LTE advanced及び5Gのグローバル市場動向...市場調査レポートについてご紹介

★目次PDF：http://h-and-i.main.jp/market-report/IDATE/M14306MRA_LTE_Advanced_5G_ToC.pdf

1. Executive Summary 8
1.1. South Korea leading LTE-Advanced deployments . 10
1.2. LTE-Advanced innovations – LTE-Advanced is ways richer than just carrier aggregation . 10
1.3. Latest vendor developments . 11
1.4. LTE-Advanced market taking off in 2014 . 12
1.5. Future trends: ‘5G’ already on the radar screen .. 13
2. Methodology & definitions … 14
2.1. General methodology of IDATE’s reports 14
2.2. Market assessment and forecasts 15
2.3. Definitions .. 15
3. LTE-Advanced front runners – South Korea leading LTE-Advanced deployments .. 16
3.1. Asia-Pacific 17
3.1.1. South Korea 17
3.1.2. Japan .. 20
3.1.3. China … 21
3.1.4. New Zealand … 21
3.1.5. Australia .. 21
3.2. USA . 22
3.2.1. AT&T Mobility: large small-cell deployment .. 22
3.2.2. Verizon Wireless . 23
3.2.3. Sprint Nextel: partnering with Clearwire … 23
3.2.4. Dish Network … 24
3.3. Africa .. 24
3.3.1. South Africa . 24
3.4. Middle East 24
3.5. Europe 25
3.5.1. Austria . 25
3.5.2. Finland 25
3.5.3. France . 25
3.5.4. Russia . 26
3.5.5. United Kingdom … 26
3.6. Frequency bands used for carrier aggregation … 26
4. LTE-Advanced innovations – LTE-Advanced has more to offer than just carrier aggregation 28
4.1. Why is LTE-Advanced important today? . 28
4.2. 3GPP developments – LTE-Advanced delivers more than carrier aggregation 29
4.2.1. Release 10 & 11 .. 30
4.2.2. Release 12 .. 32
4.2.3. Beyond Release 12) 34
4.3. LTE-Advanced challenges and benefits for mobile operators … 36
4.3.1. Carrier aggregation . 36
4.3.2. HetNets … 39
4.3.3. Interference management – eICIC 40
4.3.4. CoMP .. 40
4.3.5. MIMO improvements: Higher-order MIMO (HOM) 41
4.3.6. Relay function.. 42
4.3.7. Device-to-device.. 43
4.3.8. PPDR functions … 44
5. LTE-Advanced – Latest vendor developments 46
5.1. Network infrastructure .. 46
5.1.1. Huawei 46
5.1.2. ZTE . 47
5.1.3. Ericsson .. 47
5.1.4. NSN . 48
5.1.5. Samsung . 49
5.1.6. Alcatel-Lucent.. 50
5.2. LTE-Advanced chipsets and devices … 51
5.2.1. Chipsets .. 51
5.2.2. Devices … 53
6. LTE-Advanced market taking off in 2014 . 54
6.1. LTE-Advanced perspectives . 54
6.1.1. LTE-Advanced timescale 54
6.1.2. Services .. 55
6.1.3. LTE-Advanced tariffing: no premium but differentiation is likely … 55
6.1.4. LTE-Advanced speeds: 300 Mbps coming soon (on the downlink) .. 55
6.2. Market forecasts 56
6.2.1. LTE-Advanced share of total LTE subscriptions… 56
7. Future trends: ‘5G’ already on radar screen … 58
7.1. 5G technologies 59
7.2. Frequency bands for 5G: focus on millimetre bands .. 63
7.2.1. 5G frequency band developments… 63
7.2.2. Frequency bands below 6 GHz 65
7.2.3. Unlicensed frequency bands 67
7.2.4. Frequency bands above 6 GHz 71
7.3. 5G initiatives .. 73
7.3.1. European Commission initiative … 73
7.3.2. METIS . 74
7.3.3. ALU . 75
7.3.4. Germany and UK initiative … 76
7.3.5. Intel . 76
7.3.6. South Korea 76
7.3.7. Japan .. 77
7.3.8. China … 78
7.3.9. Huawei 78
8. Glossary . 79

