Tuesday, January 14, 2020

Ece Project

SECURITY SYSTEM USING RFID A PROJECT REPORT Submitted by ANISH ANTONY (080107117005) JISU JOHN ISAC (080107117039) KRISHNA PRABHA R(080107117055) KUNAL BHARDWAJ (080107117056) In partial fulfilment for the award of the degree of BACHELOR OF ENGINEERING in ELECTRONICS AND COMMUNICATION ENGINEERING PARK COLLEGE OF ENGINEERING AND TEKHNOLOGY, KANIYUR, COIMBATORE-641659. ANNA UNIVERSITY OF TECHNOLOGY COIMBATORE 641 047 APRIL 2012 ANNA UNIVERSITY OF TECHNOLOGY COIMBATORE-641047 BONAFIDE CERTIFICATECertified that this project report â€Å"SECURITY SYSTEM USING RFID† is the bonafide work of â€Å"ANISH ANTONY, JISU JOHN ISAC, KRISHNA PRABHA R, KUNAL BHARDWAJ† who carried out the project work under my supervision. SIGNATURESIGNATURE Mr. MARIA ANTONY M. E Mrs. K. MUTHULAKSHMI. M. E. (PhD) SUPERVISOR HEAD OF THE DEPARTMENT Department of Electronics and Department of Electronics andCommunication Engineering, Communication Engineering, Park College of Engineering Park College of En gineering and Technology, and Technology, Coimbatore – 641659. Coimbatore – 641659. INTERNAL EXAMINER EXTERNAL EXAMINER CONTENTS CHAPTER TITLE PAGE NO ABSTRACT 1. INTRODUCTION 2. OBJECTIVE 3. SYSTEM ANALYSIS 3. 1 Existing System 3. Proposed System 4. SYSTEM SPECIFICATION 4. 1Hardware requirements 4. 2 Software requirements 5. SYSTEM DESCRIPTION 5. 1 Software description 5. 2 Hardware description 6. BLOCK DIAGRAM 6. 1 block diagram description 7. MERITS 8. CONCLUSION 9. REFERENCES ABSTRACT RFID (Radio Frequency Identification) is the quintessential pervasive computing technology. The heart of the utility is that RFID makes gathering information about physical objects easy.Information about RFID tagged objects can be read through physical barriers, and from a distance. Our project utilized these RFID tags to improve the security system of a building by introducing a system that could read the RFID tagged smart cards that are placed in proximity to an antenna. Our project comes with option of finger print system, GSM system and camera system attached with the main RFID system. This help in making the security full proof and reduce the possibility of breaches. RFID devices have three primary elements: a chip, an antenna, and a reader.A fourth important part of any RFID system is the database where information about tagged smart card is stored. For wireless data transmission and networking between sensor nodes, the project uses ZigBee modules. The modules require minimal power and provide reliable delivery of data between devices with efficient security measures. This project is implemented in real time system. INTRODUCTION The major problem faced by organizations in security breach is related with doors without proper security system on them for their protection. Our project is going to solve these problems by using RFID technology.For wireless data transmission between tag and sensor nodes, the project uses ZigBee modules. Radio Frequency Identifica tion (RFID) is an automatic identification method, relying on storing and remotely retrieving data using devices called RFID tags or transponders. So the RFID is a wireless identification. Normally the RFID system comprises of two main parts: RFID Reader and RFID Tag. RFID Reader is an integrated or passive network which is used to interrogate information from RFID tag (contains antennas to enable them to receive and respond to radiofrequency queries from an RFID transceiver).The RFID Reader may consist of antenna, filters, modulator, demodulator, coupler and a micro processor. We try to enhance the security up to a very effective level so that there are minimum possibilities in the security breach. For this purpose we are introducing a multilevel security system which consists of finger print impression, camera and GSM module along with RFID system. The system also creates a log containing check-in and check-out of each user along with basic information of user. OBJECTIVEThe aim of the project is to design a system that have a small coverage area and can be use for authentication or identification purposes. â€Å"Security System Using RFID† is a system that uses RFID technology to maintain the security of the different rooms in same structure which can be monitored on real-time bases using the Database server (PC). This system prevents unauthorized entry in rooms. For this purpose we are introducing a multilevel security system which consists of finger print impression, camera and GSM module along with RFID system. This ensures the reliability of the system and makes it difficult to breach.SYSTEM ANALYSIS EXISTING SYSTEM In the existing system, Information is sent to and read from RFID tags by a reader using radio waves. In passive systems, which are the most common, an RFID reader transmits an energy field that â€Å"wakes up† the tag and provides the power for the tag to respond to the reader. Data collected from tags is then passed through co mmunication interfaces (cable or wireless) to host computer systems in the same manner that data scanned from bar code labels is captured and passed to computer systems for interpretation, storage, and action.The drawback in this system is the lack of security option available for the user. One can easily use others RFID tag to gain access in the desired place without their prior knowledge. This breach cannot be easily accounted as there is no record other then the RFID tag used which can mislead to undesirable situation. PROPOSED SYSTEM This system is of new kind in which finger print recognition system along with GSM and camera is newly added. In this system RFID along with ZigBee, microcontroller, biometric system, GSM, amplifier circuit, power supply, camera and database server (PC) is used.Different circuits work together to form an unreachable system so that the security can be enhanced to the maximum level possible. When RFID tag is sensed by the RFID receiver and finger prin t impression is given, the camera is activated which clicks the image of the user trying to access the system. This information is stored in the database along with time and date when the system was accessed and the GSM technology used in the system make sure that the concerned authority is notified about the activation of the system along with result. SYSTEM SPECIFICATION HARDWARE REQUIREMENTSMODULESCOMPONENTNAME OF THE IC Power supplyVoltage RegulatorsLM7805, L7812, MC7912 Miscellaneous componentRS23225 PIN PORT CameraUSB Type Biometric scanner Optical Processing unitPIC ControllerPIC16F877A Data TransmissionDual Driver/ReceiverMAX 232 RFID Zigbee TransceiverX-BEE GSM Modem- SOFTWARE REQUIREMENTS Visual basics 6. 