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Robot Cars and Trucks: Market Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019

Winter Green Research
Published Date » 2013-10-25
No. Of Pages » 362
WinterGreen Research announces that it has published a new study Robot Cars and Trucks: Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2019. The 2013 study has 362 pages, 144 tables and figures. Worldwide markets are poised to achieve significant growth as robot cars and trucks permit users to implement automated driving.

IBM and Google are sure to be a significant software vendors for all the robot car and truck market participants. IBM has a huge head start with its excellent middleware branded integrated solutions that are hardened and reliable.

As automated process hits the auto industry as a disruptive force, it parallels the automated piloting of the airline industry that saw significant labor savings implementation. Automated vehicle driving can be done anywhere just by connecting the car to the adaptive cruise control, adaptive steering and braking, and lane assist systems.

Robot cars and trucks incrementally add automated process to driving. As software is added to cars and trucks it is done in concert with modification to the steering, breaking, and other automotive systems. Autonomous functions for vehicles are increasingly adopted.

Change is incremental, we do not have fully functioning robot cars immediately, rather, steering, collision avoidance, parking, test driving, series of camera and radar based monitoring systems, lane assist, and adaptive cruise control are being implemented, presaging rapid adoption of robot cars and trucks as the various functions mature and work in the real world.

According to Susan Eustis, team leader for the preparation of the study, "The market for robot car and truck vehicles is anticipated to expand in parallel with the deployment of appropriate roadway controls funded by government programs. The large public investments for robot vehicles so far has been for development of technology that works for military purposes.

The robot car designs amalgamate a group of features to represent an automated process solution. These include the hardware, the software middleware, the steering system, adaptive cruise control, numerous software applications, an integrated systems approach, and related services. Significant investments in research and development are necessary as the emerging robot cars and trucks industry builds on incremental technology roll outs.

Robot car and truck commercial autonomous car market shipments forecasts indicate that markets beginning to develop in 2014 will rise to $3.6 billion by 2019. Growth is a result of various moves toward autonomous vehicles that park themselves, provide automated steering, are used as test vehicles, are used as mapping vehicles, and that provide driver alerts but fall sort of complete robotically operated car vehicles.

Market driving forces relate primarily to the need for increased safety and personizalization for autos. Car manufacturers are positioning with robot car models to meet demand at the high end. Many robot vehicle car vendors are making automation for personal vehicles and trucks a reality.

WinterGreen Research is positioned to help customers face challenges that define the modern enterprises. The increasingly global nature of science, technology and engineering is a reflection of the implementation of the globally integrated enterprise. Customers trust WinterGreen Research to work alongside them to ensure the success of the participation in a particular market segment.

WinterGreen Research supports various market segment programs; provides trusted technical services to the marketing departments. It carries out accurate market share and forecast analysis services for a range of commercial and government customers globally. These are all vital market research support solutions requiring trust and integrity.

This robot car and truck shipment analysis is based on consideration of the metrics for the number of cars shipped, percent of cars outfitted with automated cruise control, and probable market penetrations of robot cars. Experience using the robot cars and trucks is another factor that contributes to development of triangulation regarding market forecasts for the sector.

Companies Profiled

Market Leaders

  • Google 
  • BMW 
  • Daimler 
  • General Dynamics 
  • GM 
  • Kairos 
  • Mitsubshi 
  • Ford
  • Tesla
  • AG/Mercedes-Benz Fuji
  • Lockheed Martin
  • iRobot
  • Nissan
  • Toyota

Market Participants

  • Allen Vanguard
  • Audi
  • BAE Systems
  • Boston Dynamics
  • Bosch Group
  • Evatran Group
  • BMW
  • Buick Group
  • Chrysler / Dodge
  • Daimler AG/Mercedes-Benz
  • ECA Robotics
  • Elbit Systems
  • Evatran Group
  • Ford / Lincoln
  • Fuji Heavy Industries / Subaru
  • General Dynamics
  • Google Self-Driving Car
  • GM / Cadillac
  • iRobot Revenue
  • Kairos Autonomi
  • Kongsberg
  • Jaguar Land Rover
  • Lockheed Martin
  • Mesa Robotics
  • Mitsubishi
  • Nissan
  • Qualcomm
  • Thales Group
  • Toyota / Lexus
  • Vecna Technologies
  • Volkswagen / Porsche
  • Volvo
  • Visteon
  • WiTricity
Check Out These Key Topics

