Login
Category
Autonomous Vehicles Land, Water, Air 2017-2037
Publisher
IDTechEx
Date
2016-10-26
Quantity
151 pages
Type
Report
Price
PDF Single User : $4,975
Table of Contents 1. EXECUTIVE SUMMARY AND CONCLUSIONS 1.1. Autonomy of navigation, task and power 1.2. Levels of autonomy 1.3. Why have autonomy? 1.3.1. Aerospace 1.3.2. Agriculture 1.3.3. Car - taxi - bus 1.3.4. Industrial shipping 1.3.5. Search and rescue 1.3.6. Underwater 1.4. Many autonomous car trials 1.4.1. First-ever public trial of a robo-taxi service 1.5. Autonomy hits sales of cars but not of other vehicles 1.5.1. Increasing hostility to private cars in cities whether autonomous or not 1.6. Convergence of technologies and new challenges 1.6.1. Overview 1.6.2. Legal issues BMW view 1.6.3. Operational challenges 1.6.4. Technical challenges 1.6.5. Ethical challenges 1.6.6. Insurance challenges 1.7. Hype curve for autonomy today 1.8. Strength of autonomy purchase propositions 1.9. Terminology 1.10. Autonomy of navigation, task and power: examples 1.10.1. Example: Vinerobot micro EV Europe 1.10.2. MARS boat UK 1.10.3. Seaglider AUV boat USA 1.11. Technologies of EIVs 1.11.1. EIV technology past, present and concept on land 1.11.2. EIVs technology past, present and concept on and under water 1.11.3. EIV technology past, present and concept in the air 1.11.4. Space exploration 1.12. Technology of autonomy 1.12.1. Land, water, air 1.12.2. Typical toolkit for autonomy of on-road vehicles 1.13. The current players in on-road autonomy 1.14. Market forecasts 1.14.1. IDTechEx EV and 48V mild hybrid global forecasts number K 2017-2027 1.14.2. IDTechEx EV and 48V mild hybrid global forecasts $ billion 2017-2027 1.14.3. EV Market Value US$ Billion 2017 1.14.4. EV Market Value US$ Billion 2027 1.14.5. On-road Level 3-5 autonomous vehicles forecasts 1.14.6. Relative importance of powertrain and autonomy hardware markets 2017-2037 1.14.7. Software in on-road applications 2014-2030 1.14.8. AMoD Demand for autonomous cars 2016-2035 1.14.9. US on-road addressable market 1.14.10. Ten-year market forecasts for all agricultural robots and drones segmented by type and/or function 1.14.11. Autonomous Underwater Vehicle AUV market 2016-2022 1.15. Autonomy roadmap 1.15.1. Autonomy roadmap 2018-2020 1.15.2. Autonomy roadmap 2023-2040 1.15.3. Sensor and allied technology roadmap 1.15.4. EIV technology roadmap 2017-2036 2. INTRODUCTION 2.1. Definition and building blocks 2.2. Progress towards full autonomy 2.2.1. Simplifying the environment 2.3. Connectivity and automation reduce fuel consumption 2.4. Level 5 autonomous vehicles 2.5. Autonomous vehicles are best when they are electric 2.6. Benefits of autonomy 3. SOME IMPORTANT APPLICATIONAL SECTORS 3.1. Agricultural Robots and Drones 3.1.1. Ultra precision farming 3.1.2. Transition to swarms of slow, cheap, unmanned agricultural robots 3.1.3. Market and technology readiness by agricultural activity 3.2. Autonomous ships 3.3. Autonomous Underwater Vehicles AUV 3.3.1. Why AUVs are necessary 3.3.2. Features 3.3.3. Examples: Seastick 3.3.4. Urashima AUV Japan 4. LEVEL 5 AUTONOMOUS VEHICLE SYSTEM TECHNOLOGY 4.1. Degree of difficulty 4.2. Autonomous vehicles in warehousing and logistics 4.3. Autonomy technology overview: land, water, air 4.3.1. Examples of technologies 4.3.2. Five basic building blocks. 4.4. Hardware toolkit on land 5. SOFTWARE AND PROCESSOR TECHNOLOGY FOR AUTONOMY 5.1. Mission centric advances 5.1.1. Airware 5.1.2. Skydio 5.1.3. Gateway 5.2. Autonomous vehicle platform: functional diagram for sensing and control 5.3. Processing for fully autonomous vehicles 5.3.1. Overview 5.3.2. Capabilities/limitations 5.3.3. Beyond microcontrollers 5.3.4. System on a Chip (SoC) 5.3.5. Sensor fusion 5.3.6. MCU architectures 5.3.7. Consolidation on the ARM architecture 5.3.8. Open source hardware 5.3.9. Moore's Law for processing 5.3.10. Prices equilibrating 5.3.11. Trends 5.3.12. SBC market 6. LIDAR FOR AUTONOMOUS VEHICLES 6.1. LIDAR for autonomous vehicles 7. AUTONOMOUS ENERGY INDEPENDENT VEHICLES EIV; AEROSPACE, LAND, WATER 7.1. End game is energy independent pure electric not dynamic charging 7.2. Electric vehicle powertrain evolution: typical figures expected for cars 7.3. Key enabling technologies by powertrain 7.4. Com-BAT surveillance bat 7.5. Solar Ship EIV helium inflatable fixed wing aircraft Canada autonomous, sun alone 7.6. Northrop Grumman surveillance airship up for 10 years 7.7. Mitre DARPA airship USA 7.8. Titan Aerospace UAV USA 7.9. Solar Eagle UAV USA 7.10. Self assembling autonomous unmanned EIV aircraft Aurora Flight Sciences