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表紙:車載ディスプレイの世界市場:2024年~2034年
市場調査レポート
商品コード
1344577

車載ディスプレイの世界市場:2024年~2034年

The Global Market for Automotive Displays 2024-2034
出版日: | 発行: Future Markets, Inc. | ページ情報: 英文 290 Pages, 75 Tables, 141 Figures | 納期: 即納可能 即納可能とは

価格
価格表記: GBPを日本円(税抜)に換算
本日の銀行送金レート: 1GBP=198.76円
車載ディスプレイの世界市場:2024年~2034年
出版日: 2023年11月14日
発行: Future Markets, Inc.
ページ情報: 英文 290 Pages, 75 Tables, 141 Figures
納期: 即納可能 即納可能とは
  • 全表示
  • 概要
  • 図表
  • 目次
概要

現代の自動車において、車載ディスプレイ技術の重要性はますます高まっています。車載ディスプレイは、 ドライバーと車両とのインタラクションのための重要なインターフェースであり、エンターテインメント目的にも使用されます。車載ディスプレイメーカーは近年、受注量が大幅に増加しており、特に電気自動車(EV)や自律走行の台頭により、車載ディスプレイは電子技術の進歩に伴い、スクリーン画像の表示だけでなく、より広範な役割を果たすことが期待されています。

主な市場分野には、インフォテインメントシステム、インストルメントクラスター、ヘッドアップディスプレイ、ADAS、自律走行、スマートミラー、ミニLED、マイクロLEDなどが含まれます。

当レポートでは、世界の車載ディスプレイ市場について調査し、市場の概要とともに、市場実績と2034年までの予測、ディスプレイタイプ別、ディスプレイ用途別の動向、および市場に参入する企業のプロファイルなどを提供しています。

目次

第1章 調査手法

第2章 イントロダクション

  • 車載ディスプレイの進化
  • 市場動向
  • 主なディスプレイの種類
  • 車載用ディスプレイ技術
    • LCD(液晶ディスプレイ)
    • OLED(有機発光ダイオード)
    • TFT-LCD(薄膜トランジスタLCD)
    • 薄膜エレクトロルミネセンス(TFEL)ディスプレイ
    • ヘッドアップディスプレイ(HUD)
    • 3Dディスプレイ
    • コンピュータ生成ホログラフィー(CGH)
    • ライトフィールドディスプレイ(LFD)
    • 空間光変調器
    • フレキシブルディスプレイ
    • 透明なディスプレイ
    • 曲面ディスプレイ

第3章 世界市場の収益

  • ディスプレイタイプ別
  • ディスプレイ用途別

第4章 インフォテインメントシステム

  • 概要
  • IVIシステム用のディスプレイ技術
  • 市場の見通し

第5章 インスツルメントクラスターディスプレイ

  • 概要
  • 利点
  • インスツルメントクラスターディスプレイ技術
  • 市場の見通し

第6章 ヘッドアップディスプレイ(HUD)

  • 概要
  • 動向
  • 自動車におけるHUDディスプレイ技術
  • HUDのコンテンツと機能
  • HUDを搭載した車載モデル
  • 高度なHUD
  • 市場の見通し
  • 企業

第7章 フレキシブルおよび曲面ディスプレイ

  • 技術
  • 自動車分野での応用
  • 市場の課題
  • 市場の見通し
  • 企業

第8章 ADASと自動運転ディスプレイ

  • ADASセンサー
  • ディスプレイ技術
  • 市場の見通し
  • 企業

第9章 スマートミラーとピラーディスプレイ

  • 主要な動向
  • スマートミラー技術
  • ピラーマウントディスプレイ
  • 市場の見通し
  • 企業

第10章 3Dディスプレイ

  • 概要
  • 自動運転車の3Dディスプレイ
  • 市場の課題
  • 企業

第11章 透明ディスプレイ

  • 技術概要
  • 自動車用途
  • 市場の課題
  • 企業

第12章 ミニLEDディスプレイ

  • 技術概要
  • 自動車用途
  • 企業

第13章 マイクロLEDディスプレイ

  • 概要
  • 自動車分野での応用
  • 市場の課題
  • 企業

第14章 スマートグラス

  • スマート調光
  • エレクトロクロミックスマートガラス
  • 透明な懸濁粒子デバイス(SPD)ディスプレイ
  • ポリマー分散型液晶(PDLC)フィルム
  • サーモクロミックスマートガラス
  • 市場の課題
  • 企業

