Global and China Automotive Radar Industry Report, 2015-2020
  • Jan.2016
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Global and China Automotive Radar Industry Report, 2015-2020 contains the followings:

1 Status Quo of ADAS in China
2 Automotive Radar Market and Industry
3 Automotive Millimeter-wave Radar Application Trends
4 Automotive Lidar Application Trends
5 9 Automotive Radar Companies
6 ADAS Development Trends

Automotive radars fall into ultrasonic radar, millimeter-wave radar and lidar. The detection distance of ultrasonic radar is usually not more than 5 meters, mainly suitable for parking assistance.

Compared with cameras and lidars, the more popular millimeter-wave radars are the only sensors not subject to weather and light. Millimeter-wave radars outperform cameras in terms of velocity and distance detection overwhelmingly, while cameras are better than millimeter-wave radars at object classification and recognition, but inferior to lidars. In 2015, the global market size of automotive millimeter-wave radars hit about USD1.936 billion; it is expected to reach USD2.46 billion in 2016 and USD5.12 billion in 2020, with the most remarkable growth potentials in the field of electronic products.

Lidar enjoys absolute superiority in object tracking, and also perform well in detection accuracy. In future, both of millimeter-wave radar and Lidar will surpass cameras and embrace broader development potentials, and cameras can be only used as the assistant to radars.

At present, millimeter-wave radars consist of 24GHz and 77GHz types, which are subdivided into narrowband (NB) and ultra-wideband (UWB); according to detection range, there are SRR, MRR and LRR. 24GHz radars are mainly applied to blind spot detection (BSD), lane change assist (LCA), traffic jam assist, rear pre-crash system (RPS) and the like. 77GHz radars are primarily used for adaptive cruise control (ACC), autonomous emergency braking (AEB) and so forth.

Currently, Stop & Go ACC mostly uses three radars. A 77GHz LRR in the middle of a car detects the distance of 150-250 meters with the angle of about 10°; both sides of the car have one 24GHz MRR with the angle of about 30° and the detection distance of 50-70 meters. Delphi and Continental have developed a new-type radar -- MLRR involving dual scanning beam design and integrating three radars into one. ACC and AEB are the most practical ADAS functions, and will become the standard configuration of medium and high-end cars in the future. So, 77GHz radars have been developing quickly with the estimated market size of USD1.036 billion in 2015 and USD2.39 billion in 2018.

Millimeter-wave radar companies are vigorously developing the next-generation 79GHz radars whose detection accuracy is 2- to 4-fold of the current 77GHz radars. 79GHz radars are capable of detecting pedestrians and bicycles, showing a huge space for development; generally, 79GHz can detect objects within 70 meters and may become the mainstream of MRR, or erode some market shares of 24GHz radars in future. 79GHz radars are expected to be available in the market in 2018. Japan's Fujitsu Ten, Panasonic and Denso are the tycoons in this area.

Lidar basically offers simultaneous 3D digital model for autonomous driving. Lidar comprises two categories, namely fixed beam lidar (unit price: not higher than USD60) and scanning beam lidar (unit price: higher than USD10,000). In the early twenty-first century, a millimeter-wave radar was priced at around USD10,000. With powerful strength in the laser field, Japanese vendors successively developed fixed beam lidars to replace millimeter-wave radars. Yet as the price of MMW radar plummeted, the fixed beam lidar fade out in the market. But recently, fixed beam lidars have bounced back, especially Continental's MFL featured with a low price and a small size substitutes millimeter-wave radars partly again. Nevertheless, the detection distance of only 10-12 meters means the potential for expansion.

The expensive laser scanner is most commonly used for VelodyneHDL-64E at the top of Google autonomous-driving vehicles. The high costs are mainly reflected in optical and mechanical parts, particularly optical parts must be made by hand in a long time and unable to be mass-produced. Furthermore, laser diode (Ld), photodiode detector and FPGA are costly as well. The most effective way to reduce costs is to replace mechanical and optical parts with MEMS Micro Mirror. With matured technology, MEMS Micro Mirror has realized commercialization in the field of projectors, but it needs to be improved for lidars. The current defect lies in the angle and a low reflectivity in the case of close distance. For instance, Quanergy’s lidars only fetch the reflectivity of 10% in 100-meter distance, much lower than 80-90% of traditional lidars. A traditional 8-line laser scanner costs about USD3,000-4,000, while Quanergy who uses 8-line scanning claims that mass production can cut down the cost to USD100, which is possible.