  • Robot Cars and Trucks
  • Robot steering
  • Robot breaking
  • Robot automotive systems
  • Autonomous functions for vehicles
  • Collision avoidance
  • Automated parking
  • Robot Parking
  • Robot test driving
  • Car cameras
  • Truck follow me systems
  • Radar based monitoring systems
  • Lane assist
  • Adaptive cruise control
Table of Contents

Robot Cars and Trucks Executive Summary
Robot Car and Truck Market Driving Forces
Robot Car and Truck Market Shares
Robot Car and Truck Market Forecasts

1. Robot Cars and Trucks Market Definition and Market Dynamics
1.1 Robot Cars And Trucks Global Markets
1.1.1 Robot Cars And Trucks Operations And Performance
1.1.2 Robot Cars And Trucks Business and Technology Trends
1.1.3 Wireless Car Charging
1.1.4 Vehicle Sharing
1.2 Auto Industry
1.2.1 Robot Cars And Trucks Economic Forces
1.2.2 Cars Represent 20% Of The US Economic Retail Spending
1.3 Robot Cars And Trucks Design Trajectories
1.4 Robot Cars And Trucks EVs
1.4.1 Robot Cars And Trucks Cost Effective In City Conditions
1.4.2 Lithium-Ion Car Batteries
1.4.3 Private-Public Partnerships
1.5 Lithium-Ion Battery Target Markets
1.6 UGV Enabling Technologies
1.6.1 Sensor Processing
1.6.2 Machine Autonomy
1.7 Military Robot Follow-Me Capability
1.7.1 UGV Follow-Me Capability
1.7.2 Communications Bandwidth
1.7.3 Battery Power
1.7.4 Combination Of Batteries Linked To Onboard Conventional Diesel
1.7.5 SUGVs
1.7.6 Mid-Size Category UGV
1.7.7 Large UGV
 
2. Robot Cars and Trucks Market Shares and Market Forecasts
2.1 Robot Car and Truck Market Driving Forces
2.2 Robot Car and Truck Market Shares
2.2.1 General Dynamics Robotic Systems
2.2.2 General Dynamics Mobile Detection
2.2.3 General Dynamics Tactical Autonomous Combat – Chassis (TAC - C)
2.2.4 Google Self-Driving Car
2.2.5 Google Self-Driving Car from Auto Components
2.2.6 Northrop Grumman
2.2.7 Northrop Grumman Cutlass
2.2.8 Northrop Grumman Mini-ANDROS II
2.2.9 IBM
2.2.10 IBM / Ford Automotive Vehicle System M2M
2.2.11 Ford Robotically Controlled Vehicles On Test Track
2.2.12 Toyota Production LS 2013 Model Self-Driving Tools Technology
2.2.13 Hyundai Genesis Smart Cruise Control
2.2.14 Nissan
2.2.15 BMW
2.2.16 Daimler AG / Mercedes-Benz Self Driving Car
2.2.17 GM Chevrolet Impala 2014
2.2.18 Kairos Autonami Pronto4
2.3 Robot Car and Truck Market Forecasts
2.3.1 Automotive Market Discussion
2.3.2 Electric Vehicle EV Market Forecasts and Installed Base
2.3.3 Electric Vehicle EV Market Forecasts
2.3.4 Discussion of Various Size Military Robot Market Strengths and Challenges
2.3.5 Larger Military Robot Forecasts
2.3.6 Trends in the Auto Industry that Will Be Present in the Military Robot Industry
2.3.7 Unmanned Ground Systems Roadmap
2.3.8 Robots Represent Modernization of Military
2.3.9 Commercial Car Adaptive Cruise Control
2.4 Robot Car and Truck Regional Market Segments
2.4.1 Ford North America
2.4.2 Ford South America
2.4.3 Ford Europe
2.4.4 Ford Asia Pacific Africa
2.4.5 Military Robot Regional Analysis
2.5 Military Ground Robot Installed Base and Shipments Market Forecasts

