10 frequently asked technical questions about mobile robots (specialising in R&D and higher education)

For several years, Génération Robots has been working with research laboratories and universities on their robotics projects. We provide development platforms, mobile robots and solutions based on ROS / ROS 2. Projects often evolve: after a testing phase, they move on to concrete applications that pose real technical challenges.

Here are 10 advanced questions that our customers regularly ask, with answers from our engineers.

1) Can the software architecture of a mobile robot be adapted to a custom framework (beyond ROS/ROS 2)?

Yes, provided you choose an open platform. Most professional mobile robots (AgileX, Husarion, Clearpath, etc.) are based on ROS or ROS 2, which allows for fairly extensive customisation.To go further, some platforms offer low-level access via CAN, UART, or REST/WebSocket APIs, allowing you to rebuild a completely custom software architecture.

2) How can sensor fusion (IMU, LiDAR, odometry) be optimised for more stable navigation in dynamic environments?

ROS packages provide a good foundation, but for dynamic environments, it is essential to:

Precise temporal synchronisation between sensors is also essential.

3) Is it possible to perform multi-robot SLAM in real time?

Yes, but this remains a complex issue. Tools can be adapted for multi-robot use. To do this, you need to:

A distributed and well-isolated architecture is essential to ensure system stability.

4) What are the current limitations of AMRs for unstructured environments (outdoor, semi-natural)?

The main limitations are:

Platforms such as the Husky, Ranger Mini 3.0 and Panther are suited to these constraints, but must be accompanied by robust perception and planning algorithms.

5) Which mobile robot do you recommend for advanced development in multi-agent robotics?

Several platforms are suitable for these uses:

They all allow for preliminary simulation (Gazebo, Webots) and good ROS 2 integration.

6) What strategies are there for autonomous recharging in the laboratory (without heavy infrastructure)?

Here are some practical strategies:

Everything must be integrated into the robot’s state machine, with autonomous decision-making based on battery level and station availability.

7) What are the best practices for logging and replaying complex missions?

The right tools:

Don’t forget to synchronise the clocks on each robot (NTP, GPS) to ensure data consistency.

8) What tools do you recommend for simulating fleets or autonomous behaviours?

It all depends on the level of realism and the need for visual or physical rendering.

9) Are robotic platforms easily expandable with robotic arms?

Yes, provided that you:

Some platforms, such as Robotnik’s RB-KAIROS+, are specially designed for this purpose.

10) What is the level of cybersecurity for ROS/ROS 2 mobile robots?

ROS 1 does not natively integrate any security mechanisms. ROS 2, on the other hand, relies on DDS to offer to:

We also recommend:

Conclusion

Raising these issues at the design stage of a project saves time and avoids numerous technical bottlenecks. At GR Lab, our engineering design office, we regularly work on these types of issues to help researchers and engineers move forward more quickly. What challenges are you currently facing in your robotics projects?

Marine Senecat

Content Manager at Generation Robots