PART 01: Executive summary • Highlights PART 02: Scope of the report • Market overview • Report coverage PART 03: Market research methodology • Research methodology • Economic indicators PART 04: Introduction • Key market highlights • What is an IMU? • Discussion regarding the typical parts of an IMU PART 05: IMUs: A reality check • A study on accuracy versus price for IMUs • Timeline study for improvement of automotive grade IMU sensors • FOG versus MEMS: The ultimate battle explained PART 06: Market landscape • Market overview • Manufacturing process • Value chain analysis • Market size and forecast: IMU sensors market • Regulatory framework • Five forces analysis PART 07: Market segmentation by gyroscope type • Market overview • Market size and forecast: FOG-based IMUs • Market size and forecast: MEMS-based IMUs PART 08: Market segmentation by vehicle type • Market overview • Market size and forecast of IMUs by vehicle type PART 09: Market segmentation by geography • Market in APAC • Market in Europe • Market in Americas PART 10: Market drivers • Supply side drivers • Demand side drivers PART 11: Market challenges • Technological challenges • Economic and marketing challenges PART 12: Market trends • Near term trends • Medium term trends PART 13: Vendor landscape • Competitive benchmarking PART 14: Key vendor analysis • Top-vendor offerings • A review of the players expected to have a MEMS-based IMU focus in the forecast period PART 15: Appendix • List of abbreviations PART 16: Explore Technavio List of Exhibits Exhibit 01: Report coverage Exhibit 02: Automotive IMU sensors market: A snapshot Exhibit 03: Schematic diagram of an IMU Exhibit 04: Common types of IMUs Exhibit 05: Application areas of IMU fusion sensors and other similar MEMS sensors Exhibit 06: Incomplete illumination zone whilst using conventional headlights Exhibit 07: Complete illumination zone created with adaptive headlights Exhibit 08: Action dynamics of autonomous vehicles and IMU's importance in this context Exhibit 09: MEMS gyroscope: Force diagram Exhibit 10: MEMS tuning fork gyroscope: Operation diagram Exhibit 11: MEMS accelerometer: Operation diagram Exhibit 12: Inaccuracy versus price of INS ($) Exhibit 13: INS system grades based on inaccuracy Exhibit 14: Time to market for possible new technologies Exhibit 15: List of estimated IMU errors and their brief descriptions Exhibit 16: Comparison of FOGs and MEMS IMUs Exhibit 17: Global automotive IMU sensors market Exhibit 18: MEMS element manufacturing and quality control process steps Exhibit 19: Value chain analysis for MEMS IMUs Exhibit 20: Overall ecosystem for MEMS IMUs Exhibit 21: Global automotive IMU sensors market 2015-2020 ($ billions) Exhibit 22: IMU sensors cannibalization rates from position and rotational motion sensors 2015-2020 Exhibit 23: Related technologies under the purview of ISO 26262 Exhibit 24: List of automotive safety standards worldwide Exhibit 25: Five forces analysis Exhibit 26: Gyroscopes used in the latest automotive IMUs Exhibit 27: Global automotive FOG IMU sensors market 2015-2020 ($ billions) Exhibit 28: Global automotive MEMS-based IMU sensors market 2015-2020 ($ billions) Exhibit 29: IMU sensors market segmentation by vehicle type Exhibit 30: Global automotive IMU sensors market for passenger cars 2015-2020 ($ billions) Exhibit 31: Changes in IMU penetration rates by vehicle type 2015-2020 Exhibit 32: Global automotive IMU sensors market for commercial vehicles 2015-2020 ($ billions) Exhibit 33: Changes in geographic penetration of IMU sensors over the forecast period 2015 and 2020 Exhibit 34: Global 4-wheeler production proportions based on geography 2015-2020 Exhibit 35: APAC automotive IMU sensors market 2015-2020 ($ billions) Exhibit 36: European automotive IMU sensors market 2015-2020 ($ billions) Exhibit 37: American automotive IMU sensors market 2015-2020 ($ billions) Exhibit 38: Sensor clusters in a vehicle Exhibit 39: MEMS sensors typically used in vehicles Exhibit 40: Global automotive MEMS revenues 2005-2015 ($ billions) Exhibit 41: Selected application areas of automotive MEMS Exhibit 42: Drift rates of gyroscopic classes Exhibit 43: Qualitative benchmarking of IMU manufacturers Exhibit 44: Product offerings by vendors in the IMU space Exhibit 45: Market share of automotive MEMS suppliers 2015

Continental Automotive, Honeywell Sensing and Control, LORD Sensing Systems, Murata Manufacturing, Robert Bosch/Bosch, Motorcycles/Bosch Sensortec, Texas Instruments, ZF TRW, Adafruit, Advanced Navigation, Advanced Sensors Calibration, Arduino, Automated Technology (Phil) (ATEC) and Sencio, BITGEAR Automotive Solutions, Colibrys, SAFRAN, DFRobot, Diversified Technical Systems, InvenSense, KVH, MEMSIC, nexonar, NXP Semiconductors, O-Navi, Race Technology, SBG Systems, Sensonor, STMicroelectronics, UAV Navigation, u-blox, VBOX Automotive, Vectornav Technologies, Xsens, ZMP.