3. Robot Cars and Trucks Product Description
3.1 Google
3.2 IBM / Ford
3.2.1 IBM / Ford Automotive Vehicle System M2M
3.2.2 Ford Leveraging IBM Partnership, Using Sensors
3.2.3 IBM Smarter Planet Strategy
3.3 Ford Self Driving Car
3.3.1 Ford Robotic Auto Control System
3.3.2 Ford Adaptive Cruise Control
3.4 Nissan
3.4.1 Nissan EPORO Robot Car
3.5 GM / Cadillac
3.6 Toyota
3.7 Audi
3.8 Daimler AG / Mercedes-Benz
3.9 Volkswagen
3.10 Volvo
3.11 BMW
3.11.1 BMW Partially Automated Driving Functions
3.11.2 BMW Autonomous Car Safety Features
3.12 Subaru Adaptive Cruise Control
3.13 Honda
3.14 Hyundai Genesis Smart Cruise Control
3.15 Jaguar Adaptive Cruise Control
3.16 Land Rover
3.16.1 Land Rover Smart Driver Assistance Technologies
3.16.2 Land Rover Reverse Traffic Detection
3.16.3 Land Rover Electric Power-Assisted Steering with Park Assist
3.16.4 Land Rover Powerful Braking With Lightweight Brembo Calipers
3.16.5 Land Rover Enhanced Active Safety Technologies
3.16.6 Land Rover Engineered for Maximum Occupant Protection
3.17 Lexus Adaptive Cruise Control
3.18 Lincoln
3.18.1 Lincoln Adaptive Cruise Control
3.18.2 Lincoln Active Park Assist
3.18.3 Lincoln Lane-Keeping System
3.18.4 Lincoln Intelligent Access with Push-Button Start
3.18.5 Lincoln BLIS® with Cross-Traffic Alert
3.19 Porsche
3.20 Buick LaCrosse 2014
3.21 GM Chevrolet Impala 2014
3.21.1 GM Safety Technology
3.22 Chrysler 300 SRT8
3.22.1 Chrysler Technology Recognizes When Things Slow Down
3.22.2 Chrysler Backup, Safety & Security
3.23 Dodge Durango 2014
3.24 Kongsberg CORTEX
3.25 BAE Systems Land Vehicles Given a Brain of their Own
3.26 Kairos Autonami Pronto4 Retrofitting System for Existing
Vehicles or Vessels
3.26.1 Kairos Pronto4™ Agnostic Autonomy System Features
3.26.2 Kairos ProntoMimic Software Suite
3.27 Lockheed Martin SMSS
3.27.1 Lockheed Martin SMSS User-Proven Autonomy
3.27.2 Lockheed Martin SMSS Unmanned Capabilities
3.28 General Dynamics Robotic Systems
3.28.1 General Dynamics Mobile Detection Assessment and
Response System (MDARS)
3.28.2 General Dynamics Tactical Autonomous Combat – Chassis (TAC - C)
 
