Table of Content

1 Automated Parking Concepts and Technologies
1.1 Concepts and Definition
1.1.1 Concepts and Classification
1.1.2 Representative Vehicle Models and Existing Problems
1.1.3 Five-stage Automated Parking Defined by Bosch
1.1.4 Automated Parking Rating Defined by ResearchInChina
1.2 Composition and Technologies of Automatic Parking System
1.2.1 Composition
1.2.2 Fundamental Principles
1.2.3 Automated Parking System Configuration of Typical Foreign Vehicle Models
1.2.4 Key Technologies
1.3 Development Trends
1.3.1 General Trends
1.3.2 More and More Enterprises Develop AVP Systems


2 Automated Parking Market
2.1 Proportion and Quarterly Sales Share of New APA-enabled Vehicle Models (2017Q1-2018Q4)
2.2 Classification and Quarterly Sales Volume of New APA-enabled Vehicle Models (by Ultrasonic, Camera and Ultrasonic + Camera)
2.3 Ranking of APA-enabled Vehicle Models in 2018 by Sales Volume (by Car Brand and Vehicle Model)
2.4 APA Solutions and Representative Vehicle Models of Major Car Brands
2.5 Installation Rate of APA by Price (2017Q1-2018Q4)
2.6 Top 30 APA Ranking by Installation Rate in 2018 (by Car Brand)
2.7 Quarterly Installation Rate of Ultrasonic APA by Price (2017Q1-2018Q4)
2.8 Quarterly Installation Rate of (Camera + Ultrasonic) APA by Price (2017Q1-2018Q4)
2.9 Quarterly Ultrasonic Radar Number of Ultrasonic APA (2017Q1-2018Q4)
2.10 APA Solution Ranking by Installation Rate in 2018 (by Car Brand)
2.11 Ranking of Automated Parking Patent Filings
2.12 Installation Rate of Automated Parking in Chinese Passenger Car Market (2014-2022)


3 Parking Technology Standards
3.1 Introduction
3.2 Scope
3.3 Terminology and Definition
3.4 APS Types and General Requirements
3.4.1 Basic System Features
3.4.2 APS Types
3.4.3 General Requirements
3.5 Features and Performance Requirements of APS Type 1
3.5.1 Basic System Features
3.5.2 Driver Interaction and Information Display
3.5.3 Minimum Performance Requirements
3.5.4 Performance Test Requirements of APS Type 1
3.6 Features and Performance Requirements of APS Type 2
3.6.1 Basic System Features
3.6.2 Driver Interaction and Information Display
3.6.3 Minimum Performance Requirements
3.6.4 Performance Test Requirements of APS Type 2


4 APA/AVP Technology Providers
4.1 Valeo
4.1.1 Parking Business
4.1.2 Autonomous Driving Roadmap
4.1.3 Park4U? Parking Product Line
4.1.4 Automated Parking Technology Roadmap
4.1.5 Interpretation of Park4U Autonomous Parking System
4.1.6 Cyber Valet Services
4.2 Bosch
4.2.1 ADAS and Autonomous Driving Product Line
4.2.2 Automated Parking Technology Roadmap
4.2.3 Automated Valet Parking (AVP) Project
4.2.4 AVP Is Integrated on the Basis of "Car, Field and Cloud"
4.2.5 AVP Field Transformation
4.2.6 Bosch Joins Alibaba Cloud to Promote AVP Technology in China
4.2.7 SITECH Will Introduce Bosch’s AVP Technology
4.3 Hyundai Mobis
4.4 ZongMu Technology
4.4.1 Profile
4.4.2 Two Business Models
4.4.3 Integrated Solution of Shared Mobility and Autonomous Parking
4.4.3 Integrated Solution of Shared Mobility and Autonomous Parking
4.4.4 Autonomous Parking Technology Solution
4.4.5 Autonomous Parking Technology Roadmap
4.4.6 Partners
4.4.7 Customers
4.4.8 Three Autonomous Parking Packages Are Released
4.5 UISEE
4.5.1 Profile
4.5.2 Products and Technologies
4.5.3 AVP Solution
4.5.4 Autonomous Parking Application Cases
4.6 Baidu AVP
4.6.1 Profile of AVP
4.6.2 AVP Technology Solution
4.6.3 HD Map of Indoor Parking Lot
4.6.4 AVP Security Framework
4.6.5 Autonomous Parking Application Cases
4.7 HoloMatic
4.7.1 Profile
4.7.2 HoloParking
4.7.3 Development Plan
4.8 Intesight
4.8.1 Profile
4.8.2 Automated & Autonomous Parking System
4.8.3 Valet Parking System
4.8.4 Customers
4.9 Momenta
4.9.1 Profile
4.9.2 Momenta Autonomous Driving Product Line
4.9.3 R&D of L4 Automated Parking Solution
4.10 eMapgo
4.10.1 Profile
4.10.2 Massive AVP Map Orders
4.11 Kunchen
4.11.1 Profile
4.11.2 Products and Technology Solutions
4.11.3 Application Cases
4.12 ForViSiON


