MOBILITYONE

M1UCS

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M1UCS
Solution for remotely monitoring and controlling various types of unmanned vehicles.

Individual/integrated operation of each device and integrated monitoring with diagnostic sensors.

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Control Center

Unified and Flexible

Unified Control

  • UAV

    • Multi Copter
    • VTOL

  • UGV

    • Wheel
    • Tracked
    • Quadruped

  • USV

    • Motor
    • Fan/Air

  • ETC

    • Station
    • Robot Arm
Flexible UI/UX
  • Provision of variable UI elements according to the characteristics and profile of the device.
  • A flexible UI architecture that is easy to add or change according to the device and field work, such as monitoring cards, maps, etc.
MISSION HUB

Efficient and Integrated

Fast Mission Planning
  • Point, Polygon, Draw Line/Area
  • Camera and Mission Equipment Config
  • Graphic Altitude Correction/Editing
  • Support/Compatibility for Various Types of Maps
Easy Integration with Other Systems
  • Device-independent Standalone - 1 Mission Multi-use
  • Compatible with DJI/EVO Enterprise Series
  • Export/Import Mission Files
MISSION PREVIEWER

Light and Intuitive

Simulation Data Generation Algorithm

SW based Simulation
  • Cloud-based simulator powered by proprietary algorithms
  • 3D-based flight/operation preview
  • Video controls such as skip, rewind, etc.
Advance Verification of Weather and Other Hazardous Conditions
  • Pre-verification of mission stability through the setting of environmental variables such as wind direction and wind speed
  • Advance verification of high-rise buildings, artificial structures, and hazardous facilities

Use case

Efficiency in Surveying through the Simultaneous Operation of Multiple Drones
  • Work efficiency increased by up to 500%

    Operating 5 drones simultaneously can yield a fivefold efficiency compared to single-drone operations.

  • Labor costs reduced by up to 70%

    A minimum of 5 drones (no maximum limit) can be operated simultaneously by a single person, potentially reducing labor input from 2-3 people by up to 70%

Use case

Multi-Drone Control System for Police Traffic Information Center (ITS)
  • Enhancing Safety Management Using Drones

    Minimizing blind spots by integrating drone surveillance into the fixed CCTV-based traffic monitoring system.

  • Expansion with Various Types of Drones/Robots

    Laying the foundation for utilizing various types of drones and robots through the application of the M1UCS-based platform.

Use case

Combined Use of Drones and Recovery Robots in case of marine oil spill accidents

With Sheco

  • Rapid Response Using Drones

    After deploying to the accident site, drones capture images of the oil spill area and send them to the operation center, including location information.

  • Oil Removal Using Recovery Robots

    Based on drone imagery, a work plan is established, and multiple small aquatic robots are deployed simultaneously to remove the oil. (Conventional large oil removal ships take significant time to reach the scene.)

Use case

Remote Operation of Leisure Boats

With Global Korea

  • Restricted Area Control&Safety Enhancement

    Automatically moves to a safe zone when entering a hazardous or controlled area.

  • Expansion of services using autonomous navigation

    Autonomous services for the disabled; available for external viewing during restricted nighttime boarding.

Use case

Indoor Service Robot Operation

Task Assignment to Robots

Task Execution

Use case

Efficiency in Surveying through the Simultaneous Operation of Multiple Drones
  • Work efficiency increased by up to 500%

    Operating 5 drones simultaneously can yield a fivefold efficiency compared to single-drone operations.

  • Labor costs reduced by up to 70%

    A minimum of 5 drones (no maximum limit) can be operated simultaneously by a single person, potentially reducing labor input from 2-3 people by up to 70%

Use case

Multi-Drone Control System for Police Traffic Information Center (ITS)
  • Enhancing Safety Management Using Drones

    Minimizing blind spots by integrating drone surveillance into the fixed CCTV-based traffic monitoring system.

  • Expansion with Various Types of Drones/Robots

    Laying the foundation for utilizing various types of drones and robots through the application of the M1UCS-based platform.

Use case

Combined Use of Drones and Recovery Robots in case of marine oil spill accidents

With Sheco

  • Rapid Response Using Drones

    After deploying to the accident site, drones capture images of the oil spill area and send them to the operation center, including location information.

  • Oil Removal Using Recovery Robots

    Based on drone imagery, a work plan is established, and multiple small aquatic robots are deployed simultaneously to remove the oil. (Conventional large oil removal ships take significant time to reach the scene.)

Use case

Remote Operation of Leisure Boats

With Global Korea

  • Restricted Area Control&Safety Enhancement

    Automatically moves to a safe zone when entering a hazardous or controlled area.

  • Expansion of services using autonomous navigation

    Autonomous services for the disabled; available for external viewing during restricted nighttime boarding.

Use case

Indoor Service Robot Operation

Task Assignment to Robots

Task Execution