• About SwRI
  • Facts
  • Conferences & Workshops
  • Exhibits
  • Mission Statement
  • Awards & Honors
  • In the Community
  • Map
  • Annual Report
• Technical Divisions
  • Aerospace Electronics, Systems Engineering & Training
    • Avionics & Support Systems
    • Electronics Integration & Cyber Technology
      • Engineering Services
      • Automatic Test Systems
      • Large-scale Database Development
      • Reliability & Maintainability Improvements
      • Program Development & Operations
    • Aerospace Engineering
      • Systems & Sensors
      • Autonomous Systems & Controls
      • Aerospace Systems Engineering
    • Learning Sciences & Systems
  • Applied Physics
    • Electronics Systems & Robotics
      • Hardware Design & Construction
      • Electronic & Electrical Component Analysis
      • Engineering & Logistics Support
      • Small Robotic Vehicle Evaluation & Applications
      • Electromagnetic Modeling
    • Electromechanical & Optical Systems
      • Packaging & Rapid Prototyping
      • Special Mechanical Systems
      • Microelectromechanical Systems
      • Photonic, Optical & Laser Systems
    • Engineering Applications & Systems Development
      • Advanced Systems Engineering
      • Software Development
      • Advanced Electronics Laboratory
    • Earth Characterization & Geophysical Measurements
  • Applied Power
  • Automation & Data Systems
    • Communications & Embedded Systems
      • Advanced Instrumentation & Telemetry Systems
      • High Reliability Software
      • Security & Energy Systems
      • Tactical Networks & Communications
    • Intelligent Systems
      • Intelligent Vehicle Systems
      • Transportation Systems
      • Decision Support Technologies
    • Manufacturing Systems
      • Process Improvement Engineering
      • Robotics & Automation Engineering
  • Chemistry & Chemical Engineering
    • Microencapsulation & Nanomaterials
      • Microencapsulation
      • Materials & Bioengineering
      • Biochemistry
      • Synthesis & Process Chemistry
      • Chemical Defense
      • Analytical & Regulated Projects
    • Analytical & Environmental Chemistry
      • Bioanalytical Chemistry & Environmental Health
      • Organic
      • Inorganics/Radiochemistry
    • Environmental & Demilitarization Technology
      • Environmental Engineering & Monitoring
      • Demilitarization Laboratory Support
    • Fire Technology
      • Fire Testing Services
      • Material Flammability Testing
      • Engineering & Research Services
      • Listing, Labeling, & Follow-Up Inspection Services
    • Chemical Engineering
      • Process Chemistry Laboratory
      • Chemical & Refining Process Development
      • Fuels & Energy Development
  • Engine, Emissions & Vehicle Research
    • Engine & Vehicle R&D
      • Aftertreatment R&D
      • Diesel Technology
      • Powertrain Controls
      • Advanced Vehicle Technology
      • Advanced Combustion & Emissions
    • Emissions R&D
      • Engine Certification & Emission Development
      • Medium Speed Diesel Engines
      • Light-Duty Vehicle Emissions
      • Emissions Chemistry
      • Particle Science & Technology
    • Design & Development
      • Powertrain Design & Analysis
      • Drivetrain Development
      • PTL
  • Fuels & Lubricants Research
    • Engine Lubricants Research
      • Heavy-Duty Engine Oil Evaluations
      • Passenger Car Engine Oil Evaluations
      • International Lubricant Testing
      • Specialized Lubricant Evaluations
    • Fuels & Driveline Lubricants Research
      • Fleet & Field Evaluations
      • Fuels Performance Evaluations
      • Specialty & Driveline Fluid Evaluations
    • Fuels & Lubricants Technology
      • Fluids Filtration & Handling Research
      • Fuels, Lubricants, & Fluids Applications
      • Filtration & Fine Particle Technology
      • Fuel Systems & Contamination Research
    • Petroleum Products Research
      • Fuel Analysis
      • Fuel Conformance
      • Lubricant Analysis
  • Geosciences & Engineering
    • Center for Nuclear Waste Regulatory Analyses
      • Geochemistry
      • Geology
      • Geophysics
      • Hydrology
      • Mining, Geotechnical, & Facility Engineering
      • Corrosion Science & Process Engineering
      • Risk Assessment
    • Earth, Material & Planetary Sciences
      • Geochemistry
      • Geology
      • Geophysics
      • Hydrology
      • Mining, Geotechnical, & Facility Engineering
      • Corrosion Science & Process Engineering
      • Risk Assessment
    • Rockville Office
  • Mechanical Engineering
    • Engineering Dynamics
      • Computational Mechanics
      • Ballistics & Explosives Engineering
      • Ballistics & Explosives Range
    • Structural Engineering
      • Aerospace Structures
      • Ocean Simulation Lab
      • Marine Structures & Engineering
      • Structural Dynamics & Product Assurance
    • Materials Engineering
      • Mechanics & Materials
      • Surface Engineering & Materials Chemistry
      • Environmental Performance of Materials
      • Materials Science & Failure Analysis
      • Musculoskeletal Biomechanics
    • Fluids & Machinery Engineering
      • Fluid Dynamics & Multiphase Flow
      • Machinery
    • Sensor Systems & Nondestructive Evaluation (NDE) Technology
  • Signal Exploitation & Geolocation
    • SIGINT Solutions
      • Signal Exploitation
      • Systems Engineering
      • Electromagnetic Apertures & Radiolocation
      • Program Management
      • SIGINT Solutions Product Highlights
    • Surveillance & Geolocation
      • Mission Systems
      • Tracking Systems
    • Tactical Products
      • Land & Airborne Systems
      • Maritime Systems
      • Program Management
    • Software Engineering
      • Mission Development & Management
      • Information Exploitation
      • Signal Processing
    • Maryland Operations
  • Space Science & Engineering
    • Space Science
      • Science
      • Instrument Systems
      • Data Analysis & Science Support Software
      • Space Support Systems & Software
      • Power Systems
    • Space Systems
      • Electromechanical Systems
      • Avionics Systems
      • Lighter-than-Air Systems
    • Planetary Science Directorate
• Areas of Technology
  • Search Technologies
  • Patents
  • Software
  • Internal Research & Development
• Doing Business
  • Patents
  • GSA Contract Schedules
  • SeaPort-e
  • TARDEC
  • Consortia
  • Subsidiaries & Joint Ventures
  • Quality Programs
• IR&D
• Newsroom
  • News Releases
  • Videos
  • Media Contacts
  • Technology Today^®
  • Publications
  • Annual Report
• Careers
  • Job Opportunities
  • Diversity
  • SwRI & San Antonio
  • SwRI Sites
• Contact Us
  • Map to SwRI

