Our mission

At Humanoid we strive to create the world's leading, commercially scalable, safe, and advanced humanoid robots that seamlessly integrate into daily life and amplify human capacity.

Vision

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 believe that providing a universal basic income will eventually be a true evolution of our civilization.

Solution

As the demands on our built environment rise, labour shortages loom. 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

Safety Standards Compliance: Ensure compliance with relevant functional safety standards and regulations applicable to humanoid robotics systems, such as ISO 13482, ISO 13849, ISO 10218, and ISO 26262.
Safety Analysis: Perform safety analysis activities, including hazard identification, risk assessment, and safety requirements derivation, to identify potential hazards and assess safety risks associated with robotic systems.
Safety Requirements Definition: Define functional safety requirements for robotic systems, subsystems, and components, specifying safety functions, performance criteria, and safety integrity levels (SIL) based on risk assessment.
Safety Architecture Design: Design safety architectures for robotic systems, including hardware and software safety features, redundancy mechanisms, fault detection, and fault tolerance strategies, to achieve required safety goals.
Safety Validation and Verification: Develop validation and verification plans and procedures for safety-critical systems, including testing, simulation, and analysis, to ensure compliance with safety requirements and standards.
Safety Documentation: Prepare safety documentation, including safety plans, safety cases, hazard analysis reports, safety requirements specifications, and verification reports, to support certification and regulatory compliance.
Safety Management: Establish safety management processes and procedures, including safety reviews, change management, and safety audits, to ensure that safety requirements are integrated into the development lifecycle.
Safety Certification Support: Support safety certification efforts for robotic systems, including liaising with certification authorities, preparing documentation for safety assessments, and addressing certification findings and requirements.
Safety Training and Awareness: Provide training and awareness sessions on functional safety principles, processes, and methodologies to engineering teams, ensuring understanding and compliance with safety requirements.
Continuous Improvement: Drive continuous improvement initiatives to enhance functional safety processes, tools, and methodologies, leveraging lessons learned from previous projects to improve safety practices and outcomes.

Expertise

Functional Safety Standards: Deep understanding of functional safety standards and regulations applicable to robotics systems, including ISO 13482, ISO 13849, ISO 10218, and ISO 26262, and familiarity with their requirements and guidelines.
Safety Analysis Techniques: Proficiency in safety analysis techniques, such as hazard analysis and risk assessment (HARA), failure modes and effects analysis (FMEA), fault tree analysis (FTA), and safety integrity level (SIL) determination.