4. Robot Cars and Trucks Technology
4.1 MIT Demonstrates Swarm Of Modular Robots That Self-Assemble Into Larger Shapes
4.2 Robotic Car Fish-Inspired Technology
4.3 Adaptive Cruise Control (ACC)
4.3.1 Distance Measured By A Small Radar Unit
4.4 ACC Technology
4.4.1 Adaptive Cruise Control
4.4.2 Lexus_IS250_ACC Adaptive Cruise Control
4.5 Advanced Robot Technology: Navigation, Mobility, And Manipulation
4.5.1 Robot Intelligence Systems
4.5.2 Real-World, Dynamic Sensing
4.6 User-Friendly Interfaces
4.6.1 Tightly-Integrated, Electromechanical Robot Design
4.7 Field Based Robotics Iterative Development
4.7.1 Next-Generation Products Leverage Model
4.7.2 Modular Robot Structure And Control
4.7.3 Lattice Architectures
4.7.4 Chain / Tree Architectures
4.7.5 Deterministic Reconfiguration
4.7.6 Stochastic Reconfiguration
4.7.7 Modular Robotic Systems
4.8 Intel Military Robot Cultivating Collaborations
4.9 Hitachi Configuration Of Robots Using The SuperH Family
4.9.1 Hitachi Concept of MMU And Logic Space
4.9.2 Robotic Use of Solid State Thin Film Lithium-Ion Batteries
4.10 Network Of Robots And Sensors
4.10.1 Sensor Networks Part Of Research Agenda
4.10.2 Light Sensing
4.10.3 Acceleration Sensing
4.10.4 Chemical Sensing
4.11 Military Robot Technology Functions
4.12 Carbon Nanotube Radio
4.13 Military Robot Funded Programs
4.13.1 Army Brigade Combat Team Modernization
4.13.2 XM1216 Small Unmanned Ground Vehicle (SUGV)
4.13.3 UUV Sub-Pillars
4.13.4 Hovering Autonomous Underwater Vehicle (HAUV)
4.13.5 Alliant
4.13.6 ATSP is a Government-Wide Contracting Vehicle
4.13.7 Quick, Efficient Contracting Vehicle
4.13.8 Facilitates Technology And Insertion Into Fielded Systems
4.13.9 Access to All Northrop Grumman Sectors
4.14 iRobot Technology
4.14.1 iRobot AWARE Robot Intelligence Systems
4.14.2 iRobot Real-World, Dynamic Sensing.
4.14.3 iRobot User-Friendly Interface
4.14.4 iRobot Tightly-Integrated Electromechanical Design.
4.15 Evolution Robotics Technology Solutions
4.16 Military Robot Technology Enablers
4.16.1 Military Robot Logistics
4.17 MRAP ATV: Requirements and Contenders
4.18 Military Robot Enabling Technology
4.19 Intel Integrated Circuit Evidence-Based Innovation
4.19.1 Open Robotic Control Software
4.19.2 Military Robot Key Technology