第15章 その他のディスプレイ技術

  • 量子ドットディスプレイ
  • 電気泳動ディスプレイ
  • プラズモニックディスプレイ
  • ヘッズアップコンタクトレンズ
  • メタマテリアル

第16章 企業プロファイル(66社の企業プロファイル)

第17章 参考資料

図表

List of Tables

  • Table 1. Automotive display & backlight architectures
  • Table 2. Market trends in automotive displays
  • Table 3. Automotive OEM display strategies by display type
  • Table 4. Comparative analysis of common display technologies used in the automotive industry
  • Table 5. Applications of LCDs in automotive and technology readiness level (TRL)
  • Table 6. OLED solutions in the automotive industry
  • Table 7. Types of OLED technology
  • Table 8. Applications of OLEDs in automotive and technology readiness level (TRL)
  • Table 9. Companies developing OLED display technologies for automotive applications
  • Table 10. Comparison of the key characteristics of TN (twisted nematic), IPS (in-plane switching), and VA (vertical alignment) LCD modes:
  • Table 11. Applications of TFT-LCDs in automotive and technology readiness level (TRL)
  • Table 12. Companies and organizations producing TFT-LCD (thin film transistor liquid crystal display) technology for the automotive industry
  • Table 13. TFELs benefits and drawbacks
  • Table 14. Applications of TFEL in automotive and technology readiness level (TRL)
  • Table 15. Applications of HUDs in automotive and technology readiness level (TRL)
  • Table 16. Applications of 3D displays in automotive and technology readiness level (TRL)
  • Table 17. Computer-generated holography solutions
  • Table 18. Applications of CGHs in automotive and technology readiness level (TRL)
  • Table 19. Companies developing computer-generated holography
  • Table 20. Types of light field displays
  • Table 21. Applications of LFDs in automotive and technology readiness level (TRL)
  • Table 22. Companies developing light field displays (LFDs) for automotive applications
  • Table 23. Classifications of SLMs
  • Table 24. LCOS-SLM assessment features
  • Table 25. LCOS SLM performance factors
  • Table 26. Manufacturing Methods for LCoS
  • Table 27. Applications of SLMs in automotive and technology readiness level (TRL)
  • Table 28. Companies developing SLM for automotive applications
  • Table 29. Applications of flexible displays in automotive and technology readiness level (TRL)
  • Table 30. Applications of transparent displays in automotive and technology readiness level (TRL)
  • Table 31. Applications of curved displays in automotive and technology readiness level (TRL)
  • Table 32. Companies developing curved automotive displays
  • Table 33. Global market revenues by automotive display types 2018-2034 (billions USD)
  • Table 34. Global market revenues by display application 2018-2034 (billions USD)
  • Table 35. Key requirements and considerations for center information displays (CIDs) in automotive dashboards
  • Table 36. Companies developing CID (center information display) technologies for automotive applications, and technology used
  • Table 37. Automotive models with large touchscreen displays
  • Table 38. Common infotainment display technologies and their characteristics:
  • Table 39. Latest trends for dashboard displays
  • Table 40. Display technologies for Instrument clusters
  • Table 41. Markets and applications for Head-up displays (HUDs)
  • Table 42. Commercial automotive HUDs
  • Table 43. HUD vs other display types
  • Table 44. Companies developing AR-HUD technology for automotive applications.i
  • Table 45. Companies developing head-up display (HUD) technologies for the automotive industry, categorized by technology type
  • Table 46. Flexible and Curved Display Applications in Automotive
  • Table 47. Challenges to flexible display adoption in automotive
  • Table 48. Companies developing flexible and curved automotive displays
  • Table 49. Key ADAS sensors in automotive
  • Table 50. Companies developing display technologies for ADAS and autonomous driving
  • Table 51. Companies developing display technologies for smart mirrors and displays in automotive applications
  • Table 52. Approaches for automotive 3D displays
  • Table 53. Approaches for producing 3D displays suitable for automotive applications
  • Table 54. Market challenges in 3D displays in automotive
  • Table 55. Companies developing 3D display technology for automobiles
  • Table 56. Technology approaches for implementing transparent displays in automotive applications
  • Table 57. Challenges to transparent display adoption in automotive
  • Table 58. Companies developing transparent display products
  • Table 59. Comparison between Mini-LED displays and other display types
  • Table 60. Companies developing Mini-LEDs for automotive applications
  • Table 61. Comparison between mini-LED and micro-LED
  • Table 62. Types of Micro-LED
  • Table 63. Micro-LED value propositions compared with LCD, OLED, QD in automotive displays
  • Table 64. Applications of Micro-LEDs in automotive displays
  • Table 65. Micro-LED transparent displays
  • Table 66. Challenges to MICRO-LED display adoption in automotive
  • Table 67. Companies developing Micro-LEDs for automotive applications
  • Table 68. Types of smart glass technologies for automotive
  • Table 69. Types of electrochromic materials and applications
  • Table 70. Challenges to smart glass adoption in automotive
  • Table 71. Companies developing smart glass for automotive applications
  • Table 72. Comparison of types of quantum dots
  • Table 73. Market supply chain for quantum dots in displays
  • Table 74. Advantages and disadvantages of LCDs, OLEDs and QDs
  • Table 75. TCL Mini-LED product range

