Autonomous Driving Simulation Industry Chain Report (Foreign Companies), 2022

Table of Content

1 Overview of Autonomous Driving Simulation and Layout of Foreign Companies
1.1 The International Organization for the Standardization of Autonomous Driving Simulation: ASAM
1.1.1 ASAM Standard Domains
1.1.2 ASAM Project Roadmap: Non-Simulation Domains
1.1.3 ASAM Project Roadmap: OpenX
1.1.4 ASAM’s OpenX Standards (1)
1.1.4 ASAM’s OpenX Standards (2)
1.1.5 ASAM’s New Standards for ADAS (1)
1.1.5 ASAM’s New Standards for ADAS (2)
1.1.5 ASAM’s New Standards for ADAS (3)
1.1.5 ASAM’s New Standards for ADAS (4)
1.2 Partnerships between Foreign OEMs & Autonomous Driving Simulation Platforms
1.3 Integrated Simulation Platform
1.3.1 Comparison of Foreign Integrated Simulation Platforms
1.3.2 Recent Developments in Foreign Integrated Simulation Platforms
1.4 Vehicle Dynamics Simulation
1.4.1 Foreign Vehicle Dynamics Benchmarking Companies
1.5 Traffic Scene Simulation (Traffic Flow Simulation)
1.5.1 Classification of Traffic Scene Simulations
1.5.2 Foreign Traffic Scene Simulation Benchmarking Companies (1)
1.5.2 Foreign Traffic Scene Simulation Benchmarking Companies (2)
1.6 Virtual Scene Simulation
1.6.1 Road Environment Simulation & Weather Environment Simulation
1.6.2 Foreign Virtual Scene Simulation Benchmarking Companies (1)
1.6.2 Foreign Virtual Scene Simulation Benchmarking Companies (2)
1.7 Sensor Simulation
1.7.1 LiDAR & Ultrasonic Radar Simulation
1.7.2 Radar Simulation
1.7.3 Sensor Simulation Benchmarking Companies
1.8 Simulation System Interface
1.8.1 Classification of Simulation System Interfaces
1.8.2 Hardware-in-the-loop Simulation
1.8.3 Hardware-in-the-loop Simulation
1.8.4 Foreign Hardware-in-the-Loop Simulation Benchmarking Companies


2 Foreign Integrated Simulation Platforms
2.1 ANSYS
2.1.1 Profile
2.1.2 Distribution of Products (1)
2.1.2 Distribution of Products (2)
2.1.3 Strengthen Simulation Capabilities through Investment and Acquisition (1)
2.1.3 Strengthen Simulation Capabilities through Investment and Acquisition (2)
2.1.4 Expansion in ADAS and Autonomous Driving Simulation: Acquisitions
2.1.5 Autonomous Driving Simulation Toolchain
2.1.6 ANSYS SCADE
2.1.7 Ansys SCADE Suite
2.1.8 ANSYS VRXPERIENCE (1)
2.1.8 ANSYS VRXPERIENCE (2)
2.1.9 ANSYS SPEOS Optical Simulation (1)
2.1.9 ANSYS SPEOS Optical Simulation (2)
2.1.9 ANSYS SPEOS Optical Simulation (3)
2.1.9 ANSYS SPEOS Optical Simulation (4)
2.1.10 ANSYS Simulation Planning: Application of 5G in Autonomous Vehicles
2.1.11 ANSYS SPEOS 2022 R1 Update
2.1.12 ANSYS 2021 R1 Update
2.1.13 ANSYS 2022 R2 Update
2.1.14 Distribution of Partners
2.1.15 Dynamics in Cooperation
2.2 Siemens
2.2.1 Profile
2.2.2 Autonomous Vehicle Solutions
2.2.3 Expansion in ADAS and Autonomous Driving Simulation: Acquisitions
2.2.4 PreScan
2.2.5 Sensor Models
2.2.6 Supported Sensor Types and Some Scenarios
2.2.7 Autonomous Driving Simulation and Detailed Functions (1)
2.2.7 Autonomous Driving Simulation and Detailed Functions (2)
2.2.7 Autonomous Driving Simulation and Detailed Functions (3)
2.2.8 Release Updates
2.2.9 Autonomous Driving Simulation and Detailed Functions: Application Cases
2.2.10 PAVE360
2.2.11 Supported Customers
2.2.12 Dynamics in Cooperation
2.3 NVIDIA
2.3.1 Profile
2.3.2 Simulation Cloud Platform: DRIVE Constellation
2.3.3 Autonomous Vehicle Simulation Platform: Drive Sim
2.3.4 Neural Reconstruction Engine (NRE)
2.3.5 Computing Module DRIVE AGX Pegasus: NVIDIA DRIVE AGX XAVIER
2.3.5 Computing Module DRIVE AGX Pegasus: NVIDIA DRIVE PX PEGASUS
2.3.6 NVIDIA DRIVE PX Pegasus AI Computing Platform
2.3.7 DRIVE AV Safety Force Field
2.3.8 Cooperation Events
2.4 CARLA
2.4.1 Profile
2.4.2 Basic Architecture
2.4.3 Product Features
2.4.4 Carla 0.9.11
2.4.5 Release Updates, 2020-2021 (1)
2.4.5 Release Updates, 2020-2021 (2)
2.4.5 Release Updates, 2020-2021 (3)
2.5 AVSimulation (LG)
2.5.1 Profile
2.5.2 Simulation Software: SCANeR
2.5.3 Simulation Software: SCANeR Studio 1.9
2.5.4 Simulation Software: SCANeR Studio 2021.1/2022.2
2.5.5 Cooperation Events
2.6 SVL Simulator (LG)
2.6.1 Open Source Simulation Solution: LGSVL
2.6.2 SVL Simulator 2021.3
2.7 AirSim (Microsoft)
2.7.1 Open Source Simulation Solution: AirSim
2.7.2 AirSim Release Update


