Protocol, May 1992  
RFC 1661: The Point-to-Point Protocol, July 1994  
(RFCs are Requests For Comments used in Internet Communities.)  
The AP database dynamically tracks wireless clients and APs on the PPP interface.  
Packets forward to the PPP link after the AP determines their destination.  
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Theory of Operation  
23  
The PPP implementation in the AP uses the NCP as described in RFC 1220: PPP  
Extensions for Bridging to encapsulate packets at the Ethernet level. The PPP  
provides IP bridging control as defined by RFC 1172 and MAC-level bridging.  
The protocol provides support for PPP negotiations conforming to RFC 1661.  
Users cannot plug a non-AP node directly into the AP serial port, only AP-to-AP  
PPP links.  
For detailed information, refer to RFC 1171: The Point to Point Protocol and RFC  
1220: PPP Extensions for Bridging.  
PPP Connection  
Connecting an AP and a computer with a direct serial link requires the use of a  
null-modem serial cable.  
Null-modem serial cable pinout:  
Connecting an AP and computer with modem devices requires the use of  
straight-through cables between the APs and modems. Using modems requires  
a telephone line for as long as the link remains active.  
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24  
APPENDIX A: AIRCONNECT OVERVIEW  
Straight-through cable pinout:  
When using a modem connection, one AP represents the originating AP and the  
other represents the answering AP. When using a PPP link, do not use the serial  
port to access the UI. Access to the UI requires establishing a Telnet session with  
the AP.  
Direct-Sequence Direct Sequence Spread Spectrum (DSSS) uses a high-speed, non-information  
Spread Spectrum bearing signal to spread the transmitted information over a segment of the radio  
frequency band or spectrum. The AirConnect access point uses DSSS for radio  
communication.  
Direct-sequence systems communicate by continuously transmitting a redundant  
pattern of bits called a chipping sequence. Each bit of transmitted data is mapped  
into chips by the access point to find the chipping sequence corresponding to the  
output signal.  
Wireless clients receiving a direct-sequence transmission use the same chipping  
sequence to recreate the original data transmitted by the access point.  
Intercepting and decoding a direct-sequence transmission requires a predefined  
algorithm to associate the chipping sequence used by the transmitting access  
point to the receiving wireless client. This algorithm is established when the access  
point and wireless client are configured. The bit redundancy within the chipping  
sequence enables the receiving wireless client to recreate the original data pattern,  
even if bits in the chipping sequence are corrupted by interference.  
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Theory of Operation  
25  
Wireless Client APs recognize wireless clients as they associate with the AP. The AP keeps a list of  
Association Process the wireless clients it services. Wireless clients associate with an AP based on the  
following conditions:  
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Signal strength between the AP and wireless client  
Wireless clients currently associated with the AP  
Wireless client Supported Rate (see the table below)  
Positive match between the wireless client and encryption keys (optional)  
Positive wireless client authorization by the Access Control List (optional)  
The following table gives the wireless client support rates:  
Data Rate  
11 Mbps  
5.5 Mbps  
2 Mbps  
Requirement  
Optional  
Optional  
Optional  
1 Mbps  
Required  
Wireless clients perform preemptive roaming by intermittently scanning for APs  
and associating with the best available AP. Before roaming and associating with  
APs, wireless clients perform scans to collect AP statistics and determine the  
direct-sequence channel used by the AP.  
Scanning is a periodic process where the wireless client sends out messages on all  
frequencies defined by the country code. The statistics enable a wireless client to  
reassociate by synchronizing its frequency to the AP. The wireless client continues  
communicating with that AP until it needs to switch cells or roam.  
Wireless clients perform scans at start-up. In a scan, a wireless client uses  
a sequential set of channels as the scan range. For each channel in range,  
the wireless client tests for Clear Channel Assessment (CCA). When a  
transmission-free channel becomes available, the wireless client broadcasts a  
probe with the wireless LAN service area and the broadcast HSA_ID. An  
AP-directed probe response generates a wireless client Acknowledgment (ACK)  
and the addition of the AP to the AP table with a proximity classification. An  
unsuccessful AP packet transmission generates another wireless client probe on  
the same channel. If the wireless client fails to receive a probe response within the  
time limits, it repeats the probe process on the next channel in the sequence. This  
process continues through all channels in the range.  
A wireless client can roam within the coverage area by switching APs. Roaming  
is transparent and virtually instantaneous in high-level applications. Roaming  
occurs when:  
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An unassociated wireless client attempts to associate or reassociate with an  
available AP.  
The supported rate changes or the wireless client finds a better transmit rate  
with another AP.  
The signal quality of a potential AP exceeds that of the current AP.  
