YOGO SOLUTIONS
YOGO’s innovative system integrates technologies, robotics, AIOT, sensors and devices into a unified framework, delivering tailored solutions across diverse environments. Whether optimizing logistics, enhancing sustainability, or elevating user experiences, YOGO adapts to the unique demands of each scenario. By seamlessly connecting devices, environments, and people, YOGO fosters intelligent, scalable, responsive spaces that not only meet the immediate needs of users but also contribute to long-term resource efficiency and environmental stewardship.
Building Analogy
Buidlings At Present Are At Persistent Vegetative State.
Can We Humanize Buildings With Decision Makingimplementation And Collaboration Abilities ?
Making Goods And Waste As Examples

In Circulatory System, Which Consists Of Heart, Blood And Blood Vessels, Are Responsible For Transporting Nutrients To The Cells Of Your Body. Nutrients Are Transported By Red Blood Cells To Body.

In Digestive System,Which Consist Of Stomach, Intestines And Etc,, Are Responsible For Transfer Energy For Human Activities As Well As Transfer Waste Outside Of The Body.

In A Humanized Building, Robots, Like Red Cells, Carry And Deliver Goods And Resources In Elevators Or Corridors For Human’ Demand. Meanwhile, Robots Also Carry Waste Through Waste Elevators And Corridors Outside Of The Building.

Analogy Inspiration

Heart → Central Control

Vessels → Goods Elevators/COrridors

Red → CellsRobots

Goods → Energy

Stomach → Energy Management

Intestines → Waste Elevators /COrridors

  • Circulatory/CArdiovascular System

    Delivers Oxygen And Nutrients To Tissues Equalizes Temperature Inthe Body

     

    Heart → Central Control

    Vessels → Goods Elevators/COrridorsred

    Cells → Robots

     

    Cardiovascular System Is Network Ofinfrastructure, Responsible For The Circulation Ofvital Resources And Information Throughout Thebuilding.This System Ensures That Essentiaelements Are Efficiently Distributed And Managed.

  • Digestive System

    Processes Food Foruse By The Body Removes Wastesfrom Undigested Food

     

    Goods → Energysto

    Mach → Energy Management

    Intestines → Waste Elevators /COrridors

     

    Digestive System In A Humanized Buildingwill Continuously Transform Electricity Tomovements Needed For Human Activities Aswell As Transfer Waste Out Of Our Bodythrough Intestines.

Trash Collection Process + Process Refinement
Recycling Robotic Capacity Deduction
  • Calculation Basis
    Based On Data
  • Average Speed Of Freight Elevator
    1m/S
  • Average Speed Of Robots
    0.6m/S
  • Assuming The Average Height Of Each Floor
    5 Meters
  • When Taking The Elevator To The Garbage Dump
    10s
  • Average Time For Single Machine Elevator Entry And Exit
    30s
  • Average Time For Separating Materials
    30s
  • When Taking The Elevator To The Garbage Room
    20s
Robot And Elevator Scheduling Strategy

There Are A Total Of 8 Robots, Divided Into Two Groups, With 4 Robots In Each Group. Robots In The Same Group Are Always In The Elevator

The Elevator Is Fully Loaded With 4 Robots, And One Robot Is Put Down At Each Floor

Separation Of Pickup And Delivery
Docking Technology
Non Contact Transmission
Docking Technology
Automatic Docking Of Robots And Shelf Adaptive Item Transfer Modules
After The Robot Reaches The Docking Point Of The Shelf, It Communicates With The Pick-Up And Delivery Separation Module To Open The Door With The Docking Mechanism. The Robot Recognizes The Reflective Strip On The Shelf And Aligns It With The Shelf In The Front Back, Left And Right Directions Through Navigation Motion. The Height And Front Back Positioning Alignment Are Achieved Through The Adaptive Docking Mechanism Of The Pick-Up And Delivery Separation Module And The Shelf. After Alignment Is Completed, The Sensor On The Pick-Up And Delivery Separation Module Of The Robot Detects The Docking Rod Of The Shelf To Achieve Closed-Loop Control Of The Entire Docking Motion. Through The Integrated Soft And Hard Docking Scheme, The Docking Between The Robot And The Shelf Can Be Stably And Efficiently Completed, And The Adaptive Docking Mechanism Enables The Robot And The Shelf To Have Good Ground Adaptability.
Non Contact Transmission
Strong Wheel Docking Adapts To The Fluctuation Of Scene Environment

The Power Of The Conveyor Belt At The Shelf End Is Realized By The Robot And The Powerful Wheel At The Docking End Of The Shelf, Which Is Non-Contact Power Transmission, Greatly Reducing The Requirements Of The Transmission Mechanism And Increasing The Reliability Of The Whole Power Transmission And Adapting To The Scene Environment.

Elevator AIoT Technology

Non Invasive Installation: Compatible With 98% Of Elevators

Comprehensive Perception And Real-Time Monitoring

Support Extensive Operation Between Multiple Elevators, Robots, And Turnstiles

Weak Signal/Interruption Area
Self Developed Dual Communication 4g+2.4g: Overcoming Latency And Weak Network Issues In Cloud To Cloud Solutions
  • Dual Connection Guarantee

    The YOGO System Includes Two Communication Channels: 4g And 2.4g, Which Ensure Stable And Uninterrupted Communication, Significantly Improving The Quality And Reliability Of The Technology.

  • Self Designed Ad Hoc Network:

    YOGO's Proprietary Ad-Hoc Network Technology Allows Devices In The Network To Communicate With Each Other Directly. This Method Improves The Communication Efficiency, Especially In The Environment Where The Traditional Network Infrastructure May Be Lacking Or Overloaded.

Group Collaboration: Multi Robots Pass Through
Gates And Enter Into Elevators
Single Mesh Network
Multiple Robots Passing Through Turnstiles Or Elevators

With The Help Of Mesh Networks, Robots Can Queue Up, Avoid Obstacles, And Even Squeeze Into Elevators Like Humans.

Multiple Mesh Networks
Mesh Network Clusters Will Always Share All Information

Mesh Network Clusters Will Always Share All Information, As All Devices And Robots Are Actually Part Of The Same Brain. The Fluctuation In The Number Of Mesh Networks Will Not Affect The Effective Information Sharing Between Robots And Devices.

Similar To The Military Combat System

No Longer Is a Single System Observing The Battle Space Through Its Own Narrow Perspective, But There Is a Network That Can See The Whole Battle Space At Any Time. When a Combat Weapon Recognizes Relevant Information, It Can Immediately Share The Information In The Whole Network No Matter Where Each System Is Located.

Commanders No Longer Regard Combat Weapons As Planes, Submarines And Tanks, Nor Do They Care Much About Whether These Machines Operate At Sea, Land, Air, Space Or Cyberspace. His Only Goal Is To Finish The Task.

When The Robot Recognizes Relevant Information, Regardless Of Where The Various Systems Are Located, It Will Be Able To Immediately Share Information Throughout The Entire Mesh Network Cluster.
Sorry, This Function WillBe Available Soon.