3 Foreign Vehicle Dynamics Simulation Platforms
3.1 CarMaker (IPG Automotive)
3.1.1 Profile
3.1.1 Main Products
3.1.2 Dynamics Simulation Software: CarMaker (1)
3.1.2 Dynamics Simulation Software: CarMaker (2)
3.1.2 Dynamics Simulation Software: CarMaker (3)
3.1.2 Dynamics Simulation Software: CarMaker (4)
3.1.3 Application of CarMaker in ADAS Development
3.1.4 CarMaker Application Cases
3.1.5 Cooperation Events
3.2 CarSim (Mechanical Simulation)
3.2.1 Dynamics Simulation Software: CarSim (1)
3.2.1 Dynamics Simulation Software: CarSim (2)
3.2.1 Dynamics Simulation Software: CarSim (3)
3.2.2 Dynamics Simulation Software: CarSim 2021.0
3.2.2 Dynamics Simulation Software: CarSim 2022.1
3.3 VI-Grade
3.3.1 Profile
3.3.2 Real-time Vehicle Dynamics Simulation Tool: VI-CarRealTime
3.3.3 Driving Simulators: DiM
3.3.3 Driving Simulators: DiM 150/250
3.3.4 Virtual Proving Ground
3.4 AVL
3.4.1 Profile
3.4.2 AVL CRUISE
3.4.3 AVL Smart ADAS Analyzer
3.4.4 ADAS Vehicle-in-the-Loop Solution: AVL DRIVINGCUBE?
3.4.5 Cooperation Events
3.5 Simpack (Dassault Systemes)
3.5.1 Products
3.5.2 Simpack Automotive Application (1)
3.5.2 Simpack Automotive Application (2)
3.5.3 SIMPACK 2023 Updates
3.6 TESIS DYNAware (Vector)
3.6.1 TESIS and Its Products
3.6.2 TESIS DYNAware
3.6.3 DYNA4
3.6.3 Application Scenarios of DYNA4 (1)
3.6.3 Application Scenarios of DYNA4 (2)
3.6.3 DYNA4 Simulation Scenes
3.6.4 DYNA4 R7 Updates
3.7 MATLAB/Simulink (MathWorks)
3.7.1 Products
3.7.2 Automotive Solutions (1)
3.7.2 Automotive Solutions (2)
3.7.3 Design 3D Scenes for Automated Driving Simulation: RoadRunner
3.7.3 Design 3D Scenes for Automated Driving Simulation: Functions of RoadRunner
3.7.4 Build ADAS Functions with MATLAB and Simulink (1)
3.7.4 Build ADAS Functions with MATLAB and Simulink (2)
3.7.5 Vehicle Dynamics Blockset (1)
3.7.5 Vehicle Dynamics Blockset (2)
3.7.6 Automated Driving Toolbox (1)
3.7.6 Automated Driving Toolbox (2)
3.7.6 Automated Driving Toolbox (3)
3.7.6 Automated Driving Toolbox (4)
3.7.7 MATLAB and Simulink R2022b

4 Foreign Scene Simulation Platforms
4.1 PTV-VISSIM
4.1.1 Profile of PTV
4.1.1 Main Products of PTV
4.1.2 Simulation Solution: Vissim (1)
4.1.2 Simulation Solution: Vissim (2)
4.1.2 Simulation Solution: Vissim (3)
4.1.3 Vissim Driving Behavior - Car-Following Model (1)
4.1.3 Vissim Driving Behavior - Car-Following Model (2)
4.1.3 Vissim Driving Behavior - Car-Following Model (3)