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26  
APPENDIX A: AIRCONNECT OVERVIEW  
I
I
The ratio of good-transmitted packets to attempted-transmitted packets falls  
below a threshold.  
The wireless client detects an imbalance in the number of wireless clients  
associated with available APs and roams to a less loaded AP.  
A wireless client selects the best available AP and adjusts itself to the AP  
direct-sequence channel to begin association. Once associated, the AP begins  
forwarding any frames it receives addressed to the wireless client. Each frame  
contains fields for the current direct-sequence channel. The wireless client uses  
these fields to resynchronize to the AP.  
Mobile IP The Internet Protocol identifies the wireless client point of attachment to a  
network through its IP address. The AP routes packets according to the location  
information contained in the IP header. If the wireless client roams across routers  
to another subnet, the following situations occur:  
I
The wireless client changes its point of attachment without changing its IP  
address, causing forthcoming packets to become undeliverable.  
I
The wireless client changes its IP address when it moves to a new network,  
causing it to lose connection.  
Mobile IP enables a wireless client to communicate with other hosts using  
only its home IP address after changing its point-of-attachment to the  
internet/intranet.  
Mobile IP is like giving an individual a local post office forwarding address when  
leaving home for an extended period. When mail arrives for the individual home  
address, it is forwarded by the local post office to the current care-of-address.  
Using this method, only the local post office requires notification of the individual  
current address. While this example represents the general concept of Mobile IP  
operation and functionality, it does not represent the implementation of Mobile IP  
used.  
A tunnel is the path taken by the original packet encapsulated within the payload  
portion of a second packet to some destination on the network.  
A Home Agent is an AP acting as a router on the wireless client home network.  
The home agent intercepts packets sent to the wireless client home address and  
tunnels the message to the wireless client at its current location. This happens as  
long as the wireless client keeps its home agent informed of its current location on  
some foreign link.  
A Foreign Agent is an AP acting as a router at the wireless client location on a  
foreign link. The foreign agent serves as the default router for packets sent out by  
the wireless client connected on the same foreign link.  
A care-of-address is the IP address used by the wireless client visiting a foreign link.  
This address changes each time the wireless client moves to another foreign link.  
It can also be viewed as an exit point of a tunnel between the wireless client home  
agent and the wireless client itself.  
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Theory of Operation  
27  
The AirConnect Mobile IP (roaming across routers) feature enables a wireless client  
on the Internet to move from one subnet to another while keeping its IP address  
unchanged. The scanning and associating process continues for active wireless  
clients. This allows the wireless clients to find new APs and discard out-of-range or  
deactivated APs. By testing the airwaves, the wireless clients can choose the best  
network connection available.  
Set the wireless client for Mobile IP as specified in the AirConnect Network  
Interface User Guide.  
Security  
Security involves two distinct areas: authentication and privacy. Authentication  
ensures that only authorized users access the wireless network. Privacy ensures  
that communication between authenticated users and the network cannot be  
intercepted or overheard. The Access Control List provides authentication using  
the wireless LAN service area and a system administrator-supplied list of all the  
wireless client MAC addresses authorized to access the Home Service Area. Privacy  
is ensured by enabling the 40-bit WEP encryption option.  
Supporting CAM and Continuously Aware Mode (CAM) stations leave their radios on continuously to  
PSP Stations hear every beacon and message transmitted. These systems operate without any  
adjustments by the AP.  
A beacon is a uniframe system packet broadcast by the AP to keep the network  
synchronized. A beacon includes the wireless LAN service area, the AP address, the  
Broadcast destination addresses, a time stamp, Delivery Traffic Indicator Maps, and  
the Traffic Indicator Message (TIM).  
Power Save Polling (PSP) stations power off their radios for long periods. When a  
wireless client in PSP mode associates with an AP, it notifies the AP of its activity  
status. The AP responds by buffering packets received for the wireless client. The  
PSP-mode wireless client wakes up to listen to the AP beacon every nth Beacon  
Interval where n is a PSP-mode value from the 1 to 5-range; the Beacon Interval is  
set on the wireless client. When the wireless client wakes up and sees its bit set in  
the TIM, it issues a poll request to the AP for packets stored for it. The AP sends  
them to the wireless client and the wireless client goes back to sleep. A DTIM field,  
also called a countdown field, informs wireless clients of the next window for  
listening to broadcast and multicast messages. The AP sends the messages  
following the nth beacon where n is the DTIM interval defined in the AP. When the  
AP has buffered broadcast or multicast messages for associated wireless clients,  
it sends the next DTIM with a DTIM Interval value. This value decreases by '1' with  
each successive beacon. The AP sends broadcast and multicast messages  
immediately following the beacon where the DTIM value is '0.' To prevent a  
PSP-mode wireless client from sleeping through a DTIM notification, select a PSP  
mode value less than or equal to the DTIM value. PSP-mode wireless clients hear  
the beacons and awaken to receive the broadcast and multicast messages.  
