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Raditya Koesyan Dipo Pramukti, Afu Ichsan Pradana, and Rudi Susanto. "IoT-Based Door Security System as A Countermeasure and Theft Prevention." Jurnal Teknologi Informasi Universitas Lambung Mangkurat (JTIULM) 9, no. 2 (2024): 7–12. http://dx.doi.org/10.20527/jtiulm.v9i2.216.
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A security system is very necessary when creating a system. One of them is a door lock system. There are several security systems that can be used when creating an automatic door locking system, namely using alarms and application notifications. A good security system also requires how quickly the tool or system works to give signs that someone is breaking in. By applying IoT (Internet of Things) and also the ESP32 microcontroller, we can monitor an event in real-time. With IoT-based security systems, the system can continuously operate with just stable internet and electricity. The ESP32 microcontroller is also widely used in IoT projects due to its ease of operation and affordable price. An alarm that is responsive can help us prevent criminal activities. An alarm functions to alert us of something or a situation. By combining the concepts of the ESP32 microcontroller and alarm notifications in the form of messages on Telegram, we can create a reliable system. This becomes an effective solution for securing properties and the safety of its occupants.
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Osifeko, Martins, Godswill Iroegbu, and Ayodeji Okubanjo. "An IoT-based Smart Doorbell System for Mitigating Stealth Attacks." Journal of Engineering Science 14, no. 2 (2024): 47–58. http://dx.doi.org/10.3329/jes.v14i2.71226.
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The need for smart doorbell systems has increased in recent times. This is due to the general tendency for burglars to use stealth when breaking into homes and businesses. Also, visitors are known to spend time searching for doorbells around the house. Thus, to address this problem, this paper presents a smart doorbell system that detects human presence at the door and automatically notifies the homeowner. The system consists of a microcontroller, ultrasonic sensor, GSM module, and software. When a human presence is detected within the configured range of 1 to 70cm, the ultrasonic sensor sends a signal to the microcontroller, which in turn sends a command to the GSM module to notify the homeowner. The performance of the system was tested using various parameters with results showing that the device can detect human presence within the range of 1-80cm. Journal of Engineering Science 14(2), 2023, 47-58
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E, Eleena Florida*1 &. Dr. Kumar Manoj2. "AN ONLINE WEB OF THINGS IN SMART HOME AUTOMATION DEVICES REGULATORY MECHANISM USING TRI-LEVEL CONTEXT MAKING MODEL." GLOBAL JOURNAL OF ENGINEERING SCIENCE AND RESEARCHES 5, no. 5 (2018): 70–76. https://doi.org/10.5281/zenodo.1252163.
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Calculated In future the sharp home computerization based Web of things (IOT).This paper proposes a web of things in light of seeing of structure using a Tri-level setting making model for setting careful organizations in savvy homes. Web of things which is sensible for data getting and information examination through various sensors will expect a crucial part and it will be a guideline focus development to make and keep up IOT-based wise home organizations. The essential part of the" Keen Home Computerization Utilizing I0T" is the essential subject of focus that is away for game plans that offer distinctive sensor data logger and robotization of house promptly. At indicate system screens of various parameters like temperature, smoke at controlled kitchen, and besides comparable data will be revived on the web. Door breaking structure with auto flag alert and smoke affirmation with auto controlling of exhauster .A home robotization system may in like manner be used to have a house lawbreakers by passing on alerts towards the nearest police home office and moreover house proprietor in condition a trespasser is thought. Nowadays usage of home computerization system is growing a direct result of its different purposes of intrigue, viability et cetera. By using Bluetooth or ZigBee we can remotely control all machines inside the home them two having district or inside some specific detachment we can work that devices remotely however by using web of things .Distinctive home computerizations systems(Arduino or Raspberry pi),Bluetooth – based, ZigBee – based ,SMS – Based, internet(Wi-Fi)based.