0 (Front end Design) Mikro basic SOFTWARE DESCRIPTION Visual Basic (VB) is the third-generation event-driven programming language and integrated development environment (IDE) from Microsoft for its COM programming model. Visual Basic is relatively easy to learn and use.Vi sual Basic was derived from BASIC and enables the rapid application development (RAD) of graphical user interface (GUI) applications, access to databases using Data Access Objects, Remote Data Objects, or ActiveX Data Objects, and creation of ActiveX controls and objects. Scripting languages such as VBA and VBScript are syntactically similar to Visual Basic, but perform differently. A programmer can put together an application using the components provided with Visual Basic itself. Programs written in Visual Basic can also use the Windows API, but doing so requires external function declarations.Visual basic is used to provide a simple interface about the program between user and system software. This is also used for storing the data and act as database for the system. MIKRO BASIC MikroBasic is a powerful, feature rich development tool for PIC microcontrollers. It is designed to provide the customer with the easiest possible solution for developing applications for embedded systems , without compromising performance or control. Highly advanced IDE, broad set of hardware libraries, comprehensive documentation, and plenty of ready to run example programs should be more than enough to get you started in programming microcontrollers.FEATURES MikroBasic allows you to quickly develop and deploy complex applications: †¢Write your BASIC source code using the built-in Code Editor (Code and Parameter Assistants, Syntax Highlighting, Auto Correct, Code Templates, and more†¦) †¢Use the included mikroBasic libraries to dramatically speed up the development: data acquisition, memory, displays, conversions, communications†¦ Practically all P12, P16, and P18 chips are supported. †¢Monitor your program structure, variables, and functions in the Code Explorer. Generate commented, human-readable assembly, and standard HEX compatible with all programmers. †¢Inspect program flow and debug executable logic with the integrated Debugger. †¢Get detai led reports and graphs: RAM and ROM map, code statistics, assembly listing, calling tree, and more†¦ †¢We have provided plenty of examples for you to expand, develop, and use as building bricks in your projects. Copy them entirely if you deem fit – that’s why we included them with the compiler. HARDWARE DESCRIPTION RFID TAGS Tags also sometimes are called â€Å"transponders†. RFID tags can come in many forms and sizes.Some can be as small as a grain of rice. Data is stored in the IC and transmitted through the antenna to a reader. The two commonly used RFID Transponders [2] are Active (that do contain an internal battery power source that powers the tags chip) and passive (that does not have an internal power source, but are externally powered typical from the reader) RFID Transponders. RFID READER A reader (now more typically referred to as an RFID interrogator) is basically a radio frequency (RF) transmitter and receiver, controlled by a microprocess or or digital signal processor.The reader, using an attached antenna, captures data from tags, then passes the data to a computer for processing. The reader decodes the data encoded in the tag(s) integrated circuit (silicon chip) and the data is passed to the host computer for processing. WORKING OF RFID Information is sent to and read from RFID tags by a reader using radio waves. In passive systems, which are the most common, an RFID reader transmits an energy field that â€Å"wakes up† the tag and provides the power for the tag to respond to the reader.Data collected from tags is then passed through communication interfaces (cable or wireless) to host computer systems in the same manner that data scanned from bar code labels is captured and passed to computer systems for interpretation, storage, and action. FREQUENCIES OF RFID RFID deployments tend to use unlicensed frequencies for their obvious cost benefits. There are four commonly used frequencies: †¢ Low frequency (LF) 125/134. 2 KHz. †¢ High frequency (HF) 13. 56 MHz. †¢ Ultra high frequency (UHF) (including 869 and 915 MHz). Microwave (at 2450 MHz, a band familiar to ISPs). A tag's read range performance is usually considered the primary gauge of its suitability for a particular application. It is important to remember that not all applications require maximum range. Tags in the LF-HF band have a range of 1 to 18 inches, while passive UHF tags can reach up to 20 feet, and microwave tags can reach 1 to 6 feet. The ranges greatly depend upon the surface on which the tag is mounted. BLOCK DIAGRAM BIOMETRIC SYSTEM In today’s world, the need for effective security is evident.Without effective security, many everyday activities are compromised. Specific security concerns include: †¢Protecting computer systems, PDAs, mobile phones, Internet appliances and similar devices from unauthorized access or use †¢Protecting motor vehicles and other valuable items from unauthorize d access or use preventing theft and fraud in financial transactions, in particular electronic transactions, including credit card payments and payments via the Internet. †¢ Restricting access to workplaces, warehouses and secures areas, such as military installations, to authorized personnel. Screening access to public transportation, in particular air travel. †¢ Authenticating the identity of an individual in drivers’ licenses, health cards, ID cards, and similar administrative documents. A major factor in ensuring security is the unique identification of individuals, or the authentication that a person is who he or she claims to be. This must be done reliably, rapidly, non-intrusively and at reasonable cost. In the past, this has been done by methods such as security tokens (passports, badges, etc. ), secure knowledge (passwords PIN codes, signature, etc. or recognition by a guardian (doorkeeper). These traditional approaches are all limited with respect to the a bove criteria. A promising approach for the future is biometrics. Biometrics offers a convenient, reliable and low-cost means of identifying or authenticating individuals, and can be implemented in unsupervised and remote situations. Biometrics seeks to identify individuals uniquely by measuring certain physical and behavioural characteristics and extracting a sample (also called a sampled template or live template) from these measurements in a standard data format.This sample is compared with a template (also called an enrolled template or signature), based on the same characteristics, that has been established as the unique identity of that individual and stored in the security system. A close match between sample and template confirms the identity of the individual. Attention has been focused on a small number of physical characteristics that can identify individuals uniquely, notably voice, gait, face, iris and retina patterns, palm prints and fingerprints. (DNA is excluded from this list because DNA sampling is intrusive and slow. Work is proceeding to develop electronic recognition systems based on all of these. This article focuses on fingerprints as the most advanced, mature and well-developed option. Based on centuries of experience and extensive research, fingerprints are at present considered to be the most reliable biometric for uniquely identifying an individual. In spite of some recent legal challenges in the USA, they are still regarded as giving proof of identity beyond reasonable doubt in almost all cases. The majority of the biometric-based security systems in operation today are based on fingerprint recognition.Thumb Impression FINGERCHIP TECHNOLOGY Finger Chip IC for fingerprint image capture combines detection and data conversion circuitry in a single rectangular CMOS die. It captures the image of a fingerprint as the finger is swept vertically over the sensor window. It requires no external heat, light or radio source. FINGERCHIP SENSOR T he Finger Chip sensor comprises an array of 8 rows by 280 columns, giving 2240 temperature-sensitive pixels. An additional dummy column is used for calibration and frame identification. The pixel pitch of 50 _m by 50 _m provides a resolution