List of Figures

  • Figure 1. Automotive technology roadmap
  • Figure 2. Evolution of automotive displays
  • Figure 3. LCD dashboard display
  • Figure 4. OLED layer structure
  • Figure 5. LED vs OLED displays
  • Figure 6. Active-matrix OLED (AMOLED) schematic
  • Figure 7. 2022 Mercedes EQE electric car display
  • Figure 8. Passive-matrix OLED schematic
  • Figure 9. LG display transparent OLED
  • Figure 10. Flexible OLED incorporated into automotive headlight
  • Figure 11. Audi 2022 A8
  • Figure 12. TFT-LCD based display component layout
  • Figure 13. Lumineq® TFEL Display
  • Figure 14. Lumineq's ICEBrite
  • Figure 15. Stereoscopic 3D display
  • Figure 16. Holographic GPS system using multi-planar system prompts
  • Figure 17. Ceres thin-film HoloFlekt® film integrated into windshield
  • Figure 18. Basic architecture of a neareye light field display
  • Figure 19. Structure of LCOS devices
  • Figure 20. LG display stretchable display
  • Figure 21. LG Signature OLED TV R
  • Figure 22. Flexible display
  • Figure 23. Samsung FLEX Hybrid foldable display
  • Figure 24. Organic LCD with a 10-mm bend radius
  • Figure 25. Foldable organic light-emitting diode (OLED) panel
  • Figure 26. TCL printed OLED panel
  • Figure 27. Transparent OLED schematic
  • Figure 28. Global market revenues by display types 2018-2034 (billions USD)
  • Figure 29. Global market revenues by display application 2018-2034 (billions USD)
  • Figure 30. In-Vehicle Infortainment (IVI) System
  • Figure 31. Automotive touchscreen display
  • Figure 32. Cadillac Lyriq 33" display
  • Figure 33. Hyundai Overhead, ceiling-mounted 77 inch curved OLED screen
  • Figure 34. Ford Mustang Mach-E 15.5". vertical touchscreen display
  • Figure 35. Mercedes-Benz 56-inch "Hyperscreen" display
  • Figure 36. RAM 1500 12" touchscreen display
  • Figure 37. Tesla Model S 17" touchscreen display
  • Figure 38. Tesla Model 3 15" touchscreen display
  • Figure 39. Curved OLCD display as a side-view mirror replacement
  • Figure 40. Augmented reality navigation
  • Figure 41. LG transparent OLED display window
  • Figure 42. Android Auto split-screen
  • Figure 43. Display-based instrument cluster
  • Figure 44. Projection display HUD
  • Figure 45. Combiner Head-up Display
  • Figure 46. AR HUD display
  • Figure 47: Flexible & stretchable LEDs based on quantum dots
  • Figure 48. AU Optonics Flexible MicroLED Display
  • Figure 49. Schematic of the TALT technique for wafer-level microLED transferring
  • Figure 50. Foldable 4K C SEED M1
  • Figure 51. ADAS sensors in automotive
  • Figure 52. Automotive 3D Display
  • Figure 53. 3D display in Peugeot 208
  • Figure 54. Continental 3D automotive display
  • Figure 55. LG OLED Car Infotainment Demo
  • Figure 56. BOE Side Window Dimming Concept
  • Figure 57. LUMINEQ in-glass displays for CASE
  • Figure 58. Different transparent displays and transmittance limitations
  • Figure 59. 7.56" high transparency & frameless MicroLED display
  • Figure 60. MSI curved quantum dot Mini-LED display
  • Figure 61. Nanolumi Chameleon® G Film in LED/LCD Monitor
  • Figure 62. 2023 Cadillac Lyriq EV incorporating mini-LED display
  • Figure 63. Schematic of LCD with Micro-LED backlight
  • Figure 64. Display system configurations
  • Figure 65. Comparison of Micro-LED with other display technologies
  • Figure 66. Lextar 10.6 inch transparent Micro-LED display
  • Figure 67. Transition to borderless design
  • Figure 68. Micro-LED automotive display
  • Figure 69. 55" flexible AM panel
  • Figure 70. Issues in current commercial automotive HUD
  • Figure 71. Rear lamp utilizing flexible Micro-LEDs