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Viraja, K. Sri. "IOT Based Smart Door System." International Journal for Research in Applied Science and Engineering Technology 6, no. 4 (2018): 438–43. http://dx.doi.org/10.22214/ijraset.2018.4077.
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Tailor, Amita, and Vaibhavi Pandya. "IOT based Smart Door Lock System." International Journal for Research in Applied Science and Engineering Technology 11, no. 3 (2023): 922–26. http://dx.doi.org/10.22214/ijraset.2023.49470.
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Abstract: Security describes protection of life and property. The safety in the house is very important. Besides the traditional method door that used a key can be easily open by not authorized person or burglar if they have the right key. This will allow them to steal the entire valuable thing in the house. Nowadays the telecommunication technologies become wider and more new features exist to make human life better This project will use a Bluetooth feature in mobile phone to automatically open the door so that Bluetooth technology syncs your phone directly with the lock. It wills automatic open if authorized person is detected. The door will open for a certain delay and the door automatically closes within this time. IOT based smart door lock using 4x4 MATRIX MEMBRANE TYPE KEYPAD-16 KEYS, ARDUINO UNO, RELAY MODULE.
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Pawar, Sagar K., Akash H. Nikam, Bhushan R. Pawar, Srijan Hembram, and Prof Tushar Kaloge. "IOT Based Smart Lock Door System." International Journal for Research in Applied Science and Engineering Technology 12, no. 4 (2024): 4427–28. http://dx.doi.org/10.22214/ijraset.2024.60998.
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Abstract: Security describes protection of life and property. The safety in the house is very important. Besides the traditional method door that used a key can be easily open by not authorized person or burglar if they have the right key. This will allow them to steal the entire valuable thing in the house. Nowadays the telecommunication technologies become wider and more new features exist to make human life better This project will use a Bluetooth feature in mobile phone to automatically open the door so that Bluetooth technology syncs your phone directly with the lock. It wills automatic open if authorized person is detected. The door will open for a certain delay and the door automatically closes within this time. IOT based smart door lock using 4x4 MATRIX MEMBRANE TYPE KEYPAD-16 KEYS, ARDUINO UNO, RELAY MODULE.
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Sowmya, G., G. Divya Jyothi, N. Shirisha, K. Navya, and B. Padmaja. "Iot Based Smart Door Lock System." International Journal of Engineering & Technology 7, no. 3.6 (2018): 223. http://dx.doi.org/10.14419/ijet.v7i3.6.14975.
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These days’ people are sky rocketing in technological advancements. This ushered to a lifestyle that’s become a child’s play. We are in pursuit of emerged advanced technologies and software with every single passing day. In the huge efforts of making our lives simpler and better we are contributing a fraction of a part through our project – SMART DOORS. Smart doors are a simple project that assists people in gaining the control to access the doors. Smart doors project prevents the entry of unauthorized personnel. This uses a simple Arduino board with a few lines of code dumped in it, a hexadecimal keypad and some jumper wires. The predominant attribute of this project is the Arduino board that facilitates the usage of this project. With this it is ready to be set up anywhere and everywhere with utmost expedite efforts. This prevents security breaches and helps establish a secure environment in and around.
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Kumari, Kajal, Khushi ., Manisha Kumari, Dr Vikas Singhal, and Dr Ajay Kr.Sahu. "IoT Driven Smart Lock System." International Journal of Innovative Research in Advanced Engineering 11, no. 12 (2024): 862–69. https://doi.org/10.26562/ijirae.2024.v1112.05.
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The evolution of the Internet of Things (IoT) has led to the development of advanced security solutions for homes and businesses. One such solution is the IoT-based smart door lock system, which offers enhanced security features compared to traditional locking systems. This paper explores the design, implementation, and potential benefits of an IoT-based smart door lock system for home security [6]. It discusses the integration of wireless communication, mobile applications, and remote monitoring features, highlighting the security enhancements these systems provide. Additionally, the paper addresses the challenges and future potential of smart door locks in the context of IoT technologies.
