自動運転マップ産業の分析 (2024年)

HDマップの資格の監督が厳しくなるにつれ、地図収集コスト、更新頻度、カバー範囲などの問題が目立ちます。都市用NOA (Navigation on Autopilot) ブームの中、2023年には「軽量地図」型のインテリジェント運転ソリューションが話題となっています。このソリューションはオフラインHDマップへの依存を軽減し、HDマップの開発に課題を投げかけています。

自動運転の開発プロセスから、人間と機械の協調運転が一定期間存在することがわかります。この段階で必要とされるマップは、必ずしもHDマップではありません。異なるマップの補完的な特性を統合したマルチソースマップの方が、この段階における自動運転のニーズには適しているかもしれません。

新世代の自動運転マップの開発に、各組織・企業はどう対応するか？

政府：HD地図の測量・マッピングのA級資格を厳格化する一方、ADAS地図とB級測量・マッピング資格の審査強化に取り組みます。

OEM：ナビゲーション用電子地図の測量とマッピングのA級資格に対する関連部門の審査が厳しくなったため、OEMは測量・マッピングのA級資格を導入することを控えています。現在、一部のOEMはリアルタイムの地図作成にニューラルネットワークモデル・アルゴリズムを使用し、オフラインのHD地図への依存度を下げており、Tesla、Li Auto、Xpeng、HuaweiのADS対応モデルがその典型的な例です。

地図プロバイダー：市場の需要を満たすため、SDデータ、HDデータ、LDデータなどを1つの地図にまとめ、ナビゲーションの連続性を確保する「軽量地図」ソリューションを発表しています。一例として、Tencentは、「3-in-one」インテリジェント運転マップを発表した後、地図プロバイダー、自動車メーカー、自動運転企業、その他の企業による協調構築をサポートする「インテリジェント運転クラウドマップ」を導入しました。

「軽量地図」ソリューションに積極的なのは、主に新興自動車メーカーです。その理由のひとつは、彼らが都市部のNOA機能を非常に迅速に実装しており、HD地図が彼らの関連ニーズに答えられないからです。

当レポートでは、世界と中国の自動運転マップの市場・産業について分析し、技術の概略や関連規制・基準、技術・市場の最新情勢 (搭載台数・普及率、技術の活用動向など)、今後の技術開発・活用シナリオや市場成長の方向性、主要企業のプロファイルと主力製品、といった情報を取りまとめてお届けいたします。

目次

第1章 自動運転マップに関する政策・基準・規制の現状

第2章 自動運転マップ市場の現状

• 自動運転マップの開発の方向性
• 自動運転マップの分類：ナビゲーションマップ（SDマップ）
  • カーナビゲーションマップ：2Dから3Dへの更新
  • 3Dナビゲーションマップレイアウトの事例：Tencent
  • ナビゲーションマップ：「非マップ」のインテリジェント運転ソリューションの基礎データを提供
  • 主流のナビゲーションマップ：車両への設置状況
  • 中国の乗用車向けナビゲーションマップの設置状況と設置率
  • 中国の乗用車向けナビゲーションマップの設置状況と設置率：価格別
  • 中国の乗用車向けナビゲーションマップの設置状況と設置率：上位車種20種
  • 中国の乗用車向けナビゲーションマップの設置状況と設置率：上位ブランド20社
• 自動運転マップの分類：ADASマップ（SD Pro MAP）
  • ADASマップのカテゴリ
  • ADASマップの作成プロセス
  • ADASマップの主要技術：基礎モデル
  • ADASマップソリューション：主流のマッププロバイダーが事前にマップを構築
  • ADASマップソリューション：一部のプロバイダーは、アルゴリズムを使用してオンラインでマップを構築
  • Tier 1のADASマップソリューション：Baiduのインテリジェント運転ソリューション向けマッピング技術
  • Tier 1のADASマップソリューション：DeepRoute.ai Driver 3.0
  • Tier 1のADASマップソリューション：MAXIEYEのハイパースペースアーキテクチャ
  • Tier 1のADASマップソリューション：MAXIEYEの自動マッピングメモリ
  • Tier 1のADASマップソリューション：Juefx Technology ＋ Horizon Robotics
  • Tier 1のADASマップソリューション：Huawei
  • Tier 1のADASマップソリューション：Momentaの非マップ・インテリジェント運転アルゴリズムのソリューション
  • Tier 1のADASマップソリューション：Momentaの非マップ・インテリジェント運転アルゴリズムのロードマップ
  • ADASマップの車両への搭載状況
  • OEMのADASマップソリューション：Tesla FSD
  • OEMのADASマップソリューション：Voyahの都市道路向け高精度測位ソリューション
  • ADASマップの開発動向：SD/HDマップの一貫制作
• 自動運転マップの分類：HDマップ
  • HDマップ
  • 知覚とHDマップの相互補完関係による、都市用NOAの安全性の向上
  • 量産型地図プロバイダー大手3社の比較
  • HDマップに対するOEMの姿勢
  • HDマップの開発ルート
• 従来型の地図プロバイダーは、どのようにして都市用NOAに基づいたレイアウトを作成するのか？
  • 都市用NOAが、乗用車自動運転の新たな戦場となる
  • 自動運転向けマルチソース・フュージョンマップ：都市用NOAでの永続的な問題に対する効果的な解決策
  • 都市用NOAのシナリオ：地図プロバイダーはSD Pro MAPの導入に重点を置く
  • SD Pro MAPの基本要件
  • 都市用NOAが推進する、地図プロバイダーのレイアウトアイデア：地図と軽量地図モデルの作成
  • 地図提供者のレイアウト戦略
• OEMによる自動運転マップの選定

