中國智慧門市場（2023年）

隨著汽車越來越智慧化，對智慧門的需求也越來越大。

首先，智慧門功能安裝率快速提升。

截至 2023 年 7 月，APP 控制的門安裝率最高，超過 30%，其次是 DOW，超過 10%。

隱藏式電動門把手和無框車門讓汽車變得更加時尚，採用率正在迅速提高。

電吸門常安裝在售價35萬元以上的中高階車型上，如力L7/L8/L9、蔚來ET5等。但相較於2022年，開始下沉到零跑C11等15萬元左右的車型。

然後，門與感測器整合以實現智慧進入。

車門解鎖方式是數位鑰匙和PEPS利用通訊模組來解鎖汽車。這是目前的主流。但隨著感測器的成熟和生物識別技術的發展，預計攝影機、指紋感應器等將安裝在門把手、B柱、車窗上，無意識解鎖將成為下一代智慧乘車系統。目前生物辨識認證方式主要有手勢認證、人臉認證、指紋認證、指靜脈認證等。

供應商正在努力部署生物辨識認證方法來解鎖門。

整合門控的趨勢是顯而易見的。

車身域控制器呈現 E/E 架構演進的兩大趨勢。

首先，在原有BCM的基礎上整合了更多的功能。功能的分散組合正朝著所有車身電子設備、關鍵功能、基本驅動器（如燈、門和窗）的整合方向發展。

其次，車身域預計將在跨域融合階段與座艙、域、底盤域進行整合，以實現更廣泛的集中控制和功能協作。

網域控制器架構允許 OEM 將門與攝影機、雷達、環境照明等連接起來，以創建智慧進出體驗。

本報告針對中國智能門市場進行調查，分析其特性、市場現況及研發趨勢。

目錄

第一章 智慧門市場概況

• 門系統概述
• 智慧門介紹
• 智慧門關鍵零件
• 門造型設計
• 智慧門特點
• 智慧門產業鏈
• 智慧門市場規模
• 智慧門競爭格局
• 領先智慧門廠商功能對比
• 都柏林城市大學
• 門結構

第二章 智慧門禁法

• 智慧門禁方式概述
• APP控制門
• 數位鑰匙訪問
• 手勢識別訪問
• 臉部辨識訪問
• 語音訪問
• 指紋識別訪問
• 指靜脈識別接入
• 觸摸訪問
• 密碼鎖定訪問

第三章 智慧門細分市場

• 電吸門
  • 電吸門系統結構
  • 電吸門安裝數量及安裝率
  • 電吸門市場規模
  • 自動門數量及安裝率
  • 自動門市場規模
• 無框門
  • 發展歷程
  • 安裝數量和安裝率
  • 問題及解決方案
  • 密封系統結構範例
• 隱藏式電動門把手
  • 優勢
  • 系統結構
  • 安裝數量和安裝率
  • 市場規模
• 個人健康服務中心
  • PEPS系統簡介
  • 安裝數量和安裝率
  • 細分：按主要品牌和型號
  • 細分：按價格範圍
  • 市場規模
  • 世界供應商
  • 中國供應商
• 無B柱自殺門
  • 無B柱自殺門車型範例
  • 無B柱自殺門的安全性
• 電動尾門
  • 系統結構
  • 安裝數量和安裝率
  • 驅動系統
  • 強調
  • 感應開路
  • 位置記憶
  • 市場規模
  • 競爭格局
• 電動側滑門
  • 安裝數量和安裝率
  • 市場規模

第四章 輕量化智慧門及密封條市場

• 輕質門
  • 技術
  • 解決方案
  • 供應商解決方案
• 車門密封條
  • 分類
  • 無框密封條
  • 市場規模
  • 工業科學
  • 競爭格局
  • 主要供應商