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Et. al., Dr T. J. Nagalakshmi ,. "Intelligent Door Knocking Security System Using IOT." Turkish Journal of Computer and Mathematics Education (TURCOMAT) 12, no. 2 (2021): 2540–43. http://dx.doi.org/10.17762/turcomat.v12i2.2205.
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In current day security is very important. Nowadays, in all places many robberies are going on. In this security issue, lock is the major parameter. The trustworthy on the lock should me made improve. The lock may be for main door lock, baggage lock, shutter lock, grill door lock, interconnecting door lock etc. This project is based on arduino board and IOT. And also this can be used for main door and for locker door. This lock works based on the knocking pattern. The owners knocking pattern is stored in the register. When the knocking pattern is detected by the sensor, it passes it to the arduino board microcontroller. Based on the trustworthiness of the pattern the lock works. This framework is easy for installation. It can be implemented for commercial use also.
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Adnan Buyung Nasution, Ahir Yugo Nugroho, Heri Gunawan, and Ria Eka Sari. "Development of an IoT Based Smart Door System with Access Control via WhatsApp." Indonesian Journal of Applied and Industrial Sciences (ESA) 3, no. 1 (2024): 87–94. http://dx.doi.org/10.55927/esa.v3i1.7815.
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Smart doors based on the Internet of Things (IoT) have become the focus of development in improving home security. This research aims to develop a smart door system that can be controlled via WhatsApp messages, exploiting the potential for collaboration between IoT and popular communication platforms. Development methods include hardware and software design, as well as secure integration of communication protocols. This system provides flexible and easy access control via the WhatsApp application, allowing homeowners to manage door access remotely. Experimental results show satisfactory performance in locking and opening the door, as well as responsiveness to commands via WhatsApp. This research details the development process, challenges faced, and potential implications in improving home security by utilizing IoT-based smart door technology.
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Muchammad, Husni, Titi Ciptaningtyas Henning, Rahman Hariad Ridho, Ahmad Sabilla Irzal, and Arifiani Siska. "Integrated smart door system in apartment room based on internet." TELKOMNIKA Telecommunication, Computing, Electronics and Control 17, no. 6 (2019): 2747–54. https://doi.org/10.12928/TELKOMNIKA.v17i6.12322.
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Internet of Things (IoT) is technology which provides communication between machines without human intervention. There are many applications that implement IoT technology e.g. smart power, smart home, transportation management, and smart city. This paper proposes the usage of IoT to develop electronic key that can help to improve the security in apartment. Electronic key uses Android smart phone to access and control the door. Electronic key uses Raspberry pii, motor DC, webcam, microswitch, and Arduino GSM. Raspberry is used to get command from server and instruct the Arduino GSM to open or close the door and webcam is used to take picture from the environment for documentation. This research uses three steps to verify the user who want to open or close the door i.e. using username and password, bluetooth, and QR code scanner.
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Harshal, Mahendra Shirke, Shailesh Thoria Tirth, Prafullbhai Vadhiya Vivek, and Kamble Dhwaniket. "Smart Door Locking System with Intrusion Detection." Recent Trends in Information Technology and its Application 4, no. 2 (2021): 1–8. https://doi.org/10.5281/zenodo.4980587.
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In this digital age, IoT based systems have become a common thing in the society. Most of the electronics nowadays have some or the other form of IoT technology embedded in it. Leveraging various wireless technologies provided by IoT can aid at creating efficient and effective machines. One of the sensors, which is an IR receiver diode with the help of a remote can help in creating various wireless electronic smart devices. ESP8266, the Wi-Fi module provided by IoT as well, enables one to connect to the internet via Wi-Fi. Utilizing these two sensors in this project, we can create a secure IoT based Smart Door Locking system which can detect intruders as well, with the help of PIR sensor. This module provides an extra layer of security, overcoming the various challenges of traditional door locking systems.
