The Doodle Labs Mesh Rider Radio family offers unparalleled flexibility and performance for diverse communication scenarios, making it an ideal choice for Ground Control Station (GCS) designs. With form factors ranging from wearable to embedded and external models, Mesh Rider Radios enable robust, low-latency communication across a wide range of use cases.
This case study explores three key applications of the Mesh Rider Radio: Point-to-Point Communication, Single Node Relay, and Multi-Node Relay. These setups demonstrate the versatility of Mesh Rider Radios in various environments and mission-critical operations.
The Point-to-Point Communication configuration is ideal for establishing a direct link between two endpoints, such as a Ground Control Station (GCS) and an Unmanned Aerial Vehicle (UAV) or Unmanned Ground Vehicle (UGV). This setup delivers low-latency communication (typically around 10ms) and ensures stable telemetry even at the radio’s sensitivity threshold. It is best suited for line-of-sight (LOS) operations, where the high sensitivity and power efficiency of the Mesh Rider Radios enable reliable, real-time control and video transmission over extended distances.
A Single Node Relay configuration introduces an intermediary relay node to extend the communication range or navigate around obstacles that block LOS. This approach is especially useful in environments with significant physical obstructions, such as urban areas or rugged terrain. The relay node ensures connectivity in non-LOS scenarios and maintains low-latency communication, making it suitable for dynamic and challenging operating conditions. The scalability of this setup allows for the easy addition of relays to further enhance coverage.
The Multi-Node Relay configuration leverages the advanced mesh networking capabilities of Mesh Rider Radios to establish robust communication across multiple nodes. This setup is particularly valuable for swarm operations involving multiple UAVs or UGVs, where each node can act as a relay for others. The mesh network provides redundancy and adaptability, automatically rerouting communication paths to maintain connectivity. This configuration is ideal for large-area coverage and mission-critical applications, such as disaster recovery or military operations.
We developed our Performance Optimization Guides to showcase how specific customers achieve peak performance in various ranges and use-cases. This configuration data was provided by a customer based on real field testing. Environmental challenges may require alternative configurations for similar results.
With a flight duration of 60 minutes while carrying the maximum payload and a range of 4 km, this drone is ideal for surveillance and industrial inspections. It is equipped with dual GPS sensors for added reliability. Essential features like geofencing, terrain following, quick return to launch, and failsafe modes for communication loss, low battery, and high winds are integrated into the drone to ensure safe operations.
This drone was developed for the DoD and is meant to be launched organically by a single solider. It fits into a rucksack and supports integrations with sensors, payloads and other technologies. The UAS is used for an array of missions, including signals intelligence, targeting and identification, direct effects and the delivery of supplies.
This model is a “loitering munition” tactical attack drone launched by hand and powered by electric propulsion. The model is enabled with multiple targeting modes, operates with a range of 15-25 KM and includes a parachute for recovery and reusability.