除WhatsApp，Facebook外，大多数情况下，在您手中留在您手中的Android手机都很有用。电器；监视您的健康参数。如果它可以控制机器人，这将如何帮助您的日常工作。通过此项目，您可以制作一个可以通过Android手机控制的机器人，通过蓝牙通信。机器人是围绕Arduino与蓝牙接收器连接的，以从Android电话接收命令。系统的基本框图为：操作非常简单，因为手机上的应用程序通过IT和接收器之间建立的蓝牙连接串行传输数据。接收命令并根据馈送到Arduino的程序进行处理，并在其上进行进一步的控制。用户通过手机命令他们命令他们的方式给出了说明。

全球半导体提供商STMicroelectronics为各种电子应用程序提供服务的客户，宣布，它正在为“ SwitchBack” Battlebot贡献多个STM32微控制器（MCUS）。这款250磅的Battlebot使用安装在全臂上手臂上的双运动鼓旋转器，设计用于耐用性和可用性 - 以及通过击中机器人斗争……

完整的机器人是三个小节的组合：机器人机制，硬件驱动器电路，在VC ++中控制软件。显然，主要部分将是真正形成机器人主体的机制，意味着移动手的移动手可以挑选或放置任何对象。硬件驱动器电路的功能是驱动所有三个电动机，并驱动机器人的所有动作。控制软件也是该机器人的重要组成部分，因为它将照顾所有控制动作。本节的主要功能是：将手旋转到一个特定角度，从应挑选物体或要放置的地方，向上或向下移动手，以挑选或放置对象，并根据不同对象的大小。

STMicroelectronics, a global semiconductor provider serving customers across the spectrum of electronics applications, has announced a design win for STM32WLE5 — the world’s first LoRa System-on-Chip (SoC). The customer application, developed by automated rubber-tapping specialist CIHEVEA, uses the low-power networking to revolutionize the automation of extracting latex from rubber trees. CIHEVEA has equipped more than 200,000…

This project is a Light gradient sensitive Robot with Solar charging capabilities, in other words it seeks out the light to charge itself. It accomplishes this behavior with a set of Four Light sensitive Photo Resistors in voltage divider circuits. The Arduino unit reads the four values which correspond to the intensity of the light received by the sensors through its analog read pins. It then applies a high voltage across a reed switch which completes a circuit between a 9v battery, and two Toy Motors, resulting in turning or moving towards the light.These motors were not able to be activated directly with the Arduino, if you get small enough motors, the switching portion of this project may be omitted without loss of functionality. If any of the four Photodiodes is registering much higher than the others, it detects which Photodiode is receiving the heightened signal and turns or moves in that direction for as long as the heightened signal is being received.

Cell phone operated Robot is a Robot whose movement can be controlled by pressing the number of cell phone. The robot can move forward, backward, right or left which depends on the numbers you are pressing. The property of Robot to operate by the cell phone helps you to operate the robot from some distance.The Cell Phone controlled Robot uses DTMF (Dual tone-multi frequency) module. It is capable of receiving a set of command (instructions) in the form of DTMF (Dual tone multiple frequency) tones and performs the necessary actions.

This is the most advance version of “Pick and Place Robot” perhaps and most popular and widely used in recent industries. A person from a remote place can comfortably control the motion of robotic arm without any wire connection. Again there are two systems one at the transmitter side in which a software program written…

Mobile controlling is done mainly with DTMF decoder. DTMF stands for Dual Tone Multi Frequency. This module can take up-to 4 bits of data at a time (i.e. 0-15 decimal values).DTMF needs two mobile platforms, one for sending instructions while another for receiving them. This module contains a IC which decodes the signals received and convert it into 4 bit data.

You may have come across many tutorials about accelerometer controlled wireless robot (also known as gesture controlled or glove controlled) but all of them would have a microcontroller. This tutorial teaches you how to make them without using any microcontroller.

这个词的含义涉及机器人的运动。在基本力学中，我们将尝试了解机器人的电动机，齿轮机制和物理结构。根据使用区域，机器人大小可能彼此不同。它应该具有正确的设备来完成或执行任务。就像我们有手，手指和手臂一样，我们的机器人也需要握住东西。我们的手，手指和手臂以一定角度和一定方向移动，称为自由度。对于运动，我们的身体也包含几个关节，我们也在机器人中提供关节。在关节时，我们将不同类型的电动机固定进行运动。这些电动机可以是伺服，DC齿轮和步进器。

The robot is operated through PC using wireless technology using zigbee and using wireless camera we can view both audio and video on the TV. This robot has a high power LED which acts as a light source when light intensity inside the pipe is low .It is a low cost robot used to monitor the changes of different parameters in the industrial pipes. By connecting temperature sensor to the robot we can get the temperature of dangerous zones in PC itself. By connecting smoke sensor to the robot we can get the information related concentration of smoke or gases in respective fields.

