Zig-Bee Robotic Panzer

International Journal for Modern Trends in Science and Technology Volume: 03, Special Issue No: 02, March 2017 ISSN: 2455-3778 http://www.ijmtst.com Zig-Bee Robotic Panzer P.Bose Babu 1 V.Madhu Babu 2 T.Kalyan 3 K.Ajay 4 1Assistant Professor, Department of ECE, Andhra Loyola Institute of Engineering & Technology, Vijayawada, Andhra Pradesh, India. 2,3,4Department of ECE, Andhra Loyola Institute of Engineering & Technology, Vijayawada, Andhra Pradesh, India. To Cite this Article P.Bose Babu, V.Madhu Babu, T.Kalyan and K.Ajay, Zig-Bee Robotic Panzer, International Journal for Modern Trends in Science and Technology, Vol. 03, Special Issue 02, 2017, pp. 91-95. ABSTRACT Robots play a momentum position in the present day technical life and are enormously utilized in the fields of defence, industries, medical and home automation. They can perform various critical operations that cannot be done by human beings. This paper presents multipurpose independent robotic panzer that contains Magnetic sensor, Gas sensor and Temperature sensor which get connected based on external stimuli. The system gives spontaneous visual monitoring through the wireless camera attached to the robot and sends continuous data to the control unit. The robotic arm fitted on the robot is employed for pick and place operations while the laser gun attached to the robot is utilized for pointing laser rays to hit the target object. Copyright 2017 International Journal for Modern Trends in Science and Technology All rights reserved. I. INTRODUCTION This paper presents multipurpose independent robot that actuates various operations in the robot unit depend upon the signal receipted from the control unit.in the available systems, personal computer using Zigbee is utilised to control the mobile robot. Robot was designed to attain protection with the help of Bluetooth communication and web application, to give protection and electronic monitoring of the war field from the camp itself and to trap the enemies or targets and action automatically, but it is limited to a certain range only. In the proposed system, a robot is developed that is controlled through PC, using ZigBee communication link. The outcome of different activities can be monitored and displayed on monitor. This gives the range of about 400-500 mts. Robot is used to sense moving objects, metals and fire. A robotic arm is programmed to pick and place the object. Another differentiating factor about this robot is the wireless video camera combined with laser commands and data to the 8051 controller and controls the motor by motor driver L923D. The robot motions left, right, forward, backward. Interfacing is being done between device and zigbee module receives the commands from PC via 8052 series micro controller (AT89C52). Component technologies used are (a)rf technology (b) C language (c)embedded systems Existing System: The existing system has used the 8051 micro controller and Bluetooth in order to design the robot. Here we use 8052 series micro controller (AT89C52) and zigbee modules. II. PROPOSED SYSTEM In proposed system user can control the robot by using the PC. We use a Wireless camera this is connected by an RF module receiver section. The receiver module is connected to a Laptop or a Monitor. 91 Volume 3 Special Issue 02 March 2017 ISSN:2455-3778 www.ijmtst.com/ncee2017.html

The video surveillance will be monitored by a person. The video can be recorded for future use. By using this robot we can get the video of the war field.the gripper is used for pick and place are used for detecting purpose.the major components required in the construction of the robot are: 1. Microcontroller (AT89C52) 2. L293D Driver IC 3. Linear DC Motors 4. Wireless Camera 5. Zigbee Module (Tarang) 6. TV Tuner Card 7. RF Receiver Module 8. Metal detector 9. Thermistor 10. GasSensor(MQ-135) III. RF SECTION Let us take a RF transmitter wiggling an electron in one location. This wiggling will electron cause a ripple effect, somewhat same to dropping a pebble in a pond. The effect is an electromagnetic (EM) wave which travels out from the initial location those results in electrons to wiggle in remote locations.an RF receiver can detect the remote electron wiggling. The RF communication system then further utilizes this phenomenon by wiggling electrons in a specific pattern so as to represent information. The receiver can make the same information available at a remote location by establishing a communication with no wires. In most of the wireless systems a designer has two overriding constraints: it must operate over a certain distance (range) and transfer a certain amount of information within a time frame (data rate) IV. RF SECTION BLOCK DIAGRAM V. HARDWARE DESCRIPTION Power Supply: Power supply is the source of electricity. This power supply unit provides power to the systems in the required amounts to the required stages. We use 3 batteries each of 4V in series in order to provide +12V power supply. But the circuit needs only 5V so we use a 7805 voltage regulator. In addition with this we use Capacitors, Resistors, Diodes, Transistors and Crystal Oscillators in this circuit. Block Diagram: 92 Volume 3 Special Issue 02 March 2017 ISSN:2455-3778 www.ijmtst.com/ncee2017.html