The ultrasonic radar field is dominated by Bosch, Panasonic and Valeo, with inadequate market competition and stable prices. Hella acts as the champion in the 24GHz radar field. TRW has enhanced R & D after being merged by ZF. Continental holds large shares in Stop & Go ACC. As for the 77GHz radar realm, Bosch takes the first place by the farthest LRR3 detection range of 250 meters, but Bosch merely targets Audi and Volkswagen; while Continental Automotive serves a number of customers with diversified product lines. In the Japanese market, Fujitsu Ten ranks first and Denso second.

1 Status Quo of Chinese ADAS Market 
1.1 Penetration of Major ADAS Systems
1.2 BSD Preinstallation of Passenger Car Brands in Jan-Nov 2015
1.3 AP Preinstallation of Passenger Car Brands in Jan-Nov 2015
1.4 SVC Preinstallation of Passenger Car Brands in Jan-Nov 2015
1.5 ACC Preinstallation of Passenger Car Brands in Jan-Nov 2015
1.6 AEB Preinstallation of Passenger Car Brands in Jan-Nov 2015
1.7 FCW Preinstallation of Passenger Car Brands in Jan-Nov 2015

2 Automotive Radar Market and Industry 
2.1 Automotive Millimeter-wave Radar Market Size, 2014-2020
2.2 Automotive Millimeter-wave Radar Market Size by Technology, 2014-2020
2.3 Automotive Millimeter-wave Radar Shipment by Technology, 2014-2020
2.4 Global Lidar Market Size and Shipment, 2014-2020
2.5 Automotive Ultrasonic Radar Market Size and Shipment, 2014-2020 
2.6 Supply Relationship between Japanese Brand and ADAS Sensor Suppliers       
2.7 Supply Relationship between American, South Korean and Chinese Brand and ADAS Sensor Suppliers 
2.8 Supply Relationship between European Brand and ADAS Sensor Suppliers
2.9 Market Share of Global Major Automotive Radar Companies, 2015
2.10 Market Share of Global Major Automotive Ultrasonic Radar Companies, 2015

3 Automotive Millimeter-wave Radar Application Trends
3.1 History of Automotive Radar 
3.2 Mercedes-Benz S-Class Uses up to Seven Airtight Radars
3.3 Basic Framework of Automotive Millimeter-wave Radar  
3.4 Millimeter-wave Radar Modulation Technology
3.5 FMCW Represents a Development Trend 
3.6 Comparison between Various Sensors and Classification of Radars
3.7 Millimeter-wave Radar Angles Corresponding to Various ADAS Applications and Detection Range
3.8 Automotive Millimeter-wave Radar Spectrum
3.9 77GHz Automotive Radar System Configuration 
3.10 ACC Development Trend 
3.11 AEB Development Trend 
3.12 79GHz Radar Which Can Detect Pedestrians

4 Lidar Application Trends
4.1 Lidar is the Essential Sensor for Unmanned Driving
4.2 Lidar System Constitution
4.3 Velodyne Radar  
4.4 Velodyne HDL-64E Dismantling  
4.5 Sick LMS-291-S05 Lidar Dismantling  
4.6 IBEO Lidar  
4.7 IBEO Lidar Datasheet
4.8 Object Trajectory Prediction Software System in IBEO Lidar
4.9 Many Japanese and European Brand have Unmanned Prototype Vehicles with IBEO
4.10 Quanergy  
4.11 Parameters of Quanergy’s Ultra-compact LIDAR
4.12 Lidar Cost Reduction Method - MEMS Micro Mirror
4.13 Lidar Post Processing System Diagram
4.14 Inexpensive Fixed-beam Infrared Lidar

5 Automotive Radar Companies
5.1 Continental Automotive 
5.1.1 Profile 
5.1.2 Radar Customers 
5.1.3 Vehicle Models with ACC System 
5.1.4 Vehicle Models with BSD System   
5.1.5 Performance Parameters of Radar        
5.2 Bosch
5.2.1 LRR3 Teardown
5.2.2 LRR Datasheet
5.2.3 MRR Datasheet
5.2.4 Major Vehicle Models with Bosch’s Automotive Radar
5.3 TRW (ZF)
5.3.1 Profile 
5.3.2 Radar History 
5.3.3 24GHZ AC100 
5.4 Delphi 
5.4.1 Profile 
5.4.2 ESR Radar Datasheet
5.5 Hella
5.5.1 Profile 
5.5.2 Performance Parameters of 24GHz Radar       
5.6 Denso
5.6.1 Profile 
5.6.2 ADAS Strategy 
5.6.3 Radar Teardown
5.7 Fujitsu Ten 
5.7.1 Profile 
5.7.2 Radar 
5.8 Autoliv
5.8.1 Profile 
5.8.2 Radar  
5.9 Valeo

6 Automotive ADAS Trends
6.1 Sensor Fusion
6.2 Centralized ADAS ECU
6.3 Automatic Driving Framework
6.4 Automatic Driving Principles

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