5. Robot Cars and Trucks Company Description
5.1 Allen Vanguard
5.1.1 Allen Vanguard Rapid Development
5.2 Audi
5.2.1 Audi Gets The Second Driverless Car Permit In Nevada
5.3 BAE Systems
5.4 Boston Dynamics
5.4.1 Boston Dynamics LS3 - Legged Squad Support Systems
5.4.2 Boston Dynamics CHEETAH - Fastest Legged Robot
5.4.3 Boston Dynamics Atlas - The Agile Anthropomorphic Robot
5.4.4 Boston Dynamics BigDog
5.4.5 Boston Dynamics LittleDog - The Legged Locomotion Learning Robot
5.5 Bosch Group
5.5.1 Evatran Group Plugless Sales Go Live with Bosch
5.5.2 Bosch Business Overview
5.5.3 Bosch Group Reorganized Its Business Sectors
5.1.1 Bosch Consumer Goods sales
5.1.2 Bosch Automotive Technology sales
5.1.3 Bosch Industrial Technology Sales
5.1.4 Bosch Group
5.1.5 Bosch Healthcare Supports Independent Living At Home
5.1.6 Bosch Security Systems Division
5.1.7 Robert Bosch Healthcare
5.1.8 Robert Bosch Remote Patient Monitoring
5.1.9 Bosch Healthcare Telehealth Systems
5.1.10 Bosch Healthcare Health Buddy System
5.1.11 Bosch Addresses Role of Compliance in Telehealth Adoption
5.1.12 Bosch North America Veterans Health Administration
5.1.13 Bosch / VRI
5.1.14 Bosch Healthcare and GreatCall Partnership
5.1.15 Bosch Healthcare - Telehealth And Care Solutions Join To Become The Leading Provider Of Health, Safety, And Communication
5.1.16 Bosch Group and Health Hero Network
5.6 BMW
5.6.1 BMW Strategy
5.6.2 BMW Revenue
5.7 Buick Group
5.8 Chrysler / Dodge
5.8.1 Chrysler Revenue
5.9 Daimler AG/Mercedes-Benz
5.9.1 Daimler AG Revenue
5.10 ECA Robotics
5.11 Elbit Systems
5.11.1 Elbit Systems Principal Market Environment
5.11.2 Elbit Systems
5.11.3 Elbit Systems Principal Market Environment
5.12 Evatran Group
5.13 Ford / Lincoln
5.13.1 Ford Business
5.13.2 Ford Motor Vehicle Fuel Economy
5.13.3 Ford Revenue
5.14 Fuji Heavy Industries / Subaru
5.14.1 Subaru Automotive Business
5.14.2 Subaru of America
5.15 G-NIUS
5.16 General Dynamics
5.16.1 Sequester Mechanism
5.16.2 General Dynamics Revenue
5.16.3 General Dynamics Robotic Systems
5.16.4 General Dynamics Robotic Systems (GDRS) Vision
5.16.5 General Dynamics Robotic Systems (GDRS) Manufacturing
5.16.6 General Dynamics Autonomous Land And Air Vehicle Development
5.17 Google Self-Driving Car
5.17.1 Google Cars Address Vast Majority Of Vehicle Accidents Due To
Human Error
5.17.2 Google Business
5.1.17 Google 2012 Corporate Highlights
5.17.3 Google Search
5.1.18 Google Revenue
5.1.19 Google Second Quarter 2013 Results
5.1.20 Google Revenues by Segment and Geography
5.1.21 Google / Motorola Headcount
5.1.22 Google / Motorola
5.18 GM / Cadillac
5.18.1 GM Business
5.18.2 GM Strategy
5.18.3 GM Revenue
5.19 Honda
5.20 Hyundai
5.21 iRobot
5.21.1 iRobot Home Robots:
5.21.2 iRobot Defense and Security: Protecting Those in Harm’s Way
5.21.3 iRobot Role In The Robot Industry
5.21.4 iRobot SPARK (Starter Programs for the Advancement of Robotics
Knowledge)
5.21.5 iRobot Revenue
5.21.6 iRobot Acquires Evolution Robotics, Inc.
5.21.7 iRobot / Evolution Robotics
5.22 Kairos Autonami
5.22.1 Kairos Autonomi Autonomy ROI
5.22.2 Kairos Autonomi Upgrades Robot Conversion Kit
5.23 Kongsberg
5.24 Jaguar Land Rover
5.25 Lockheed Martin
5.25.1 Lockheed Martin Symphony Improvised Explosive Device Jammer Systems
5.25.2 Lockheed Martin Aeronautics Revenue
5.25.3 Lockheed Martin Electronic Systems
5.25.4 Lockheed Martin
5.26 Mesa Robotics
5.26.1 Systems Development Division of Mesa Associates
5.26.2 Mesa Robotics Affordable Robotic Solutions
5.26.3 Mesa Robotics Revenue
5.27 Mitsubishi
5.28 Nissan
5.28.1 Nissan Revenue
5.29 Qualcomm
5.29.1 Qualcomm Business
5.29.2 QMC Offers Comprehensive Chipset Solutions
5.29.3 Qualcomm Government Technologies
5.29.4 Qualcomm Internet Services
5.29.5 Qualcomm Ventures
5.29.6 Qualcomm Revenue
5.29.7 Qualcomm / WiPower
5.29.8 Qualcomm Standardization Capabilities
5.29.9 Qualcomm Regulatory and Compliance Capabilities
5.30 Thales Group
5.30.1 Thales Core Businesses
5.30.2 Thales: - A Global Player
5.30.3 Thales Revenue
5.30.4 Thales Key Technology Domains
5.30.5 Thales Open Research
5.30.6 Thales Stance on Environment
5.30.7 Thales Product Design
5.30.8 Thales Site Management
5.30.9 Thales Alenia Space Integration Of Service Module For The Fourth ATV
5.30.10 Thales Sonar ‘Excels’ In Anti-Submarine Warfare Exercise
5.30.11 Thales Group Ground Alerter 10
5.30.12 Thales Group Ground Master 400 (GM 400)
5.30.13 Thales Group Ground Smarter 1000
5.30.14 Thales Group
5.31 Toyota / Lexus
5.31.5 Toyota
5.23.1 Toyota Avalon Wireless Charging Pad
5.23.2 Toyota / Lexus
5.23.3 Toyota Revenue
5.32 Vecna Technologies
5.33 Volkswagen
5.33.5 Volkswagen Revenue and Shipments
5.33.6 Volkswagon Brands
5.33.7 Porsche SE
5.34 Volvo
5.34.5 Volvo Revenue
5.35 Visteon
5.35.5 Visteon Revenue
5.36 WiTricity