of 500 dpi over an image zone of 0. mm by 14 mm. This is adequate to capture a frame of the central portion of a fingerprint at an acceptable image resolution. This resolution also complies with the Image Quality Specification (IQS) from the IAFIS (Integrated Automated Fingerprint Identification System) of the U. S. Federal Bureau of Investigation (FBI). The pixel clock is programmable at up to 2 MHz, giving an output of 1780 frames per second. This is more than adequate for a typical sweeping velocity. An image of the entire fingerprint is re-constructed from successive frames using software provided. Biometric sensor ZIGBEEZigBee is a low-cost, low-power, wireless mesh network standard. The low cost allows the technology to be widely deployed in wireless control and monitoring applications. Low power-usage allows longer life with smaller batteries. Mesh networking provides high reliability and more extensive range. The technology is intended to be simpler and less expensive than other WPANs such as Bluetooth. ZigBee chip vendors typically sell integrated radios and microcontrollers with between 60 KB and 256 KB flash memory. ZigBee operates in the industrial, scientific and medical (ISM) radio bands; 868 MHz in Europe, 915 MHz in the USA and Australia, and 2. GHz in most jurisdictions worldwide. Data transmission rates vary from 20 to 250 kilobits/second. The ZigBee network layer natively supports both star and tree typical networks, and generic mesh networks. Every network must have one coordinator device, tasked with its creation, the control of its parameters and basic maintenance. Within star networks, the coordinator must be the central node. Both trees and meshes allow the use of ZigBee routers to extend communicat ion at the network level. ZIGBEE STACK ZigBee builds upon the physical layer and medium access control defined in IEEE standard 802. 5. 4 (2003 version) for low-rate WPAN's. The specification goes on to complete the standard by adding four main components: network layer, application layer, ZigBee device objects (ZDO's) and manufacturer-defined application objects which allow for customization and favour total integration. Besides adding two high-level network layers to the underlying structure, the most significant improvement is the introduction of ZDO's. These are responsible for a number of tasks, which include keeping of device roles, management of requests to join a network, device discovery and security.ZigBee is not intended to support power line networking but to interface with it at least for smart metering and smart appliance purposes. Because ZigBee nodes can go from sleep to active mode in 30msec or less, the latency can be low and devices can be responsive, particularly compared to Bluetooth wake-up delays, which are typically around three seconds. Because ZigBee nodes can sleep most of the time, average power consumption can be low, resulting in long battery life. PIC MICRO CONTROLLER FEATURES OF PIC (16F877A) †¢High-performance RISC CPU †¢Only 35 single word instructions to learn Direct, indirect and relative addressing modes †¢Power-on Reset (POR) †¢Power-up Timer (PWRT) and †¢Oscillator Start-up Timer (OST) †¢Programmable code-protection †¢Low-power, high-speed CMOS FLASH/EEPROM technology †¢In-Circuit Debugging via two pins †¢Single 5V In-Circuit Serial Programming capability †¢Wide operating voltage range: 2. 0V to 5. 5V †¢Commercial and Industrial temperature ranges †¢Low-power consumption. PIC micro controller-16F877A High-performance RISC CPU: †¢Only 35 single–word instruction to learn Operating speed: †¢DC-20MHz clock input †¢DC-200ns instruction cyclePerip heral features: †¢Universal synchronous asynchronous receiver transmitter (USAT/SCI) with 9-bit address deduction. †¢Parallel slave port (PSP)-8 bits wide with external RD, WR and CS controls. PIN DETAIL FOR MICROCONTROLLER Analog features: †¢10-bit, up to 8-channel analog –to- digital converter (A/D) †¢Analog Comparator module with two analog comparators †¢Programmable on – chip voltage reference (VREF) module †¢Programmable input multiplexing from device inputs and internal voltage reference †¢Comparator outputs are externally accessible Special Micro controller Features: 100,000 erase/write cycle Enhanced Flash program memory typical †¢1,000,000 erase/write cycle Data EEPROM memory typical †¢Data EEPROM Retention > 40 years †¢Self-reprogram able under software control †¢Single-supply 5v In-Circuit Serial Programming Tm (ICSPTm) Via two pins †¢Watching Timer (WDT) with its own on-chip RC oscillator for relia ble operation †¢Programmable code protection †¢Power saving Sleep mode †¢Selectable oscillator options In-Circuit Debug (ICD) via two pins CMOS Technology: †¢Low power, high-speed Flash/EEPROM technology †¢Wide operating voltage range (2. 0v to 5. 5v) RS 232PC in general cannot directly communicate with peripherals that are available. The reason behind this is the difference in their working logic. PC generally works in positive logic. The microcontroller that actually acts as the peripheral here works in negative logic. It becomes important to change the logic between them when they communicate with each other. RS232 is very important for standard serial interfacing with PC where change of logic is achieved. PC communicates with peripherals through serial com1 or com2, which communicates the data in terms of pulse form as follows. GSM MODULERFID security system is based on GSM network technology for transmission of SMS from sender to receiver. SMS sending a nd receiving is used for ubiquitous access of information and allowing breach control at secured area. The system provide a sub-systems which gives us a control subsystem that enables the user to control area security remotely whereas the security alert subsystem provides the remote security monitoring. The main aspect of the security alert is to achieve detection on intrusion in the system and allow an automatic generation of SMS thus alerting the user against security risk.PC: This unit contains the software components such as the server and security System through which the area security can be controlled and monitored. GSM Modem: It is a hardware component that allows the capability to send and receive SMS to and from the system. The communication with the system takes place via RS232 serial port. Cell phone can be attached at the place of GSM hardware but it limits the hardware functionality such as sending or receiving of SMS. Mobile Device: Cellular phone containing SIM card has a specific number through which communication takes place.The device communicates with the GSM Modem via radio frequency. Mobile user transmits SMS using GSM technology. GSM Modem: GSM modem is a plug and play device and is attached to the PC which then communicates with the PC via RS232 port. GSM modem is a bridge responsible for enabling/ disabling of SMS capability. Cell Phone: Mobile device communicates with the GSM Modem via radio waves. The mode of communication is wireless and mechanism works on the GSM technology. Cell phone has a SIM card and a GSM subscription. This cell phone number is configured on the system.User transmits instructions via SMS and the system takes action against those instructions. WORKING OF GSM MODULE GSM hardware tests are run in order to check the hardware support. The system will call GSM modem and it will get activated. After activation the Modem will check for hardware support. If the hardware is missing or some other hardware problem there w ill be error, resulting in communication failure and the application will be terminated. If hardware responds then the serial port will be opened for communication and GSM hardware will allow transmission of SMS.The system will then connect and after connection establishment the system will be able to detect intrusion and will alert user about the breach and similarly the system will update status of appliances by receiving SMS from the pre-defined cell number. SMS will be silently ignored if cell number is unauthorized. The system uses GSM technology thus providing ubiquitous access to the system for security and automated appliance control. Therefore this paper proposes a system that allows user to be control and provide security on detection of intrusion via SMS using GSM technology.POWER SUPPLY Power supply is the basic unit that provides corresponding operating voltage to each circuit. In this 12V power supply is used in the project. 