시장보고서
상품코드
1304602

MIMO를 통한 통신 강화 : 기술, 시장, 응용 분야

Enhancing Communications with MIMO - Technologies, Markets and Applications

발행일: | 리서치사: PracTel, Inc. | 페이지 정보: 영문 183 Pages | 배송안내 : 1-2일 (영업일 기준)


※ 본 상품은 영문 자료로 한글과 영문 목차에 불일치하는 내용이 있을 경우 영문을 우선합니다. 정확한 검토를 위해 영문 목차를 참고해주시기 바랍니다.

본 보고서에서는 MIMO(Multiple Input/Multiple Output: 다중입력/다중출력) 구조로 성능을 향상시키는 유무선 통신 시스템의 첨단 기술과 시장에 대해 조사하였습니다.

목차

제1장 서론

제2장 MIMO - 개념, 기능 및 유형

  • 역사
  • 개념
  • MIMO의 유형 : 예
  • MIMO의 장점(무선 시스템)

제3장 무선 시스템 MIMO

  • LTE 개발과 MIMO
    • 릴리스 - 3GPP
    • LTE 타임테이블
    • 브로드밴드 모바일 통신 - 단계
    • LTE의 표준화와 업계 제휴
    • 업계 이니셔티브
    • 지적재산
    • LTE의 주요 특징
    • 상세
    • LTE Advanced
    • SON
    • 음성 지원
    • 시장
    • 개요 : LTE의 장점
    • 업계
    • 상세 : LTE MIMO
    • 5G NR와 MIMO
    • Wi-Fi 6 이상 - Extreme High Throughput Wi-Fi - 802.11be
  • 802.11ac 개발에서 MIMO의 역할
  • 802.11ay와 MIMO 기술

제4장 유선 통신에서의 MIMO

  • HomePNA 및 ITU MIMO 기반 기술
  • HomePlugAV2-mimo

제5장 결론

첨부 자료 I : 특허 조사 LTE - MIMO(2018년-2020년)

첨부 자료 II : 특허 조사 - 802.11ac MIMO(2018년-2020년)

첨부 자료 III : 특허 조사 - 802.11ax MIMO(2018년-2020년)

첨부 자료 IV : 특허 조사 - 802.11ay MIMO(2018년-2020년)

첨부 자료 V : 특허 조사 - G.hn-MIMO(2014년-2020년)

LSH 23.07.18

This report researches advanced technologies and markets for wireless and wired communications systems that are supported by MIMO - Multiple Input/Multiple Output structures - to enhance their performance. It revises and updates earlier issues of the report as well as adds the analysis of latest technologies.

Users' demand for more efficient networking brought to life many technological innovations. One of them is MIMO, which became very popular in wireless systems - almost all recent and future 3GPP standards use (or will be using) variations of such a technique. MIMO is also used in wireline systems.

This report is based on the Practel analysis of MIMO-based communications systems, their technologies and markets specifics. Particular, the following industry standards that utilize MIMO have been considered:

  • 3GPP LTE
  • IEEE802.11ax
  • IEEE802.11ay
  • IEEE 802.11ac
  • HomePlug AV2
  • ITU G.hn - MIMO.

The goal of this report is to characterize MIMO advantages and specifics for each standard. It also addresses market characteristics of discussed technologies. Report concentrates on profiling the industry players and their products.

MIMO characteristics, structures and types are also addressed and compared. The report also surveys patents related to the discussed subjects.

The report is written for a wide audience of managers and technical staff who are involved in the design and implementation of advanced communications systems.

Table of Contents

1.0. Introduction

  • 1.1. General
  • 1.2. Goal
  • 1.3. Structure
  • 1.4. Research Methodology
  • 1.5. Target Audience

2.0. MIMO - Concept, Functions and Types

  • 2.1. History
  • 2.2. Concept
  • 2.3. Types of MIMO: Examples
    • 2.3.1. CoMP MIMO
    • 2.3.2. Massive MIMO
    • 2.3.3. MU-MIMO
    • 2.3.4. MIMO-OFDM
    • 2.3.5. Mobile Networked MIMO
    • 2.3.6. MIMO - by Type of Communications Media
    • 2.3.7. Summary
  • 2.4. MIMO Benefits (Wireless Systems)