  • Figure 72. BOE Side Window Dimming Concept
  • Figure 73. Typical setup of an electrochromic device (ECD)
  • Figure 74. Electrochromic smart glass schematic
  • Figure 75. "Infinity" electrochromic mirror
  • Figure 76. Rear-view electrochromic mirrors, off (left image) and on (right image) state
  • Figure 77. Argil electrochromic film laminated between automotive glass for sidelite applications
  • Figure 78. SPD smart windows schematic
  • Figure 79. Mercedes "Magic Sky" sunroof
  • Figure 80. BMWi Vision Circular
  • Figure 81. PDLC schematic
  • Figure 82. Thermochromic smart windows schematic
  • Figure 83. Quantum dot schematic
  • Figure 84. Quantum dot size and colour
  • Figure 85. Passive reflective displays with flexibility
  • Figure 86. Plastic Logic 5.4" Iridis™ display
  • Figure 87. Scanning electron microscope (SEM) images of several metalens antenna forms
  • Figure 88. Transparent and flexible metamaterial film developed by Sekishi Chemical
  • Figure 89. Stretchable hologram
  • Figure 90. Design concepts of soft mechanical metamaterials with large negative swelling ratios and tunable stress-strain curves
  • Figure 91. Anti-reflective metamaterials plastic
  • Figure 92. e-Tint® cell in the (a) OFF and in the (b) ON states
  • Figure 93. 1.39-inch full-circle Micro-LED display
  • Figure 94. 9.4" flexible Micro-LED display
  • Figure 95. AUO Micro-LED transparent automotive display
  • Figure 96. AUO Micro LED immersive Cockpit Display
  • Figure 97. BMW in-car gaming on curved display
  • Figure 98. BOE Mini-LED display TV
  • Figure 99. BOE Mini-LED automotive display
  • Figure 100. BOE 27" MiniLED display
  • Figure 101. Brelyon monitor
  • Figure 102. Schematic of TD HUD display in operation
  • Figure 103. Continental's Scenic View Head-up Display (HUD)
  • Figure 104. Driver Identification Display
  • Figure 105. Schematic of Magic Glass
  • Figure 106. Application of Magic Glass in office
  • Figure 107. Installation schematic of Magic Glass
  • Figure 108. Envisics HUD
  • Figure 109. Hyundai Mobis rollable automotive display
  • Figure 110. Innolux curved display
  • Figure 111. Flexible microLED
  • Figure 112. Prototype Micro-LED display
  • Figure 113. LG automotive displays
  • Figure 114. LG Mercedes Hyperscreen
  • Figure 115. LG Display's 55-inch transparent automotive display
  • Figure 116. LG 15.6-inch Light Field 3D display
  • Figure 117. Switchable privacy mode in 'On' position
  • Figure 118. LG Electronics Inc in-car display concepts
  • Figure 119. Lextar 2021 micro LED and mini LED products
  • Figure 120. Marelli cockpit display
  • Figure 121. Peugeot Inception Concept
  • Figure 122. 9.4" flexible Micro-LED display
  • Figure 123. 7.56-inch transparent Micro LED display
  • Figure 124. PixeLED Matrix Modular Micro-LED Display in 132-inch
  • Figure 125. Dashboard - 11.6-inch 24:9 Automotive Micro-LED Display
  • Figure 126. Center Console - 9.38-inch Transparent Micro-LED Display
  • Figure 127. Raontech microdisplays
  • Figure 128. Raythink AR-HUD
  • Figure 129. Samsung Display digital cockpit
  • Figure 130. Wicop technology
  • Figure 131. Synaptics' SmartBridge SB7900
  • Figure 132. TCL Mini-LED TV schematic
  • Figure 133. TCL 8K Mini-LED TV
  • Figure 134. The Cinema Wall Micro-LED display
  • Figure 135. TCL CSOT 47" miniLED automotive display
  • Figure 136. 7.56" Transparent Display
  • Figure 137. 7.56" Flexible Micro-LED
  • Figure 138. 5.04" seamless splicing Micro LED
  • Figure 139. 7.56" Transparent Micro LED
  • Figure 140. Lightscape Panoramic Display
  • Figure 141. Holographic AR automotive display
目次
Product Code: ADIS3