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28  
APPENDIX A: AIRCONNECT OVERVIEW  
A TIM is a compressed virtual bitmap identifying the AP associated wireless clients  
in PSP mode that have buffered directed messages. wireless clients issue a poll  
request when APs issue a TIM. A beacon with the broadcast-indicator bit set  
causes the wireless client to note DTIM Count field value. The value informs the  
wireless client of the beacons remaining before next DTIM. This ensures the  
wireless client turns on the receiver for the DTIM and the following BC/MC packet  
transmissions.  
HTTP, HTML Web Hypertext Transfer Protocol (HTTP) is the native language of the World Wide Web.  
Server Support The HTTP protocol makes requests from browsers to servers and responses from  
servers to browsers. This function provides the user with a Web-based format for  
configuration and firmware download.  
Web pages are written in Hypertext Markup Language (HTML). HTML allows the  
user to create Web pages containing text, graphics, and pointers or links to other  
Web pages or elsewhere on the page or document. Pointers are known as  
Uniform Resource Locators (URLs). A URL is essentially the name of the Web page.  
The URL consists of three parts:  
1 Protocol (or Scheme)  
2 Fully Qualified Domain Name (FQDN), the machine where the page is located  
3 Local name that identifies the page (usually the HTML file name)  
The HTML language describes how to format the document, indication which  
fonts to use, much like a copy editor describes which fonts to use, such as the  
location, color, header size and text.  
Management Options Managing AirConnect includes viewing network statistics and setting  
configuration options. Statistics track the network activity of associated wireless  
clients and data transfers on the AP interfaces. Configuration involves, among  
other things, setting system operating parameters and filters used in bridging.  
The AP requires one of the following to perform a custom installation or maintain  
the AirConnect network:  
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Simple Network Management Protocol (SNMP)  
Wired or wireless LAN workstation with a telnet client  
Terminal or PC with RS-232 connection and access to ANSI emulation  
Changing one AP does not affect the configuration of other APs on the network.  
Make configuration changes to APs individually. Each AP requires an individual  
IP address.  
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Theory of Operation  
29  
Programmable SNMP Trap Support  
The SNMP protocol defines the method for obtaining information about networks  
operating characteristics and changing router and gateway parameters. The SNMP  
protocol consists of three elements:  
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Management stations  
Management information  
Management protocol (MIB)  
Nodes can perform as hosts, routers, bridges or other devices that can  
communicate status information. An SNMP Agent is a node that runs the SNMP  
management process to systematically monitor and manage the network. The  
management station performs network management by running application  
management software.  
An SNMP trap is an alert to all configured management stations of some  
significant event that occurred on the network. The management station queries  
all stations for details of each specific event, including what, when and where the  
event took place and the current status of the node or network. The format or  
structure is defined in the SNMP protocol. The MIB defines what and who  
monitors the variables.  
Using SNMP  
The AP includes SNMP agent versions accessible through an SNMP manager  
application (HP Open View or Cabletron Spectrum MIB browser). The SNMP agent  
supports SNMP versions 1 and 2, MIB II, 802.11 MIB and one proprietary 3Com  
Management Information Base (MIB). The SNMP agent supports read-write,  
read-only or disabled modes. The AP supports traps that return to the SNMP  
manager when certain events occur. The Wireless LAN Installation and Utilities disk  
packaged with wireless clients contains the MIB.  
Increased MIB Support  
The MIB defines what the management station needs to understand and which  
objects the station manages. The MIB has ten categories defined with  
approximately 175 variables.  
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30  
APPENDIX A: AIRCONNECT OVERVIEW  
Using the User Interface  
The User Interface (UI) is a text-based maintenance tool integrated into the AP.  
It provides statistical displays, AP configuration options, and firmware upgrades.  
Access to the UI requires one of the following:  
Method  
Description  
Telnet Client  
Gain access to the AP built-in Telnet server from any AP  
interface including remote Ethernet connections.  
Direct Serial  
Connection  
Acts as a DTE device to connect directly to a DTE device with  
a null-modem serial cable. The direct serial access method  
requires a communication program with ANSI emulation.  
Dial Up Access  
The dial-up access method requires a communication program  
with ANSI emulation on the remote terminal or PC. The  
terminal or PC dials to an AP with a modem connection. The AP  
supports connection to a Hayes-compatible 28,800-baud or  
faster modem.  
SNMP Via a  
MIB Browser  
Gain access to the AP SNMP function via a MIB Browser.  
Web Browser  
Gain access to the AP built-in Web server from any AP interface  
including remote Ethernet connections.  
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