第3章 HDマップ市場の現状

• HDマップの市場規模
  • 中国の乗用車OEM用HDマップの市場規模
  • HDマップ対応の量産型乗用車モデル：中国国内の販売上位10種（2022年～2023年）
  • 中国国内の高精度測位を備えた量産型乗用車モデルの価格帯（2022年～2023年）
• HDマップ市場の競争パターン
  • HDマップ市場の主要企業
  • HDマップ市場の企業：中国のマッププロバイダー
  • HDマップ市場の企業：OEMのHDマップのレイアウト
  • HDマップ市場の企業：OEMはHDマップの自社開発で課題に直面している
  • 課題を解決するOEMのソリューション
  • HDマップ市場の企業：外資系マッププロバイダー
• HDマップ導入のビジネスモデル
  • HDマップのビジネスモデル (1)：自動運転
  • HDマップのビジネスモデル (2)：駐車場
  • HDマップの収益モデルの分類
  • HDマップのビジネスモデルの概要：国内系のマッププロバイダー
  • HDマップのビジネスモデルの概要：外資系のマッププロバイダー
  • 都市用NOA開発における、マッププロバイダーのビジネスモデルの変化
• HDマップの開発における課題
  • HDマップの開発がボトルネックに直面
  • HDマップ開発の課題
• HD地図データの配信と融合
  • HDマップデータの配信・融合のプロセス
  • プロセス (1)：HDマップデータ配信エンジンのアーキテクチャ
  • プロセス (1)：HDマップデータ配信エンジンの連携フォーム
  • プロセス (1)：HDマップデータ配信エンジンの主要サプライヤー
  • プロセス (2)：HDマップのデータフォーマットの変換
  • プロセス (3)：HDマップデータの配信側と受信側のやり取り
  • プロセス (4)：HDマップデータの融合
  • HDマップデータの配信・融合の動向
• 車線レベル測位に適用されたHDマップ
  • HDマップ準拠の車線レベル測位ソリューション：構造
  • HDマップ準拠の車線レベル測位ソリューション：プロバイダー
  • 事例

第4章 OEMのインテリジェント運転マップ・アプリケーションのレイアウト

• 各種レベルの自動運転に必要なマップ要素
  • 自動運転に必要なマップ要素：L2 NOA機能
  • 自動運転に必要なマップ要素：L2ハンズフリー機能
  • 自動運転に必要なマップ要素：L3
  • 自動運転に必要なマップ要素：L4以上
• OEMによる量産型乗用車へのインテリジェント運転マップの導入
  • 中国の独立系ブランドによる量産型乗用車へのインテリジェント運転マップの搭載状況
  • 合弁系ブランドによる量産型乗用車へのインテリジェント運転マップの搭載状況
  • OEMのインテリジェント運転マップの導入事例 (1)：GAC AionのHDマップソリューション
  • OEMのインテリジェント運転マップの導入事例 (1)：GAC AionのElectronic Horizon System
  • OEMのインテリジェント運転マップの導入事例 (1)：GAC AionのHDマップの曲率・傾斜
  • OEMのインテリジェント運転マップの導入事例 (2)：XpengによるHDマップ準拠の都市部NOAの実現
  • OEMのインテリジェント運転マップの導入事例 (2)：Xpeng XNGPの「非マップ」ソリューションの更新
  • OEMのインテリジェント運転マップの導入事例 (3)：Great Wall WEYがHDマップを活用して、P2P自動運転を実現
  • OEMのインテリジェント運転マップの導入事例 (4)：Li AutoによるHDマップの活用
  • OEMのインテリジェント運転マップの導入事例 (4)：Li AD Max 3.0による「非マップ」ソリューションの更新
  • OEMのインテリジェント運転マップの導入事例 (4)：Li Autoによるオンラインマッピング技術の活用
  • OEMのインテリジェント運転マップの導入事例 (5)：NIO NOPとHDマップの融合
  • OEMのインテリジェント運転マップの導入事例 (5)：NIOは「非マップ」ソリューションを慎重に検討
  • OEMのインテリジェント運転マップの導入事例 (6)
  • OEMのインテリジェント運転マップの導入事例 (7)
  • OEMのインテリジェント運転マップの導入事例 (8)
  • OEMのインテリジェント運転マップの導入事例 (9)
• インテリジェント運転マップの活用状況：サブシナリオ別 - 乗用車の低速駐車
  • AVPマップのカテゴリ (1)：HDマップ
  • AVPマップのカテゴリ (1)：SLAMリアルタイムマップ
  • 駐車場向け駐車マップのプロバイダー：上位5社
  • 導入事例：Avatrパーキング機能のマッピング方法
• インテリジェント運転マップの活用状況：サブシナリオ別 - 自動物品搬送
  • 低速自動物品搬送におけるHDマップの重要性
  • 低速自動物品搬送のためのHDマッピング手法
  • 自動物品搬送用HDマップのプロバイダーのパターン
• インテリジェント運転マップの活用状況：サブシナリオ別 - 自動人員搬送
  • 高度（自律型）自動運転におけるHDマップの重要性
  • 自動人員搬送の活用シナリオ

