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What is a self-balancing car and how to make a balance car that belongs to you?
How to make a balance car that belongs to you?
Today we will take the STM32 balancing car as an example to tell you the principle of the balancing car:
STM32 Self balance WiFi robot car
1、MPU6050 gets the car inclination
2、PID control algorithm
3、Car motor
Is driverless taxi an opportunity or a crisis, or is it an opportunity and a crisis?
Recently, Baidu launched the "Carrot Run" driverless taxi in Wuhan, Changsha, Fuzhou and other major cities for trial operation. As soon as it was ...
XR-ROSHunter Mecanum Wheel Autonomous Navigation Robot Parameters
ROSHunter Mecanum wheel autonomous navigation robot is equipped with a series of high-performance hardware, including but not limited to NVIDIA Jetson Nano main control board, high-torque encoder reduction motor, laser radar, 3D depth camera, 7-inch LCD display and programmable RGB lights. These high-performance hardware not only give ROSHunter excellent motion control and environmental perception capabilities, but also make it more accurate and efficient when executing ROS SLAM algorithms for map construction, path planning, deep learning and visual interaction tasks.
The lowest price on the Internet! XiaoR Technology's Corgi 12-DOF quadruped robot dog is officially released!
As dog lovers, our wish is to make cheap and fun dogs affordable for everyone. So, at the risk of losing hair, after weeks of research, XiaoR Technology's desktop-level 12-DOF bionic quadruped robot dog Corgi was officially released!
XiaoR Corgi quadruped robot dog is a desktop-level quadruped bionic robot dog based on the ESP32 core with 12 degrees of freedom.
The parameter of XR-MROS-A3 Intelligent Driving Robot Car
XR-MROS-A3 Intelligent Driving 5G Robot Car can realize laser radar mapping and navigation, real-time mapping fixed-point navigation and multi-point positioning, autonomous path planning, dynamic obstacle avoidance, visual three-dimensional mapping navigation, and can also realize artificial intelligence technology, face vision, object recognition, color tracking and other visual interaction functions through computational vision.
Raspberry Pi AI programming box with integrated 30+ sensors
The product integrates more than 30 common IoT sensors, such as LED lights, infrared, buzzers, relays, vibration sensors, sound sensors, tilt sensors, flame sensors, etc.; the sensors are all integrated on a PCB, which avoids the loss or damage of sensors during storage after use.
The emergence and development of intelligent robots
2015 is known as the first year of intelligent robots. With the advent of the era of artificial intelligence, robots, information, communications, ...
The role of ESP32 bionic Corgi robot dog in education
In summary, the ESP32 bionic Corgi robot dog has broad application prospects and potential in the field of education. Its high performance, intelligence and autonomy make the robot dog a powerful assistant and experimental platform in the field of education. Through the application of robot programming education, artificial intelligence and machine learning education, popular science education and experimental teaching, the robot dog can stimulate students' learning interest and creativity, and improve their practical ability and scientific literacy. In the future, with the continuous advancement of technology and the continuous expansion of application scenarios, the role of the bionic Corgi robot dog in the field of education will become more prominent.
XR metal tank chassis types and their extended robot cars are recommended
XR tank chassis is an ideal choice for the expansion of robot cars and has broad application prospects. The several robot cars based on the expansion of XR tank chassis recommended in this article have their own characteristics and can meet the needs of different fields. In the future, with the continuous advancement and innovation of technology, I believe that more robot cars based on XR tank chassis will come out, bringing more convenience and development to human society.
Perfect encounter between ROS and Jetson nano XR phage bionic six-legged hexapod spider robot
Hexapod walking mechanism: The XR bionic hexapod spider robot uses 18 XR-S270 35KG bi-weekly serial bus servos as the hexapod walking mechanism motion joints, which gives it excellent terrain adaptability. Whether it is in rugged mountains, muddy swamps or narrow gaps, it can shuttle freely.
Intelligent perception system: Combined with the sensor interface of ROS, the XR bionic hexapod spider robot can obtain environmental information in real time, and process and analyze it through algorithms such as deep learning. This enables the robot to more accurately identify targets, judge obstacles and plan paths.
Intelligent perception system: Combined with the sensor interface of ROS, the XR bionic hexapod spider robot can obtain environmental information in real time, and process and analyze it through algorithms such as deep learning. This enables the robot to more accurately identify targets, judge obstacles and plan paths.
Jetson Nano Phage ROS LiDAR Hexapod Robot Performance introduction
In summary, the Jetson Nano ROS LiDAR hexapod robot from Little R Technology has demonstrated outstanding performance with its powerful main control system, precise LiDAR and depth camera, excellent hexapod structure and terrain passing ability, advanced human-computer interaction and inverse kinematics algorithms, and powerful software and algorithm support. These features make the robot have extensive potential and application value in navigation, interaction and intelligent applications.
Raspberry Pi Bionic Hexapod and Jetson Nano Hexapod: Technical Differences and Application Considerations
Raspberry Pi Bionic R1 Hexapod Robot
Raspberry Pi Bionic Hexapod is suitable for application scenarios that have high requirements for real-time and stability, but low requirements for AI functions. For example, tasks such as environmental monitoring and terrain exploration can be achieved with Raspberry Pi Bionic Hexapod.
Jetson Nano Bionic J1 Hexapod Robot
Jetson Nano Hexapod is more suitable for application scenarios that require high-performance computing and AI functions. For example, in tasks such as autonomous navigation, obstacle detection, and target recognition, Jetson Nano Hexapod can exert its powerful AI computing capabilities to achieve a higher level of intelligence.
Raspberry Pi Bionic Hexapod is suitable for application scenarios that have high requirements for real-time and stability, but low requirements for AI functions. For example, tasks such as environmental monitoring and terrain exploration can be achieved with Raspberry Pi Bionic Hexapod.
Jetson Nano Bionic J1 Hexapod Robot
Jetson Nano Hexapod is more suitable for application scenarios that require high-performance computing and AI functions. For example, in tasks such as autonomous navigation, obstacle detection, and target recognition, Jetson Nano Hexapod can exert its powerful AI computing capabilities to achieve a higher level of intelligence.