第五章 OEM智能門應用

• OEM佈局智慧存取方式
• OEM智能門特點
• Tesla Model X電動門
• Jaguar Land Rover的手勢感應開門系統
• Genesis GV60 臉部辨識無鑰匙解鎖系統
• HiPhi智能門系統
• HiPhi X全電動NT翼門系統
• Hongqi鏡門
• ZEEKR的智慧門系統
• ZEEKR X智慧感應自動門及B柱臉部辨識系統
• Lexus e-Latch 智慧電子門
• BMW智能門

第六章 智慧門系統供應商

• Brose
• Magna
• Edscha
• Continental
• Aisin
• Hyundai Mobis
• DJTECH
• Minth Group
• Yanfeng
• Bethel Automotive Safety Systems
• HI-LEX
• Tuopu Group
• Changzhou Kaicheng
• Kiekert AG
• 其他供應商

第七章 智能門概述及發展趨勢

• 裝載率
• 市場規模
• 感測器集成
• 功能集成
• DCU集成
• 車身域控制和車門集成
• 門控軟體
• 輕的
• 門結構

China Intelligent Door Market Research Report, 2023 released by ResearchInChina analyzes and studies the features, market status, OEMs' layout, suppliers' layout, and development trends of intelligent doors in China.

In addition to components of conventional doors, intelligent doors add other components like door control unit, driver and sensor to enable intelligent functions such as intelligent unlocking, automatic door opening/closing, environmental perception, hovering on the slope, and even interaction and combination with other components. As vehicle intelligence develops, the demand for intelligent doors is increasing.

First, the installation rate of intelligent door functions has surged.

In terms of marketization degree, the intelligent door functions that have found wide application in vehicles include APP-controlled doors, door open warning (DOW), hidden electric door handles, frameless doors, electric suction doors, automatic door opening and closing, etc.

APP-controlled doors boast the highest installation rate, higher than 30% as of July 2023, followed by DOW with over 10%.

Hidden electric door handles and frameless doors make vehicles more stylish, with fast-growing installation rates.

Electric suction doors are largely mounted on mid-to-high-end models priced over RMB350,000, like Li L7/L8/L9 and NIO ET5. However, compared with 2022, they have begun to sink to models worth around RMB150,000, such as Leapmotor C11.

Still as a luxury configuration, automatic suction doors are available to fewer than 10 models valued at more than RMB300,000, including HiPhi Z, ZEEKR 001, Xpeng P7 and IM L7.

Second, doors are integrated with sensors to create intelligent entry modes.

In terms of door opening mode, digital keys and PEPS leverage communication modules to unlock vehicles. This is the mainstream entry mode at present. However, as sensors mature and biometric technology develops, installing cameras, fingerprint sensors, etc. on door handles, B-pillars or windows for unconscious unlock is expected to become the next-generation intelligent entry mode. At this stage, biometric recognition modes which are available to models to open doors mainly include gesture recognition, face recognition, fingerprint recognition, and finger vein recognition.

Suppliers are working to deploy biometric recognition modes for door opening.

ArcSoft's 3D ToF gesture interaction solution offers detection depth information and enables face recognition for anti-counterfeiting, guaranteeing IVI login or door unlock.

Cerence has introduced Cerence Exterior Vehicle Communication, a new suite of AI and voice-powered innovations that enables drivers to interact with their cars from the outside. The system accurately recognizes voiceprint and content by voice to complete tasks such as unlocking the door, opening the trunk and turning on the light.

SenseTime's SenseAuto Cabin-K is a complete "controller+module+trigger device+software" integrated solution based on high-precision face recognition, in-vivo detection and other recognition technologies. Combined with 3D modules and various human-computer interactions, it enables unconscious unlock by face. It meets payment-level security requirements, allowing cloud or local managers to intelligently manage vehicles.

Third, the trend for integrated door control is clear.

Amid the evolution of E/E architecture, body domain controllers present two major trends:

First, more functions are integrated on the basis of the original BCM. The decentralized function combination is transitioning to the integration of basic drives of all body electronics, key functions, lights, doors, windows, etc.

