Interactive Perception

Voice sensor:

Integrated microphone array enables robotic platforms to capture and process ambient acoustic signals, delivering advanced voice interaction capabilities. Such as home service robot can receive the master's instructions through the voice sensor, provide information query, home appliance control and other services; In the field of education, it can be used to assist teaching, identify students' voice questions and answer them.

Tactile sensor:

Tactile sensor is an important tool for humanoid robots to perceive external environment, distributed on the surface of the robot, which can simulate human touch and perceive external physical quantities such as pressure and temperature. The tactile sensor can cover the whole body of the robot, forming a tactile perception layer that similar to human skin, to achieve a more natural and humanized interactive experience.

Emotion sensor:

Through the integration of a variety of sensors, it can perceive human expression, voice tone, body language and other information, and analyze human emotional state, so that the robot can make appropriate responses according to human emotions, and provide more personalized and humanized services.

Security protection

Collision detection sensor:

Integrated into robotic exteriors and critical structural nodes, enable real-time impact monitoring through multi-physical field sensing. These safety-critical devices trigger emergency braking protocols upon detecting unintended contact, ensuring compliance with robotic safety standards.

Temperature sensor:

Thermal sensors implement multi-zone temperature sensing across robotic structures to prevent thermal-induced failures, ensuring full operational envelope compliance and extending service life through proactive thermal management.

Smoke/Gas Sensors:

Integrate multi-spectral gas analyzers and particulate sensors to monitor smoke or harmful gases, enabling automated emergency response protocols compliant with fire safety codes and respiratory protection standards.

These sensors form the core perceptual architecture of humanoid robots, enabling comprehensive environmental awareness and proprioceptive state monitoring. This multi-modal sensing framework empowers robots to execute complex tasks in dynamic environments while achieving natural human-robot interaction (HRI). With continuous advancements in MEMS sensor technology and cost optimization, humanoid perception systems are evolving toward higher resolution, lower latency, and expanded application domains.

Humanoid robotics represents a pivotal frontier in next-gen industries, epitomizing the convergence of artificial intelligence, mechanical engineering, and electronic systems.

The application of artificial intelligence algorithms allows humanoid robots to better understand human language, identify their environment and learn new skills. Future humanoid robots will be able to make more complex decisions, learn, and adapt. It will work more closely with humans in a variety of work environments, improving productivity and quality of life.

HOLS has been in Sensor Automated Assembly Line for many years,

With decades of dedicated expertise in sensor automated production lines, HOLS remains at the forefront of industrial innovation. We are strategically positioned to empower the ubiquitous adoption of humanoid robotics through cutting-edge sensing solutions, driving the new productivity revolution across industries.