Tech-
invite
3GPP
space
IETF
space
21
22
23
24
25
26
27
28
29
31
32
33
34
35
36
37
38
4‑5x
Content for
TR 45.050
Word version: 16.0.0
1…
3…
A…
B…
E…
F…
J…
P…
R…
S…
T…
V…
VA…
X…
Y…
Z…
ZD…
ZF…
3
DCS1800 system scenarios
4
GSM900 small cell system scenarios
5
GSM900 and DCS1800 microcell system scenarios
6
Conversion factors
7
Repeaters
8
Error Patterns for Speech Coder Developments
9
Simulations of Performance
10
GSM900 railway system scenarios
11
Simulation results for GPRS receiver performance
12
Pico BTS RF scenarios
13
CTS system scenarios
14
GSM400 system scenarios
15
MXM system scenarios
16
LCS scenarios
17
8-PSK Scenarios
18
T-GSM 900 System Scenarios
19
MBMS System Scenarios
20
T-GSM 810 System Scenarios
21
Multicarrier BTS Class
22
ER-GSM band introduction
23
Extended Training Sequence Code Sets
24
Machine-type-communication (MTC) deployment, including EC-GSM-IoT, in a reduced BCCH spectrum allocation
...
3
DCS1800 system scenarios
4
GSM900 small cell system scenarios
Word‑p. 24
5
GSM900 and DCS1800 microcell system scenarios
6
Conversion factors
Word‑p. 25
7
Repeaters
Word‑p. 26
8
Error Patterns for Speech Coder Developments
9
Simulations of Performance
10
GSM900 railway system scenarios
11
Simulation results for GPRS receiver performance
Word‑p. 27
12
Pico BTS RF scenarios
13
CTS system scenarios
14
GSM400 system scenarios
15
MXM system scenarios
Word‑p. 28
16
LCS scenarios
17
8-PSK Scenarios
18
T-GSM 900 System Scenarios
19
MBMS System Scenarios
20
T-GSM 810 System Scenarios
21
Multicarrier BTS Class
22
ER-GSM band introduction
23
Extended Training Sequence Code Sets
Word‑p. 29
23.1
Background
23.2
Extended TSC Sets
23.2.1
Scope
23.2.2
Design criteria
23.2.3
Design methodology
23.2.4
Evaluation methodology
Word‑p. 30
23.2.5
Performance evaluation
24
Machine-type-communication (MTC) deployment, including EC-GSM-IoT, in a reduced BCCH spectrum allocation
24.1
Introduction
24.2
Simulation campaign
Word‑p. 31
24.2.1
Introduction
24.2.2
Idle mode procedures
Word‑p. 32
24.2.2.1
General
24.2.2.1.1
Simulator support
24.2.2.1.2
Performance metrics
24.2.2.1.3
Simulation assumptions
Word‑p. 33
24.2.2.2
PLMN selection
24.2.2.3
Cell selection
24.2.2.3.1
General
24.2.2.3.2
GPRS/EGPRS
Word‑p. 34
24.2.2.3.3
EC-GSM-IoT
Word‑p. 35
24.2.2.4
Cell reconfirmation
24.2.2.4.1
GPRS/EGPRS
24.2.2.4.2
EC-GSM-IoT
Word‑p. 37
24.2.3
Common control channel performance
Word‑p. 39
24.2.3.1
General
24.2.3.2
GPRS/EGPRS
24.2.3.2.1
Resource usage
24.2.3.2.2
Common control signaling delay
Word‑p. 40
24.2.3.2.3
Failed attempts
24.2.3.3
EC-GSM-IoT
24.2.3.3.1
Resource usage
24.2.3.3.2
Common control signaling delay
Word‑p. 41
24.2.3.3.3
Failed attempts
24.2.3.3.4
Coverage class distribution
24.2.4
Data traffic and control channel performance
Word‑p. 42
24.2.4.1
General
24.2.4.2
GPRS/EGPRS
24.2.4.2.1
PDCH resource usage
24.2.4.2.2
Latency
24.2.4.2.4
Failed Attempts
Word‑p. 43
24.2.4.2.5
Capacity
24.2.4.3
EC-GSM-IoT
24.2.4.3.1
PDCH resource usage
24.2.4.3.2
Latency of MAR periodic reports
Word‑p. 44
24.2.4.3.3
Latency of Downlink Application Ack
24.2.4.3.3a
Failed attempts
24.2.4.3.4
Capacity
24.2.4.3.5
Coverage Class Distribution
Word‑p. 45
24.3
Conclusion