Stay Informed. Stay Ahead.
Universal Controller Breaks Down Barriers for Mobile Robots
Mobile robots represent a critical branch of development in the intelligent robotics field. Initially evolving to meet the high-volume and demanding material handling and transfer needs in industrial and logistics sectors, a new generation of mobile robots—represented by AMRs and unmanned forklifts—has taken center stage. Their application is now expanding into broader scenarios, including logistics and commercial services. However, the sector still grapples with core challenges. To address this, we are broadening the horizons for mobile robots. The universal controller series—the ECO400 and the streamlined ECS100—resolves five fundamental problems facing mobile robot products.
Navigation Challenges
Autonomous Navigation Capability
As the most fundamental yet critical function of mobile robots, autonomous navigation represents the core feature that embodies their automation and intelligence. It is the essential capability enabling robots to perform mobile tasks. When operating in unfamiliar and complex environments, the robot utilizes its onboard sensors to perceive the surroundings, processes the environmental data, and achieves the intended objectives. In this context, Myten Tech’s robots support multiple autonomous navigation methods – including laser SLAM navigation, reflector navigation, QR code navigation, and positioning navigation – ensuring the robot maintains orientation during travel, optimizes routes to avoid collisions, and reliably reaches designated locations to complete its tasks.
Motion Control Challenges
Addressing Robotic Motion Control Challenges
The degree of controllability and coordination in a mobile robot’s motion system directly determines its overall performance. Across numerous sectors, mobile robots are being deployed to assist humans in performing high-risk, repetitive, and heavy-load tasks.
Our robots support diverse chassis configurations to suit various application scenarios. With extensive chassis compatibility, they fully meet non-standard customization requirements for AGVs/AMRs, significantly reducing deployment time. In terms of operational modes, the system supports multiple motion models—including autonomous obstacle avoidance, line tracking, hybrid obstacle avoidance and line tracking, dual-steer mode, and differential drive models—enabling the robots to maximize their intelligent and flexible capabilities.
Autonomous Charging
Addressing Robotic Charging Challenges
When using mobile robots, they can operate continuously for extended periods. During idle time without active tasks, they are capable of autonomous self-charging. This ensures uninterrupted workflow, enhances operational efficiency, and consequently reduces labor costs.
Safety Protection
Addressing Robotic Safety Challenges
Mobile robots employ various safety and collision avoidance technologies, broadly categorized as non-contact and contact-based systems. MytenTech robots utilize multiple protective measures, including 3D visual safety protection/obstacle recognition, laser avoidance, ultrasonic sensors, photoelectric sensors, and physical bumpers. These systems detect the distance between obstacles and the robot to enable proactive collision prevention. By designing tailored avoidance strategies for different environments, the robots better adapt to their working conditions, ensuring safe and reliable operation.
Communication
Addressing Robotic Communication Challenges
In terms of mobile robot communication, the system supports external Wi-Fi, 4G, and 5G communication modules.
To address the five major challenges in mobile robot products outlined above, the universal controller series ECO400 and the streamlined ECS100 support secondary development, reduce costs, resolve industry pain points, and accelerate the deployment of mobile robot applications.