行追随者是遵循一个自主机器人either black line in white are or white line in black area. Robot must be able to detect particular line and keep following it. For special situations such as cross over’s where robot can have more than one path which can be followed, predefined path must be followed by the robot.Line following is a task in which robot has to follow the line. It must be capable of taking various degrees of turns to follow the curved lines also.The Line following Robot moves to follow a line drawn on the floor. This Robot follows the black line which is drawn over the white surface .

Although, the appearance and capabilities of robot vary vastly, all robots share the feature of a mechanical, movables structure under some form of control. The control of robot involves three distant phases: perception, processing, action. Generally, the preceptors are sensors mounted on the robot, processing is done by the on board microcontroller and the task is performed using motors or with some other actuators.In the project the pick and place robot is controlled by a mobile phone that makes a call to the mobile phone attached to the robot. In the course of a call, if any button is pressed a tone corresponding to the button pressed is heard at the other end called ‘Dual Tone Multiple frequency’ (DTMF) tone. The robot receives these tones with help of phone stacked in the robot. The received tone is processed by the microcontroller with the help of DTMF decoder IC MT8870. These IC sends a signals to the motor driver IC l293d which drives the motor in directions forward, reverse, left, right, pick, release, up, down, rotate left, rotate right.

避障是最重要的一个pects of mobile robotics. Without it robot movement would be very restrictive and fragile. Obstacle Avoiding is a task which is used for detecting the objects placed in the path of your robot or any vehicle. So, to protect robot from any physical damages.An obstacle avoiding robot is an intelligent device, which can automatically sense and overcome obstacles on its path. It is developed without micro-controller in order to eliminate critical circuits, difficult programming etc. All you want to do is to just understand the circuit diagram and start doing this robot. This simple technique can be incorporated in wheeled robots to keep them away from damages and accidents Obstacle Avoidance is a robotic discipline with the objective of moving vehicles on the basis of the sensorial information.

This circuit describe a simple obstacle avoiding robot which a you can easily make in your homes because it does not contains any complex digital circuitry and this can be made without using any microcontroller. This is an intelligent robot which will automatically detect the presence of obstacle in its path and change the direction of motion accordingly.

In many application of controlling robotic gadget itbecomes quite hard and complicated when there comes the part of controlling it with remote or many different switches.Mostly in military application, industrial robotics, construction vehicles in civil side, medical application for surgery. In this field it is quite complicated to control the robot or particular machine with remote or switches, sometime the operator may get confused in the switches and button itself, so a new concept is introduced to control the machine with the movement of hand which will simultaneously control the movement of robot.

This circuit describe a simple line following robot which a you can easily make in your homes because it does not contains any complex digital circuitry and this can be made without using any microcontroller. In this circuit the robot the will follow a white line on black surface. This simple circuit is made with the help of single IC that is L293D and few more commonly known components like LDR and LED. LDR which is working as a sensor here. LDR is basically made up of semiconductor material. Semiconductor material has energy band where electrons and holes exist.

In the previous tutorial I have explained how to setup a basic serial connection between an Atmega16 controller Board and a computer/laptop. In this article we’ll learn how to control a robot using the computer/laptop wirelessly through Bluetooth. Let us start with the hardware assembly part first. It should be simple since we are using a ready-made chassis. Start by attaching the motors and castor wheel to the chassis. The components needed for the project are : Atmega16 development board with 16MHz crystal, Serial Bluetooth Module(AUBTM/HC-05/HC-04/BLUSMIRF), PC/Laptop running Windows XP/7/8, USB Bluetooth(Not required if you laptop/PC has inbuilt hardware), Motor Driver L293D, 2 X 12V 100RPM Geared DC motors, 2 X Wheels, Chassis, Castor wheel, Female jumper wires. Keep on reading to find out how the robot is constructed and what coding does it use to operate.

It is always better to make bots in a set of modules which can be assembled together to form the required bot. For the dust bot there are two things required, first a gripper that can hold the balls and second a vehicle that can take that gripper from one place to another. First of all it is required to make a vehicle that can be controlled by the wired controls. After accomplishing this task we need a mechanism to grab the balls. Further the grip of the grabber should be of such strength that the balls don’t fall of the bot till we reach the finishing end. The movement of the gripper should be bidirectional and quite precise as we require the movement of the gripper in both the directions. The stability is the success of every bot. More the stability in your design better is your bot. Hence, the arm holding the gripper should be properly fixed and shouldn’t be unstable. Therefore, aluminum rods were chosen with clamps for enhanced stability of the gripper. And most important the bot should utilize the off the shelf material and it must be really economic.

这也是选择和地点类型机器人应用tion. But this has a unique feature that it is controlled from cell phone. It’s all the movements are controlled from any cell phone. That means you can control this robot from anywhere in the world where GSM / CDMA network service is available. Isn’t it very interesting??!!!!????…..The robot has built in GSM / CDMA cell phone that receives signals from other cell phone. One has to call the number of the cell phone (that is inside robot) from his cell phone to activate it. Then by pressing different keys from 0 – 9 form the phone he can control the movements of the robot. It is 4-axis robotic arm. It’s all four motions are controlled by 2 DC gear motors and 2 servo motors.Let us start with mechanical structure of robot.