Automotive display technologies are becoming increasingly important in modern vehicles. They are the key interface for the interaction between the driver and the vehicle, and are also used for entertainment purposes. Automotive display manufacturers have seen significant increase in order volumes of late and vehicle-mounted displays are expected to serve a broader role beyond displaying screen images as electronic technology advances, particularly with the rise of electric vehicles (EVs) and autonomous driving.

“The Global Market for Automotive Displays 2024-2034” covers the latest display technologies for automotive applications including LCD, OLED, TFT-LCD, TFEL, HUD, 3D, CGH, LFD, SLM, flexible, transparent, curved, quantum dot, electrophoretic, electrochromic, plasmonic displays, smart glass, and metamaterials.

Key market areas covered include infotainment systems, instrument clusters, head-up displays, ADAS, autonomous driving, smart mirrors, mini-LEDs, and micro-LEDs. The trends, benefits, limitations, and companies developing each display type are examined.

Contents include:

  • Market trends, drivers and challenges.
  • In-depth analysis and market outlook of display technologies for Automotive including:
    • LCD (Liquid Crystal Display).
    • OLED (Organic Light Emitting Diode).
    • TFT-LCD (Thin Film Transistor LCD).
    • Thin-film electroluminescent (TFEL) displays.
    • Head-Up Displays (HUDs).
    • 3D displays.
    • Computer-Generated Holography (CGH).
    • Light Field Displays (LFD).
    • Spatial Light Modulators (SLM).
    • Flexible displays.
    • Transparent displays.
    • Curved displays.
    • Infotainment systems.
    • Display Technologies for IVI Systems.
    • Cluster displays.
    • ADAS and autonomous driving displays.
    • Smart mirrors and pillar displays.
    • Smart glass.
    • Mini-LED displays.
    • Micro-LED displays.
    • Quantum dot displays.
    • Electrophoretic displays.
    • Electrochromic displays.
    • Plasmonic displays.
    • Heads-up contact lens.
    • Metamaterials.
  • Global market revenues 2018-2034, by display type and technology. Regional analysis also provided.
  • Profiles of 66 companies. Companies profiled include Continental, Envisics, Hyundai Mobis, LG Display, Samsung Display, TCL, Visteon and WayRay AG.

TABLE OF CONTENTS

1. RESEARCH METHODOLOGY

2. INTRODUCTION

  • 2.1. Evolution of automotive displays
  • 2.2. Market trends
  • 2.3. Main types of displays
  • 2.4. Display technologies for Automotive
    • 2.4.1. LCD (Liquid Crystal Display)
      • 2.4.1.1. Technology description
      • 2.4.1.2. Advantages
