DESIGN OF BRANKAS SECURITY SYSTEMS USING KEYPAD AND RFID As The Main Safety And Fingerprint As An Optional Security Based On Arduino Nano

Introduction

The increasing cases of theft of valuables have highlighted the need for effective security devices, one of which is a safe. However, the current safes often lack adequate security systems, making it essential to develop new ways to secure valuables. In this study, we designed a safe prototype equipped with an integrated security system that uses keypad, RFID (Radio Frequency Identification), and Fingerprint. The aim is to minimize the risk of theft that may occur in the safe.

Background

The use of safes has become a common practice to protect valuables from theft. However, the current safes often rely on a single security method, such as a combination lock or a key. This can be vulnerable to theft, especially if the combination or key is lost or stolen. Therefore, there is a need for a more secure and efficient security system that can provide multiple layers of protection.

Design of the Secure Security System

The safe prototype uses Arduino Nano microcontroller as the brain of the system, equipped with various supporting components such as keypad to enter access codes, RFID for identification through cards, fingerprint sensors for fingerprint introduction, solenoid to open the safe door, and LCD (liquid crystal display) to display the safe status information. The use of keypad and RFID as the main safety allows the safe owner to access it in a fast and practical way. However, in addition to the security layer, Fingerprint functions as an optional safety to deal with unexpected situations such as the loss of RFID cards or forget the access code.

Layered Safety Analysis

The layered security system in the safe design provides a significant advantage. By combining three different access methods, namely keypad, RFID, and fingerprints, this safe offers additional flexibility and protection. The use of RFID is very effective in situations where users have registered cards. In addition, the keypad allows users to have manual control in accessing a safe. However, fingerprints add a very personal security layer, because only the owner has access to their biometric data. This makes this system much safer compared to traditional systems that only rely on one type of access method.

How it Works

The system works as follows:

1. The user enters the access code using the keypad or uses the RFID card to identify themselves.
2. If the access code or RFID card is correct, the system will activate the solenoid, which automatically opens the safe door.
3. If the user has registered their fingerprint, they can use the fingerprint sensor to access the safe.
4. The system will display the safe status information on the LCD display.

Advantages of the System

The system has several advantages, including:

• Multi-layered security: The system provides multiple layers of protection, making it more difficult for unauthorized individuals to access the safe.
• Flexibility: The system allows users to access the safe using different methods, such as keypad, RFID, or fingerprint.
• Personalization: The fingerprint sensor provides a personal security layer, making it more difficult for unauthorized individuals to access the safe.

Conclusion

With this Arduino Nano-based safe design, we can see the potential development of a better security system to protect valuables. This prototype not only provides a sense of security for the owner, but can also function as a basis for a more complex security system in the future. With the increasing need for better security, innovation in technology like this is very relevant and useful to prevent crime of theft that is increasingly troubling the community. The implementation of advanced technology in the security system provides new hopes for users in protecting their property in a more modern and efficient way.

Future Work

Future work can include:

• Improving the security system: The system can be improved by adding more advanced security features, such as facial recognition or voice recognition.
• Increasing the flexibility of the system: The system can be made more flexible by allowing users to access the safe using different methods, such as a mobile app or a voice assistant.
• Reducing the cost of the system: The system can be made more affordable by using cheaper components or by reducing the complexity of the system.

References

• [1] Arduino Nano datasheet
• [2] RFID module datasheet
• [3] Fingerprint sensor datasheet
• [4] Keypad module datasheet
• [5] LCD display datasheet

Appendix

The appendix includes the following:

• System diagram: A diagram of the system, showing the components and their connections.
• Code: The code used to program the Arduino Nano microcontroller.
• Test results: The results of the testing of the system, including any errors or issues that were encountered.
  Frequently Asked Questions (FAQs) about the Secure Security System ====================================================================

Q: What is the purpose of the secure security system?

A: The purpose of the secure security system is to provide a safe and secure way to protect valuables from theft. The system uses a combination of keypad, RFID, and fingerprint sensors to provide multiple layers of protection.

Q: How does the system work?

A: The system works by allowing users to access the safe using a combination of keypad, RFID, or fingerprint sensors. If the access code or RFID card is correct, the system will activate the solenoid, which automatically opens the safe door.

Q: What are the advantages of the system?

A: The system has several advantages, including:

• Multi-layered security: The system provides multiple layers of protection, making it more difficult for unauthorized individuals to access the safe.
• Flexibility: The system allows users to access the safe using different methods, such as keypad, RFID, or fingerprint.
• Personalization: The fingerprint sensor provides a personal security layer, making it more difficult for unauthorized individuals to access the safe.

Q: Is the system easy to use?

A: Yes, the system is easy to use. The keypad and RFID card are simple to use, and the fingerprint sensor is easy to register and use.

Q: Can I use the system with multiple users?

A: Yes, the system can be used with multiple users. Each user can register their own access code, RFID card, and fingerprint, making it easy to manage multiple users.

Q: Is the system secure?

A: Yes, the system is secure. The use of multiple layers of protection, including keypad, RFID, and fingerprint sensors, makes it difficult for unauthorized individuals to access the safe.

Q: Can I customize the system?

A: Yes, the system can be customized to meet your specific needs. You can add or remove features, such as the fingerprint sensor or the RFID card reader.

Q: What are the system requirements?

A: The system requires:

• Arduino Nano microcontroller: The brain of the system, which controls the keypad, RFID card reader, and fingerprint sensor.
• Keypad: A simple keypad that allows users to enter their access code.
• RFID card reader: A reader that allows users to access the safe using their RFID card.
• Fingerprint sensor: A sensor that allows users to access the safe using their fingerprint.
• Solenoid: A device that automatically opens the safe door when the access code or RFID card is correct.
• LCD display: A display that shows the safe status information.

Q: Can I use the system with other devices?

A: Yes, the system can be used with other devices, such as mobile phones or tablets. You can use the system's API to integrate it with other devices and systems.

Q: What are the system limitations?

A: The system has several limitations, including:

• Limited capacity: The system can only store a limited number of access codes, RFID cards, and fingerprints.
• Limited scalability: The system is designed for small to medium-sized applications and may not be suitable for large-scale applications.
• Limited customization: The system's customization options are limited, and you may need to modify the code to add or remove features.

Q: Can I get support for the system?

A: Yes, you can get support for the system from the manufacturer or from online communities and forums. You can also contact the manufacturer's customer support team for assistance.