Index IntroductionReview of related literatureMethodologyProject description, design and hardware componentsData collectionResult and discussionSummary resultsConclusionRecommendationThis project is conducted in order to benefit and promote motorcycle safety through this Android application called as anti-thief control anti-theft security via SMS and GPRS connection which will prevent theft of the units. the aim of the project is to (1) locate the stolen motorcycle via SMS and GPRS (2) send text messages to the owner if anyone wants to take the unit. (3) Arduino board was used to control the prototype of that project and other hardware such as GPS module with external antenna and finally relay (4) the device which will be placed under the seat. Mixed methodology was used to create and promote the design project because it helps the evaluators in both the contextual and experimental aspect where the integration of different theories, ideas and equipment was used. The prototype was evaluated by seventy-seven 77 respondents. and as a result the overall average 4. 14 indicates that the study is accepted based on the evaluation criteria used. the average average ratings of possible users, both expert and non-expert in motorcycles, range from 4.14 to 4.6 which means excellent. In conclusion, the project results were successfully simulated and practically implemented based on the indicators. As the evaluators' recommendation, data based on the project analysis are: Conduct more tests to improve efficiency and enhance functionality for a more in-depth study that can be integrated into other existing tracking-related projects. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an original essay IntroductionCurrently, motorcycle thefts happen often. The rate of this case is increasing nowadays. Although the PNP Highway Patrol Group is trying to track down the criminals and arrest them, the thieves have many techniques on how to steal it in a short period of time. It is also smuggled for sale through different routes. It is difficult to track down the criminal and the stolen motorcycle to send back to the owner. One way to help prevent the problem is to provide safety information to the owner of their vehicle to protect them from thieves. In today's generation, the development of technology is emerging to compete with the market demand, especially the vehicle commonly used by Filipinos as their primary means of transportation. In any case, security is what people look at more and more important in the business world, here's why; This project was created and developed to help protect important things, especially the safety of motorcycles, from thieves. In this context, the software called "Anti-thief security control via SMS and GPRS connection". This software/hardware device has the ability to shut down the stolen motorcycle via text message. The developer believes that through this device, it could help reduce the rapid increase in motorcycle vehicles and go some way to addressing one of the unsolved problems in our society today. This project is conducted in order to help and promote the safety of motorcycles by developing a device called Anti-Thief Security Control which will prevent theft of the units. This anti-thief security control has the following features and capabilities: Monitoring. Using GPS coordinates the owner can detect his motorbike. This device has the ability to alert the owner's smartphone via text messagesif someone is trying to start the motorcycle. It has the ability to shut down the stolen motorcycle using SMS at any time. 4. Real-time GPS geolocation tracking. Once the SIM800 module identifies the owner's unique number, by sending a text message with the direct digits, the GPS fixes the GPS satellites. The GPRS+GPS shield will connect to the network and send GPS data via HTTP request. You can view your device's location in Google Maps. Design an anti-thief security control device which has the functionality of accessing Google Map via SMS message. 3. Purpose of the project This project titled “Anti-theft security control via SMS and GPRS connection” was developed to provide security to vehicles using SMS and GPRS. In its development the project has the following aim: The aims are (1) to locate the stolen motorcycle via SMS and GPRS (2) to send text messages to the owner if someone wants to take the unit. (3) Arduino board was used to control the prototype of that project and other hardware such as GPS module with external antenna and relay (4) the device which will be placed under the seat. Review of Related Literature The significant power of GPS technology had become an important aspect in society's monitoring systems. Knowing your location is a very important factor in terms of observing a specific target. Once you have this information, tracking it is as easy as drawing a line from one point to another. Tracking where the target is coming from, to where it will stop, is easy access as the Global Positioning Satellite System makes it easier for observers to track the vehicle's course. This is various related literature and studies that will serve as a reference guide in the creation, design and development of the proposed project. Therefore, this indicates the concepts relevant to the present study in relation to the other studies. Statements including the author's name are stated that gave significant meaning to the completion of this study. Various anti-theft modules such as steering wheel lock equipment, network tracking system and traditional electronic alarm have been developed recently along with customer identification and real-time performance monitoring. The paper presented by Hyo-Haeng Lee, In-Kwon Park and Kwang-Seok Hong, “Design and Implementation of Mobile-Based Real-time Location Sensing”, this paper proposes a real-time location sensing system using One GPS module for different mobile devices and multiple users. The researcher focuses on managing and observing a majority of people that can be expected. The development was done so that the user can acquire and manage information about the location of a specific subject using the GPS tracking system, which required people's attention in real time, GPS or global positioning system is a network of orbiting satellites that send precise details about the signals are obtained by GPS receivers, such as navigation devices and are used to calculate the exact position, speed and time where the vehicles are located. Another study presented by El-Medany, W.; Al-Omary, A.; Al-Hakim, R.; Al-Irhaim, S.; Nusaif, M., “A Prototype of Cost-Effective Real-Time Tracking System Using Integrated GPS/GPRS Module,” Wireless and Mobile Communications. The researcher presented a real-time tracking system that provides accurate location of the tracked vehicle at low cost. The system is implemented using the GM862 quad band cellular module(GM862-Quad is a Quad Band GPRS modem that requires only power to operate and includes a SIM card holder, as well as antenna and PCB mounting connectors. A monitoring server and a graphical user interface on a website), using Microsoft SQL Server 2003 and ASP. net is used to display the current location of a vehicle on a specific map. The system provides vehicle status information such as speed and mileage. The real-time vehicle tracking system uses satellite technology combined with a comprehensive digital road map link to Google Earth to provide real-time locations and record historical vehicle activity. Vehicle tracking units transmit data to REMORA servers via GPRS wireless networks every 30 seconds. You can then access this information 24 hours a day via any Internet connection around the world. GPS Eye Tracker, a vehicle tracking and fleet management system service provided by Wireless Link Technologies, Inc. provides the most advanced and cost-effective GPS tracking and asset protection solutions to logistics providers, security agencies, transporters of goods, manufacturers, automotive financing, insurance and equipment rental companies worldwide. GPS Eye Tracker improves mobile and remote asset management. A study on the data transmission reliability of an over the top network protocol over SMS compared to UPD/GPRS. The purpose of this study was to identify an aspect of data transmission that could help bridge the gap between the availability of second and third generation mobile telephony in light of the growing demand for growth in machine-to-machine applications that they use mobile data technology. This study examined the reliability of sending data via the SMS interface as an alternative means of transmitting data over newer technologies such as GPRS. The research mainly focused on transport performance and examined several integrity and reliability factors, such as transmission time and number of attempts. The study was then divided into construction, testing and analysis phases where the final result was an analysis of the data collected in the specific area. Methodology A mixed methodology was used in the project to define the proposed system. Mixed methodology is a method that combines qualitative and quantitative research. This type of methodology uses different measures that include both contextual understanding such as interviews or observations along with facts or statistics using these methods which can help the researcher investigate a topic on multiple levels, getting different viewpoints and a comprehensive look at the 'subject. A mixed methodology combines more than one philosophical perspective allowing for the integration of different theories and ideas. Methodology is the process used to collect and analyze the data necessary to answer the research questions that guide a study. Try to be clear and accurate in describing each step of the methods you used when conducting the research and explain why the researchers chose this particular method over others. A prototype is a rudimentary working model of a product or information system, usually built for demonstration purposes or as part of the development process. In the systems development life cycle (SDLC) prototyping model, a basic version of the system is built, tested, and then reworked as needed until an acceptable prototype is finally obtained from which the system or product can now be developed complete. Project Description, Design and Hardware Components La.