Explore the myArm M&C series robots for a versatile, high-performance solution in robotics that offers precise control and a wide range of applications.
SHENZHEN, GUANGDONG, CHINA, May 10, 2024 /EINPresswire.com/ — Embodied intelligence research, a core field of artificial intelligence, strives to endow robots with precise motion control, high-level autonomous decision-making, and new capabilities in robots. there is. Seamless interaction between humans and machines.
Against this background, Elephant Robotics recently unveiled the myArm M&C series robot. These powerful, cost-effective, lightweight robots enhance the data collection and action capabilities of researchers and developers, driving advances in embodied intelligence technologies and real-world applications.
myArm M&C series robots have been carefully designed to meet the diverse needs of users, with flexibility and adaptability as top priorities. They play a pivotal role in a variety of research and application scenarios, making them ideal robotic solutions for teaching and research purposes.
Myam C650
myArm C650 is a general-purpose 6 DOF robot motion information acquisition device designed to meet the diverse needs of education, research, and industry for robot motion data collection and analysis. The myArm C650 has a lightweight design weighing just 1.8kg, boasts a horizontal working radius of 650mm, and minimizes inertial forces during operation, improving response speed and precision.
Equipped with high-precision digital servo motors and 4096-bit encoders at all six joints, myArm C650 can perform a variety of tasks by mimicking human arm movements with incredible accuracy. Intuitive control method with dual finger remote control and customizable dual buttons supports precise command execution and recording function for immediate feedback on robot movements. This flexibility makes the myArm C650 an ideal choice for precise motion tracking and data collection in a variety of laboratory and educational environments. With its impressive information collection rate of up to 50 Hz, it has become indispensable for robotic algorithm development and higher education institutions, providing real-time data support for complex control systems.
In remote control applications, the myArm C650 delivers outstanding performance regardless of the robot’s configuration complexity. Additionally, compatibility with Python and ROS, combined with open source remote control demo files, expands the range of applications, enabling seamless integration with advanced robotics platforms such as myArm M750, myCobot Pro 630, and Mercury B1.
The myArm C650 sets a new standard for versatility and performance in robot motion data acquisition, helping users unlock the full potential of advanced robotics in a variety of fields.
Myam M750
myArm M750 is a universal intelligent 6 DOF robotic arm. It not only meets the needs for high-precision robot motion control, but is especially suitable for entry-level robot motion algorithm verification and real-world training scenarios. The standardized mechanical arm structure provides an ideal learning platform for students and beginners to understand the basic principles and applications of robotic kinematics.
Dedicated to achieving precise motion control and verification, the myArm M750 excels in applications requiring stringent operational accuracy, such as precision assembly, micromanipulation, and quality monitoring. Equipped with industrial-grade high-precision digital servo motors and advanced control algorithms, myArm M750 provides excellent torque control and positioning accuracy, supporting a rated load capacity of 500g and a maximum load of 1kg.
The versatility of the myArm M750 extends to its end-effector design, which features standard parallel grippers and vision modules that provide users with basic grasping and recognition capabilities. In addition, myArm M750 offers compatibility with a variety of optional accessories, greatly expanding application scenarios and adaptability to a variety of tasks.
myArm M&C remote control robot arm kit
The teleoperated robotic arm kit represents a leap forward in robotics innovation, providing an advanced solution suitable for remote control and real-time interaction through cutting-edge teleoperation technology. By seamlessly integrating the versatility of the myArm C650 with the precise control of the myArm M750, this kit forms a dynamic and adaptable platform suitable for numerous research, education and commercial applications.
Designed to mimic human behavior, the kit allows researchers and developers to validate and test remote control systems and robot motion planning models similar to the ALOHA robot. With millisecond-level data collection and control capabilities, real-time drag control capabilities, and multi-robot collaboration capabilities, the myArm M&C Kit facilitates the execution of complex tasks, including advanced simulations of human behavior. This technology not only demonstrates the accuracy and efficiency of robots that mimic human behavior, but also promotes research and development of robotic technology that simulates human behavior and performs routine tasks.
Additionally, integrated AI technologies give robots the ability to learn and adapt, supporting autonomous navigation, object recognition, and complex decision-making capabilities, opening up broad application possibilities across a variety of research fields.
myArm M&C Embodied Humanoid Robot Complex Kit
Stanford University’s Mobile ALOHA project has garnered worldwide attention for its groundbreaking advancements in robotics technology. We developed an advanced system that allows users to perform complex two-arm tasks through human demonstration, and increased the efficiency of imitation learning algorithms through data accumulation and collaborative training. The mobile ALOHA system demonstrates its versatility by seamlessly executing a variety of practical tasks, from cleaning up spilled drinks to cooking shrimp to cleaning frying pans. This innovation is not only an important milestone in robotics, but also paves the way for a future where humans and robots coexist harmoniously.
Inspired by Stanford’s Mobile ALOHA project, this kit adopts the same Tracer mobile chassis. With its open source philosophy, minimalist design, modular construction, and strong local community support, this kit serves as a cost-effective solution for real-time robot remote operation and control, mirroring the capabilities of Mobile ALOHA at a more affordable price.
Designed to meet the needs of small and medium-sized businesses as well as educational and research institutions, these kits offer more affordable pricing, user-friendly features, and easy access to cutting-edge robotics technology.
myArm M&C series robots are versatile robotic solutions that meet a variety of requirements, from basic research to complex task execution. Together with optional kits, they seamlessly adapt to a variety of application scenarios, from precision manufacturing to medical support, education, training and home support. myArm M&C series robots stand out as reliable, high-performance solutions, promising reliability and excellence. An embodied humanoid robot composite kit and a quadruped bionic robot composite kit are included to further expand the possibilities of robotics, encourage interdisciplinary exploration and foster innovation.