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

• Lead and manage a team of systems engineers, providing guidance, mentorship, and support to ensure the successful execution of projects.
• Define and implement systems engineering processes, methodologies, and best practices tailored to the needs of humanoid robotics projects.
• Define and develop system architectures for humanoid robots, including hardware, software, and firmware components, to meet functional and non-functional requirements.
• Establish and manage requirements engineering processes, including elicitation, analysis, documentation, validation, and verification, to ensure alignment with project objectives.
• Oversee system integration and testing activities, including unit testing, subsystem integration testing, system integration testing, and acceptance testing, to validate system functionality and performance.
• Identify and mitigate technical risks and dependencies associated with system design, integration, and testing, developing risk mitigation strategies to ensure project success.
• Establish and maintain configuration management processes and tools to manage changes to system components, documentation, and baselines throughout the project lifecycle.
• Manage interfaces between system components, subsystems, and external systems, ensuring compatibility, consistency, and interoperability across the system.
• Develop verification and validation plans and procedures to ensure that system requirements are adequately verified and validated, coordinating with stakeholders to achieve consensus on acceptance criteria.
• Drive continuous improvement initiatives to enhance systems engineering processes, tools, and methodologies, leveraging lessons learned from previous projects to improve efficiency and effectiveness.

Expertise

• Strong background in systems engineering principles, processes, and methodologies, with experience in applying systems thinking and holistic approaches to complex engineering projects.