XGO 2 Mini Quadruped Robot: Dynamically Armed, Yet Completely Safe
Introduction:
Introducing the XGO 2, the world’s first Raspberry Pi robotic dog with an arm. Developed by Luwu Intelligent Technology, this desktop-sized mini-bot is revolutionizing the world of quadruped robots. With its open-source platform, the XGO 2 can be controlled remotely or programmed by tech-savvy users. It features a Raspberry Pi Compute Module 4 processor and compatibility with popular programming languages. Equipped with AI modules, the XGO 2 can recognize and respond to users, mimicking real dog behavior. Additionally, its robotic arm with three degrees of freedom and gripper allows for a wide range of tasks. Starting at just $449, the XGO 2 is an affordable and versatile robot for tech enthusiasts.
Full Article: XGO 2 Mini Quadruped Robot: Dynamically Armed, Yet Completely Safe
Miniature Quadruped Robot XGO 2 Introduces Robotic Arm
Quadruped robots were once only accessible to government or corporate clients, but now more affordable mini-bots are hitting the market. The XGO 2, created by the spinoff company Luwu Intelligent Technology from Harbin Institute of Technology, stands out as the first mini-bot to feature a robotic arm. Currently, the XGO 2 is the subject of a Kickstarter campaign.
Remote Control or Preprogramming Capabilities
Similar to other miniature quadruped robots like the Bittle and Mini Pupper, the XGO 2 can be controlled in real time through an app or preprogrammed. It utilizes a Raspberry Pi Compute Module 4 processor and is compatible with programming languages such as Blockly, Python, and ROS. Interestingly, the robot can also be programmed by physically guiding it through desired motions.
Advanced Features and Functionality
The XGO 2 integrates AI modules that enable visual, voice, and gesture recognition, allowing it to “hear, recognize, and reply to users, like a real dog.” With its six IMUs and 12 degrees of freedom, the robot can move freely and remain stable on uneven or moving surfaces. The head of the robot combines a camera, microphone, speaker, LCD screen, and pushbutton controls. The screen displays an animated face, giving the bot a touch of personality.
The Impressive Robotic Arm
The XGO 2’s robotic arm boasts three degrees of freedom and is equipped with a gripper that can open between 2.5 to 5.5 cm wide. This enables the robot to perform a variety of tasks like grasping, lifting, carrying, placing, and dragging objects.
Models and Pricing
The XGO 2 is available in two models – the standard Mini and the smaller, slightly less powerful Lite. If the Kickstarter campaign is successful, a pledge of $449 will secure a Lite model, while a pledge of $749 is required for a Mini model. The planned retail prices are $898 and $1,398, respectively.
Watch the XGO 2 in Action
To see the XGO 2 in action, check out the video below.
Innovation and Accessibility
The introduction of the XGO 2 with a robotic arm demonstrates the ongoing advancements in miniaturization and accessibility of robotics technology. Luwu Intelligent Technology aims to make these cutting-edge robots available to a wider audience through their Kickstarter campaign.
Sources: Kickstarter
Summary: XGO 2 Mini Quadruped Robot: Dynamically Armed, Yet Completely Safe
The XGO 2 is a miniature quadruped robot with a robotic arm, developed by Luwu Intelligent Technology. It is currently being funded through a Kickstarter campaign. The robot can be controlled remotely via an app or preprogrammed using various programming languages. It also features integrated AI modules for visual, voice, and gesture recognition. The XGO 2 has a camera, microphone, speaker, LCD screen, and pushbutton controls on its head, giving it a unique personality. The robot’s arm has three degrees of freedom and a gripper for grasping objects. The XGO 2 is available in two models and is priced at $449 and $749 respectively.
Frequently Asked Questions:
1. What is robotics and how does it work?
Answer: Robotics is a technology that focuses on designing, building, and programming autonomous machines, known as robots, to perform tasks and interact with their environment. These robots are equipped with various sensors, actuators, and processors, allowing them to perceive their surroundings and make decisions based on predefined algorithms or artificial intelligence.
2. What are the different types of robots?
Answer: Robots come in various types depending on their purpose and capabilities. Some common types include industrial robots used in manufacturing processes, service robots for domestic or commercial tasks like cleaning or delivery, medical robots assisting in surgical procedures, and educational or research robots for learning or experimentation.
3. How are robots programmed?
Answer: Robots can be programmed using different methods depending on their complexity and purpose. Most modern robots are programmed using computer software that allows developers to define instructions and commands for the robot’s tasks and behavior. This programming can range from simple, predefined instructions to more advanced programming utilizing artificial intelligence and machine learning algorithms.
4. What are the applications of robotics?
Answer: Robotics has a wide range of applications across various industries and fields. In manufacturing, robots automate repetitive tasks, increase efficiency, and improve product quality. In healthcare, robots assist in surgeries, facilitate rehabilitation, and provide telemedicine services. Robotics is also utilized in exploration, agriculture, education, entertainment, and numerous other sectors.
5. What are the challenges and future advancements in robotics?
Answer: Robotics faces several challenges, such as improving robot-human interaction, enhancing robot dexterity, and ensuring safety when working alongside humans. Additionally, advancements in artificial intelligence, machine learning, and sensor technologies are expected to bring significant improvements to robotics. Future advancements may include more autonomous and intelligent robots, the integration of robots into various aspects of our daily lives, and advancements in human-robot collaboration.
