Features At A GlanceThe UGV Beast is an AI robot designed for exploration and creation, with excellent expansion potential, seamlessly connecting your imagination with reality. Suitable for tech enthusiasts, makers, or beginners in programming, it is your ideal choice for exploring the world of intelligent technology.
Equipped with the high-performance Jetson Orin series computer to meet the challenges of complex strategies and functions, and inspire your creativity. Adopts dual-controller design, combines the high-level AI functions of the host controller with the high-frequency basic operations of the sub controller, making every operation accurate and smooth.
Easy to be controlled remotely via UGV Beast Web Application without downloading any software, just open your browser and start your journey. Supports high-frame rate real-time video transmission and multiple AI Computer Vision functions, the UGV Beast is an ideal platform to realize your ideas and creativity!
Kit Selection
Options for host controller (Jetson Orin Nano 4GB Kit), or you can choose the Acce Version if you've got a Jetson Orin module (including its baseboard).
Comes With A Multi-Functional
Mounting Plate
Can Be Used To Install A Variety Of Peripherals, Including D500 Lidar, STL-27L Lidar, Camera, Or Other Modules. Open Source For DXF Drawing And 3D Model, Which Is More Convenient For Secondary Development.
Easy To Control Via
Cross-Platform Web Application
No App Installation Required, Allows Users To Connect And Control The Robot Via Mobile Phones, Tablets And Computers Via Browser Web App. Supports Shortcut Key Control Such As WASD And The Mouse Via A PC With Keyboard Real-Time Wireless Transmission Of High Frame Rate Video
Adopts Flask Lightweight Web Application, Based On WebRTC Ultra-Low Latency Real-Time Transmission, Using Python Language And Easy To Extend, Working Seamlessly With OpenCV
Recognition, Tracking, And Targeting Based On OpenCV To Achieve Color Recognition And Automatic Targeting. Supports One-Key Pan-Tilt Control And Automatic LED Lighting, Allows Expansion For More Functions
Face Detection:
Automatic Picture Or Video Capturing
Based On OpenCV To Achieve Face Recognition, Supports Automatic Photo Taking Or Video Recording Once A Face Is Recognized
Intelligent Object Recognition
Supports Recognizing For Many Common Objects With The Default Model
Gesture Recognition:
AI Interaction With Body Language
Combines OpenCV And MediaPipe To Realize Gesture Control Of Pan-Tilt And LED Gesture control for photo taking
LED ON/OFF and brightness control
More MediaPipe Demos For Easily Creating
Complex Video Processing Tasks
MediaPipe is an open-source framework developed by Google for building cross-platform multimedia processing pipelines, provides a set of pre-built components and tools, its high-performance processing capability enables the robot to respond to and process complex multimedia inputs such as real-time video analytics.
Face RecognitionAttitude DetectionVision Line Tracking For Autonomous Driving
Integrated With Vision Line Tracking Function On The Computer Vision Demo, Comes With Yellow Tape For Easier Planning A Path For The Robot. Users Can Understand The Basic Algorithms Of Autonomous Driving With This Simple Demo
Reserved Space For Expanding Peripherals
Reserved Space On The Mounting Plate With M2.5 Mounting Holes, For Installing D500 / STL27L LIDAR Or Other Peripherals
* Comes with screws and cables for installing the D500 LIDAR, please refer to WIKI for more details. The D500 LIDAR and battery set are NOT included.
Multiple Audio Interaction Methods
Equipped With Audio Driver Board, Dual-Track Speaker, And Onboard Microphone, Built In 3.5mm Audio Jack For Connecting Peripherals To Achieve Text-To-Speech And Audio Playing
Obtains Real-Time Information Feedback
Real-Time Monitoring The Operating Status Of The Robot
Web Page Command Line Tool
Multiple Functions For Easier Expansion
Quick To Set Up, Easy To Expand
Easily Customize And Add New Functions Without Modifying Front-End Code
ESP-NOW Wireless Communication
Between Robots
Based On ESP-NOW Communication Protocol, Multiple Robots Can Communicate With Each Other Without IP Or MAC Address, Achieving Multi-Device Collaboration With 100-Microsecond Low-Latency Communication
Supports Pan-Tilt Vertical Stabilization Function For Various Road Conditions
Supports Camera Stabilization Function Based On IMU Sensor To Keep The Image Stable. Realizes IMU Data Reading, Calculation And Pan-Tilt Control Via Sub Controller, Which Will Not Occupy Computing Resources Of The Host
Gamepad Control For Better Operation Experience
Comes With A Wireless Gamepad, Making Robot Control More Flexible. You Can Connect The USB Receiver To Your PC And Control The Robot Remotely Via The Internet. Provides Open Source Demo For Customizing Your Own Interaction Method
Realizes Remote Control Across The Internet
- Our web application demos are based on WebRTC for real-time video transmission.