List of Tables


Table ES-1 Robot Cars and Trucks Market Driving Forces
Table ES-2 Autonomous Vehicle Features Driving Adoption of Robotic Cars
Table ES-3  Leaders in Development of Robot Cars and Trucks
Figure ES-4 Robot Commercial Autonomous Car Market Shipments Forecasts Dollars, Worldwide, 2013-2019
Table 1-1 Wireless Car Charger Market Characteristics
Table 1-2 Principal Features Used To Compare Rechargeable Batteries
Table 2-1 Robot Cars and Trucks Market Driving Forces
Table 2-2 Autonomous Vehicle Features Driving Adoption of Robotic Cars
Table 2-3 Leaders in Development of Robot Cars and Trucks
Figure 2-4 General Dynamics TAC-C Robot
Figure 2-5 Next-Generation General Dynamics Robots
Figure 2-6 Google Driverless Car
Figure 2-7 Northrop Grumman Mini-ANDROS II
Figure 2-8 IBM MessageSight Ford
Table 2-9 Toyota Production LS 2013 Model Self-Driving Tools Technology
Figure 2-11 Robot Commercial Autonomous Car Market Shipments Forecasts Dollars,
Worldwide, 2013-2019
Table 2-12 Robot Car Shipments and Installed Base Compared to Electrical Vehicle
Shipments and Installed Base Dollars and Units, Worldwide, 2013-2019
Table 2-13 Automotive Industry Market Factors
Table 2-14 Automotive Industry Limits On The Ability To Reduce Costs
Table 2-15 Electrical Vehicle Installed Base and Robot Cars and TrucksShipments
Dollars and Units, Worldwide, 2012-2019
Table 2-16 Electrical Vehicle Installed Base and Robot Cars and TrucksShipments
Dollars and Units, Worldwide, 2012-2019
Figure 2-17 Electric Vehicle EV Market Forecasts, Units, Worldwide,
2013-2019
Table 2-18 Electrical Vehicle Shipments and Robot Cars and TrucksMarket Penetration
Dollars and Units, Worldwide, 2012-2019
Table 2-19 Larger Military Ground Robot Market Forecasts Units and Dollars,
Worldwide, 2013-2019
Table 2-20 Unmanned Ground Systems Roadmap
Figure 2-21 Military Ground Robot Regional Market Segments, Dollars, 2012
Table 2-22 Military Ground Robot Regional Market Segments, 2012
Table 2-23 Military Ground Robot Installed Base and Shipments Market Forecasts,
Units, Worldwide, 2013-2019
Figure 3-1 Google Self Driving Car
Figure 3-2 IBM MessageSight Ford
Figure 3-3 Ford Self Driving Car
Figure 3-4 Ford Robotic Auto Control System
Figure 3-5 Ford Robotic Auto Control System
Figure 3-6 Nissan EPORO Robot Car
Figure 3-7 Nissen Pivo
Figure 3-8 Nissan Pivo With Built-in HD Cameras
Figure 3-9 Nissan Pivo Overall Design
Figure 3-10 GM Cadillac Self Driving Car
Figure 3-11 GM EN-V Hands Free Driverless Auto
Figure 3-12 GM EN-V Hands Free Driverless Auto
Figure 3-13 2013 Red Sonic General Motors Auto Driving
Figure 3-14 Toyota Self Driving Car
Figure 3-15 Toyota Self Driving Car Wheel
Table 3-16 Toyota Autonomous Driving Tools
Table 3-17 Toyota production LS 2013 Model Self-Driving Tools Technology
Figure 3-18 Audi Connect
Figure 3-19 Mercedes-Benz Self Driving Car
Figure 3-20 Volkswagen Self Driving Car
Figure 3-21 Volkswagen TAP Autopilot
Table 3-22 Volkswagen TAP Automatic Driving Support Technology
Figure 3-23 Volvo Self Driving Car Functions
Figure 3-24 Volvo Self Driving Car Auto Parking
Figure 3-25BMW Self Driving Car
Table 3-26 Subaru Adaptive Cruise Control Features
Figure 3-27 Honda Car Safety Adapter Systems
Table 3-28 Hyundai Genesis Smart Cruise Control
Figure 3-29 Land Rover Range Rover
Figure 3-30 Land Rover Range Rover
Table 3-31 Land Rover Terrain Response® Functions
Figure 3-32 Land Rover Range Rover
Table 3-33 Land Rover Enhanced Active Safety Technologies
Figure 3-34 Land Rover Range Rover
Figure 3-35 Lexus Adaptive Cruise Control
Figure 3-36 Porsche Adaptive Cruise Control Illustrated
Figure 3-37 Buick LaCrosse 2014
Table 3-38 GM Safety Technology
Figure 3-39 Chrysler Adaptive Cruise Control
Figure 3-40 Dodge Durango 2014
Figure 3-41 Kongsberg CORTEX
Figure 3-42 BAE Systems Remote Military Land Vehicles
Figure 3-43 Kairos Autonami Pronto4 Retrofitting System for Existing Vehicles or Vessels