第5章 国内系・外資系のマッププロバイダー

• Baidu Maps
• NavInfo
• Amap
• Tencent
• BrightMap
• Mxnavi
• Huawei
• Heading Data Intelligence
• JD
• Leador
• eMapgo
• Momenta
• Roadgrids
• Here

第6章 HDマップ技術企業

• Mobileye
• NVIDIA
• DeepMotion
• Mapbox

As the supervision of HD map qualifications tightens, issues such as map collection cost, update frequency, and coverage stand out. Amid the boom of urban NOA, the "lightweight map" intelligent driving solution has become a hot topic in 2023. This solution lessens the dependence on offline HD maps, posing a challenge to the development of HD maps.

From the development process of autonomous driving, it can be seen that human-machine co-driving will exist for a period of time. The need for maps in this phase is not necessarily HD maps. Multi-source maps that integrate the complementary characteristics of different maps may be more suitable for the needs of autonomous driving in this phase.

How do players respond to the development of new-generation autonomous driving maps?

Government: while tightening the Class A qualification for HD map surveying and mapping, work to enhance the review of ADAS maps and Class B surveying and mapping qualification.

In June 2023, the Map Technology Review Center of the Ministry of Natural Resources announced the phased progress in review of ADAS maps of ordinary urban roads across China, and allowed companies to submit ADAS maps of nationwide ordinary urban roads for review in batches. Currently, NavInfo's approved nationwide urban ADAS map data have covered 120 cities in 30 provinces; Baidu Maps has ADAS maps of 134 cities approved.

OEMs: relevant departments' stricter review of the Class A qualification for navigation electronic map surveying and mapping has discouraged OEMs to deploy the Class A qualification for map surveying and mapping. At present, some OEMs use neural network model algorithms for real-time mapping and lower reliance on offline HD maps, and the ADS-enabled models of Tesla, Li Auto, Xpeng, and Huawei are typical cases; some other OEMs prefer stability, and obtain surveying and mapping qualifications by way of applying for Class B qualification or establishing new joint ventures with map providers. For example, GAC together with its partners such as Nanjing Institute of Surveying, Mapping and Geotechnical Surveying Co., Ltd. co-funded "Guangdong Guangqi Yutu Equity Investment Partnership (Limited Partnership)"; Anhui NIO Smart Mobility Technology Co., Ltd., a subsidiary of NIO, applied for the Class A qualification for Internet map services.

Map providers: to meet the market demand, they launch "lightweight map" solutions, putting SD data, HD data, LD data, etc. on one map to ensure the continuity of navigation. One example is Tencent which introduced the "Intelligent Driving Cloud Map" to support the cooperative construction by map providers, automakers, autonomous driving companies and other players, after launching its "three-in-one" intelligent driving map.

Emerging carmakers take the lead in launching "lightweight map" solutions.

At present, OEMs' solutions that do not rely on HD maps don't mean that they do not use maps at all, but subtract elements from HD maps or add them to navigation maps instead.

It is mainly emerging carmakers that are more active in "lightweight map" solutions. One reason is that they implement urban NOA functions very quickly, and HD maps fail to answer their relevant needs.

Xpeng

In the first half of 2023, Xpeng started developing intelligent driving solutions based on SD maps. NGP that uses HD maps or does not use adopts the same technology stack. The only difference is that the original HD map input is replaced by the navigation map input, and the understanding of navigation information in real-time perception.

Xpeng's solution that does not use HD maps has the advantages of 4 to 10 times faster generalization speed, completely solving the problem of data freshness, reducing costs, and popularizing intelligent driving, compared with the solution using HD maps.

The "no offline HD map" solution implemented by Xpeng relies on XNet to build a "HD map" in real time.

Li Auto

Li Auto has launched urban NOA in 2023. This solution does not rely on HD maps. It aims to construct the features of intersections to assist in real-time perception and mapping. In a word, road sections are "unmapped", and intersections are mapped by crowdsourcing.

Li Auto is now promoting the NPN solution, hoping to solve the problem of online map updates.

In terms of OEMs' solutions, despite less dependence on HD maps, the "lightweight map" solution has higher requirements for vehicle perception and algorithms.

Conventional map providers launch lightweight autonomous driving map solutions to meet demand.

The voice of OEMs to "not rely on HD maps" is growing ever louder. To cater to the market demand, conventional map providers also make changes, trying hard to solve the three enduring problems of HD maps: update frequency, coverage area, and cost, and launching map products that more fit in with the current needs of autonomous driving.