Second, the body domain is expected to be integrated with cockpit, domain and chassis domains in the cross-domain integration stage to accomplish a wider range of centralized control and functional linkage.

With domain controller architecture, OEMs can connect doors with cameras, radars, ambient lights, etc. to create intelligent entry and exit experience.

For example, HiPhi has developed the H-SOA (Hip Hi Service Oriented Architecture), consisting of six computing platforms to manage the vehicle: the infotainment domain computing platform (IDCM), the autonomous driving domain computing platform (ADCM), the power and chassis domain computing platform (VDCM), the body domain computing platform (BDCM), the central gateway (CGW) and the communication computing platform (V-Box). Based on the H-SOA, the intelligent door system built by HiPhi is equipped with 6 electric NT doors, 6 motors, 4 position sensors, 12 ultrasonic sensors, 6 anti-collision and anti-pinch sensors, a rainfall sensor, and a body control computing platform to support multiple automatic entry modes (such as face recognition, mobile phone ID and intelligent key) and light interaction, creating intelligent access experience in different scenarios.

From the perspective of suppliers, door control units are heading in the direction of hardware centralization and software virtualization.

For instance, the next-generation door system electronic control unit developed by Brose integrates all door functions from window regulators and automatic door opening/closing to collision detection. Users only need to make a simple gesture, and then the side door will open and close automatically. A radar sensor scans the surrounding environment in real time to prevent collisions. During driving, the in-car screen displays the data from the outside cameras in real time. Moreover the speaker control function can not only actively reduce noise, but also improve the sound quality of the vehicle entertainment system, thereby providing passengers with comfortable travel experience.

Brose will mass-produce its next-generation door system electronic control unit in 2025. A high-bandwidth wire harness is connected to the central controller, which can reduce more than 30 wire harnesses for corresponding doors, significantly saving space and cost, and solving problems about multi-sensor data processing and fusion, as well as low-latency and high-rate transmission of image data.

In terms of software, Brose's BRAIN software system is a solution based on domain controllers. BRAIN integrates Brose's PWM control, anti-pinch and other access systems and related control algorithms. Based on SOA-oriented modular development, this software system can be integrated into the electronic architectures of various models and major automakers' systems.

BRAIN provides users with an easy-to-use graphical operation interface, that is, Composer. Besides more than 70 application scenarios defined by Brose, OEMs, third parties and even end users can customize and personalize the scenes through Composer. So far, the design of BRAIN has been initially completed, and the sample has been installed and demonstrated to the public. Related business negotiations are being held with quite a few Chinese and foreign OEMs.

Table of Contents

1 Overview of Intelligent Door Market

• 1.1 Overview of Door System
• 1.2 Introduction to Intelligent Doors
• 1.3 Important Components of Intelligent Doors
• 1.4 Door Styling Design
• 1.5 Highlight Functions of Intelligent Doors
  • 1.5.1 DOW
  • 1.5.2 Door Hovering
  • 1.5.3 Intelligent Surface Control
  • 1.5.4 Intelligent Interconnection
  • 1.5.5 Door Function Integration
  • 1.5.6 Adaptive Doors
• 1.6 Intelligent Door Industry Chain
• 1.7 Intelligent Door Market Size
• 1.8 Intelligent Door Competitive Landscape
• 1.9 Function Comparison between Major Intelligent Door Vendors
• 1.10 DCU
• 1.11 Door Structure
  • 1.11.1 Door Structural Features in China
  • 1.11.2 Pan-Asian Door Structure Strategy
  • 1.11.3 Next-generation APH Door Cost in Pan Asia