      • 2.4.1.3. Automotive applications
    • 2.4.2. OLED (Organic Light Emitting Diode)
      • 2.4.2.1. Technology description
      • 2.4.2.2. Types of OLED technology
        • 2.4.2.2.1. Active-matrix OLEDs (AMOLED)
        • 2.4.2.2.2. Passive-matrix OLEDs (PMOLEDs)
        • 2.4.2.2.3. Transparent OLEDs (TOLEDs)
        • 2.4.2.2.4. Foldable/flexible OLED
        • 2.4.2.2.5. Tandem OLEDs
      • 2.4.2.3. Automotive applications
      • 2.4.2.4. Companies
    • 2.4.3. TFT-LCD (Thin Film Transistor LCD)
      • 2.4.3.1. Technology description
      • 2.4.3.2. Advantages
      • 2.4.3.3. TFT-LCD Backlight Technologies
      • 2.4.3.4. Diffusers
      • 2.4.3.5. Automotive applications
      • 2.4.3.6. Companies
    • 2.4.4. Thin-film electroluminescent (TFEL) displays
      • 2.4.4.1. Technology description
      • 2.4.4.2. Automotive applications
      • 2.4.4.3. Commercialization
    • 2.4.5. Head-Up Displays (HUDs)
      • 2.4.5.1. Technology description
      • 2.4.5.2. Automotive applications
    • 2.4.6. 3D displays
      • 2.4.6.1. Technology description
      • 2.4.6.2. Automotive applications
    • 2.4.7. Computer-Generated Holography (CGH)
      • 2.4.7.1. Technology description
      • 2.4.7.2. Advantages
      • 2.4.7.3. Full 3D displays
      • 2.4.7.4. Next-gen heads-up displays (HUDs)
      • 2.4.7.5. Automotive applications
      • 2.4.7.6. Companies
    • 2.4.8. Light Field Displays (LFDs)
      • 2.4.8.1. Technology description
      • 2.4.8.2. Spatial light field displays
      • 2.4.8.3. Sequential light field displays
      • 2.4.8.4. Automotive applications
      • 2.4.8.5. Companies
    • 2.4.9. Spatial Light Modulators
      • 2.4.9.1. Technology description
      • 2.4.9.2. Liquid crystal (LC) spatial light modulators (SLMs)
        • 2.4.9.2.1. Fabricating LCOS SLMs
      • 2.4.9.3. Transmissive LC panels
      • 2.4.9.4. Optically addressed SLM
      • 2.4.9.5. Digital micromirror device (DMD) spatial light modulators (SLMs)
      • 2.4.9.6. Automotive applications
      • 2.4.9.7. Companies
    • 2.4.10. Flexible displays
      • 2.4.10.1. Technology description
        • 2.4.10.1.1. Organic LCDs
        • 2.4.10.1.2. Organic light-emitting diodes (OLEDs)
        • 2.4.10.1.3. Inorganic LEDs
        • 2.4.10.1.4. Flexible AMOLED
        • 2.4.10.1.5. Printed OLED
      • 2.4.10.2. Automotive applications
    • 2.4.11. Transparent displays
      • 2.4.11.1. Overview
      • 2.4.11.2. Automotive applications
    • 2.4.12. Curved displays
      • 2.4.12.1. Overview
      • 2.4.12.2. Automotive applications
      • 2.4.12.3. Companies