7805 represents the IC which works on the op erating voltage of +5V. 7905 represents the IC works on the operating voltage of -5V. 7812 represents the IC which works on the operating voltage of +12V. 7912 represents the IC works on the operating voltage of -12V. BLOCK DIAGRAM Power supply unit consists of following units i) Step down transformer ii) Rectifier unit iii) Input filter iv) Regulator unit v) Output filter STEPDOWN TRANSFORMERUsing step down uses it to step down the main supply voltage transformer. It consists of primary and secondary coils. The output from the Secondary coil is also AC waveforms we have to convert AC voltage into DC voltage by using Rectifier Unit. RECTIFIER UNIT We have to convert AC voltage into DC voltage by using rectifier. Bridge Rectifier is used to convert into DC voltage. This output voltage of the rectifier is in rippled forms we have to remove the ripples from DC voltage. INPUT FILTER Capacitor acts as filter. The principle of the capacitor is charging and discharging.It charges in positi ve half cycle of the AC voltage and it will Discharge in negative half cycles, it allows only AC voltage and doesn’t allow the DC voltage. This filter is fixed before the regulator. REGULATOR UNIT Regulator regulates the output voltage constant depends upon the regulator. it classifieds as follows i) Positive regulator 1—> input pin 2—> ground pin 3—> output pin It regulates the positive voltage. ii) Negative regulator 1—> ground pin 2—> input pin 3—> output pin It regulates the negative voltage. OUTPUT FILTER Capacitor acts as filter.The principle of the capacitor is charging and Discharging. it charges in positive half cycle of the AC voltage and it will Discharge in negative half cycles, it allows only AC voltage and doesn’t allow the DC voltage. This fiter is fixed after the regulator. MERITS It is an advanced technology used for security purpose The main advantage is that its easy to use Comparing to all other technology i t has high memory capacity The size of the RFID is small, therefore its compact CONCLUSION AND FUTURE IMPLEMENTATION RFID is one of the best technology used for barcode system , tags and transfer information.RFID adorns the management with a new idea and usher for a bright future. In the near future the RFID tag system will be replaced with NFC(near field communication) because of its high sensitivity Due to its customizable feature and continuing improvement the library communities are beginning to get involved in its development REFERENCES www. microchip. com www. dallas. com www. gsmfavorites. com http://www. shepherdcentre. com. au/ www. myprojects. com SECURITY SYSTEM USING RFID A PROJECT REPORT Submitted by ANISH ANTONY (080107117005) JISU JOHN ISAC (080107117039)KRISHNA PRABHA R(080107117055) KUNAL BHARDWAJ (080107117056) In partial fulfilment for the award of the degree of BACHELOR OF ENGINEERING in ELECTRONICS AND COMMUNICATION ENGINEERING PARK COLLEGE OF ENGINEERING AND TE KHNOLOGY, KANIYUR, COIMBATORE-641659. ANNA UNIVERSITY OF TECHNOLOGY COIMBATORE 641 047 APRIL 2012 ANNA UNIVERSITY OF TECHNOLOGY COIMBATORE-641047 BONAFIDE CERTIFICATE Certified that this project report â€Å"SECURITY SYSTEM USING RFID† is the bonafide work of â€Å"ANISH ANTONY, JISU JOHN ISAC, KRISHNA PRABHA R, KUNAL BHARDWAJ† who carried out the project work under my supervision.SIGNATURESIGNATURE Mr. MARIA ANTONY M. E Mrs. K. MUTHULAKSHMI. M. E. (PhD) SUPERVISOR HEAD OF THE DEPARTMENT Department of Electronics and Department of Electronics and Communication Engineering, Communication Engineering, Park College of Engineering Park College of Engineering and Technology, and Technology, Coimbatore – 641659. Coimbatore – 641659. INTERNAL EXAMINER EXTERNAL EXAMINERCONTENTS CHAPTER TITLE PAGE NO ABSTRACT 1. INTRODUCTION 2. OBJECTIVE 3. SYSTEM ANALYSIS 3. 1 Existing System 3. 2 Proposed System 4. SYSTEM SPECIFICATION 4. 1Hardware requirements 4. 2 Software req uirements 5. SYSTEM DESCRIPTION 5. 1 Software description 5. Hardware description 6. BLOCK DIAGRAM 6. 1 block diagram description 7. MERITS 8. CONCLUSION 9. REFERENCES ABSTRACT RFID (Radio Frequency Identification) is the quintessential pervasive computing technology. The heart of the utility is that RFID makes gathering information about physical objects easy. Information about RFID tagged objects can be read through physical barriers, and from a distance. Our project utilized these RFID tags to improve the security system of a building by introducing a system that could read the RFID tagged smart cards that are placed in proximity to an antenna.Our project comes with option of finger print system, GSM system and camera system attached with the main RFID system. This help in making the security full proof and reduce the possibility of breaches. RFID devices have three primary elements: a chip, an antenna, and a reader. A fourth important part of any RFID system is the database wher e information about tagged smart card is stored. For wireless data transmission and networking between sensor nodes, the project uses ZigBee modules. The modules require minimal power and provide reliable delivery of data between devices with efficient security measures.This project is implemented in real time system. INTRODUCTION The major problem faced by organizations in security breach is related with doors without proper security system on them for their protection. Our project is going to solve these problems by using RFID technology. For wireless data transmission between tag and sensor nodes, the project uses ZigBee modules. Radio Frequency Identification (RFID) is an automatic identification method, relying on storing and remotely retrieving data using devices called RFID tags or transponders.So the RFID is a wireless identification. Normally the RFID system comprises of two main parts: RFID Reader and RFID Tag. RFID Reader is an integrated or passive network which is used to interrogate information from RFID tag (contains antennas to enable them to receive and respond to radiofrequency queries from an RFID transceiver). The RFID Reader may consist of antenna, filters, modulator, demodulator, coupler and a micro processor. We try to enhance the security up to a very effective level so that there are minimum possibilities in the security breach.For this purpose we are introducing a multilevel security system which consists of finger print impression, camera and GSM module along with RFID system. The system also creates a log containing check-in and check-out of each user along