4.1.4 Microscopic, Mesoscopic and Hybrid Macro-meso Simulation Models of PTV Vissim
4.1.5 Vissim Platooning
4.1.6 Application of Vissim in Autonomous Driving (1)
4.1.6 Application of Vissim in Autonomous Driving (2)
4.1.7 New Features of Vissim (1)
4.1.7 New Features of Vissim (2)
4.1.7 New Features of Vissim (3)
4.1.8 Co-simulation between PTV Vissim and Third-party Software
4.2 TSIS-CORSIM
4.2.1 Introduction
4.2.2 Features and Modeling
4.2.3 TSIS-CorSim 2023 (1)
4.2.3 TSIS-CorSim 2023 (2)
4.2.3 TSIS-CorSim 2023 (3)
4.2.3 TSIS-CorSim 2023 (4)
4.2.3 TSIS-CorSim 2023 (5)
4.2.3 TSIS-CorSim 2023 (6)
4.3 Paramics
4.3.1 Introduction
4.3.2 Paramics Discovery (1)
4.3.2 Paramics Discovery (2)
4.3.2 Paramics Discovery (3)
4.3.3 Paramics Discovery 25 (1)
4.3.3 Paramics Discovery 25 (2)
4.3.4 Enabled Projects and Customers
4.4 Transmodeler
4.4.1 Introduction
4.4.2 Overview of Features
4.4.3 Advantages (1)
4.4.3 Advantages (2)
4.4.3 Advantages (3)
4.4.3 Advantages (4)
4.4.4 Features
4.4.5 TransModeler Integrates Traffic Planning and Operation Management
4.4.6 Application
4.4.6 Application in Projects (1)
4.4.6 Application in Projects (2)
4.4.6 Application in Projects (3)
4.4.6 Application in Projects (4)
4.4.7 Release of Chinese Version
4.4.8 TransModeler SE
4.4.9 Comparison between TransModeler SE and TransModeler
4.4.10 Digital Twin Traffic Simulation: BrightMap + TransModeler
4.5 AIMSUN
4.5.1 Introduction
4.5.2 Aimsun Framework Model and Hybrid Simulation
4.5.3 Aimsun Next Modeling Tool
4.5.4 New Features in Aimsun Next 22 (1)
4.5.4 New Features in Aimsun Next 22 (2)
4.5.4 New Features in Aimsun Next 22 (3)
4.5.4 New Features in Aimsun Next 22 (4)
4.5.4 New Features in Aimsun Next 22 (5)
4.5.4 New Features in Aimsun Next 22 (6)
4.5.5 Aimsun Application Fields: Mobility Planning for Cities, Highways and Regions
4.5.6 Aimsun Application Fields: Real-time Transportation Management
4.5.7 Aimsun Application Fields: Connected and Autonomous Vehicles (1)
4.5.7 Aimsun Application Fields: Connected and Autonomous Vehicles (2)
4.5.7 Aimsun Application Fields: Connected and Autonomous Vehicles (3) – Cases
4.6 SUMO
4.6.1 Introduction
4.6.2 Main Functional Modules
4.6.3 Main Features
4.6.4 Application Fields
4.7 ESI Pro-SiVIC
4.7.1 Profile of ESI
4.7.2 Acquisition History of ESI Group
4.7.3 Distribution of Products of ESI Group
4.7.4 ESI Pro-SiVIC
4.7.5 Advantages of ESI Pro-SiVIC (1)
4.7.5 Advantages of ESI Pro-SiVIC (2)