Figure 3-44 Kairos Pronto4™ Agnostic Autonomy Syste
Table 3-45 Kairos Pronto4™ Agnostic Autonomy Sub-Systems
Table 3-46 Kairos ProntoMimic Software Suite Features
Figure 3-47 Lockheed Martin SMSS
Table 3-48 General Dynamics GDRS Functions Needed To Perform A Variety Of Military, Government And Civilian Missions
Table 3-49 General Dynamics Autonomous Systems Implementation Functions
Table 3-50 General Dynamics Military Robots Functions
Table 3-51 General Dynamics Military Robot Positioning
Table 3-52 General Dynamics Military Warfighter Support
Table 3-53 General Dynamics MDARS Features:
Figure 3-54 General Dynamics Tactical Autonomous Combat – Chassis (TAC - C)
Figure 3-55 General Dynamics Tactical Autonomous Combat TAC-C Capabilities
Figure 3-56 General Dynamics Tactical Autonomous Combat TAC-C Vehicle Specifications
Figure 4-1 Nissan Fish Behavior Rules Model for Robot Car
Table 4-2 Fish Behavior Rules
Table 4-3 Automakers With Adaptive Cruise Control (Mid-2013)
Figure 4-4  Hitachi Modular Robot Configuration
Table 4-5 Military Robot Key Product Technology Factors
Table 4-5 (Continued) Military Robot Key Product Technology Factors
Table 4-5 (Continued) Military Robot Technology Functions
Table 4-5 (Continued) Military Robot Technology Functions
Table 4-6 Missions (UUV “Sub-Pillars”) In Priority Order
Figure 4-7 UUVMP Vision
Table 4-8 Alliant Features:
Table 4-8 (Continued) Alliant Features:
Figure 4-9 iRobot / Evolution Robotics Technology Solutions
Figure 4-10 Military Robot Technology Enablers
Table 4-11 Military Robot Technology Characteristics
Figure 4-12 Military Ground Robot Ground Domain Technology Enablers
Table 4-13 US Army Military Robot Logistics Positioning
Figure 4-14 Robot Systems Associated with Force Application Description
Figure 4-15 Robotic Performance Characteristics
Table 4-16 Military Robotics Enabling Technology
Table 4-17 Military Robots Development Challenges
Table 4-18 Military Robot Integrated Circuit-Based Innovation Functions
Table 4-19 Military Robot Key Technology
Table 4-20 Robot Communications Key Technology
Table 4-21 Military Robot Key Navigation Technologies
Figure 5-1 Allen Vanguard Threat Intelligence
Table 5-2 Allen-Vanguard R&D Team Mandate:
Table 5-3 Allen-Vanguard Scientific And Engineering Topics Researched and Developed
Table 5-4 Allen-Vanguard R&D Fundamental Research
Table 5-5 Allen-Vanguard R&D Engineers And Scientists Comprehensive Research
Table 5-6 BAE Systems Standards
Figure 5-7 BAE Systems Revenue in Defense Market
Figure 5-8 Boston Dynamic LS3
Figure 5-9 Boston Dynamic CHEETAH
Figure 5-10 Boston Dynamic Atlas
Figure 5-11 Boston Dynamic BigDog
Figure 5-12 Boston Dynamics LittleDog -
Table 5-13 ECA Robotics Range Of Products
Table 5-14 Elbit Systems Activities:
Table 5-15 Elbit Systems Activities:
Table 5-16 Factors Impacting Ford Profitability Of Business
Table 5-17 G-NIUS Unmanned Ground Systems (UGS) Solutions
Table 5-18 Google Autonomous Vehicles Technology
Table 5-19 GM Market Positioning
Figure 5-20 Lockheed Martin Segment Positioning
Table 5-21 Lockheed Martin's operating units
Figure 5-22 Lockheed Martin Aeronautics Segment Positioning
Figure 5-23 Lockheed Martin Aeronautics Segment Portfolio
Figure 5-24 Lockheed Martin Aeronautics C130 Worldwide Airlift
Figure 5-25 Lockheed Martin Aeronautics Falcon Fighter
Figure 5-26 Lockheed Martin Electronic Systems Portfolio
Table 5-27 Mesa Robotics Technical Experience
Table 5-28 Thales Key Technology Domains
Figure 5-29 Thales Measurable Environmental Targets
Figure 5-30 Thales Group Ground Master 400
Table 5-31 Thales Group GROUND Master 400 Key Features:
Table 5-32 Thales Group Ground Smarter 1000 Key Features:
Figure 5-33Thales Critical Decision Chain
Figure 5-34 Toyota Qi Wireless Charging
Table 5-35 Toyota / Lexus Advanced Active Safety Research Vehicle Features
Figure 5-36 Volkswagen Shipments in Comparison to World Car Shipments
Figure 5-37 Volkswagon Brands
Figure 5-38 WiTricity Technology 

