FOR ROBOTICS APPLICATIONS
ABOUT OUR TECHNOLOGY
Our software platform enables companies to use a variety of different robots from different vendors in their operations, creating efficient robotic teams despite their different operating systems, software stacks, and interfaces. The technology allows for the autonomous deployment, control, and orchestration of these robots, helping to overcome fragmentation and allows for the creation of efficient, coordinated robotic teams.
The platform can orchestrate different types of robotic devices across various networks to achieve optimum outcomes for our clients.
Through our modular approach, we can enable several applications for tailored and scalable operations.
For added value, we can integrate with third-party platforms as well as pre-existing business intelligence tools to augment and enhance systems.
Our HARDWARE-AGNOSTIC approach allows any robotics, compatible payloads, and IoT endpoints to be implemented in a system
Through a NETWORK-INTEROPERABLE approach, we enable seamless connectivity across a range of networks. This, in combination with our ability to leverage cloud and edge computing, empowers the end user with flexibility and enhanced capabilities.
Automates the workflow for acquiring, filtering, and processing data from sensors, whilst Unmanned Life GUI provides the necessary solution for the execution and analysis of missions.
Connects heterogeneous machines to the platform in order to command and control them autonomously based on a fusion of sensor data.
Processes data and enhances the operational experience at several levels of autonomy. This data can be received from UTMs , business information systems, cameras, as well as other payloads and sensors.
Enables admins to integrate various machines into a swarm, coordinate tasks across third-party platforms, and manage the network layer on hardware platforms such as UGVs, UAVs, and IoT devices.
Our DEPLOYMENT-AGNOSTIC approach means application modules can be enabled depending on the use cases needed, and the hardware used.