Baidu

In July 2023, Baidu MapAuto 6.5, a human-machine co-driving map, was launched. It is a full 3D lane-level map and also an all-scenario human-machine co-driving map. It can provide three types of data: SD, LD and HD. Wherein, SD data has covered the whole country and is currently available on 10 million vehicles. Baidu's LD lightweight map data service consists of lane-level topology, complex scene geometry, experience layer, and dynamic information layer, allowing for daily update.

Amap

The new HQ Live MAP, launched in June 2023, combines the merits of HD MAP and SD MAP. In spite of a lower accuracy than HD MAP (absolute accuracy: 50cm, relative accuracy: 10cm), HQ Live MAP is enough for ADAS scenarios (highway and urban expressway scenarios: absolute accuracy of 1m, and relative accuracy of 30cm; ordinary urban road scenarios: relative accuracy of 1m), and it also simplifies unnecessary map elements in ordinary urban road scenarios, further reducing production and deployment costs.

Tencent

The latest Intelligent Driving Cloud Map, released in September 2023, enables fully cloud-based autonomous driving maps, supports element-level and minute-level online updates, and allows for the cooperative construction by map providers, automakers, autonomous driving companies and other players.

Tencent Intelligent Driving Cloud Map features scalable multi-layer forms, covering basic map layer, update element layer, ODD dynamic layer, driving experience layer and operation layer. Automakers can flexibly configure and manage the layers as they need, and build a data-driven operation platform suitable for themselves by combining it with their own data layer.

Autonomous Driving Map Industry Report,2024 highlights the following:

Autonomous driving map (formulation of policies, regulations, standards, etc.);

Vehicle map amid the development of urban NOA (development direction, coping strategies of conventional map providers, main types of maps used in urban NOA, etc.);

HD map (market status, market size, company pattern, business model, development challenges, etc.);

Application scenarios of intelligent driving map (high-speed autonomous driving of passenger cars, low-speed parking, autonomous human carrying, autonomous object carrying, etc.);

Major Chinese and foreign map providers (map product series, new product layout, product application cooperation, etc.);

HD map technology companies (technology layout, new technology R&D, etc.).

Table of Contents

1 Status Quo of Policies, Standards and Regulations Concerning Autonomous Driving Map

• 1.1 Policies Concerning Autonomous Driving Map
  • 1.1.1 The Latest Policies in 2023: Guidelines for Construction of Intelligent Vehicle Basic Map Standard System (2023 Edition) (Released) (1)
  • 1.1.2 The Latest Policies in 2023: Guidelines for Construction of Intelligent Vehicle Basic Map Standard System (2023 Edition) (Released) (2)
  • 1.1.3 The Latest Policies in 2023: Guiding Opinions of Beijing Municipality on Piloting of HD Maps for Intelligent Connected Vehicles
  • 1.1.4 The Latest Policies in 2023: Administrative Regulations of Hangzhou City on HD Maps for Intelligent Connected Vehicles
• 1.2 Regulations Concerning Autonomous Driving Map
  • 1.2.1 Foreign Regulations Concerning HD Map
  • 1.2.2 Chinese Regulations Concerning HD Map
  • 1.2.3 The Latest Regulations in 2023: National Regulatory Authorities Allow Maps of Nationwide City-level Roads to Be Submitted for Review
  • 1.2.4 The Latest Regulations in 2023: Improving the Efficiency of HD Map Review
• 1.3 Standards Concerning Autonomous Driving Map
  • 1.3.1 Current Formulation of Foreign HD Map Standards
  • 1.3.2 Current Formulation of Chinese HD Map Standards (Released)
  • 1.3.3 Current Formulation of Chinese HD Map Standards (Pre-researched)
  • 1.3.4 Formulation of HD Map Standards in 2023: Incremental Update on Autonomous Driving Maps for Intelligent Connected Vehicles (Filed) (1)
  • 1.3.5 Formulation of HD Map Standards in 2023: Incremental Update on Autonomous Driving Maps for Intelligent Connected Vehicles (Filed) (2)