4.7.6 Application Fields of ESI Pro-SiVIC
4.7.7 Main Operation Processes and Element Libraries of ESI Pro-SiVIC
4.7.8 Customer Cases of ESI Pro-SiVIC
4.8 rFpro
4.8.1 Introduction
4.8.2 Simulation Software (1)
4.8.2 Simulation Software (2)
4.8.3 Digital Road Models (1) - Overview
4.8.3 Digital Road Models (2) - Public Road
4.8.3 Digital Road Models (3) - Proving Ground
4.8.4 ADAS & AV Solutions
4.8.4 Application Cases of rFpro in ADAS & AV (1)
4.8.4 Application Cases of rFpro in ADAS & AV (2)
4.8.5 ADAS/AV: Synthetic Training Data
4.8.6 ADAS/AV: SIL, HIL and Real-time DIL
4.8.7 Customers and Partners
4.8.7.1 Cooperation Case I: rFpro + Xylon
4.8.7.2 Cooperation Case II: rFpro + Nardo Proving Ground
4.9 Cognata
4.9.1 Profile
4.9.2 Overview of Autonomous Driving Simulation (1)
4.9.2 Overview of Autonomous Driving Simulation (2)
4.9.3 Simulation Products (1)
4.9.3 Simulation Products (2)
4.9.3 Simulation Products (3)
4.9.3 Simulation Products (4)
4.9.3 Simulation Products (5)
4.9.3 Simulation Products (6)
4.9.3 Simulation Products (7)
4.9.4 Large-scale Scene Generation (1)
4.9.4 Large-scale Scene Generation (2)
4.9.5 Dynamics in Cooperation
4.10 Parallel Domains
4.10.1 Profile
4.10.2 Simulation Platform
4.10.2 Simulation Platform: Batch Mode
4.10.2 Simulation Platform: Step Mode
4.10.3 Public Datasets
4.10.3 Public Dataset Examples (1)
4.10.3 Public Dataset Examples (2)
4.11 AAI
4.11.1 Profile
4.11.2 Main Products & Solutions
4.11.3 Sensor Simulation
4.11.4 AAI Replicar
4.11.5 Scene Cloning and Extraction (1)
4.11.6 Data Labeling Service
4.12 Applied Intuition
4.12.1 Profile
4.12.2 Simulation Platform (1)
4.12.2 Simulation Platform (2)
4.12.3 Verify L3+ AV
4.12.4 Verify ADAS
4.12.5 Latest Developments
4.13 Ansible Motion
4.13.1 Profile
4.13.2 DIL Driving Simulator Products
4.13.2 Delta Series S3 DIL Simulators
4.13.2 Sigma Series DIL Simulators
4.13.2 Theta Series DIL Simulators
4.13.3 Driving Simulator Application
4.13.4 Technical Partners of DIL Simulators
4.14 UNITY
4.14.1 Introduction
4.14.2 Unity SimViz
4.14.3 AirSim on Unity
4.15 CityEngine
4.15.1 Introduction
4.15.2 Updates
4.16 VTD
4.16.1 MSC Software
4.16.2 Introduction
4.16.2 Introduction
4.16.2 Introduction
4.16.3 Components
4.16.4 Application Fields
4.16.5 OpenDRIVE Scenario Editor


5 Foreign Sensor Simulation Platforms
5.1 monoDrive
5.1.1 Profile
5.1.2 Overview of Products
5.1.2 Sensor Simulator (1)