3. GLOBAL MARKET REVENUES

  • 3.1. By display type
  • 3.2. By display application

4. INFOTAINMENT SYSTEMS

  • 4.1. Overview
    • 4.1.1. Trends
    • 4.1.2. Interior displays
    • 4.1.3. Center information displays (CIDs)
      • 4.1.3.1. Companies
    • 4.1.4. Touchscreens
    • 4.1.5. Large screens
    • 4.1.6. Enhanced safety with in-vehicle displays
  • 4.2. Display Technologies for IVI Systems
    • 4.2.1. Human Machine Interface Design
    • 4.2.2. Augmented reality navigation
    • 4.2.3. Gesture and gaze tracking for touchless control
    • 4.2.4. Biometric sensors
    • 4.2.5. Transparent OLED windows
    • 4.2.6. Customized screens
    • 4.2.7. Dual screen layouts
    • 4.2.8. Ambient lighting integration
  • 4.3. Market outlook

5. INSTRUMENT CLUSTER DISPLAYS

  • 5.1. Overview
    • 5.1.1. Trends
    • 5.1.2. Key factors driving adoption
  • 5.2. Benefits
  • 5.3. Display Technologies for Instrument Clusters
    • 5.3.1. Configurable Clusters
    • 5.3.2. Full LCD Clusters
    • 5.3.3. Augmented Reality Clusters
    • 5.3.4. Holographic Clusters
  • 5.4. Market outlook

6. HEAD-UP DISPLAYS (HUD)

  • 6.1. Overview
  • 6.2. Trends
  • 6.3. HUD Display Technologies in automotive
    • 6.3.1. Projection displays
    • 6.3.2. Combiner HUD
    • 6.3.3. AR-HUDs
  • 6.4. HUD Content and Features
  • 6.5. Automotive models incorporating HUDs
  • 6.6. Advanced HUDs
    • 6.6.1. Panoramic HUD
    • 6.6.2. Holographic 3D displays
    • 6.6.3. Adaptive displays
    • 6.6.4. Conformal HU
  • 6.7. Market Outlook
  • 6.8. Companies

7. FLEXIBLE AND CURVED DISPLAYS

  • 7.1. Technologies
  • 7.2. Applications in automotive
  • 7.3. Market challenges
  • 7.4. Market outlook
  • 7.5. Companies

8. ADAS AND AUTONOMOUS DRIVING DISPLAYS

  • 8.1. ADAS sensors
  • 8.2. Display technologies
    • 8.2.1. Touchless/gesture human-machine interfaces (HMI)
    • 8.2.2. Transparent displays
    • 8.2.3. 3D displays
    • 8.2.4. Flexible displays
    • 8.2.5. AR/VR integration
  • 8.3. Market outlook
  • 8.4. Companies

9. SMART MIRRORS AND PILLAR DISPLAYS

  • 9.1. Key trends
  • 9.2. Smart Mirror Technologies
    • 9.2.1. Digital side mirrors
    • 9.2.2. E-mirror
    • 9.2.3. Smart rearview mirror
    • 9.2.4. Key benefits of smart mirrors
  • 9.3. Pillar-Mounted Displays
    • 9.3.1. Types
    • 9.3.2. Benefits
  • 9.4. Market Outlook
  • 9.5. Companies

