The advent of HarmonyOS in the realm of intelligent robotics marks a significant leap, as evidenced by the release of Aelos, the world’s first humanoid robot powered by this operating system. This groundbreaking development is a collaborative effort between Shenzhen Kaihong Technology and Leju Robot, signifying a major milestone in the field of robotics.
Aelos is not just another robot; it is a versatile teaching system designed to revolutionize education and research across various sectors, including industrial and service applications. The robot is equipped with a comprehensive array of sensors, such as blood oxygen and heart rate monitors, temperature and humidity gauges, infrared thermometers, and human body detectors. These sensors, along with NFC capabilities, OLED displays, and LED lights, enable Aelos to intelligently perceive and interact with its surroundings.
One of the most remarkable features of Aelos is its seamless connectivity with other devices like smartphones, tablets, and computers, eliminating the need for traditional wired connections. This enhances its usability in educational and research settings. Aelos boasts an impressive 17 degrees of freedom, allowing for a wide range of movements. It's equipped with a dual camera system and dual computing systems, utilizing the STM32 microcontroller and the RK3568 processor, ensuring high performance and versatility.
A humanoid robot is now on sale
Aelos is also accessible to a broad spectrum of users, from K12 students to higher education institutions, thanks to its support for multiple programming languages, including graphical programming, C/C++, and JS/ArkTS. The adoption of the open-source HarmonyOS operating system is a strategic choice, given its renowned security, reliability, efficiency, customization, and adaptability features.
The introduction of Aelos is expected to revolutionize the humanoid robot industry. Its advanced capabilities, combined with the flexibility of the HarmonyOS, promise to accelerate innovation and advancements in humanoid robotics.