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17 KPI Glossary 39

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7signal Sapphire Loupe User Guide Release 3.1

QUAP007

HTTP downlink throughput

Measures downlink throughput in an HTTP

document transfer. The test measures both

the time of the transfer and the size of the

document, from which the throughput in

Mbit/s is calculated.Measures downlink

throughput in an HTTP document transfer.

The test measures both the time of the

transfer and the size of the document, from

which the throughput in Mbit/s is

calculated.

Mbit/s

QUAP011

FTP downlink throughput of E2E

maximum

Measured throughput divided by the

theoretical maximum throughput that is a

function of measured SNR.

QUAP012

FTP uplink throughput of E2E

maximum

Measured throughput divided by the

theoretical maximum throughput that is a

function of measured SNR.

%

QUAP013

Jitter in VoIP test

The variation of delay (jitter) during a VoIP

test.

ms

QUAP015

Packet loss, VoIP test

Packet loss during a VoIP test.

%

QUAP016

Requested QoS category in FTP

tes

Requested QoS category in an FTP test. The

QoS categories are defined by the IEEE

802.11e amendment.

#

QUAP019

Average of used QoS categories

in FTP

The average of all the used QoS-categories

during FTP transfer tests.

#

QUAP022

Average of requested QoS

category in VoIP

The average of all the requested QoS-

categories for VoIP test.

#

QUAP025

Average of used QoS categories

in VoIP

The average of all the used QoS-categories

during VoIP tests.

#

QUAP028

Average of requested QoS

category in HTTP

The average of all the requested QoS-

categories for HTTP transfer test.

#

QUAP031

Average of used QoS categories

in HTTP

The average of all the used QoS-categories

during HTTP transfer tests.

#

QUAP032

TCP connection time

Time in which TCP connection between Eye

and Sonar has been established.

us

QUIP005

WLAN radio frame size, FTP

downlink

RF frame size distribution in FTP downlink

transfer test. If possible, WLAN devices try

to use the maximum transmission unit. Due

to radio interference, WLAN devices might

reduce the frame size, which leads to

relatively larger frame overhead, and

eventually to lower data throughput. Note

that this indicator measures the size of the

data link layer frame, which is defined by

IEEE 802.11, thus, this indicator doesn't

measure the size of TCP/IP packets.

byte(s)