Autonomous robot software

Find everything in one place, and simply drag and drop what you need. We help customers, large and small, with mapping, navigation and autonomous decision-making for autonomous robots. You can access existing algorithms quickly and easily through the Nimbus library, or we can work with you on a project basis to resolve your more complex requirements.

Your new mission control. Ready to go. Meet Hamster V8, our indoor robot with Nimbus on board. Meet Lynx, for all terrain action. We provided them a solution for transporting onions from selectors in the rows to a central picking location. The solution provided was composed of a mid-size AGV autonomous ground vehicle that maneuvered.

The browser version you are using is not recommended for this site. Please consider upgrading to the latest version of your browser by clicking one of the following links. Warehouses, logistical companies, agriculture businesses, and healthcare institutions are all looking for new and innovative ways to improve operational efficiency, enhance speed, ensure precision, and increase safety.

Many are turning to autonomous mobile robots AMRs for help. An autonomous mobile robot is a type of robot that can understand and move through its environment independently. AMRs differ from their predecessors, autonomous guided vehicles AGVs , which rely on tracks or predefined paths and often require operator oversight.

AMRs use a sophisticated set of sensors, artificial intelligence, machine learning, and compute for path planning to interpret and navigate through their environment, untethered from wired power. Because AMRs are equipped with cameras and sensors, if they experience an unexpected obstacle while navigating their environments, such as a fallen box or a crowd of people, they will use a navigation technique like collision avoidance to slow, stop, or reroute their path around the object and then continue with their task.

Many businesses use AMRs for tasks that would be harmful to or not possible for human workers. For example, they may be used to clean and disinfect areas for improved health and safety, transport contagious laboratory specimens in hospitals, carry heavy loads in industrial environments, or work in extreme conditions where humans cannot and should not be working.

AMRs dynamically assess and respond to their surroundings while completing a variety of tasks—all without the direct supervision of an operator. Simultaneous location and mapping SLAM solutions and advanced mapping technology enable AMRs to understand and adjust to changes in their environment. This flexibility makes them a valuable tool that can be used across applications and industries.

To enable employees to focus on high-value activities, such as customer support, businesses often use AMRs to assist with locating, picking, and moving inventory. When productivity is key, many businesses turn to low-powered AMRs that require less energy to function.

Less power to operate means AMRs can recharge and return to work quicker, reducing downtime and keeping production and fulfillment going. Get more details. Learn more. See the whole story. Global Presence Headquarters in Graz, Austria. Design your Robot Design and build the robot according to your customers needs.

Implement our Interface Implement the simple hardware abstraction layer provided by our software and execute the test suite provided. Make your Customer Happy Get the robot into the field. Flexibility AMRs navigate freely and move around obstacles in real-time. Scalability Additional robots can be added effortlessly to existing fleet upon request.

Retrofitting Retrofittable and easy to implement: No constructional changes are necessary — instant deployment. Safety Safety certifications allow mixed operations with humans and machines next to manual processes. Navigation Smooth and quick obstacle avoidance combined with automatic re-routing.

Hybrid Fleets Combination of various models and different types of shuttles from multiple vendors possible within one fleet. Hardware Integration Large existing hardware database and easy integration of new models using a standard hardware abstraction layer. Deployment Quick and easy deployment of FMS and shuttles using existing infrastructure. Customisations Apps ready to add process, order and floor management tools. Optimisations Ongoing optimisation of navigation software, kinematics and learning capabilites over the cloud.