Tech-invite3GPPspaceIETFspace
21222324252627282931323334353637384‑5x

Content for  TR 25.707  Word version:  14.0.0

Top   Top   Up   Prev   None
0…   5…
5 Target scenarios6 Evaluation methodology7 Study areas8 Impact on legacy terminals9 Impact on specifications10 Conclusions$ Change History

 

5  Target scenariosp. 7

5.1  Dual band dual carrier scenariop. 7

5.2  Dual carrier scenariop. 8

5.3  Summary of target scenariosp. 8

5.4  Performance of 2 ms vs 10 ms TTI EULp. 8

6  Evaluation methodologyp. 9

6.1  Evaluation of 2 ms vs 10 ms TTIp. 10

7  Study areasp. 10

7.1  Potential solutions for TTI switching and power scalingp. 10

7.1.1  TTI switchingp. 10

7.1.2  Power scalingp. 11

7.2  Evaluationsp. 12

7.2.1  Evaluations for 2ms+10ms TTI in DB-DC HSUPA [4]p. 12

7.2.1.1  Evaluations of single carrierp. 12

7.2.1.2  Evaluations of 2ms+10ms DB-DC HSUPAp. 13

7.2.2  Evaluations for 10ms+10ms TTI [5]p. 14

7.2.2.1  Evaluations for 10ms+10ms TTI in DB-DC HSUPAp. 14

7.2.2.2  Evaluations for 10+10ms TTI in DC HSUPAp. 16

7.2.3  Evaluation of DC-HSUPA [8]p. 17

7.2.3.1  Maximum available throughputp. 18

7.2.3.2  Trend analysisp. 19

7.2.3.3  Further evaluation for DC-HSUPAp. 20

7.2.4  Evaluation of DB-DC HSUPA [9]p. 26

7.2.4.1  Maximum available throughputp. 27

7.2.4.2  Trend analysisp. 28

7.2.4.3  Further evaluation for DB DC-HSUPAp. 29

7.2.5  Evaluation of 2 ms vs 10 ms TTI [3]p. 35

7.3  RAN2 aspects of Multi-Carrier Enhancementsp. 36

7.3.1  RRC configurationp. 36

7.3.1.1  Analysisp. 36

7.3.1.2  Solutionsp. 37

7.3.1.3  Conclusionsp. 37

7.3.2  Enhanced TTI switchingp. 37

7.3.2.1  Analysisp. 37

7.3.2.2  Solutions on enhanced TTI switching in DC-HSUPAp. 38

7.3.2.3  Solutions on filtered UPH reporting on the secondary uplink frequencyp. 40

7.3.2.4  Solutions on CFN handlingp. 40

7.3.2.5  Conclusionsp. 41

8  Impact on legacy terminalsp. 41

9  Impact on specificationsp. 42

10  Conclusionsp. 42

$  Change Historyp. 44

Up   Top