3.0. MIMO in Wireless Systems

  • 3.1. LTE Development and MIMO
    • 3.1.1. Releases - 3GPP
    • 3.1.2. LTE Timetable
    • 3.1.3. Broadband Mobile Communications-Phases
    • 3.1.4. LTE Standardization-Industry Collaboration
    • 3.1.5. Industry Initiative
    • 3.1.6. Intellectual Property
    • 3.1.7. Key Features of LTE
    • 3.1.8. Details
      • 3.1.8.1. Evolved UMTS Radio Access Network (EUTRAN)
      • 3.1.8.2. UE Categories
      • 3.1.8.3. Evolved Packet Core (EPC)
    • 3.1.9. LTE Advanced
    • 3.1.10. SON
    • 3.1.11. Voice Support
      • 3.1.11.1. VoLTE
    • 3.1.12. Market
      • 3.1.12.1. Drivers
      • 3.1.12.2. Demand: Wireless Broadband
      • 3.1.12.3. LTE Market Projections
    • 3.1.13. Summary: LTE Benefits
    • 3.1.14. Industry
      • Altair Semiconductor (a Sony Group Company)
      • Aricent (now Altran)
      • AceAxis
      • Cisco
      • CommAgility
      • Ericsson
      • Fujitsu
      • Huawei
      • Lime Microsystems
      • Motorola Solutions
      • Nokia
      • Qualcomm
      • Samsung
      • Sequans
      • Signalion
      • TI
      • U-blox
      • ZTE
    • 3.1.15. Specifics: LTE MIMO
      • 3.1.15.1. Techniques
      • 3.1.15.2. Major Applications
      • 3.1.15.3. Modes
      • 3.1.15.4. MIMO: LTE Release 8
      • 3.1.15.5. MIMO: LTE Release 9
      • 3.1.15.6. MIMO: LTE Advanced and Further Developments
      • 3.1.15.7. LTE/LTE-A - MIMO Benefits
      • 3.1.15.8. Market Projections
    • 3.1.16. 5G NR and MIMO
  • 3.2. IEEE802.11ax (Wi-Fi 6) and MIMO
    • 3.2.1. Background
    • 3.2.2. Focal Points
    • 3.2.3. Major Features
    • 3.2.4. Major Applications
    • 3.2.5. Physical Layer
      • 3.2.5.1. Multi-User Operation
      • 3.2.5.2. Role of MU-MIMO
      • 3.2.5.3. Multi-User OFDMA
    • 3.2.6. MAC
      • 3.2.6.1. Spatial Reuse with Color Codes
      • 3.2.6.2. Power-saving with Target Wake Time
      • 3.2.6.3. Density
    • 3.2.7. 802.11ax Operating Modes
      • 3.2.7.1. MU-MIMO (Wi-Fi 6 / 802.11ax)
    • 3.2.8. Industry
      • Aerohive (Extreme Networks)
      • Asus
      • Broadcom
      • Huawei
      • Marvell
      • Netgear
      • Ruckus
      • Quantenna (acquired by On Semiconductor in 2019)
      • Qualcomm
    • 3.2.9. Beyond Wi-Fi 6 - Extreme High Throughput Wi-Fi - 802.11be
  • 3.3. MIMO Role in 802.11ac Development
    • 3.3.1. General - Improving 802.11n Characteristics
    • 3.3.2. Approval
    • 3.3.3. Major Features: Summary
    • 3.3.4. Major Benefits
    • 3.3.5. Usage Models
    • 3.3.6. Waves
    • 3.3.7. Market Projections
    • 3.3.8. Industry
      • Aruba - HP
      • Celeno
      • Broadcom
      • Buffalo
      • Cisco
      • D-Link
      • Fortinet
      • Linksys
      • Marvell
      • Netgear
      • Qualcomm
      • Quantenna (acquired by On Semiconductor in 2019)
      • Redpine Signals
    • 3.3.9. MIMO and 802.11ac Standard
      • 3.3.9.1. Comparison
  • 3.4. 802.11ay and MIMO Technology
    • 3.4.1. Timetable
    • 3.4.2. Scope
    • 3.4.3. Need
    • 3.4.4. Usage Cases (Examples)
    • 3.4.5. Expected Characteristics
    • 3.4.6. MIMO - Preliminary View

4.0. MIMO in Wireline Communications

  • 4.1. HomePNA and ITU MIMO-based Technologies
    • 4.1.1. HomeGrid Forum
      • 4.1.1.1. Specifications
        • 4.1.1.1.1. Background
        • 4.1.1.1.2. HomePNA Specification 3.1: Major Features
        • 4.1.1.1.3. Fast EoC HomePNA
      • 4.1.1.2. Major Benefits
    • 4.1.2. ITU G.hn
      • 4.1.2.1. General
      • 4.1.2.2. G.hn Details
        • 4.1.2.2.1. Differences
        • 4.1.2.2.2. Common Features
      • 4.1.2.3. Acceptance
      • 4.1.2.4. HomePNA and G.hn Documents
      • 4.1.2.5. G.hn-mimo - G.9963
        • 4.1.2.5.1. Drivers
        • 4.1.2.5.2. G.9963 Details
          • 4.1.2.5.2.1. General
          • 4.1.2.5.2.2. Wireline Specifics - G.hn-mimo
          • 4.1.2.5.2.3. Scope
          • 4.1.2.5.2.4. Performance
      • 4.1.2.6. Industry
        • Comtrend
        • Cambridge Industries Group (CIG)
        • Marvell
        • MaxLinear/devolo
        • ST&T
        • Xingtera
  • 4.2. HomePlugAV2-mimo
    • 4.2.1. General
      • 4.2.1.1. Certification
    • 4.2.2. Major Improvements
    • 4.2.3. Specification Details
      • 4.2.3.1. MIMO Mechanism
    • 4.2.4. Industry
      • Aztech
      • Broadcom
      • D-Link
      • Extollo
      • Gigafast Ethernet
      • Intersil (acquired by Renesas in 2017)
      • Lea Networks
      • Sineoji
      • Trendnet
      • TP-Link
      • Qualcomm Atheros
      • Zyxel

5.0. Conclusions

Attachment I: Patents Survey LTE - MIMO (2018-2020)

Attachment II: Patents Survey - 802.11ac MIMO (2018-2020)

Attachment III: Patents Survey - 802.11ax MIMO (2018-2020)

Attachment IV: Patents Survey - 802.11ay MIMO (2018-2020)

Attachment V: Patents Survey - G.hn-MIMO (2014-2020)

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