L293D Driver IC One device connects to the master while the other device connects to the slave. The connection between the devices takes place as follows: Tarang modules are designed with low to medium transmit power and for high reliability wireless networks.the modules requires low power and provide reliable data deliverybetween modules. Wireless Camera 1. The L293 and L293D are quadruple high-currenthalf-h drivers. 2. The L293 IS designed to provide bidirectional drive currents of up to 1A at voltage from 4.5V to 36V. 3. The L293D is designed to provide bidirectional drivecurrents of up to 600-mA at voltages from 4.5V to 36V. 4. The L293D IC has sixteen pins. There are four input pins and four ground pins. Two motors are connected between the four output pins. 5. The L293D IC can drive two linear DC motors or one Stepper motor at a time. VI. ZIGBEE MODULE Features of Wireless Camera: Automatic Motion detection features. Minimum 100 meters transmission distance without block. Imaging Sensor 1/3 Inch-CMOS. CMOS Total Pixels:628*582(PAL) Minimum Illumination:1.5 lux View angle:62 Degree Camera Head weight: 15 gm. Gripper The zigbee module TarangF4 consists of 20 pins.some are input pins,some are output pins and some are I/O Pins. Microcontroller 89c52 Features: Compatible with MCS-51 Products. 8K Bytes of In-System Reprogrammable Flash Memory. 93 Volume 3 Special Issue 02 March 2017 ISSN:2455-3778 www.ijmtst.com/ncee2017.html

Endurance: 1,000 Write/Erase Cycles. Fully Static Operation: 0 Hz to 24 MHz. Three-level Program Memory Lock. 256 x 8-Bit Internal RAM. 32 Programmable I/O Lines. Three 16-bit Timer/Counters. Eight Interrupt Sources. Programmable Serial Channel. Low Power Idle and Power Down Modes Sensors 1. Gas sensor (MQ-135) VII. MOTORS Linear Motor: In any electric motor, operation is based on simple electromagnetism. A current-carrying conductor generates a magnetic field; when this is then placed in an external magnetic field, it will experience a force proportional to the current in the conductor, and to the strength of the external magnetic field. As you are well aware of from playing with magnets as a kid, opposite (North and South) polarities attract, while like polarities (North and North, South and South) repel. The internal configuration of a DC motor is designed to hardness the magnetic interaction between a current-carrying conductor and anexternal magnetic field to generate rotational motion. Let s start by looking at a simple 2-pole DC electric motor (here red represents a magnet or winding with a North polarization, whilegreen represents a magnet or winding with a South polarization). 2.Thermistor Metal detector (Magnetic sensor) Every DC motor has six basic parts axle, rotor (a.k.a., armature), stator, commutator, field magnet(s), and brushes. In most common DC motors (and all that Beamers will see), the external magnetic field is produced by high-strength permanent magnets. The stator is the stationary part of the motor i.e., this includes the motor casing, as well as two or more permanent magnet pole pieces. The rotor (together with the axle and attached commutator) rotates with respect to the stator. The rotor consists of windings (generally on a core), the windings being electrically connected to the commutator. The above diagram shows a common motor layout with the rotor inside the stator (field) magnets. VIII. SOFTWARE REQUIREMENTS 1. Assembly level programming language. 2. Keil compiler. 3. TV Home media software. 4.Terminal. 94 Volume 3 Special Issue 02 March 2017 ISSN:2455-3778 www.ijmtst.com/ncee2017.html

Programming Procedure 1. 2. X. CONCLUSION We have presented architecture, an implementation, and a demonstration of the ZIGBEE ROBOTIC PANZER, based on embedded systems and some applicable software programs that can monitor the surroundings. We can install the receiver section at any place and can navigate the robot in all directions easily. This will be help to use the human resources more effectively and efficiently. As the system is developed by using Zigbee it can be used up to a distance of 500m. Different Zigbee modules are used to increase the operation range. REFERENCES The information required for developing the project and presenting the report is gathered from: Text Books: 1. The 8051 Microcontroller Architecture, Programming and Applications by Kenneth J Ayala. 2. Fundamentals of Digital Signal Processing By Robert. J. Schilling and Sandra. L.Harris, Thomson 3. MCS51 series authorized manual. 3. 4. Hardware IX. RESULTS [1] G.Amato,M.Broxvall,S.Chessa,M.Dragone,C.Gennar o,&c.vairo, when wireless sensor networks meet robots,the 7 th International conference on Systems &Networks Communication(ICSNC2012) [2] H.Vijaya Laxmi and M.Narender; Communication between Mobile-Robots and PC controller Based on Zigbee Network ; International Journal of Engineering Research and Applications Vol. 1, Issue [3] V. Ramya and B. Palaniappan; Web based embedded Robot for safety and security applications using Zigbee ; International Journal of Wireless & Mobile Networks (IJWMN) Vol. 4, No. 6, December 2012. [4] Krishnaswamy Kannan, Gowtham S and Adithya R; Intelligent Personal Assistant and Surveillance Robot using Zigbee Communication ; International Journal of Engineering Science and Technology Vol. 4 No.10 October 2012. [5] Premkumar.M, Unmanned multi-functional Robot using Zigbee adopter network for Defense Application ; International Journal of Advanced Research in Computer Engineering & Technology (IJARCET) Volume 2, Issue 1, January 2013. [6] http://www.atmel.com [7] http://www.aplus.com [8] http://www. I2C protocols [9] http://www.alldatasheets.com 95 Volume 3 Special Issue 02 March 2017 ISSN:2455-3778 www.ijmtst.com/ncee2017.html