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Entertainment
Entertainment
Entertainment
From cultural performances to immersive interactive experiences, UniX AI humanoid robots bring a new dimension to entertainment and public engagement. Powered by advanced motion control, multimodal perception, and long-horizon task planning, UniX AI robots can perform musical instruments, interact naturally with audiences, and operate reliably in dynamic entertainment environments. The platform enables scalable deployment across cultural venues, tourism attractions, commercial events, and public spaces.
  • 01
    Cultural Performance Scenario
    · Performs traditional and modern musical instruments with precision.
    · Supports Yangqin, Chinese drum, drum set, and customized performances.
    · Delivers consistent and repeatable stage presentations.
    · Enhances cultural events with innovative robotic performances.
    · Integrates seamlessly into exhibitions, and public celebrations.
    · Creates engaging experiences that combine technology and art.
    Cultural Performance Scenario
  • 02
    Interactive Entertainment Scenario
    · Provides interactive experiences for visitors and audiences.
    · Supports guided tours, storytelling, and event introductions.
    · Responds naturally through voice, vision, and multimodal interaction.
    · Enhances engagement in tourism, museums, and commercial venues.
    · Operates continuously during long-duration events and activities.
    · Creates memorable and immersive entertainment experiences.
    Interactive Entertainment Scenario
Video
  • Multi-Scenario
    Deployment Capability
    We provide scenario-based solutions for reception,security,
    elderly care, companionship, entertainment , research & education
  • High Configurability
    And Modular Expansion
    With fully open software and hardware interfaces,Wanda supports
    customization for research, education, and various industry applications.
FLEXIBLE AND EFFICIENT
REMOTE TELEOPERATION CAPABILITY
  • Proprietary Remote Teleoperation System

    Supports both local and remote real-time control. With a high-bandwidth communication architecture, public network latency is reduced to the millisecond level, enabling users to remotely operate robots to perform complex tasks.