5.1.2 Sensor Simulator (2)
5.1.3 Simulator Features
5.1.4 Camera Simulator
5.1.5 Real to Virtual
5.1.6 Real-time SiL and HiL
5.1.7 Test Models
5.1.8 Scene Editor - Lights API
5.1.9 monoDrive Map + Carla Map
5.1.10 LiDAR Sensor Simulation Example
5.2 RightHook (under VI-grade)
5.2.1 Profile
5.2.2 VI-grade Simulator Series
5.2.3 VI-WorldSim (1)
5.2.3 VI-WorldSim (2)
5.2.4 VI-WorldSim Environment/Scene Construction (1)
5.2.4 VI-WorldSim Environment/Scene Construction (2)
5.2.4 VI-WorldSim Sensor Fusion
5.2.4 Third-party Software Tool/Interface of VI-grade Simulator
5.2.5 Customers of VI-grade
5.3 Foretellix
5.3.1 Profile
5.3.2 Foretify Solution
5.3.2 Foretify Coverage Driven Verification (CDV) Flow
5.3.3 M-SDL/OSC2.0 and Test & Verification Module Packages
5.3.4 Customers and Cooperation Cases
5.4 OTSL
5.4.1 Profile
5.4.2 COSMOSIM (1)
5.4.2 COSMOSIM (2)
5.4.3 Dynamics


6 Foreign Simulation Interfaces and HIL Platforms
6.1 NI
6.1.1 Profile
6.1.2 Autonomous Driving Test Solutions
6.1.3 Data Logging System AD
6.1.4 Camera Interface Modules for ADAS
6.1.5 HIL & SIL Closed-loop Sensor Fusion Tests
6.1.6 ADAS/AV: Sensor Fusion Test
6.1.7 ADAS/AV: Vehicle Radar Test System (VRTS)
6.1.8 ADAS/AV Test: Coverage Analysis
6.1.9 ADAS/AV Test: V2X Conformance Test
6.1.10 Cooperation Events
6.2 ETAS
6.2.1 Profile
6.2.2 Test and Validation Services: LABCAR (1)
6.2.2 Test and Validation Services: LABCAR (2)
6.2.2 Test and Validation Services: LABCAR (3)
6.2.3 Test and Validation Services: Co-simulation Platform COSYM (1)
6.2.3 Test and Validation Services: Co-simulation Platform COSYM (2)
6.2.3 Test and Validation Services: Co-simulation Platform COSYM (3)
6.3 Vector
6.3.1 Profile
6.3.2 Closed-loop Test System Simulation Environment: Overview
6.3.2 Closed-loop Test System Simulation Environment: Features
6.3.2 Closed-loop Test System Simulation Environment: Application
6.3.3 Specific HIL Application Cases
6.3.4 VT System: HIL System Seamlessly Integrated with CANoe
6.4 dSPACE
6.4.1 Profile
6.4.2 ADAS/AD Development and Verification Solutions
6.4.2.1 Rapid Prototyping & Machine Learning (1)
6.4.2.1 Rapid Prototyping & Machine Learning (2)
6.4.2.2 SIL and HIL Tests
6.4.2.3 Simulation Modeling
6.4.2.4 Bus and Network Simulation
6.4.2.5 IVS Sensor DATA Management Platform for Autonomous Driving
6.4.3 Cooperation Events (1)
6.4.3 Cooperation Events (2)
6.4.4 Partners
6.4.4 Automotive Customers
6.4.5 Dynamics