List of Figures

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Scientists Identify Cure for Dengue
Apr 18, 2014  
In a breakthrough discovery that can change the way dengue is treated, scientists have identified a drug target for the deadly dengue viruses. This discovery may help pave the way for discovery of vaccines that can cure this condition that affects nearly 390 million people throughout the world each year.  Scientists have used a new technique for this discovery to show that a region...
India is Facing a Cancer Crisis
Apr 15, 2014  
India is currently facing a cancer crisis – reports a recent research carried out at the King’s college London, in collaboration with the Tata Memorial Cancer Centre, Mumbai.  The reasons estimated for this crisis comprise of increasing rates of smoking, unequal access to proper treatment and belated diagnosis.  Every year, India witnesses around one...
Microparticle Tags to Check Counterfeit Goods Invented
Apr 14, 2014  
Researchers from the Massachusetts Institute of Technology have invented a new set of microparticles that can easily be read by smartphones and establish the authenticity of currency, electronic items and luxury goods.  This strategy is among those countless measures taken by big brands and companies to label their legitimate products in order to stop illegal copies of the...
USFDA Approves Lupins Generic Diabetic Drug
Apr 10, 2014  
The United States Food and Drugs Administration (USFDA) has finally approved Lupin Pharmaceuticals Inc (LPI), the American subsidiary of Indian drug manufacturers Lupin Ltd, to sell Pioglitazone Tablets in the U.S market. The approval has been granted first for fiscal 2015.  Pioglitazone is a generic medicine used for managing diabetes and is a version of Actos tablets...
Infrared Sensors can Soon Be Used to Develop Night-Vision Lenses - A New Discovery Confirms
Apr 8, 2014  
People who fear the dark may soon have a reason to rejoice – an infrared sensor that can eventually be used for mechanizing night-vision lenses has been developed. This effectively means that one can also see through dark with the help of these lenses.  This technology seems possible all due to graphene, a layer of tightly packed carbon atoms that has allowed the creation of...