with basic information of user. OBJECTIVE The aim of the project is to design a system that have a small coverage area and can be use for authentication or identification purposes. â€Å"Security System Using RFID† is a system that uses RFID technology to maintain the security of the different rooms in same structure which can be monitored on real-time bases using the Data base server (PC).This system prevents unauthorized entry in rooms. For this purpose we are introducing a multilevel security system which consists of finger print impression, camera and GSM module along with RFID system. This ensures the reliability of the system and makes it difficult to breach. SYSTEM ANALYSIS EXISTING SYSTEM In the existing system, Information is sent to and read from RFID tags by a reader using radio waves. In passive systems, which are the most common, an RFID reader transmits an energy field that â€Å"wakes up† the tag and provides the power for the tag to respond to the reader.Data collected from tags is then passed through communication interfaces (cable or wireless) to host computer systems in the same manner that data scanned from bar code labels is captured and passed to computer systems for interpretation, storage, and action. The drawback in this system is the lack of security option available for the user. One can easily use others RFID tag to gain access in the desired place without their prior knowledge. This breach cannot be easily accounted as there is no record other then the RFID tag used which can mislead to undesirable situation.PROPOSED SYSTEM This system is of new kind in which finger print recognition system along with GSM and camera is newly added. In this system RFID along with ZigBee, microcontroller, biometric system, GSM, amplifier circuit, power supply, camera and database server (PC) is used. Different circuits work together to form an unreachable system so that the security can be enhanced to the maximum level possible. When RFID tag is sensed by the RFID receiver and finger print impression is given, the camera is activated which clicks the image of the user trying to access the system.This information is stored in the database along with time and date when the system was accessed and the GSM technology used in the system make sure that the concerned authority is notified about the activation of the sy stem along with result. SYSTEM SPECIFICATION HARDWARE REQUIREMENTS MODULESCOMPONENTNAME OF THE IC Power supplyVoltage RegulatorsLM7805, L7812, MC7912 Miscellaneous componentRS23225 PIN PORT CameraUSB Type Biometric scanner Optical Processing unitPIC ControllerPIC16F877A Data TransmissionDual Driver/ReceiverMAX 232 RFID Zigbee TransceiverX-BEE GSM Modem-SOFTWARE REQUIREMENTS Visual basics 6. 0 (Front end Design) Mikro basic SOFTWARE DESCRIPTION Visual Basic (VB) is the third-generation event-driven programming language and integrated development environment (IDE) from Microsoft for its COM programming model. Visual Basic is relatively easy to learn and use. Visual Basic was derived from BASIC and enables the rapid application development (RAD) of graphical user interface (GUI) applications, access to databases using Data Access Objects, Remote Data Objects, or ActiveX Data Objects, and creation of ActiveX controls and objects.Scripting languages such as VBA and VBScript are syntactic ally similar to Visual Basic, but perform differently. A programmer can put together an application using the components provided with Visual Basic itself. Programs written in Visual Basic can also use the Windows API, but doing so requires external function declarations. Visual basic is used to provide a simple interface about the program between user and system software. This is also used for storing the data and act as database for the system.MIKRO BASIC MikroBasic is a powerful, feature rich development tool for PIC microcontrollers. It is designed to provide the customer with the easiest possible solution for developing applications for embedded systems, without compromising performance or control. Highly advanced IDE, broad set of hardware libraries, comprehensive documentation, and plenty of ready to run example programs should be more than enough to get you started in programming microcontrollers. FEATURESMikroBasic allows you to quickly develop and deploy complex applicatio ns: †¢Write your BASIC source code using the built-in Code Editor (Code and Parameter Assistants, Syntax Highlighting, Auto Correct, Code Templates, and more†¦) †¢Use the included mikroBasic libraries to dramatically speed up the development: data acquisition, memory, displays, conversions, communications†¦ Practically all P12, P16, and P18 chips are supported. †¢Monitor your program structure, variables, and functions in the Code Explorer. †¢Generate commented, human-readable assembly, and standard HEX compatible with all programmers. Inspect program flow and debug executable logic with the integrated Debugger. †¢Get detailed reports and graphs: RAM and ROM map, code statistics, assembly listing, calling tree, and more†¦ †¢We have provided plenty of examples for you to expand, develop, and use as building bricks in your projects. Copy them entirely if you deem fit – that’s why we included them with the compiler. HARDWARE DE SCRIPTION RFID TAGS Tags also sometimes are called â€Å"transponders†. RFID tags can come in many forms and sizes. Some can be as small as a grain of rice.Data is stored in the IC and transmitted through the antenna to a reader. The two commonly used RFID Transponders [2] are Active (that do contain an internal battery power source that powers the tags chip) and passive (that does not have an internal power source, but are externally powered typical from the reader) RFID Transponders. RFID READER A reader (now more typically referred to as an RFID interrogator) is basically a radio frequency (RF) transmitter and receiver, controlled by a microprocessor or digital signal processor.The reader, using an attached antenna, captures data from tags, then passes the data to a computer for processing. The reader decodes the data encoded in the tag(s) integrated circuit (silicon chip) and the data is passed to the host computer for processing. WORKING OF RFID Information is sent to an d read from RFID tags by a reader using radio waves. In passive systems, which are the most common, an RFID reader transmits an energy field that â€Å"wakes up† the tag and provides the power for the tag to respond to the reader.Data collected from tags is then passed through communication interfaces (cable or wireless) to host computer systems in the same manner that data scanned from bar code labels is captured and passed to computer systems for interpretation, storage, and action. FREQUENCIES OF RFID RFID deployments tend to use unlicensed frequencies for their obvious cost benefits. There are four commonly used frequencies: †¢ Low frequency (LF) 125/134. 2 KHz. †¢ High frequency (HF) 13. 