Table of Content

1 Overview
1.1 Automotive Business
1.2 Development History of Huawei’s Intelligent Automotive Solution Business Unit
1.3 Automotive Business Layout
1.4 R&D Investment
1.5 Full Stack Smart Car Solutions
1.6 Smart Car Layout
1.7 CCA
1.8 VehicleStack
1.9 Smart Car Development
1.10 Models with Huawei Smart Selection
1.11 Model Matrix


2 MDC Intelligent Driving Computing Platform
2.1 introduction
2.2 Overall Architecture
2.3 Composition
2.4 Hardware and Software
2.5 MDC300/F Domain Controller
2.6 MDC300/F Appearance Interface
2.7 MDC210 / MDC610
2.8 MDC610 Adaptive Sensors and Vendors
2.9 MDC810
2.10 Vehicle-road-cloud Collaboration
2.11 Standardization
2.12 Product Development Toolchain
2.13 Partners
2.14 ISO26262 and ASPICE
2.15 Domain Controllers and Main Control Chips
2.16 Autonomous Driving SoC: Ascend 910/310
2.17 Performance Parameters of Ascend 310
2.18 Performance Parameters of Ascend 910
2.19 Ascend Chip Technology Route Planning


3 Operating System and Middleware
3.1 Huawei’s Self-developed Operating System
3.2 Vehicle-level Basic Software
3.3 Intelligent Driving OS: AOS
3.4 AOS and VOS
3.5 MDC Platform Adopts the Self-developed OS and Supports AUTOSAR
3.6 Huawei Became a PP+ Member of AUTOSAR
3.7 Self-developed AUTOSAR CP and AP Architectures
3.8 Intelligent Digital Base: iDVP


4 ADS Business
4.1 ADS Full Stack Solutions
4.2 ADS 2.0
4.3 Difference between ADS 2.0 and ADS 1.0
4.4 Comparison between ADS 1.0 and 2.0 Solutions
4.5 Algorithm of ADS 2.0
4.6 Progress in ADS 2.0
4.7 ADS 2.0: Intelligent Parking
4.8 ADS 2.0: Obstacle Recognition
4.9 Features of ADS 2.0
4.10 Comparison among Models Equipped with ADS 2.0
4.11 Application Cases of ADS 2.0 (1)
4.12 Application Cases of ADS 2.0 (2)
4.13 Application Cases of ADS 2.0 (3)
4.14 Application Cases of ADS 2.0 (4)
4.15 Collaborative AVP Intelligent Parking Solution
4.16 Development History of Intelligent Driving Business


5 Intelligent Driving Sensor Business
5.1 Early Autonomous Driving Systems Relied on HD Maps
5.2 HD Map Cloud Services
5.3 4D Radar
5.4 Cameras
5.5 LiDAR
5.6 Development History of LiDAR
5.7 LiDAR Technology (1)
5.8 LiDAR Technology (2)
5.9 LiDAR Intelligent Driving Solutions
5.10 Next-generation LiDAR


6 Huawei Cloud and AI Foundation Model
6.1 Huawei Cloud "1+3+M+N" Solution
6.2 Huawei Cloud ModelArts Platform
6.3 Four Major Cloud Services for Smart Cars
6.4 Cloud Application of Autonomous Driving (1)
6.5 Cloud Application of Autonomous Driving (2)
6.6 Cloud Application of Autonomous Driving (3)
6.7 Octopus Autonomous Driving Cloud Service
6.8 Huawei Cloud Empowers Automakers
6.9 Pangu Models 3.0
6.10 Pre-annotated Foundation Model
6.11 Scenario Generation Foundation Model and Foundation Model Cost Reduction
6.12 Computing Power
6.13 Pangu Models Empower Xiaoyi Voice Assistant


7 Intelligent Cockpit Business
7.1 Cockpit and TSP
7.2 Intelligent Cockpit Solutions
7.3 HarmonyOS for IVI
7.4 Hardware (1)
7.5 Hardware (2)
7.6 Hardware (3)
7.7 Hardware (4)
7.8 Cockpit Software: Automotive Digital Platform
7.9 Cockpit Software: HarmonyOS 3.0
7.10 Cockpit Software: HarmonyOS 4.0
7.11 Cockpit Software: HiCar
7.12 Intelligent Cockpit IVI Module: Pluggable Design
7.13 HiSilicon’s Cockpit?Chip:?Kirin?990A
7.14 HiSilicon’s Cockpit?Chip:?Kirin?710A
7.15 Cockpit Business Models
7.16 Some Mass Production Cases of Intelligent Cockpits


8 Lighting and Display Services
8.1 AR HUD Evolution
8.2 AR-HUD
8.3 xHUD AR-HUD
8.4 HUD Technology Planning
8.5 In-Car Smart Screen
8.6 Development and Evolution of In-Car Smart Screen
8.7 Automotive Lighting and Display Business
8.8 Light Field Screen
8.9 Smart Lighting Solutions
8.10 NearLink Immersive Ambient Lighting


9 Electrification and Chassis Layout
9.1 800V High Voltage Platform Layout
9.2 High Voltage Platform Solutions
9.3 AI High Voltage Flash Charging Solutions
9.4 DriveONE High Voltage Electric Drive System
9.5 Seres-Huawei DriveONE Pure Electric Drive Range-extended Platform
9.6 Overcharging Piles
9.7 HiCharger Charging Module
9.8 Automotive Power Supply Products of Huawei Digital Power
9.9 Thermal Management System
9.10 Brake Redundancy Patents
9.11 Touring Intelligent Chassis
9.12 MFSS
9.13 Huawei DATS 3.0
9.14 XMotion Intelligent Body Collaborative Control System


10 Automotive Communication Products
10.1 Intelligent Connectivity Solution Architecture
10.2 T-Box Platform
10.3 HiFin
10.4 Automotive Communication Module
10.5 Advantages of Automotive Communication Module (1)
10.6 Advantages of Automotive Communication Module (2)
10.7 Advantages of Automotive Communication Module (3)
10.8 Models Supported by 5G Communication Module
10.9 Communication Chip
10.10 Cooperation Modes in Automotive 5G


11 CVIS Solutions
11.1 From Single Vehicle Intelligence to CVIS
11.12 CVIS?Solutions
11.13 Application Cases of CVIS (1)
11.14 Application Cases of CVIS (2)
11.15 Commercial-grade Roadside Terminals
11.16 Roadside?Perception System Lineup?
4.2 Binocular Radar-Video Event All-In-One
11.18 Release of 1000-meter-wide Radar-Video Fitting and Shooting Solution
11.19 Holographic?Intersection?Solutions?for?Urban?Roads
11.10 Advantages?of?Holographic?Intersection?Solutions
11.11 AI?Ultralow?Light?Bayonet?Cameras
11.12 Holographic Road Network
4.2 Application?of?Holographic?Road?Network


12 Models of AITO
12.1 Topology Diagram and BOM of AITO M7 IVI
12.2 Sales Volume and OTA Updates of AITO M7
12.3 Core Parts Suppliers of AITO M9
5.5 Sales Channels of AITO