2 Intelligent Door Access Modes

• 2.1 Overview of Intelligent Door Access Modes
• 2.2 APP-controlled Doors
• 2.3 Digital Key Access
  • 2.3.1 Digital Key Market Size
  • 2.3.2 Digital Key Application Scenarios
• 2.4 Gesture Recognition Access
  • 2.4.1 Cases of Models Using Gesture Recognition to Open Doors
  • 2.4.2 Gesture Recognition Access Solutions of Suppliers
  • 2.4.3 Gesture-controlled Door Patents of OEMs
  • 2.4.4 Gesture-controlled Door Patents of Suppliers
• 2.5 Face Recognition Access
  • 2.5.1 Face Recognition Access Solutions of OEMs
  • 2.5.2 Face Recognition Access Solutions of Suppliers
  • 2.5.3 Face Recognition Access System Patents
• 2.6 Voice Access
  • 2.6.1 Cases of OEMs Using Voice to Open Doors
  • 2.6.2 Voice Access System Patents
• 2.7 Fingerprint Recognition Access
• 2.8 Finger Vein Recognition Access
• 2.9 Touch Access
• 2.10 Password Lock Access

3 Intelligent Door Market Segments

• 3.1 Electric Suction Doors
  • 3.1.1 Electric Suction Door System Structure
  • 3.1.2 Installations and Installation Rate of Electric Suction Doors
  • 3.1.3 Electric Suction Door Market Size
  • 3.1.4 Installations and Installation Rate of Automatic Doors
  • 3.1.5 Automatic Door Market Size
• 3.2 Frameless Doors
  • 3.2.1 Development History
  • 3.2.2 Installations and Installation Rate
  • 3.2.3 Problems and Solutions
  • 3.2.4 Sealing System Structure Cases
• 3.3 Hidden Electric Door Handles
  • 3.3.1 Advantages
  • 3.3.2 System Structure
  • 3.3.3 Installations and Installation Rate
  • 3.3.4 Market Size
• 3.4 PEPS
  • 3.4.1 Introduction to PEPS System
  • 3.4.2 Installations and Installation Rate
  • 3.4.3 Breakdown by Major Brands and Models
  • 3.4.4 Breakdown by Price Range
  • 3.4.5 Market Size
  • 3.4.6 Global Suppliers
  • 3.4.7 Chinese Suppliers
• 3.5 Suicide Doors without B-pillar
  • 3.5.1 Cases of Models with Suicide Doors without B-pillar
  • 3.5.2 Safety of Suicide Doors without B-pillar
• 3.6 Electric Tailgates
  • 3.6.1 System Structure
  • 3.6.2 Installations and Installation Rate
  • 3.6.3 Drive Modes
  • 3.6.4 Highlights
  • 3.6.5 Inductive Opening
  • 3.6.6 Position Memory
  • 3.6.7 Market Size
  • 3.6.8 Competitive Landscape
• 3.7 Electric Side Sliding Doors
  • 3.7.1 Installations and Installation Rate
  • 3.7.2 Market Size

4 Lightweight Intelligent Door and Sealing Strip Market

• 4.1 Lightweight Doors
  • 4.1.1 Technology
  • 4.1.2 Solutions
  • 4.1.3 Solutions of Suppliers
• 4.2 Door Sealing Strip
  • 4.2.1 Classification
  • 4.2.2 Frameless Sealing Strip
  • 4.2.3 Market Size
  • 4.2.4 Production Technology
  • 4.2.5 Competitive Landscape
  • 4.2.6 Main Suppliers

5 Intelligent Door Application of OEMs

• 5.1 OEMs' Layout in Intelligent Access Modes
• 5.2 Features of OEMs' Intelligent Doors
• 5.3 Electric Doors of Tesla Model X
• 5.4 Jaguar Land Rover's Gesture-sensitive Door Opening System
• 5.5 Genesis GV60 Keyless Unlocking System with Face Recognition
• 5.6 HiPhi's Intelligent Door System
• 5.7 Fully Electric NT Wing Door System of HiPhi X
• 5.8 Mirrored Doors of Hongqi
• 5.9 ZEEKR's Intelligent Door System
• 5.10 Intelligent Inductive Automatic Door and B-pillar Face Recognition System of ZEEKR X
• 5.11 e-Latch Intelligent Electronic Door of Lexus
• 5.12 BMW's Intelligent Doors