56 MHz. †¢ Ultra high frequency (UHF) (including 869 and 915 MHz). †¢ Microwave (at 2450 MHz, a band familiar to ISPs).A tag's read range performance is usually considered the primary gauge of its suitability for a particular application. It is important to remember t hat not all applications require maximum range. Tags in the LF-HF band have a range of 1 to 18 inches, while passive UHF tags can reach up to 20 feet, and microwave tags can reach 1 to 6 feet. The ranges greatly depend upon the surface on which the tag is mounted. BLOCK DIAGRAM BIOMETRIC SYSTEM In today’s world, the need for effective security is evident. Without effective security, many everyday activities are compromised.Specific security concerns include: †¢Protecting computer systems, PDAs, mobile phones, Internet appliances and similar devices from unauthorized access or use †¢Protecting motor vehicles and other valuable items from unauthorized access or use preventing theft and fraud in financial transactions, in particular electronic transactions, including credit card payments and payments via the Internet. †¢ Restricting access to workplaces, warehouses and secures areas, such as military installations, to authorized personnel. †¢ Screening access to public transportation, in particular air travel. Authenticating the identity of an individual in drivers’ licenses, health cards, ID cards, and similar administrative documents. A major factor in ensuring security is the unique identification of individuals, or the authentication that a person is who he or she claims to be. This must be done reliably, rapidly, non-intrusively and at reasonable cost. In the past, this has been done by methods such as security tokens (passports, badges, etc. ), secure knowledge (passwords PIN codes, signature, etc. ) or recognition by a guardian (doorkeeper). These traditional approaches are all limited with respect to the above criteria.A promising approach for the future is biometrics. Biometrics offers a convenient, reliable and low-cost means of identifying or authenticating individuals, and can be implemented in unsupervised and remote situations. Biometrics seeks to identify individuals uniquely by measuring certain physical and behav ioural characteristics and extracting a sample (also called a sampled template or live template) from these measurements in a standard data format. This sample is compared with a template (also called an enrolled template or signature), based on the same characteristics, that has been established as he unique identity of that individual and stored in the security system. A close match between sample and template confirms the identity of the individual. Attention has been focused on a small number of physical characteristics that can identify individuals uniquely, notably voice, gait, face, iris and retina patterns, palm prints and fingerprints. (DNA is excluded from this list because DNA sampling is intrusive and slow. ) Work is proceeding to develop electronic recognition systems based on all of these. This article focuses on fingerprints as the most advanced, mature and well-developed option.Based on centuries of experience and extensive research, fingerprints are at present consi dered to be the most reliable biometric for uniquely identifying an individual. In spite of some recent legal challenges in the USA, they are still regarded as giving proof of identity beyond reasonable doubt in almost all cases. The majority of the biometric-based security systems in operation today are based on fingerprint recognition. Thumb Impression FINGERCHIP TECHNOLOGY Finger Chip IC for fingerprint image capture combines detection and data conversion circuitry in a single rectangular CMOS die.It captures the image of a fingerprint as the finger is swept vertically over the sensor window. It requires no external heat, light or radio source. FINGERCHIP SENSOR The Finger Chip sensor comprises an array of 8 rows by 280 columns, giving 2240 temperature-sensitive pixels. An additional dummy column is used for calibration and frame identification. The pixel pitch of 50 _m by 50 _m provides a resolution of 500 dpi over an image zone of 0. 4 mm by 14 mm. This is adequate to capture a frame of the central portion of a fingerprint at an acceptable image resolution.This resolution also complies with the Image Quality Specification (IQS) from the IAFIS (Integrated Automated Fingerprint Identification System) of the U. S. Federal Bureau of Investigation (FBI). The pixel clock is programmable at up to 2 MHz, giving an output of 1780 frames per second. This is more than adequate for a typical sweeping velocity. An image of the entire fingerprint is re-constructed from successive frames using software provided. Biometric sensor ZIGBEE ZigBee is a low-cost, low-power, wireless mesh network standard.The low cost allows the technology to be widely deployed in wireless control and monitoring applications. Low power-usage allows longer life with smaller batteries. Mesh networking provides high reliability and more extensive range. The technology is intended to be simpler and less expensive than other WPANs such as Bluetooth. ZigBee chip vendors typically sell integrated rad ios and microcontrollers with between 60 KB and 256 KB flash memory. ZigBee operates in the industrial, scientific and medical (ISM) radio bands; 868 MHz in Europe, 915 MHz in the USA and Australia, and 2. GHz in most jurisdictions worldwide. Data transmission rates vary from 20 to 250 kilobits/second. The ZigBee network layer natively supports both star and tree typical networks, and generic mesh networks. Every network must have one coordinator device, tasked with its creation, the control of its parameters and basic maintenance. Within star networks, the coordinator must be the central node. Both trees and meshes allow the use of ZigBee routers to extend communication at the network level. ZIGBEE STACK ZigBee builds upon the physical layer and medium access control defined in IEEE standard 802. 5. 4 (2003 version) for low-rate WPAN's. The specification goes on to complete the standard by adding four main components: network layer, application layer, ZigBee device objects (ZDO's) and manufacturer-defined application objects which allow for customization and favour total integration. Besides adding two high-level network layers to the underlying structure, the most significant improvement is the introduction of ZDO's. These are responsible for a number of tasks, which include keeping of device roles, management of requests to join a network, device discovery and security.ZigBee is not intended to support power line networking but to interface with it at least for smart metering and smart appliance purposes. Because ZigBee nodes can go from sleep to active mode in 30msec or less, the latency can be low and devices can be responsive, particularly compared to Bluetooth wake-up delays, which are typically around three seconds. Because ZigBee nodes can sleep most of the time, average power consumption can be low, resulting in long battery life. PIC MICRO CONTROLLER FEATURES OF PIC (16F877A) †¢High-performance RISC CPU †¢Only 35 single word instructions t o learn Direct, indirect and relative addressing modes †¢Power-on Reset (POR) †¢Power-up Timer (PWRT) and †¢Oscillator Start-up Timer (OST) †¢Programmable code-protection †¢Low-power, high-speed CMOS FLASH/EEPROM technology †¢In-Circuit Debugging via two pins †¢Single 5V In-Circuit Serial Programming capability †¢Wide operating voltage range: 2. 0V to 5. 