2 Status Quo of Autonomous Driving Map Market

• 2.1 Development Direction of Autonomous Driving Maps
  • 2.1.1 Classification of Vehicle Maps: Navigation Map, ADAS Map and HD Map
  • 2.1.2 Autonomous Driving Is in the Phase of Human-machine Co-driving
  • 2.1.3 Challenges Posed to the Vehicle Map Industry in the Phase of Human-machine Co-driving
  • 2.1.4 Framework of Vehicle Map in the Phase of Human-machine Co-driving
  • 2.1.5 Vehicle Map Installation Trend: Navigation Map, ADAS Map and HD Map
• 2.2 Classification of Autonomous Driving Maps: Navigation Map (SD Map)
  • 2.2.1 Vehicle Navigation Map Upgraded from 2D to 3D
  • 2.2.2 3D Navigation Map Layout Case: Tencent
  • 2.2.3 Navigation Map Provides Basic Data under the "Non-map" Intelligent Driving Solution (1)
  • 2.2.4 Navigation Map Provides Basic Data under the "Non-map" Intelligent Driving Solution (2)
  • 2.2.5 Installation of Mainstream Navigation Maps in Vehicles
  • 2.2.6 Installations and Installation Rate of Navigation Maps in Passenger Cars in China
  • 2.2.7 Installations and Installation Rate of Navigation Maps in Passenger Cars in China (by Price)
  • 2.2.8 Installations and Installation Rate of Navigation Maps in Passenger Cars in China (TOP20 Models)
  • 2.2.9 Installations and Installation Rate of Navigation Maps in Passenger Cars in China (TOP20 Brands)
• 2.3 Classification of Autonomous Driving Maps: ADAS Map (SD Pro MAP)
  • 2.3.1 Categories of ADAS Maps
  • 2.3.2 ADAS Map Production Process
  • 2.3.3 ADAS Map Production Process 1
  • 2.3.4 ADAS Map Production Process 2
  • 2.3.5 ADAS Map Production Process 3
  • 2.3.6 Key Technology for ADAS Maps: Foundation Model
  • 2.3.7 ADAS Map Solution: Mainstream Map Providers Build Maps in Advance
  • 2.3.8 ADAS Map Solution: Some Providers Build Maps Online via Algorithms (1)
  • 2.3.9 ADAS Map Solution: Some Providers Build Maps Online via Algorithms (2)
  • 2.3.10 Tier1s' ADAS Map Solutions: Mapping Technology for Baidu Intelligent Driving Solution (1)
  • 2.3.11 Tier1s' ADAS Map Solutions: Mapping Technology for Baidu Intelligent Driving Solution (2)
  • 2.3.12 Tier1s' ADAS Map Solutions: DeepRoute.ai Driver 3.0 (1)
  • 2.3.13 Tier1s' ADAS Map Solutions: DeepRoute.ai Driver 3.0 (2)
  • 2.3.14 Tier1s' ADAS Map Solutions: MAXIEYE Hyperspace Architecture
  • 2.3.15 Tier1s' ADAS Map Solutions: MAXIEYE's Automatic Mapping Memory
  • 2.3.16 Tier1s' ADAS Map Solutions: Juefx Technology + Horizon Robotics
  • 2.3.17 Tier1s' ADAS Map Solutions: Huawei
  • 2.3.18 Tier1s' ADAS Map Solutions: Momenta's Non-map Intelligent Driving Algorithm Solution (1)
  • 2.3.19 Tier1s' ADAS Map Solutions: Momenta's Non-map Intelligent Driving Algorithm Solution (2)
  • 2.3.20 Tier1s' ADAS Map Solutions: Momenta's Non-map Intelligent Driving Algorithm Roadmap
  • 2.3.21 Installation of ADAS Maps in Vehicles (1)
  • 2.3.22 Installation of ADAS Maps in Vehicles (2)
  • 2.3.23 OEMs' ADAS Map Solutions: Tesla FSD (1)
  • 2.3.24 OEMs' ADAS Map Solutions: Tesla FSD (2)
  • 2.3.25 OEMs' ADAS Map Solutions: Voyah Urban Road High-Precision Positioning Solution
  • 2.3.26 Development Trend of ADAS Maps: Integrated Production of SD/HD Maps
• 2.4 Classification of Autonomous Driving Maps: HD Map
  • 2.4.1 HD Map
  • 2.4.2 Perception and HD Maps Complement Each Other to Improve Urban NOA Safety
  • 2.4.3 Comparison between Three Major Mass-Production Map Providers
  • 2.4.4 OEMs' Attitude towards HD Maps
  • 2.4.5 HD Map Development Route
• 2.5 How Do Conventional Map Providers Make Layout Driven by Urban NOA?
  • 2.5.1 Urban NOA Becomes A New Battlefield for Autonomous Driving of Passenger Cars
  • 2.5.2 Multi-source Fusion Map for Autonomous Driving Is An Effective Solution to Enduring Problems in Urban NOA
  • 2.5.3 In Urban NOA Scenario, Map Providers Focus on Deploying SD Pro MAP
  • 2.5.4 Basic Requirements for SD Pro MAP
  • 2.5.5 The Layout Idea of Map Providers Driven by Urban NOA: Create A Map and Lightweight Map Model
  • 2.5.6 Layout Strategy of Map Providers (1)
  • 2.5.7 Layout Strategy of Map Providers (2)
  • 2.5.8 Layout Strategy of Map Providers (3)
  • 2.5.9 Layout Strategy of Map Providers (4)
• 2.6 Autonomous Driving Map Selection by OEMs
  • 2.6.1 Autonomous Driving Map Selection by OEMs (1)
  • 2.6.2 Autonomous Driving Map Selection by OEMs (2)