10. 3D DISPLAYS

  • 10.1. Overview
  • 10.2. 3D displays in autonomous vehicles
    • 10.2.1. Multiview 3D displays
      • 10.2.1.1. Description
      • 10.2.1.2. Approaches
      • 10.2.1.3. Integral imaging technologies
    • 10.2.2. Spatial LFDs
    • 10.2.3. Computer-generated holography (CGH) displays
  • 10.3. Market challenges
  • 10.4. Companies

11. TRANSPARENT DISPLAYS

  • 11.1. Technology overview
  • 11.2. Automotive applications
    • 11.2.1. Side windows
    • 11.2.2. Smart windows
    • 11.2.3. Micro-LEDS
    • 11.2.4. HUD enhancement
    • 11.2.5. Privacy partitions
  • 11.3. Market challenges
  • 11.4. Companies

12. MINI-LED DISPLAYS

  • 12.1. Technology overview
    • 12.1.1. Quantum dot films for Mini-LED displays
    • 12.1.2. Perovskite colour enhancement film in Mini-LEDs
  • 12.2. Automotive applications
    • 12.2.1. Dashboard Displays
    • 12.2.2. Head-Up Displays (HUDs)
    • 12.2.3. Digital Instrument Clusters
    • 12.2.4. Ambient Lighting
    • 12.2.5. Exterior Lighting
  • 12.3. Companies

13. MICRO-LED DISPLAYS

  • 13.1. Overview
    • 13.1.1. Display configurations
    • 13.1.2. Transparency
    • 13.1.3. Borderless
    • 13.1.4. Flexibility
  • 13.2. Applications in automotive
    • 13.2.1. Flexible Displays
    • 13.2.2. Transparent Displays
    • 13.2.3. Splicing displays
    • 13.2.4. Signalling & communication
    • 13.2.5. Head-up display (HUD)
    • 13.2.6. Lighting (Automotive matrix headlamps, intelligent lighting)
  • 13.3. Market challenges
  • 13.4. Companies

14. SMART GLASS

  • 14.1. Smart dimming
  • 14.2. Electrochromic smart glass
    • 14.2.1. Inorganic metal oxides
    • 14.2.2. Organic EC materials
    • 14.2.3. Nanomaterials
    • 14.2.4. Benefits
    • 14.2.5. Shortcomings
    • 14.2.6. Automotive applications
  • 14.3. Transparent suspended particle device (SPD) displays
    • 14.3.1. Automotive applications
  • 14.4. Polymer dispersed liquid crystal (PDLC) films
    • 14.4.1. Automotive applications
  • 14.5. Thermochromic smart glass
    • 14.5.1. Technology description
    • 14.5.2. Benefits
    • 14.5.3. Shortcomings
    • 14.5.4. Automotive applications
  • 14.6. Market challenges
  • 14.7. Companies

15. OTHER DISPLAY TECHNOLOGIES

  • 15.1. Quantum dot displays
    • 15.1.1. Overview
      • 15.1.1.1. Mode of operation
      • 15.1.1.2. Types of quantum dots
    • 15.1.2. Automotive applications
  • 15.2. Electrophoretic displays
    • 15.2.1. Overview
    • 15.2.2. Automotive applications
  • 15.3. Plasmonic displays
    • 15.3.1. Overview
    • 15.3.2. Automotive applications
  • 15.4. Heads-up contact lens
    • 15.4.1. Overview
    • 15.4.2. Automotive applications
  • 15.5. Metamaterials
    • 15.5.1. Overview
      • 15.5.1.1. Metasurfaces
      • 15.5.1.2. Meta-Lens
      • 15.5.1.3. Metasurface holograms
      • 15.5.1.4. Flexible metasurfaces
    • 15.5.2. Automotive applications
      • 15.5.2.1. Holographic displays
      • 15.5.2.2. AR/VR
      • 15.5.2.3. Multiview displays
      • 15.5.2.4. Stretchable displays
      • 15.5.2.5. Soft materials
      • 15.5.2.6. Anti-reflection coatings

16. COMPANY PROFILES (66 company profiles)

17. REFERENCES