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The open source MBZIRC Maritime Grand Challenge simulator is provided by Open Robotics, the global leader in software for robotics simulation and application development.

MBZIRC Maritime Grand Challenge Simulator is available at:
GitHub - osrf/mbzirc: Simulator for the MBZIRC Maritime Grand Challenge

The simulation platform for the MBZIRC Maritime Grand Challenge will be built on Ignition and Robot Operating System (ROS).

Ignition Gazebo is an open-source 3D robotics simulator. It accurately and efficiently simulates robots for a wide range of applications, including maritime robotics. It has a robust physics engine, advanced 3D graphics, and programmatic interfaces, including integration with ROS. Ignition also offers an online 3D model repository, Ignition Fuel, that offers various robot and environment 3D assets readily available for simulation.

ROS is an open source software development kit that helps to build robot applications It offers a standard software platform to developers across industries that will carry them from research and prototyping all the way through to deployment and production. Ignition integrates well with ROS, which means that software developed using ROS for simulation in Ignition can easily be ported to work on real hardware, facilitating a smooth transition from simulation to reality.

The simulation environment created for the MBZIRC Maritime Grand Challenge will consist of a large coastal region, UAVs with different sensor configurations, a USV model, a robot manipulator, and multiple target vessels. A set of ROS2 APIs will be exposed for controlling robots and reading data from sensors in simulation. Inter-robot communication will be provided through a separate set of APIs, and the communication links are subject to package loss and interferences that are common in outdoor wireless communication.

The MBZIRC simulation platform will run on Ubuntu 20.04 (Focal). Users can install the software from source for local testing and development. In addition, Docker images of the simulation setup will also be made available.

The simulator uses historical weather data provided by meteoblue to simulate realistic weather conditions.

The open source MBZIRC Maritime Grand Challenge simulator is provided by Open Robotics, the global leader in software for robotics simulation and application development.

MBZIRC Maritime Grand Challenge Simulator is available at:
GitHub - osrf/mbzirc: Simulator for the MBZIRC Maritime Grand Challenge

The simulation platform for the MBZIRC Maritime Grand Challenge will be built on Ignition and Robot Operating System (ROS).

Ignition Gazebo is an open-source 3D robotics simulator. It accurately and efficiently simulates robots for a wide range of applications, including maritime robotics. It has a robust physics engine, advanced 3D graphics, and programmatic interfaces, including integration with ROS. Ignition also offers an online 3D model repository, Ignition Fuel, that offers various robot and environment 3D assets readily available for simulation.

ROS is an open source software development kit that helps to build robot applications It offers a standard software platform to developers across industries that will carry them from research and prototyping all the way through to deployment and production. Ignition integrates well with ROS, which means that software developed using ROS for simulation in Ignition can easily be ported to work on real hardware, facilitating a smooth transition from simulation to reality.

The simulation environment created for the MBZIRC Maritime Grand Challenge will consist of a large coastal region, UAVs with different sensor configurations, a USV model, a robot manipulator, and multiple target vessels. A set of ROS2 APIs will be exposed for controlling robots and reading data from sensors in simulation. Inter-robot communication will be provided through a separate set of APIs, and the communication links are subject to package loss and interferences that are common in outdoor wireless communication.

The MBZIRC simulation platform will run on Ubuntu 20.04 (Focal). Users can install the software from source for local testing and development. In addition, Docker images of the simulation setup will also be made available.

The simulator uses historical weather data provided by meteoblue to simulate realistic weather conditions.

Modularity

• Each hull made of three 2m-long watertight sections joined together
• Design allows scope to re-use hull sections in different hull configurations (longer...larger)
• Swappable hull sections guarantee ease of maintenance and low downtime

Versatility

• Battery + Solar panel powered propulsion guarantees large operational range
• Electric engines allow for virtually silent and environmentally friendly operations
• Hull sections can be pre-configured and fitted according to different mission requirements

Ease of transport, assembly and deployment

• Hull and upper platform sections are no longer than 2m
• The whole vessel can be conveniently stored and shipped in pieces
• Assembly of the vessel requires basic tools (screwdriver, wrenches, pliers) and no glue/adhesive

Robust marine design

• Two steerable engines,and optionally,four rudders guarantee unmatched manoeuvrability
• Redundancy in case of failure : Each central Hull section is independent. The catamaran can be manoeuvred only with one motor and one rudder.
• Large flat surfaces available for safe transport of mission payload, or Solar panel installation.

Specification

Dimensions in mm

Thrusting Steering

• Rotation angle: +/-90°
• CAN open interface
• Max rotation speed 15°/sec
• Auto zero
• Encoder resolution 0.1 deg

Modularity

• Each hull made of three 2m-long watertight sections joined together
• Design allows scope to re-use hull sections in different hull configurations (longer...larger)
• Swappable hull sections guarantee ease of maintenance and low downtime

Versatility

• Battery + Solar panel powered propulsion guarantees large operational range
• Electric engines allow for virtually silent and environmentally friendly operations
• Hull sections can be pre-configured and fitted according to different mission requirements

Ease of transport, assembly and deployment

• Hull and upper platform sections are no longer than 2m
• The whole vessel can be conveniently stored and shipped in pieces
• Assembly of the vessel requires basic tools (screwdriver, wrenches, pliers) and no glue/adhesive

Robust marine design

• Two steerable engines,and optionally,four rudders guarantee unmatched manoeuvrability
• Redundancy in case of failure : Each central Hull section is independent. The catamaran can be manoeuvred only with one motor and one rudder.
• Large flat surfaces available for safe transport of mission payload, or Solar panel installation.

Specification

Dimensions in mm

Thrusting Steering

• Rotation angle: +/-90°
• CAN open interface
• Max rotation speed 15°/sec
• Auto zero
• Encoder resolution 0.1 deg

You may download the historic Abu Dhabi Weather Data provided by meteoblue here