- WebRTC (Web Real-Time Communications) is a technology that enables web applications and sites to establish peer-to-peer connection and capture optionally stream audio and/or video media, as well as to exchange arbitrary data between browsers without requiring an intermediary.
- We provide comprehensive Ngrok tutorials* to help you get started quickly and realize robot control across the internet.
* Provides the usage tutorials of Ngrok only, we do not provide any Ngrok accounts or Servers. You can follow our tutorial to open your own Ngrok service, or choose other tunneling services according to your needs.
Supports Installing Smartphone Holder
If You Have A Spare Phone, You Can Install It On The Robot Via Holder As Below, Using The Phone To Create A Hotspot For The Robot And Achieving Remote Control Across The Internet At A Lower Cost
Cross-Platform Interactive TutorialDevelop While You Learn
Supports Accessing Jupyter Lab Via Devices Such As Mobile Phones And Tablets To Read The Tutorials And Edit The Code On The Web Page, Making Development Easier
Rich Tutorial Resources
We Provide Complete Tutorials And Demos To Help Users Get Started Quickly For Learning And Secondary Development
Open-Source All Demos
Full Dual-Controller Technology Stack
18650 Lithium Battery Support
Onboard High-Efficiency UPS Module, Supports Charging And Discharging At The Same Time To Ensure Continuous Standby Time
* the 18650 batteries are NOT included
Large Internal Space For Extension
- Supports installing larger lithium battery set with XH2.54 interface to replace the UPS module
- Please refer to the open-source drawing for the detailed internal space dimensions
High Strength Aluminum Body
High-Speed Motor + High-Frequency PID Closed-Loop Speed Control
Supports Quick Response Without Occupying The Resources For The Host Controller
More Design Details
Multi-Functional Driver Board
- Used as the sub controller of the robot, onboard ESP32 module and can be controlled via serial port, http request, ESP-NOW and other communication protocols, provides a web application for some basic control of the robot.
- ESP32 can handle low-level computations for the robot, such as high-frequency PID controller for controlling wheel speed, high-frequency inverse kinematics calculations for robotic arm linkages, position interpolation calculation, Pan-Tilt angle control and OLED screen control, etc.
- ESP32 is also responsible for data reading of various sensors, such as IMU (9-axis attitude sensor) and INA219 (battery voltage detection), and can independently achieve the camera vertical stabilization function, effectively saving computing and IO resources for the host controller.
1. ESP32 module
| 11. Lidar UART interface
|
2. ESP32 module antenna connector
| 12. Bus servo control interfaces
|
3. Motor control interfaces
| 13. Motor driver IC TB6612FNG |
4. Battery voltage detection IC INA219 | 14. Host controller 40PIN extended header
|
5. Power supply
| 15. Host controller connection header
|
6. USB communication / downloading
| 16. I2C device interface
|
7. Lidar USB connector
| 17. 9-axis IMU attitude sensor ICM20948 |
8. ESP32-IO0 button
| 18. 12V switch controlled by ESP32-IO4
|
9. ESP32-EN button
| 19. 12V switch controlled by ESP32-IO5
|
10. I2C device interface
|
|
Audio Driver Board
Onboard dual-channel microphone and speaker header, USB HUB interface for connecting Lidar and 3.5mm audio jack for external audio connection
1. Lidar UART to USB IC
| 6. Audio amplifier IC APA2068KAI-TRG
|
2. USB HUB IC
| 7. Audio control IC SSS1629A5
|
3. Type-C port
| 8. Cooling fan power supply header
|
4. Lidar UART Interface
| 9. Dual-track microphone
|
5. 3.5mm AUX audio jack
| 10. Dual-track speaker header
|
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Product Show
Outline Dimensions
[] UGV-Beast-PT-Jetson-Orin-AI-Kit (With motherboard)
[] UGV-Beast-PT-Jetson-Orin-AI-Kit-Acce (Without motherboard)
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