Table of Content

1 Overview of In-vehicle Payment
1.1 Development History of In-vehicle Payment
1.2 Application Scenarios of In-vehicle Payment
1.3 In-vehicle Payment System Flow
1.4 Mainstream In-vehicle Payment Methods
1.5 In-vehicle Payment Industry Chain
1.6 In-vehicle Payment Chip
1.7 In-vehicle Payment Platform
1.8 In-vehicle Payment Ecosystem
1.9 In-vehicle Payment Business Layout of OEMs
1.10 In-vehicle Payment Patents
1.10.1 In-vehicle Payment Patent Map
1.10.2 In-vehicle Payment Patent Layout of OEMs
1.10.3 In-vehicle Payment Patent Layout of Suppliers
1.10.4 In-vehicle Payment Patent Layout of Ecosystem Companies


2 In-vehicle Payment Consumers
2.1 Overview of In-vehicle Payment Survey
2.2 In-vehicle Payment Usage and Willingness to Use
2.3 Frequent Usage Scenarios of In-vehicle Payment
2.4 Users’ Satisfaction for In-vehicle Payment
2.5 Expected Scenarios of In-vehicle Payment
2.6 Differences between Actual and Expected Scenarios of In-vehicle Payment
2.7 Reasons for Using In-vehicle Payment
2.8 Concerns about In-vehicle Payment
2.9 In-vehicle Payment Interaction Modes and Payment Method Preferences


3 In-vehicle Payment Layout of OEMs
3.1 BMW
3.1.1 Layout of In-vehicle Payment Application Scenarios
3.1.2 Smart Parking Function
3.1.3 Functional Flow of Smart Parking
3.1.4 Paid Subscription Function
3.1.5 In-vehicle Payment Service System
3.1.6 In-vehicle Payment Based on Voiceprint Recognition
3.2 Mercedes-Benz
3.2.1 Layout of In-vehicle Payment Application Scenarios
3.2.2 In-vehicle Payment for Refueling
3.2.3 In-vehicle Payment for Parking
3.2.4 Paid Subscription Function
3.2.5 Comparison between Mercedes pay and Mercedes pay+
3.3 Honda
3.3.1 Layout of In-vehicle Payment Application Scenarios
3.3.2 Honda CONNECT System
3.3.3 Honda Dream Drive System
3.4 Hyundai
3.4.1 Layout of In-vehicle Payment Application Scenarios
3.4.2 Dynamics in In-vehicle Payment Service
3.5 Renault Samsung Motors
3.5.1 Layout of In-vehicle Payment Application Scenarios
3.6 Jaguar Land Rover
3.6.1 Layout of In-vehicle Payment Application Scenarios
3.6.2 In-vehicle Payment for Refueling/Charging
3.6.3 Functional Flow of In-vehicle Payment for Refueling
3.7 Ford
3.7.1 Layout of In-vehicle Payment Application Scenarios
3.7.2 Vehicle Transaction System
3.7.3 In-vehicle Payment Communication System and Method
3.8 Great Wall Motor
3.8.1 Layout of In-vehicle Payment Application Scenarios
3.8.2 Smart Parking Function
3.8.3 Smart Fueling and Smart Car Wash Functions
3.9 Xpeng Motors
3.9.1 Layout of In-vehicle Payment Application Scenarios
3.9.2 In-vehicle Payment Function
3.10 Geely
3.10.1 Layout of In-vehicle Payment Application Scenarios
3.10.2 In-vehicle Payment Device and Method
3.11 Chery
3.11.1 Layout of In-vehicle Payment Application Scenarios
3.11.2 In-car Pay by Face Function of Chery EXEED
3.11.3 Online Payment System for Parking Fees
3.12 AITO
3.12.1 Layout of In-vehicle Payment Application Scenarios
3.12.2 Unconscious Payment for Parking
3.12.3 Unconscious Payment for Charging
3.12.4 In-vehicle Face Verification Payment Function
3.13 SAIC Volkswagen
3.13.1 Layout of In-vehicle Payment Application Scenarios
3.13.2 Intelligent Vehicle Connection System
3.14 SAIC ROEWE
3.14.1 Layout of In-vehicle Payment Application Scenarios
3.14.2 Unconscious Payment Function of Banma Zhixing Interconnect System
3.15 Other OEMs
3.15.1 Human Horizons’ Layout of In-vehicle Payment Application Scenarios
3.15.2 GAC’s In-vehicle Payment Patent Filings
3.15.3 Xiaomi’s In-vehicle Payment Patent Filings


4 In-vehicle Payment Platforms
4.1 VISA
4.1.1 In-vehicle Payment Business
4.1.2 In-vehicle Payment Transaction Mechanism
4.1.3 Cloud Token Framework
4.2 China UnionPay
4.2.1 In-vehicle Payment Business
4.2.2 In-vehicle Payment System and Method
4.2.3 T-Box-based In-Vehicle Payment System and Method
4.2.4 In-vehicle Payment System and Method
4.3 Alipay
4.3.1 In-vehicle Payment Business
4.3.2 Intelligent Risk Control Engine - AlphaRisk
4.3.3 In-vehicle Payment Ecosystem
4.3.4 ETC-based In-vehicle Payment
4.3.5 Payment Processing Methods Based on License Plate Numbers
4.4 Huawei
4.4.1 In-vehicle Payment Business
4.4.2 Smart Refueling Station Solution
4.4.3 V2X-based In-vehicle Payment System
4.5 Other In-vehicle Payment Platforms
4.5.1 Xevo
4.5.2 IPS Group
4.5.3 ZF
4.5.4 DABCO


5 In-vehicle Payment Summary and Trends
5.1 Summary of Telematics Development
5.2 Development Path of In-vehicle Payment
5.3 SWOT Analysis of In-vehicle Payment
5.4 Mobile Payment Habit Formation
5.5 Technological Environment for In-vehicle Payment
5.6 There Will Be Bigger Space to Imagine In-vehicle Payment Data Mining and Application