6 Intelligent Door System Suppliers

• 6.1 Brose
  • 6.1.1 Profile
  • 6.1.2 Customers
  • 6.1.3 Business Planning: Increase the Proportion of Business in China
  • 6.1.4 Door and Tailgate System
  • 6.1.5 Electric Side Door Drive System
  • 6.1.6 Electric Auto Doors
  • 6.1.7 BRAIN Software System
  • 6.1.8 Models Supported by Door Products
• 6.2 Magna
  • 6.2.1 Profile
  • 6.2.2 SmartAccess Power Door System
  • 6.2.3 Creative Door Cases
  • 6.2.4 Models Supported by Door Products
• 6.3 Edscha
  • 6.3.1 Profile
  • 6.3.2 Electric Door System
  • 6.3.3 Intelligent Cockpit Layout Dynamics
  • 6.3.4 Models Supported by Door Products
• 6.4 Continental
  • 6.4.1 Profile
  • 6.4.2 Intelligent Door Solutions
  • 6.4.3 Electric Door Controllers and Door Controllers
  • 6.4.4 Models Supported by Door Products
• 6.5 Aisin
  • 6.5.1 Profile
  • 6.5.2 Operation
  • 6.5.3 Development History
  • 6.5.4 Automotive Parts
  • 6.5.5 Door Products
  • 6.5.6 Models Supported by Door Products
• 6.6 Hyundai Mobis
  • 6.6.1 Profile
  • 6.6.2 Global Layout
  • 6.6.3 Face Recognition Access System
• 6.7 DJTECH
  • 6.7.1 Profile
  • 6.7.2 Intelligent Cockpit Control System R&D Layout
  • 6.7.3 Intelligent Door Layout
  • 6.7.4 Electric Door Layout
  • 6.7.5 Performance in Intelligent Cockpit Control System
  • 6.7.6 "One Body and Two Wings" Development Strategy
  • 6.7.7 Intelligent Electromechanical System Layout
  • 6.7.8 Intelligent Electric Doors
  • 6.7.9 Customers
• 6.8 Minth Group
  • 6.8.1 Profile
  • 6.8.2 Product Layout
  • 6.8.3 Intelligent Exterior System
  • 6.8.4 Intelligent Side Door System
  • 6.8.5 Meet Minst® Intelligent Tailgate Solution
  • 6.8.6 Intelligent Surface Business
• 6.9 Yanfeng
  • 6.9.1 Profile
  • 6.9.2 Lightweight Intelligent Side Door Technology
• 6.10 Bethel Automotive Safety Systems
  • 6.10.1 Profile
  • 6.10.2 Electric Tailgate System
• 6.11 HI-LEX
  • 6.11.1 Profile
  • 6.11.2 Intelligent Tailgate ECU
• 6.12 Tuopu Group
  • 6.12.1 Profile
  • 6.12.2 Product Cost
  • 6.12.3 Intelligent Side Door System
  • 6.12.4 Electric Side Door Actuator Patent
  • 6.12.5 Features of Intelligent Side Door System
• 6.13 Changzhou Kaicheng
  • 6.13.1 Profile
  • 6.13.2 Performance
  • 6.13.3 Electric Tailgate Products
  • 6.13.4 Application Cases of Electric Tailgate Controllers
• 6.14 Kiekert AG
  • 6.14.1 Profile
  • 6.14.2 Intelligent Door Products
  • 6.14.3 Models Supported by Door Products
• 6.15 Other Suppliers
  • 6.15.1 Electric Door Motors of Ningbo Hengshuai
  • 6.15.2 Antolin
  • 6.15.3 Ziezone Auto Parts

7 Summary and Development Trends of Intelligent Doors

• 7.1 Installation Rate
• 7.2 Market Size
• 7.3 Sensor Integration
• 7.4 Function Integration
• 7.5 DCU Integration
• 7.6 Body Domain Control and Door Integration
• 7.7 Door Control Software
• 7.8 Lightweight
• 7.9 Door Structure