5V †¢Commercial and Industrial temperature ranges †¢Low-power consumption. PIC micro controller-16F877A High-performance RISC CPU: †¢Only 35 single–word instruction to learn Operating speed: †¢DC-20MHz clock input †¢DC-200ns instruction cyclePeripheral features: †¢Universal synchronous asynchronous receiver transmitter (USAT/SCI) with 9-bit address deduction. †¢Parallel slave port (PSP)-8 bits wide with external RD, WR and CS controls. PIN DETAIL FOR MICROCONTROLLER Analog features: †¢10-bit, up to 8-channel analog –to- digital converter (A /D) †¢Analog Comparator module with two analog comparators †¢Programmable on – chip voltage reference (VREF) module †¢Programmable input multiplexing from device inputs and internal voltage reference †¢Comparator outputs are externally accessible Special Micro controller Features: 100,000 erase/write cycle Enhanced Flash program memory typical †¢1,000,000 erase/write cycle Data EEPROM memory typical †¢Data EEPROM Retention > 40 years †¢Self-reprogram able under software control †¢Single-supply 5v In-Circuit Serial Programming Tm (ICSPTm) Via two pins †¢Watching Timer (WDT) with its own on-chip RC oscillator for reliable operation †¢Programmable code protection †¢Power saving Sleep mode †¢Selectable oscillator options In-Circuit Debug (ICD) via two pins CMOS Technology: †¢Low power, high-speed Flash/EEPROM technology †¢Wide operating voltage range (2. 0v to 5. 5v) RS 232PC in general cannot directly communic ate with peripherals that are available. The reason behind this is the difference in their working logic. PC generally works in positive logic. The microcontroller that actually acts as the peripheral here works in negative logic. It becomes important to change the logic between them when they communicate with each other. RS232 is very important for standard serial interfacing with PC where change of logic is achieved. PC communicates with peripherals through serial com1 or com2, which communicates the data in terms of pulse form as follows. GSM MODULERFID security system is based on GSM network technology for transmission of SMS from sender to receiver. SMS sending and receiving is used for ubiquitous access of information and allowing breach control at secured area. The system provide a sub-systems which gives us a control subsystem that enables the user to control area security remotely whereas the security alert subsystem provides the remote security monitoring. The main aspect of the security alert is to achieve detection on intrusion in the system and allow an automatic generation of SMS thus alerting the user against security risk.PC: This unit contains the software components such as the server and security System through which the area security can be controlled and monitored. GSM Modem: It is a hardware component that allows the capability to send and receive SMS to and from the system. The communication with the system takes place via RS232 serial port. Cell phone can be attached at the place of GSM hardware but it limits the hardware functionality such as sending or receiving of SMS. Mobile Device: Cellular phone containing SIM card has a specific number through which communication takes place.The device communicates with the GSM Modem via radio frequency. Mobile user transmits SMS using GSM technology. GSM Modem: GSM modem is a plug and play device and is attached to the PC which then communicates with the PC via RS232 port. GSM modem is a bridge responsible for enabling/ disabling of SMS capability. Cell Phone: Mobile device communicates with the GSM Modem via radio waves. The mode of communication is wireless and mechanism works on the GSM technology. Cell phone has a SIM card and a GSM subscription. This cell phone number is configured on the system.User transmits instructions via SMS and the system takes action against those instructions. WORKING OF GSM MODULE GSM hardware tests are run in order to check the hardware support. The system will call GSM modem and it will get activated. After activation the Modem will check for hardware support. If the hardware is missing or some other hardware problem there will be error, resulting in communication failure and the application will be terminated. If hardware responds then the serial port will be opened for communication and GSM hardware will allow transmission of SMS.The system will then connect and after connection establishment the system will be able to detect intrusion a nd will alert user about the breach and similarly the system will update status of appliances by receiving SMS from the pre-defined cell number. SMS will be silently ignored if cell number is unauthorized. The system uses GSM technology thus providing ubiquitous access to the system for security and automated appliance control. Therefore this paper proposes a system that allows user to be control and provide security on detection of intrusion via SMS using GSM technology.POWER SUPPLY Power supply is the basic unit that provides corresponding operating voltage to each circuit. In this 12V power supply is used in the project. 7805 represents the IC which works on the operating voltage of +5V. 7905 represents the IC works on the operating voltage of -5V. 7812 represents the IC which works on the operating voltage of +12V. 7912 represents the IC works on the operating voltage of -12V. BLOCK DIAGRAM Power supply unit consists of following units i) Step down transformer ii) Rectifier unit iii) Input filter iv) Regulator unit v) Output filter STEPDOWN TRANSFORMERUsing step down uses it to step down the main supply voltage transformer. It consists of primary and secondary coils. The output from the Secondary coil is also AC waveforms we have to convert AC voltage into DC voltage by using Rectifier Unit. RECTIFIER UNIT We have to convert AC voltage into DC voltage by using rectifier. Bridge Rectifier is used to convert into DC voltage. This output voltage of the rectifier is in rippled forms we have to remove the ripples from DC voltage. INPUT FILTER Capacitor acts as filter. The principle of the capacitor is charging and discharging.It charges in positive half cycle of the AC voltage and it will Discharge in negative half cycles, it allows only AC voltage and doesn’t allow the DC voltage. This filter is fixed before the regulator. REGULATOR UNIT Regulator regulates the output voltage constant depends upon the regulator. it classifieds as follows i) Positive reg ulator 1—> input pin 2—> ground pin 3—> output pin It regulates the positive voltage. ii) Negative regulator 1—> ground pin 2—> input pin 3—> output pin It regulates the negative voltage. OUTPUT FILTER Capacitor acts as filter.The principle of the capacitor is charging and Discharging. it charges in positive half cycle of the AC voltage and it will Discharge in negative half cycles, it allows only AC voltage and doesn’t allow the DC voltage. This fiter is fixed after the regulator. MERITS It is an advanced technology used for security purpose The main advantage is that its easy to use Comparing to all other technology it has high memory capacity The size of the RFID is small, therefore its compact CONCLUSION AND FUTURE IMPLEMENTATION RFID is one of the best technology used for barcode system , tags and transfer information.RFID adorns the management with a new idea and usher for a bright future. In the near future the RFID tag system will be replaced with NFC(near field communication) because of its high sensitivity Due to its customizable feature and continuing improvement the library communities are beginning to get involved in its development REFERENCES www. microchip. com www. dallas. com www. gsmfavorites. com http://www. shepherdcentre. com. au/ www. myprojects. com SECURITY SYSTEM USING RFID A PROJECT REPORT Submitted by ANISH ANTONY (080107117005) JISU JOHN ISAC (080107117039)KRISHNA PRABHA R(080107117055) KUNAL BHARDWAJ (080107117056) In partial fulfilment for the award of the degree of BACHELOR OF ENGINEERING in ELECTRONICS AND COMMUNICATION ENGINEERING PARK COLLEGE OF ENGINEERING AND TEKHNOLOGY, KANIYUR, COIMBATORE-641659. ANNA UNIVERSITY OF TECHNOLOGY COIMBATORE 641 047 APRIL 2012 ANNA UNIVERSITY OF TECHNOLOGY COIMBATORE-641047 BONAFIDE CERTIFICATE Certified that this project report â€Å"SECURITY SYSTEM USING RFID† is the bonafide work of â€Å"ANISH ANTONY, JISU JOHN ISAC, KRISHNA PRABHA R, KUNAL BHARDWAJ† who carried out the project work under my supervision.SIGNATURESIGNATURE Mr. MARIA ANTONY M. E Mrs. K. MUTHULAKSHMI. M. E. (PhD) SUPERVISOR HEAD OF THE DEPARTMENT Department of Electronics and Department of Electronics and Communication Engineering, Communication Engineering, Park College of Engineering Park College of Engineering and Technology, and Technology, Coimbatore – 641659. Coimbatore – 641659. INTERNAL EXAMINER EXTERNAL EXAMINERCONTENTS CHAPTER TITLE PAGE NO ABSTRACT 1. INTRODUCTION 2. OBJECTIVE 3. SYSTEM ANALYSIS 3. 