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N. S., Dr Ambadkar,. "IOT BASED VEHICLE THEFT DETECTION AND ENGINE LOOKING SYSTEM." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem30668.
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The advancement of smart home technology has revolutionized traditional security measures, offering more efficient and convenient solutions for safeguarding homes and properties. In this project, we propose a smart door lock system that integrates Passive Infrared (PIR) motion detection, a solenoid-based locking mechanism, and an ESP32 Cam module for intruder capturing and remote monitoring. The core components of the system include a PIR sensor, which detects motion in the vicinity of the door, and a solenoid actuator, which controls the locking and unlocking of the door. The ESP32 Cam module serves as the central processing unit, responsible for coordinating the operation of the components and capturing images or videos of intruders. Upon detecting motion, the PIR sensor triggers the ESP32 Cam module to activate the solenoid, thereby locking the door to prevent unauthorized access. Simultaneously, the ESP32 Cam captures images or videos of the intruder using its built-in camera and stores the evidence locally or transmits it to a designated mobile device. Keywords: Biometric access control, Motion detection, Intruder detection, PIR sensor, ESP32 Cam, Smartphone app control, Solenoid actuator
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Ahmadi Julaihi, Azlina. "IoT-based Framework for Coordinating Smart Home." Journal of IT in Asia 9, no. 1 (2021): 65–70. http://dx.doi.org/10.33736/jita.2803.2021.
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IOT RFID Door Open Notification for Homestay is a system that focuses on the use of RFID as a door lock and keeps track the database of Homestay’s guest check-in and check-out time data. By implementing this project, the homestay owner can view and update the check-in and check-out time of their guest whenever required. MySQL will be used in this project for database support and logging the Homestay Web-based System. In this paper, a new framework with Radio Frequency Identification technology (RFID) applied to homestay door lock is exposed. In order to validate the designed framework, an experiment to configure the speed capture by the RFID reader was carried out.
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Tajadod, Farnaz, Yanyan Li, and Ahmad R. Hadaegh. "An IoT-based Smart Home System for Disabled People." WSEAS TRANSACTIONS ON INFORMATION SCIENCE AND APPLICATIONS 18 (December 31, 2021): 162–71. http://dx.doi.org/10.37394/23209.2021.18.20.
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Internet of Things (IoT) envisions a future in which physical objects and the digital world can communicate. Technical communications among appropriate information can create new categories of applications and services. Today, IoT is considered a suitable infrastructure technology for low-range wireless home control systems. In fact, smart homes and buildings provide a wide range of services, applications, equipment, networks, and systems that work together to provide an intelligent environment in areas such as security, control, communications, leisure, and comfort. The purpose of this research is an implementation of an IoT-based Smart home system that provides remote access control for disabled people to open the door lock and turn on or off the lights. Besides, this IoT-based smart home system was extended with two 2-Channel Relay Modules, which assign four keys to direct different components. In addition, this system offers a safe home environment that monitored any hazardous gas leakage, smoke, and fire, or unauthorized person. The motion sensor with a dual purpose has a bright feature that enables two applications: Energy Management System and Security System. Moreover, there are three options for users to open the door for authorized people: Using the Android application on their smartphones, voice command via Google assistant, and the "Unlock door pattern." Authorized people such as friends and family, caregivers, or dog walkers, can unlock the door by physically entering the key pattern via embedded switch buttons (doorbell, B, and C). The camera in this project gets activated as soon as someone rings the doorbell; a snapshot of the current situation behind the door will be sent to the registered user with a notification email. If the entered key pattern does not match the "Unlock door pattern," the alarm system will be triggered. The significance of this research is to provide a solution to help disabled people to live as conveniently and safely as possible in their homes.
