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Security Service
Security Service
Security
UniX AI robots autonomously plan patrol routes and perform multi-floor inspections across key areas including fire-protection facilities, corridors, pantries, and restrooms. They deliver accurate fire-safety equipment verification and safety-hazard detection, significantly improving security efficiency and strengthening building safety management.
  • 01
    Autonomous Patrol
    Continuously patrols the premises with intelligent route planning, delivering 24/7 automated security coverage with reduced manpower
    Autonomous Patrol
  • 02
    Fire Equipment Inspection
    Automatically checks fire equipment cabinets to ensure critical emergency tools are present, intact, and always ready for use
    Fire Equipment Inspection
  • 03
    Fire Door Inspection
    Actively operates fire doors to verify automatic closing performance, ensuring reliable fire and smoke isolation when it matters most
    Fire Door Inspection
  • 04
    Corridor Risk Detection
    Detects abnormal personnel or unattended objects in corridors in real time, enabling early risk identification and proactive security response
    Corridor Risk Detection
Advantages
  • Autonomous Patrolling
    01
    Autonomous Patrolling
    Able to continuously perform patrol tasks without fatigue, significantly increasing patrol frequency and coverage in property areas, ensuring no blind spots in monitoring.
    Autonomous Patrolling
  • Multitasking Parallel Processing
    02
    Multitasking Parallel Processing
    Can simultaneously perform tasks such as environmental monitoring, facial recognition,and abnormal behavior analysis, greatly reducing repetitive manual labor and optimizing workflow.
    Multitasking Parallel Processing
  • Dynamic Path Planning
    03
    Dynamic Path Planning
    Automatically adjusts patrol routes based on real-time environmental changes, avoiding obstacles or prioritizing high-risk areas for patrol, enhancing task execution flexibility.
    Dynamic Path Planning
ROI
4.png  Delivers 24/7 automated security5.png   Reducing operating costs by 50%6.png Optimizing the Human-to-Robot ratio to 1:3


  • Autonomous Security Inspection
    Follows predefined routes to autonomously complete security inspection tasks, reducing manual patrol frequency and labor costs while enabling 24/7 continuous security coverage.
  • Multi-Robot Collaboration
    Supports coordinated patrols among multiple robots, with cloud-based scheduling enabling intelligent task allocation to prevent redundant inspections, reduce energy consumption, and minimize equipment wear.
  • Autonomous Security Inspection
    Builds lifespan prediction models based on operational data to proactively replace vulnerable components, reducing unexpected repair costs and extending the service life of critical parts by more than 30%.
  • Energy Management
    Uses dynamic power-adjustment technology to automatically switch operating modes based on task requirements, reducing energy consumption by up to 45% compared with traditional security equipment.
  • Modular Design
    Key components adopt a standardized modular architecture that supports rapid replacement and maintenance, reducing the need for on-site technical personnel and lowering maintenance costs by 60%.
  • Data Reuse
    Inspection data is automatically synchronized to the property management platform, achieving a reuse rate of over 90% and eliminating the labor and equipment costs associated with redundant data collection.
  • 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.