3 Status Quo of HD Map Market

• 3.1 HD Map Market Size
  • 3.1.1 China's Passenger Car OEM HD Map Market Size (1)
  • 3.1.2 China's Passenger Car OEM HD Map Market Size (2)
  • 3.1.3 Top 10 HD Map-enabled Production Passenger Car Models by Sales in China, 2022-2023
  • 3.1.4 Price Range of Production Passenger Car Models with High-precision Positioning in China, 2022-2023
• 3.2 Competitive Pattern of HD Map Market
  • 3.2.1 Major Players in HD Map Market
  • 3.2.2 Players in HD Map Market (1): Chinese Map Providers (1)
  • 3.2.3 Players in HD Map Market (1): Chinese Map Providers (2)
  • 3.2.4 Players in HD Map Market (2): HD Map Layout of OEMs
  • 3.2.5 Players in HD Map Market (2): OEMs Face Challenges in Self-development of HD Maps
  • 3.2.6 OEMs' Solutions to Map Challenges (1)
  • 3.2.7 OEMs' Solutions to Map Challenges (2)
  • 3.2.8 Players in HD Map Market (3): Foreign Map Providers
• 3.3 Business Models for HD Map Implementation
  • 3.3.1 HD Map Business Model 1: Autonomous Driving
  • 3.3.2 HD Map Business Model 2: Parking Lot
  • 3.3.3 Classification of HD Map Profit Models
  • 3.3.4 Summary of HD Map Business Models: Chinese Map Providers (1)
  • 3.3.5 Summary of HD Map Business Models: Chinese Map Providers (2)
  • 3.3.6 Summary of HD Map Business Models: Foreign Map Providers
  • 3.3.7 Changes in Business Models of Map Providers in the Development of Urban NOA
• 3.4 Challenges in Development of HD Maps
  • 3.4.1 Development of HD Maps Faces Bottlenecks
  • 3.4.2 Challenge 1 in Development of HD Maps
  • 3.4.3 Challenge 2 in Development of HD Maps
  • 3.4.4 Challenge 3 in Development of HD Maps
  • 3.4.5 Challenge 4 in Development of HD Maps
• 3.5 HD Map Data Distribution and Fusion
  • 3.5.1 HD Map Data Distribution and Fusion Processes
  • 3.5.2 Process 1: HD Map Data Distribution Engine Architecture
  • 3.5.3 Process 1: HD Map data Distribution Engine Integration Form
  • 3.5.4 Process 1: Main Suppliers of HD Map Data Distribution Engine
  • 3.5.5 Process 2: HD Map Data Format Conversion (1)
  • 3.5.6 Process 2: HD Map Data Format Conversion (2)
  • 3.5.7 Process 3: Interaction between HD Map Data Distribution and Receiving End
  • 3.5.8 Process 4: HD Map Data Fusion
  • 3.5.9 HD Map Data Distribution and Fusion Trends
• 3.6 HD Maps Applied to Lane-level Positioning
  • 3.6.1 Structure of Lane-level Positioning Solutions Based on HD Maps
  • 3.6.2 Providers of Lane-level Positioning Solutions Based on HD Maps
  • 3.6.3 Cases