Tables & Figures
Table 1: LTE-Advanced speeds (April 2014) . 10
Table 2: New technologies and associated benefits in LTE-Advanced .. 11
Table 3: LTE-Advanced deployment and features . 12
Table 4: Roadmap of LTE-Advanced implementations .. 16
Table 5: Frequency bands and bandwidth used for LTE-Advanced carrier aggregation … 27
Table 6 : LTE-Advanced bandwidth and data rates 28
Table 7: New technologies and associated benefits in LTE-Advanced .. 31
Table 8: Possible UE RF architectures for LTE-Advanced resource aggregation . 37
Table 9: New UE Categories introduced with LTE-Advanced 41
Table 10 : LTE-Advanced chipsets … 52
Table 11: LTE-Advanced smartphones and tablets at SKT (March 2014) … 53
Table 12: LTE-Advanced deployment and features . 54
Table 13: SK Telecom LTE-Advanced services .. 55
Table 14: LTE-Advanced speeds (April 2014) . 55
Table 15: Comparison of modulation schemes in existing and future radio access technologies 60
Table 16: Microwave and millimetre bands .. 65
Table 17: Main frequency bands for UMTS/HSPA/LTE deployment – FDD mode .. 66
Table 18: Main frequency bands for UMTS/HSPA/LTE deployment – TDD mode .. 67
Table 19: Main unlicensed bands below 6 GHz … 67
Table 20: Wifi generations .. 68
Table 21: Spectrum bands targeted by Metis (9-37 GHz & >40 GHz) . 71
***
Figure 1: LTE-Advanced forecasts .. 12
Figure 2: 5G objective for the 5G Forum . 13
Figure 3: LTE spectrum and carrier aggregation in South Korea 17
Figure 4: Number of LTE-Advanced base stations deployed, as of September 2013 . 17
Figure 5: SKT LTE-Advanced service . 18
Figure 6: KT – Carrier aggregation .. 19
Figure 7: LG U+ LTE roadmap … 19
Figure 8: AT&T small-cell categories .. 22
Figure 9: AT&T HARP software .. 23
Figure 10: Estimated spectrum holdings of Clearwire and Tier 1 US operators 24
Figure 11 : Available A1 spectrum . 25
Figure 12: LTE Releases timeline from introduction to the latest Release 29
Figure 13 : LTE evolution timetable … 29
Figure 14: LTE-Advanced improvements – the role of the different components . 30
Figure 15: Key features in LTE Release 10 .. 30
Figure 16: Key features in LTE Release 11 – Physical layer aspects … 31
Figure 17: Vertical or 3D beamforming . 32
Figure 18: FDD/TDD carrier aggregation .. 33
Figure 19: Dynamic Wifi load balancing 33
Figure 20: 3GPP Release schedule .. 34
Figure 21: 3GPP freeze date for Release 13 35
Figure 22 : Towards massive MIMO .. 35
Figure 23: When do you plan to deploy small cells? . 36
Figure 24: Release 10 LTE-Advanced carrier aggregation … 36
Figure 25: Carrier aggregation examples .. 37
Figure 26: TDD carrier aggregation in LTE Releases … 38
Figure 27: HetNet using combination of macro and small cells 39
Figure 28 : Cell-edge UE data rates with eICIC . 40
Figure 29: The 4 CoMP 40
Figure 30: Radio relay technology 42
Figure 31: Proximity services examples 43
Figure 32: Group calling … 45
Figure 33: LTE-Advanced roadmap .. 46
Figure 34: ZTE cloud radio architecture 47
Figure 35: Ericsson Radio Dot System for indoor small cells 48
Figure 36: NSN Authorised Shared Access demonstration .. 48
Figure 37: Flexi Multiradio 10 Base Station .. 49
Figure 38: Smart Cloud 49
Figure 39: lightRadio architecture . 50
Figure 40: ZTE LTE multimode chipset roadmap.. 52
Figure 41: Huawei E5786 Cat 6 LTE mobile hotspot, powered by HiSilicon Balong 720 baseband . 53
Figure 42: SKT LTE-Advanced demonstrations 54
Figure 43: LTE-Advanced as a % of total LTE subscriptions 56
Figure 44: LTE-Advanced forecasts (‘000 subscriptions) .. 57
Figure 45: Possible timeline for 5G development.. 58
Figure 46: Example of Framework for 5G: maximum system capabilities . 59
Figure 47: Impact of packet loss on speed performance .. 60
Figure 48 : Filter Bank Multiple Access .. 61
Figure 49: Massive MIMO 61
Figure 50: Ultra-dense HetNets … 62
Figure 51: Multi-technology carrier aggregation 63
Figure 52: Example of 5G radio access 63
Figure 53: 5G frequency bands 64
Figure 54: Signal attenuation vs frequency … 64
Figure 55: Use of multiple frequency bands for 5G … 65
Figure 56: 5 GHz spectrum possible extensions … 68
Figure 57: 60 GHz Band Channel Plan by Region 69
Figure 58: LTE in the 5 GHz band 70
Figure 59: LTE-U benefits over Wifi .. 70
Figure 60: Spectrum overview . 72
Figure 61: 5G initiatives … 73
Figure 62: 5G-PPP members … 74
Figure 63: METIS objectives – timetable .. 74
Figure 64: METIS objectives 75
Figure 65 : Context Aware Resource Allocation (CARA) … 76
Figure 66: 5G objective for the 5G Forum . 77
Figure 67: ARIB 5G vision … 77
Figure 68: Potential key technologies … 78
Figure 69: 5G timetable … 78