About us:

In a world where artificial intelligence opens up new horizons, our faith in its potential unveils a new outlook where, together, humans and machines build a new future filled with knowledge, inspiration, and incredible discoveries.

The development of a functional humanoid robot underpins an era of abundance and well-being where poverty will disappear, and people will be able to choose what they want to do.

We can imagine millions of bipedal robots doing more work than all human labour does today freeing people from the servitude of some repetitive and boring tasks that nobody likes to perform.

We believe that we have enough abundance to take care of everyone who is displaced. Eventually, providing a universal basic income will lead to the true evolution of our civilization.

Labor shortages loom, as the demands on our built environment rise. With the world’s workforce increasingly moving away from undesirable tasks, the manufacturing, construction, and logistics industries critical to our daily lives are left exposed.

By deploying our general-purpose humanoid robots in environments deemed hazardous or monotonous, we envision a future where human well-being is safeguarded while closing the gaps in critical global labour needs.

Responsibilities

• Mechatronic System Design: Design, develop, and optimize mechatronic systems for humanoid robots, integrating mechanical, electrical, and software components.
• Component Selection: Select appropriate components, sensors, actuators, and materials based on system requirements, performance criteria, and cost considerations.
• Prototyping and Testing: Create prototypes and conduct rigorous testing to validate designs, identify areas for improvement, and optimize system performance.
• System Integration: Integrate mechanical, electrical, and software subsystems to ensure seamless operation and functionality of the overall mechatronic system.
• CAD Modeling: Use computer-aided design (CAD) software to create detailed 3D models and assemblies of mechanical components and systems.
• Electrical Design: Design circuitry, wiring harnesses, and electronic interfaces for controlling and interfacing with various sensors, actuators, and control systems.
• Control System Development: Develop control algorithms and software for feedback control, motion planning, and trajectory optimization to achieve desired robot behaviors and functionalities.
• Documentation: Prepare comprehensive design documentation, including technical specifications, drawings, schematics, and test reports.
• Collaboration: Collaborate with multidisciplinary teams, including mechanical engineers, electrical engineers, software developers, and project managers, to achieve project objectives.
• Continuous Learning: Stay updated on the latest advancements in mechatronics, robotics, and related fields, and apply new knowledge and technologies to improve designs and methodologies.

Expertise

• Mechanical Engineering: Strong background in mechanical engineering, with expertise in mechanisms, kinematics, dynamics, and materials science.