4 Intelligent Driving Map Application Layout of OEMs

• 4.1 Map Elements Required for Different Levels of Autonomous Driving
  • 4.1.1 Map Elements Required for Autonomous Driving: L2 NOA Function
  • 4.1.2 Map Elements Required for Autonomous Driving: L2 Hands Free Function
  • 4.1.3 Map Elements Required for Autonomous Driving: L3
  • 4.1.4 Map Elements Required for Autonomous Driving: L4 or Higher Level
• 4.2 OEMs' Installation of Intelligent Driving Maps in Production Passenger Cars
  • 4.2.1 Chinese Independent Brands' Installation of Intelligent Driving Maps in Production Passenger Cars (1)
  • 4.2.2 Chinese Independent Brands' Installation of Intelligent Driving Maps in Production Passenger Cars (2)
  • 4.2.3 Chinese Independent Brands' Installation of Intelligent Driving Maps in Production Passenger Cars (3)
  • 4.2.4 Chinese Independent Brands' Installation of Intelligent Driving Maps in Production Passenger Cars (4)
  • 4.2.5 Chinese Independent Brands' Installation of Intelligent Driving Maps in Production Passenger Cars (5)
  • 4.2.6 Chinese Independent Brands' Installation of Intelligent Driving Maps in Production Passenger Cars (6)
  • 4.2.7 Chinese Independent Brands' Installation of Intelligent Driving Maps in Production Passenger Cars (7)
  • 4.2.8 Chinese Independent Brands' Installation of Intelligent Driving Maps in Production Passenger Cars (8)
  • 4.2.9 Joint Venture Brands' Installation of Intelligent Driving Maps in Production Passenger Cars
  • 4.2.10 OEMs' Intelligent Driving Map Installation Case 1: GAC Aion HD Map Solution
  • 4.2.11 OEMs' Intelligent Driving Map Installation Case 1: GAC Aion Electronic Horizon System
  • 4.2.12 OEMs' Intelligent Driving Map Installation Case 1: GAC Aion HD Map Curvature and Slope
  • 4.2.13 OEMs' Intelligent Driving Map Installation Case 2: Xpeng Realizes Urban NOA Based on HD Maps
  • 4.2.14 OEMs' Intelligent Driving Map Installation Case 2: Xpeng XNGP Upgrades "Non-map" Solution (1)
  • 4.2.15 OEMs' Intelligent Driving Map Installation Case 2: Xpeng XNGP Upgrades "Non-map" Solution (2)
  • 4.2.16 OEMs' Intelligent Driving Map Installation Case 2: Xpeng XNGP Upgrades "Non-map" Solution (3)
  • 4.2.17 OEMs' Intelligent Driving Map Installation Case 3: Great Wall WEY Uses HD Maps to Realize Point-to-point Autonomous Driving
  • 4.2.18 OEMs' Intelligent Driving Map Installation Case 4: Li Auto Uses HD Maps
  • 4.2.19 OEMs' Intelligent Driving Map Installation Case 4: Li AD Max 3.0 Upgrades "Non-map" Solution
  • 4.2.20 OEMs' Intelligent Driving Map Installation Case 4: Li Auto Uses Online Mapping Technology (1)
  • 4.2.21 OEMs' Intelligent Driving Map Installation Case 4: Li Auto Uses Online Mapping Technology (2)
  • 4.2.22 OEMs' Intelligent Driving Map Installation Case 5: NIO NOP Fuses HD Maps
  • 4.2.23 OEMs' Intelligent Driving Map Installation Case 5: NIO Carefully Explores "Non-map" Solution
  • 4.2.24 OEMs' Intelligent Driving Map Installation Case 6
  • 4.2.25 OEMs' Intelligent Driving Map Installation Case 7
  • 4.2.26 OEMs' Intelligent Driving Map Installation Case 8
  • 4.2.27 OEMs' Intelligent Driving Map Installation Case 9
• 4.3 Intelligent Driving Map Application in Sub-scenarios: Low-speed Parking of Passenger Cars
  • 4.3.1 AVP Map Category 1: HD Map
  • 4.3.2 AVP Map Category 1: SLAM Real-Time Map
  • 4.3.3 Top Five Providers of Parking Maps for Parking Lots
  • 4.3.4 Installation Case: Mapping Method for Avatr Parking Functions
• 4.4 Intelligent Driving Map Application in Sub-scenarios: Autonomous Object Carrying
  • 4.4.1 Importance of HD Maps for Low-speed Autonomous Object Carrying
  • 4.4.2 HD Mapping Method for Low-speed Autonomous Object Carrying
  • 4.4.3 Pattern of Providers of HD Maps for Autonomous Object Carrying (1)
  • 4.4.4 Pattern of Providers of HD Maps for Autonomous Object Carrying (2)
• 4.5 Intelligent Driving Map Application in Sub-scenarios: Autonomous Human Carrying
  • 4.5.1 Importance of HD Maps for High-level (Autonomous) Automated Driving
  • 4.5.2 Application Scenarios of Autonomous Human Carrying (1)
  • 4.5.3 Application Scenarios of Autonomous Human Carrying (2)
  • 4.5.4 Application Scenarios of Autonomous Human Carrying (3)

