TECHNOLOGY PHILOSOPHY
TECHNOLOGY
YOGO's technical philosophy is analogous to human intelligence reactions, designing and realizing the transformation from a single central decision-making brain to a more dimensional wisdom center. Just like human intelligence, it is composed of brains, neurons and various synapses, forming a cross-racial, heterogeneous intelligence system with stronger adaptability.
TECHNOLOGY
3 System Layers
TECHNOLOGY
100%
Fully Self-Developed Technology

Remains Committed To Independent Research And Development Across The Entire Spectrum,YOGO From Structural Design And Firmware To Software.

TECHNOLOGY
Hardware Competencies
World’S First Robot Capable Of Efficient Movement In 3D Space
  • 23 CPUs
  • 36 Sensors
  • 6
    Ultrasound
  • 1
    Lidar
  • 9
    Infrared Sensors
  • 2
    Cameras

YOGO ROBOT Possesses L4-Level Indoor Autonomous Driving Capabilities. Its Advanced Sensor Fusion Algorithms Enable Efficient Collaboration And Quick Decision-Making In Response To Various Situations.

Multi-level
decision-making
ensures safe passage.

In response to various situations, sensors of different levels cooperate with same-level CPUs to make decisions directly.

Quick recognition and agile passage.

360-degree obstacle detection, millisecond response time, swiftly identifying objects, and navigating flexibly.

Intelligent Judgment for
Smart Navigation

Utilizing Vslam image processing technology, it can recognize human bodies and faces while possessing deep learning capabilities.

  • Multi-leveldecision-makingensures safe passage.
  • Quick recognition and agile passage.
  • Intelligent Judgment for Smart Navigation
The robot, in collaboration with YOGO AIoT, enhances efficiency through cooperative cooperation.
By Connecting With Native Equipment Through AIoT, The Robot And YOGO Work Synergistically To Improve Decision-Making Accuracy And Enhance Service Quality.
  • Zinc alloy body
    structure
    Ultra-Thin Body Structure, Achieving Lightweight Exterior Dimensions.
  • Energy guiding
    rail
    Space Station Docking Technology, Providing Stable And Safe Power Supply To Modules, Making Expansion Simpler.

 

We Has Specially Developed Wheel Chassis System That Adapts To Various Surfaces Within Buildings. Whether The Floor Is Dry Or Wet,Robot Maintains Smooth Movement And Stability While Navigating.

  • Tiles
  • Wooden
    Floors
  • Cemented
    Surfaces
Z-shaped crossing shock-absorbing
suspension system

Independently Developed Shock-Absorbing Technology, Redefining The Standards For Robot Passability.

01
Cloud-based Centralized Power Management
When The System Detects Insufficient Power, Tasks Will Be Handed Over To Nearby Robots, Enabling Automatic Recharging And Intelligent Deployment.
02 / Complete Charging 3 Hours
02
Complete Charging 3 Hours
Automatically finds the charging station and completes the charging process.
01 / Cloud-based Centralized Power Management
TECHNOLOGY
Automatic docking
charging station
100%
Automatic Docking Success Rate

Self-Retractable Battery Protection Shield For Safety.

Effectively Prevents Electric Shock And Leakage, Ensuring Personal Safety.

Designed To Withstand Corrosive Liquids And Gases During Cleaning And Disinfection Processes.

Core Algorithm

Originated From The Aerospace And Military Industry, Everything From The Underlying Software To The Operating System Is Domestically Developed And Independently Controllable. 99% Of Robot Companies On The Market Use The American ROS Operating System And Open Source Algorithms while YOGO‘s Operating System is also self-developed.

Self-developed OS
System

YOGO Utilizes Multiple Micro-Cpus To Achieve Multi-Terminal Hybrid Computing Through Independently Developed Hardware Communication Operating Systems And Distributed Algorithms. The Computing Platform Can Continue To Operate Stably In High Temperature And Harsh Environments. Even If A Partial Module Fails, Each Component Has The Ability To Recover And Back Up Each Other. Using Microkernels, It Can Run On Multiple Different Types Of Micro-Cpus, Getting Rid Of The Dependence On A Single Expensive High-Precision Processor. While The Cost Of The Computing Platform Is Significantly Reduced, The Computing Performance And Stability Are Significantly Improved.

  • SpaceIntelligence 
    Distributed Operating System Clusters
    Space Intelligence
    Distributed Operating System Clusters
    To Manage Multi-Tasking And Multi-Hardware Operations Within Buildings.
  • Date Driven Cognitive System
    Intelligent AI Hub With A Cognitive System
    Date Driven Cognitive System
    Intelligent AI Hub With A Cognitive System
    To Manage Multi-Tasking And Multi-Hardware Operations Within Buildings.
Group Collaboration
When A Robot Identifies Relevant Information, It Will Be Able To Instantly Share The Information Throughout Mesh-Network Cluster, Regardless Of Where The Individual Systems May Be Located.
Autonomous
Driving
Distributed Operating System Clusters
Hybrid Multi-Level Positioning And Sensing Technology Based On Laser, Vision, Infrared, Ultrasound, Imu And Other Sensors Mainly Solves Positioning Accuracy, Robustness And Independent Verification Capabilities. At Present, It Is Possible To Achieve Precise Robot Positioning And One-Time Map Construction In An Area Of ​​More Than 50 Floors And 500,000 Square Meters.
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