Mobile Robotics Engineering
Intelligent Vehicle Systems

SwRI specializes in the design and development of mobile robotics engineering systems.

Mobile robotics engineering research and development has been ongoing at Southwest Research Institute (SwRI) for a number of years, and our engineers continue to design and develop complex payloads, manipulators, and software algorithms to facilitate advanced behaviors on various sized platforms and for operation in different operational environments. These systems include:

• Controlled systems
• Supervised systems
• Unmanned systems

Areas of Mobile Robotics Engineering Research

We leverage our extensive in-house capabilities in specific and very diverse technical areas, and when necessary, easily team with other competent organizations to fulfill client needs. SwRI’s mobile robotics engineering subject matter experts are involved in research and development in a variety of areas, including:

• Human Robotic Interface (HRI)
• Payload integration
• Sensor fusion and integration
• Maneuverability
• Navigation
• System integration
• Energy efficiency
• Command and control
• Safe operations
• Semi-autonomous behavior
• Highly dexterous manipulators
• Standardization

Design and Development Activities

Design and development activities include the development of:

• Platform-independent intelligent software and sensor fusion
• Advanced navigation for task oriented missions
• Advanced perception and systems payloads
• Independent technology transfer and integration

Examples of Mobile Robotics Engineering Research

Two examples of SwRI's research in this area include:

• Mobile Autonomous Robotics Technology Initiative (MARTI^®): In 2006, SwRI made a major corporate commitment to ground robotics research and development through the funding of a multi-million dollar internal research and development program, entitled "The Mobile Autonomous Robotics Technology Initiative (MARTI)." This program is focused on developing scalable, modular, redundant, and flexible enabling technology for unmanned systems, and has resulted in the development of a Technology Readiness Level 6 (TRL-6), Autonomy Level 8+, full-size autonomous vehicle that is used as a demonstration and benchmarking platform for further development of unmanned systems technology. This program has yielded state-of-the-art technology in:
  • Perception
  • Intelligence
  • Command and control
  • Communications
  • Safety systems
  • Platforms

  Additionally, our fully autonomous vehicle (MARTI) collaborates with other vehicles and unattended sensors to form a multi-agent system of systems. MARTI was demonstrated in New York City in November 2008 and at Ft. Hood, Texas, in a live convoy experiment/demonstration in September 2009.

• Hardware and Controls Abstraction for Mobile Robotic Engineering Platforms: Traditionally, robotic software development has been tightly coupled with the specific hardware platform selected for deployment. End-users often must control the robot using a manufacturer-specific controller, communications protocol, or programming language. Users that need to deploy multiple robot types are forced to learn a variety of hardware and software interfaces to accomplish even the most basic tasks. Significant effort is spent duplicating existing code, control methods, or operator interfaces on multiple platforms, since cross-platform code reuse is extremely difficult. This project developed the hardware abstraction framework and tested the design on three different robot platforms, including two small mobile robots and an industrial fixed-base manipulator.

  A software implementation supported user input from both tele-operation (joystick control) and pre-programmed motion paths. This implementation provided both qualitative feedback from operators performing tele-operation tasks and quantitative feedback comparing motion performance of the different platforms.

Related Terminology

intelligent transportation systems •  Mobile Robotics •  IVS facilities •  ITS •  automation and data systems  •   cooperative vehicle systems •  intelligent vehicle •  intelligent highway •  public safety enhancement •   traffic management centers