5 OEM APA/AVP Application and Trends

5.1 Volkswagen
5.1.1 Profile of Automated Parking System
5.1.2 Schematic of Automated Parking System
5.1.3 Application Scenarios of Automated Parking System
5.1.4 Application Restrictions of Automated Parking System
5.1.5 Automated Parking Configuration of Representative Vehicle Models

5.2 BMW
5.2.1 Profile of Automated Parking System
5.2.2 Main Features of Automated Parking System
5.2.3 Application Scenarios and Restrictions of Automated Parking System
5.2.4 Automated Parking Configuration of Representative Vehicle Models
5.2.5 Intelligent Parking Layout

5.3 Daimler Benz
5.3.1 Profile of Automated Parking System
5.3.2 Main Features of Automated Parking System
5.3.3 Application Scenarios and Restrictions of Automated Parking System
5.3.4 Automated Parking Configuration of Representative Vehicle Models
5.3.5 Intelligent Parking Layout

5.4 General Motors
5.4.1 Profile of Automated Parking System
5.4.2 Main Features of Automated Parking System
5.4.3 Application Scenarios and Restrictions of Automated Parking System
5.4.4 Automated Parking Configuration of Representative Vehicle Models

5.5 Ford
5.5.1 Profile of Automated Parking System
5.5.2 Main Features of Automated Parking System
5.5.3 Application Scenarios and Restrictions of Automated Parking System
5.5.4 Automated Parking Configuration of Representative Vehicle Models

5.6 Volvo
5.6.1 Profile of Automated Parking System
5.6.2 Main Features of Automated Parking System
5.6.3 Application Scenarios and Restrictions of Automated Parking System
5.6.4 Automated Parking Configuration of Representative Vehicle Models

5.7 Chery Jaguar Land Rover
5.7.1 Profile of Automated Parking System
5.7.2 Main Features of Automated Parking System
5.7.3 Application Scenarios and Restrictions of Automated Parking System
5.7.4 Automated Parking Configuration of Representative Vehicle Models

5.8 Chang’an Automobile
5.8.1 Profile of Automated Parking System
5.8.2 Main Features of Automated Parking System
5.8.3 Application Scenarios and Restrictions of Automated Parking System
5.8.4 Automated Parking Configuration of Representative Vehicle Models
5.8.5 Automated Parking and Mobility Layout

5.9 Geely
5.9.1 Profile of Automated Parking System
5.9.2 Main Features of Automated Parking System
5.9.3 Application Scenarios and Restrictions of Automated Parking System
5.9.4 Automated Parking Configuration of Representative Vehicle Models
5.9.5 Automated Parking Development Plan

5.10 SAIC
5.10.1 Profile of Automated Parking System
5.10.2 Main Features of Automated Parking System
5.10.3 Application Scenarios and Restrictions of Automated Parking System
5.10.4 Automated Parking Configuration of Representative Vehicle Models
5.10.5 Automated Parking Layout

5.11 Great Wall Motors
5.11.1 Profile of Automated Parking System
5.11.2 Main Features of Automated Parking System
5.11.3 Application Scenarios and Restrictions of Automated Parking System
5.11.4 Automated Parking Configuration of Representative Vehicle Models

5.12 XPENG Motors 5.12.1 Profile of Autonomous Parking System 5.12.2 Parking Space Recognition and Memory
5.12.3 One-button Parking Function

5.13 Honda
5.13.1 Profile of Automated Parking System
5.13.2 Main Features of Automated Parking System
5.13.3 Application Scenarios and Restrictions of Automated Parking System
5.13.4 Automated Parking Configuration of Representative Vehicle Models

5.14 Tesla
5.14.1 Profile of Automated Parking System
5.14.2 Main Features of Automated Parking System
5.14.3 Application Scenarios and Restrictions of Automated Parking System
5.14.4 Automated Parking Configuration of Representative Vehicle Models