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Content for
TR 25.707
Word version: 14.0.0
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5
Target scenarios
6
Evaluation methodology
7
Study areas
8
Impact on legacy terminals
9
Impact on specifications
10
Conclusions
$
Change History
5
Target scenarios
5.1
Dual band dual carrier scenario
5.2
Dual carrier scenario
Word‑p. 8
5.3
Summary of target scenarios
5.4
Performance of 2 ms vs 10 ms TTI EUL
6
Evaluation methodology
Word‑p. 9
6.1
Evaluation of 2 ms vs 10 ms TTI
Word‑p. 10
7
Study areas
7.1
Potential solutions for TTI switching and power scaling
7.1.1
TTI switching
7.1.2
Power scaling
Word‑p. 11
7.2
Evaluations
Word‑p. 12
7.2.1
Evaluations for 2ms+10ms TTI in DB-DC HSUPA [4]
7.2.1.1
Evaluations of single carrier
7.2.1.2
Evaluations of 2ms+10ms DB-DC HSUPA
Word‑p. 13
7.2.2
Evaluations for 10ms+10ms TTI [5]
Word‑p. 14
7.2.2.1
Evaluations for 10ms+10ms TTI in DB-DC HSUPA
7.2.2.2
Evaluations for 10+10ms TTI in DC HSUPA
Word‑p. 16
7.2.3
Evaluation of DC-HSUPA [8]
Word‑p. 17
7.2.3.1
Maximum available throughput
Word‑p. 18
7.2.3.2
Trend analysis
Word‑p. 19
7.2.3.3
Further evaluation for DC-HSUPA
Word‑p. 20
7.2.4
Evaluation of DB-DC HSUPA [9]
Word‑p. 26
7.2.4.1
Maximum available throughput
Word‑p. 27
7.2.4.2
Trend analysis
Word‑p. 28
7.2.4.3
Further evaluation for DB DC-HSUPA
Word‑p. 29
7.2.5
Evaluation of 2 ms vs 10 ms TTI [3]
Word‑p. 35
7.3
RAN2 aspects of Multi-Carrier Enhancements
Word‑p. 36
7.3.1
RRC configuration
7.3.1.1
Analysis
7.3.1.2
Solutions
Word‑p. 37
7.3.1.3
Conclusions
7.3.2
Enhanced TTI switching
7.3.2.1
Analysis
7.3.2.2
Solutions on enhanced TTI switching in DC-HSUPA
Word‑p. 38
7.3.2.3
Solutions on filtered UPH reporting on the secondary uplink frequency
Word‑p. 40
7.3.2.4
Solutions on CFN handling
7.3.2.5
Conclusions
Word‑p. 41
8
Impact on legacy terminals
9
Impact on specifications
Word‑p. 42
10
Conclusions
$
Change History
Word‑p. 44