1 Existing System 3. 2 Proposed System 4. SYSTEM SPECIFICATION 4. 1Hardware requirements 4. 2 Software requirements 5. SYSTEM DESCRIPTION 5. 1 Software description 5. Hardware description 6. BLOCK DIAGRAM 6. 1 block diagram description 7. MERITS 8. CONCLUSION 9. REFERENCES ABSTRACT RFID (Radio Frequency Identification) is the quintessential pervasive computing technology. The heart of the utility is that RFID makes gatherin g information about physical objects easy. Information about RFID tagged objects can be read through physical barriers, and from a distance. Our project utilized these RFID tags to improve the security system of a building by introducing a system that could read the RFID tagged smart cards that are placed in proximity to an antenna.Our project comes with option of finger print system, GSM system and camera system attached with the main RFID system. This help in making the security full proof and reduce the possibility of breaches. RFID devices have three primary elements: a chip, an antenna, and a reader. A fourth important part of any RFID system is the database where information about tagged smart card is stored. For wireless data transmission and networking between sensor nodes, the project uses ZigBee modules. The modules require minimal power and provide reliable delivery of data between devices with efficient security measures.This project is implemented in real time system. I NTRODUCTION The major problem faced by organizations in security breach is related with doors without proper security system on them for their protection. Our project is going to solve these problems by using RFID technology. For wireless data transmission between tag and sensor nodes, the project uses ZigBee modules. Radio Frequency Identification (RFID) is an automatic identification method, relying on storing and remotely retrieving data using devices called RFID tags or transponders.So the RFID is a wireless identification. Normally the RFID system comprises of two main parts: RFID Reader and RFID Tag. RFID Reader is an integrated or passive network which is used to interrogate information from RFID tag (contains antennas to enable them to receive and respond to radiofrequency queries from an RFID transceiver). The RFID Reader may consist of antenna, filters, modulator, demodulator, coupler and a micro processor. We try to enhance the security up to a very effective level so tha t there are minimum possibilities in the security breach.For this purpose we are introducing a multilevel security system which consists of finger print impression, camera and GSM module along with RFID system. The system also creates a log containing check-in and check-out of each user along with basic information of user. OBJECTIVE The aim of the project is to design a system that have a small coverage area and can be use for authentication or identification purposes. â€Å"Security System Using RFID† is a system that uses RFID technology to maintain the security of the different rooms in same structure which can be monitored on real-time bases using the Database server (PC).This system prevents unauthorized entry in rooms. For this purpose we are introducing a multilevel security system which consists of finger print impression, camera and GSM module along with RFID system. This ensures the reliability of the system and makes it difficult to breach. SYSTEM ANALYSIS EXISTIN G SYSTEM In the existing system, Information is sent to and read from RFID tags by a reader using radio waves. In passive systems, which are the most common, an RFID reader transmits an energy field that â€Å"wakes up† the tag and provides the power for the tag to respond to the reader.Data collected from tags is then passed through communication interfaces (cable or wireless) to host computer systems in the same manner that data scanned from bar code labels is captured and passed to computer systems for interpretation, storage, and action. The drawback in this system is the lack of security option available for the user. One can easily use others RFID tag to gain access in the desired place without their prior knowledge. This breach cannot be easily accounted as there is no record other then the RFID tag used which can mislead to undesirable situation.PROPOSED SYSTEM This system is of new kind in which finger print recognition system along with GSM and camera is newly added . In this system RFID along with ZigBee, microcontroller, biometric system, GSM, amplifier circuit, power supply, camera and database server (PC) is used. Different circuits work together to form an unreachable system so that the security can be enhanced to the maximum level possible. When RFID tag is sensed by the RFID receiver and finger print impression is given, the camera is activated which clicks the image of the user trying to access the system.This information is stored in the database along with time and date when the system was accessed and the GSM technology used in the system make sure that the concerned authority is notified about the activation of the system along with result. SYSTEM SPECIFICATION HARDWARE REQUIREMENTS MODULESCOMPONENTNAME OF THE IC Power supplyVoltage RegulatorsLM7805, L7812, MC7912 Miscellaneous componentRS23225 PIN PORT CameraUSB Type Biometric scanner Optical Processing unitPIC ControllerPIC16F877A Data TransmissionDual Driver/ReceiverMAX 232 RFID Zigbee TransceiverX-BEE GSM Modem-SOFTWARE REQUIREMENTS Visual basics 6. 0 (Front end Design) Mikro basic SOFTWARE DESCRIPTION Visual Basic (VB) is the third-generation event-driven programming language and integrated development environment (IDE) from Microsoft for its COM programming model. Visual Basic is relatively easy to learn and use. Visual Basic was derived from BASIC and enables the rapid application development (RAD) of graphical user interface (GUI) applications, access to databases using Data Access Objects, Remote Data Objects, or ActiveX Data Objects, and creation of ActiveX controls and objects.Scripting languages such as VBA and VBScript are syntactically similar to Visual Basic, but perform differently. A programmer can put together an application using the components provided with Visual Basic itself. Programs written in Visual Basic can also use the Windows API, but doing so requires external function declarations. Visual basic is used to provide a simple interfa ce about the program between user and system software. This is also used for storing the data and act as database for the system.MIKRO BASIC MikroBasic is a powerful, feature rich development tool for PIC m

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