5 Chinese and Foreign Map Providers

• 5.1 Baidu Maps
  • 5.1.1 Autonomous Driving Architecture Adjustment: Constrict L4/L2 Solutions
  • 5.1.2 Baidu Is Committed to Building Maps for Autonomous Driving
  • 5.1.3 Vehicle Map Product System
  • 5.1.4 Vehicle Map Product 1: Navigation Map
  • 5.1.5 Vehicle Map Product 2: Baidu MapAuto 6.5 (1)
  • 5.1.6 Vehicle Map Product 2: Baidu MapAuto 6.5 (2)
  • 5.1.7 Vehicle Map Product 2: Baidu MapAuto 6.5 (3)
  • 5.1.8 Vehicle Map Product 3: HD Map (1)
  • 5.1.9 Vehicle Map Product 3: HD Map (2)
  • 5.1.10 Map Is A Competitive Edge of Baidu's Autonomous Driving System
  • 5.1.11 Core Value 1 of "Familiar Road" Map: Safety (1)
  • 5.1.12 Core Value 1 of "Familiar Road" Map: Safety (2)
  • 5.1.13 Core Value 2 of "Familiar Road" Map: Comfort
  • 5.1.14 Core Value 3 of "Familiar Road" Map: High Efficiency
  • 5.1.15 Low-cost Construction of Intelligent Driving Map Technology 1: Mapping
  • 5.1.16 Low-cost Construction of Intelligent Driving Map Technology 2: Automatic Feature Extraction
  • 5.1.17 Compared with HD Maps, Baidu Autonomous Driving Map Loses Weight
• 5.2 NavInfo
  • 5.2.1 New Vehicle Map Product System
  • 5.2.2 New Vehicle Map Product 1: Navigation Map
  • 5.2.3 New Vehicle Map Product 2: Scene map (1)
  • 5.2.4 New Vehicle Map Product 2: Scene Map (2)
  • 5.2.5 New Vehicle Map Product 3: HD Map (1)
  • 5.2.6 New Vehicle Map Product 3: HD Map (2)
  • 5.2.7 New Vehicle Map Product 3: HD Map (3)
  • 5.2.8 New Vehicle Map Product 3: HD Map (4)
  • 5.2.9 Intelligent Driving Map Application Case 1
  • 5.2.10 Intelligent Driving Map Application Case 2
  • 5.2.11 Intelligent Driving Map Application Case 3
• 5.3 Amap
  • 5.3.1 Vehicle Map Product 1
  • 5.3.2 Vehicle Map Product 2
  • 5.3.3 Vehicle Map Product 3
  • 5.3.4 Matching of HD Map and SD Map
• 5.4 Tencent
  • 5.4.1 "Vehicle-Cloud Integration" Strategic Layout
  • 5.4.2 Vehicle Map Product 1: Navigation Map
  • 5.4.3 Vehicle Map Product 2: Intelligent Driving Cloud Map (1)
  • 5.4.4 Vehicle Map Product 2: Intelligent Driving Cloud Map (2)
  • 5.4.5 Vehicle Map Product 3
  • 5.4.6 Vehicle Map Product 4
  • 5.4.7 Coping Strategies in "Lightweight Map" Mode: In-depth Cooperation with Tier1s (1)
  • 5.4.8 Coping Strategies in "Lightweight Map" Mode: In-depth Cooperation with Tier1s (2)
• 5.5 BrightMap
  • 5.5.1 Introduction to Vehicle Map Business
  • 5.5.2 Vehicle Map Product: AVP HD Map (1)
  • 5.5.3 Vehicle Map Product: AVP HD Map (2)
• 5.6 Mxnavi
  • 5.6.1 Business Layout
  • 5.6.2 Vehicle Map Product 1: Crowdsourced Map Technology
  • 5.6.3 Vehicle Map Product 2: HD Map Data
  • 5.6.4 Vehicle Map Product 3: HD Map Fusion Platform
  • 5.6.5 Coping Strategies in "Lightweight Map" Mode
• 5.7 Huawei
  • 5.7.1 Vehicle Map Products (1)
  • 5.7.2 Vehicle Map Products (2)
  • 5.7.3 Vehicle Map Products (3)
  • 5.7.4 Vehicle Map Application: High-level Autonomous Driving System (ADS)
• 5.8 Heading Data Intelligence
  • 5.8.1 Map-based Product Lines
  • 5.8.2 Vehicle Map Products (1)
  • 5.8.3 Vehicle Map Products (2)
  • 5.8.4 HD Map Application Scenario 1: Parking
  • 5.8.5 HD Map Application Scenario 2: Highway/Urban Driving Assistance
• 5.9 JD
  • 5.9.1 JD Logistics Builds "Yutu" Platform (1)
  • 5.9.2 JD Logistics Builds "Yutu" Platform (2)
• 5.10 Leador
  • 5.10.1 Autonomous Driving Technology Based on HD Maps
  • 5.10.2 Application of HD Map in Parking Lots
• 5.11 eMapgo
  • 5.11.1 Vehicle Map Products: HD Map for Parking Lots (1)
  • 5.11.2 Vehicle Map Products: HD Map for Parking Lots (2)
  • 5.11.3 Vehicle Map Products: HD Map Cloud Platform
  • 5.11.4 Vehicle Map Application: Autonomous Driving Simulation Test
• 5.12 Momenta
  • 5.12.1 Coping Strategies in "Lightweight Map" Mode
  • 5.12.2 Non-map Solution Algorithm: Lane Line Recognition
  • 5.12.3 Non-map Solution Algorithm: Positioning
  • 5.12.4 Non-map Solution Algorithm: Planning & Control
  • 5.12.5 Algorithm Iteration Path
• 5.13 Roadgrids
  • 5.13.1 Automatic HD Map Building and Update
  • 5.13.2 Selection of Lightweight HD Map Elements
  • 5.13.3 Lightweight Map Closed-loop Solution (1)
  • 5.13.4 Lightweight Map Closed-loop Solution (2)
• 5.14 Here
  • 5.14.1 Map Evolution Mode
  • 5.14.2 Emphasize Map Information Security
  • 5.14.3 Launch UniMap Mapping Platform
  • 5.14.4 HD Map Layout in China

6 HD Map Technology Companies

• 6.1 Mobileye
  • 6.1.1 Focus on Deploying Lightweight Map Business (1)
  • 6.1.2 Focus on Deploying Lightweight Map Business (2)
  • 6.1.3 Benefits of REM
• 6.2 NVIDIA
  • 6.2.1 Vehicle Map Business: DeepMap
  • 6.2.2 Vehicle Map Product: DRIVE Map (1)
  • 6.2.3 Vehicle Map Product: DRIVE Map (2)
• 6.3 DeepMotion
  • 6.3.1 Acquired by Xiaomi
  • 6.3.2 HD Map Technical Solution
  • 6.3.3 Features of HD Map
• 6.4 Mapbox
  • 6.4.1 Vehicle Map Products: Navigation Map
  • 6.4.2 Vehicle Map Products: HD Map
  • 6.4.3 Failure in the Chinese Market