Intelligent Bipedal Humanoid Robot for Services and Exploration

• ✔ Advanced bipedal mobility with at least 22 degrees of freedom
• ✔ Flexible design with 2 or more degrees of freedom in the head, sides and shoulders
• ✔ High performance with at least 22 servos for smooth and precise movement
• ✔ Broad operating system support including Windows, iOS and Linux Ubuntu
• ✔ Ready for development with ROS Kinetic, C/C++, Python, OpenCV and TensorFlow
• ✔ Ideal for robotic actions, visual recognition, path planning and walking algorithms
• ✔ Modular architecture for secondary software development and integration

Introducing an intelligent bipedal humanoid robot that redefines the possibilities of interaction and service delivery. This advanced companion is designed to efficiently conduct exploration, assist in diverse environments, and open new horizons for robotics research and development.

🌟 What can this humanoid companion do?

• Exceptional mobility thanks to at least 22 degrees of freedom of the whole body, including detailed movement of the head, hips, shoulders, legs and arms.
• Robust and precise servo motors with high torque ensure stable and smooth movement even in demanding tasks.
• A comprehensive software environment based on Linux Ubuntu and ROS Kinetic, with support for C/C++, Python, OpenCV, TensorFlow and RealSense™ SDK 2.0.
• The ability to autonomously perform robotic actions, visual recognition of objects and people, intelligent path planning, and sophisticated walking algorithms.
• Support for easy secondary development and integration into existing systems, allowing customization for specific needs.

🚀 Explore every detail – From freedom of movement to intelligent software

This humanoid robot is a masterpiece of engineering that combines detailed design with high functionality. Its body is thoughtfully designed with at least 22 degrees of freedom, allowing it to perform a wide range of movements with unprecedented fluidity and realism. Whether it's subtle head gestures, dynamic leg movements, or precise hand manipulation, this robot is ready for any challenge.

At the heart of its intelligence is an advanced software platform that runs on Linux Ubuntu 16.04 LTS and uses ROS Kinetic. This provides an open and flexible architecture for development. Support for key programming languages ​​and libraries such as C/C++, Python, OpenCV and TensorFlow, together with the RealSense™ SDK 2.0, opens the door to creating sophisticated applications for visual recognition, advanced navigation and interactive tasks.

❓ Are you worried about the need for an innovative solution for client interaction or data collection?

Traditional methods of data collection and service delivery can be time-consuming, inefficient, or lack a personal and interactive dimension. Human labor is expensive and not always available for repetitive, routine tasks that require high accuracy and patience. Moreover, modern times require a modern approach to customers and effective information retrieval.

💡 Get your time back and increase efficiency with an intelligent robot companion!

Our intelligent bipedal humanoid robot is designed to address these challenges. With its ability to autonomously interact, collect data, and provide services, it frees up human resources for more complex tasks. Additionally, its friendly and interactive design increases user engagement and communication efficiency, leading to more accurate data and happier customers.

🎯 More than just features – real benefits you'll feel

• Features: Advanced 22+ degrees of freedom for the whole body.
  -> Benefit: Extremely flexible and realistic movements, the ability to interact with the environment and perform complex tasks with ease.
• Features: Open software platform (Linux, ROS, C/C++, Python, TensorFlow).
  -> Benefit: Unlimited possibilities for secondary development and customization for specific applications, ensuring long-term relevance and adaptability.
• Features: Integrated visual recognition and path planning capabilities.
  -> Benefit: Autonomous navigation in a dynamic environment and efficient identification of objects and people for targeted interactions.
• Features: Support for Windows and iOS for remote control and management.
  -> Benefit: Easy integration into existing IT infrastructures and convenient management of the robot from any compatible device.

👥 Who is it the ideal choice for?

• Researchers and academics: For platforms in robotics, AI, and human-robot interaction.
• Companies providing services: For reception, assistance, customer satisfaction surveys and marketing events.
• Developers and engineers: As an advanced platform for testing and implementing new robotic algorithms and applications.
• Educational Institutions: For demonstrating advanced robotics and programming concepts.

🛡️ Do you have concerns? We'll answer them:

• Concern: Is the robot difficult to program and maintain?
  -> Answer: Thanks to the open software environment ROS Kinetic and support for a wide range of languages ​​(C/C++, Python), development is flexible. The community and documentation make it easy for beginners and advanced projects.
• Concern: Will the robot's movement feel artificial?
  -> Answer: With at least 22 degrees of freedom and powerful servos, it is capable of very natural and smooth movements that guarantee realistic interaction.
• Concern: How is future expandability and updates ensured?
  -> Answer: The system is designed to support updates and secondary development. Compatibility with ROS and modern development tools ensures long-term sustainability and the possibility of future growth.

⚙️ Technical specifications

Total number of degrees of freedom	≥ 22
Head degrees of freedom	≥ 2
Degrees of freedom of the hip joint	≥ 2
Degrees of freedom of the legs	≥ 10
Degrees of freedom of the hand	≥ 6
Degrees of freedom of the arm	≥ 2
Robot control OS	Linux Ubuntu 16.04 LTS 64bit (update support)
Robot Operating System (ROS)	ROS Kinetic (support for updates, development and upgrades)
Programming languages ​​and libraries	C/C++, Python 2.7/3.5+, OpenCV, OpenCV-Python, RealSense™ SDK 2.0, TensorFlow
Supported development types	Robotic actions, visual recognition, path planning, walking algorithms, secondary system development
Control software support	Windows, iOS
Servos (type 1)	≥ 10 pcs; Locking torque ≥ 7 N m; Motor: Hollow cup motor; Communication speed ≥ 1 Mbps
Servos (type 2)	≥ 4 pcs; Locking torque ≥ 4 N m; Motor: Hollow cup motor; Communication speed ≥ 1 Mbps
Servos (type 3)	≥ 6 pcs.; Locking torque ≥ 1 N·m; Engine: Core cup engine
Servos (type 4)	≥ 2 pcs; Locking torque ≥ 0.5 N m; Gear: Copper teeth

❓ Frequently Asked Questions

What is the robot primarily intended for?

This intelligent bipedal humanoid robot is ideal for conducting surveys, providing services, robotics research, and developing new applications thanks to its advanced mobility and software flexibility.

What are the key benefits of its mobility?

With at least 22 degrees of freedom, including detailed movement of the head, hips, legs and arms, the robot achieves very natural and fluid movements, enabling interaction with complex environments and realistic gestures.

What are the hardware requirements for servos?

The robot is equipped with at least 22 servos of various types, with torques from 0.5 N m to 7 N m, using hollow cup and core cup motors for optimal performance and movement reliability.

What operating systems and development environments does it support?

Linux Ubuntu 16.04 LTS with ROS Kinetic is recommended for control. C/C++, Python, OpenCV, RealSense™ SDK 2.0, and TensorFlow support are available for development. Control software is available for Windows and iOS.

Is it possible to further program and develop the robot?

Yes, the robot is designed for secondary development. The open platform and support for various programming languages ​​allow for the implementation of custom algorithms for robot actions, visual recognition, path planning, and other functions.

Can a robot perceive its surroundings?

Thanks to the support of libraries such as OpenCV and RealSense™ SDK 2.0, the robot is capable of visual recognition and data acquisition about its surroundings, allowing it to interact and navigate effectively.

What types of motors are used in servos?

The robot uses both hollow cup motors for higher torque servos (7 N·m and 4 N·m) and core cup motors for lower torque servos (1 N·m and 0.5 N·m), ensuring optimal performance and efficiency.