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M. KAVITHA, G. SRIDHAR YADAV, N. SUKUMAR, P. KEERTHI, and K. CHARAN SINGH. "IOT BASED DOOR ACCESS CONTROL SYSTEM USING ESP32CAM." Industrial Engineering Journal 54, no. 01 (2025): 20–25. https://doi.org/10.36893/iej.2024.v54i1.005.
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The home security system has become very important for each house. Previously, most doors are open by victimization ancient ways, resembling keys, security cards, Arcanum or pattern. However, incidents such as a key loss has crystal rectifier to a lot of worrying cases such as theft and identity fraud. This has become a major issue. during this paper we've got given a wise Wi-Fi Door Lock mistreatment the ESP32 CAM associate degreed wire app. during this easy operating model, once someone is detected by a PIR motion sensing element an ESP32CAM captures the face then telegram sends the notifications on phone, so the owner offers unlock/lock commands within the telegram. It mechanically responds to it command. Mainly, this project is for security purpose reception and industries. Anyone these days cares about security, whether or not it's information security or the protection of their own home. Digital door locks have mature quite prevailing in recent years as technology has advanced and therefore the use of IOT has increased. A digital lock doesn't need a physical key to operate, instead counting on Radio-Frequency Identification (RFID), fingerprint, Face ID, pins, passwords, and alternative strategies to try to do so.
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Soni, Shubham, Rajni Soni, and Akhilesh A. Waoo*. "RFID-Based Digital Door Locking System." Indian Journal of Microprocessors and Microcontroller 1, no. 2 (2021): 17–21. http://dx.doi.org/10.35940/ijmm.b1707.091221.
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This is an IoT-enabled RFID-based door locking gadget. This door lock system will know how long the door is open and in this door lock system, only those people who register will be able to enter using their card. It uses a servo motor that operates with the help of Arduino. The Arduino board runs with complete programming that is stored inside it. By using this gadget, an owner can track his office and the place where he wants to let the specific people in. It is also very secure. RFID Module, LCD Display Red and Green and Yellow LED Light and Buzzer have also been used in this door lock system. When the door is locked, the yellow LED will be on and when the door lock is open, the green led light will turn on. The Red LED work will alert you that your card is wrong.
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Soni, Shubham, Rajni Soni, and Akhilesh A. Waoo. "RFID-Based Digital Door Locking System." Indian Journal of Microprocessors and Microcontroller 1, no. 2 (2021): 17–21. http://dx.doi.org/10.54105/ijmm.b1707.091221.
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This is an IoT-enabled RFID-based door locking gadget. This door lock system will know how long the door is open and in this door lock system, only those people who register will be able to enter using their card. It uses a servo motor that operates with the help of Arduino. The Arduino board runs with complete programming that is stored inside it. By using this gadget, an owner can track his office and the place where he wants to let the specific people in. It is also very secure. RFID Module, LCD Display Red and Green and Yellow LED Light and Buzzer have also been used in this door lock system. When the door is locked, the yellow LED will be on and when the door lock is open, the green led light will turn on. The Red LED work will alert you that your card is wrong.
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Shubham, Soni, Soni Rajni, and A. Waoo Akhilesh. "RFID-Based Digital Door Locking System." Indian Journal of Microprocessors and Microcontroller (IJMM) 1, no. 2 (2021): 17–21. https://doi.org/10.5281/zenodo.5500803.
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This is an IoT-enabled RFID-based door locking gadget. This door lock system will know how long the door is open and in this door lock system, only those people who register will be able to enter using their card. It uses a servo motor that operates with the help of Arduino. The Arduino board runs with complete programming that is stored inside it. By using this gadget, an owner can track his office and the place where he wants to let the specific people in. It is also very secure. RFID Module, LCD Display Red and Green and Yellow LED Light and Buzzer have also been used in this door lock system. When the door is locked, the yellow LED will be on and when the door lock is open, the green led light will turn on. The Red LED work will alert you that your card is wrong.
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Umamaheswari, Sabari L., Thota Dhana Sekhar, S. Guna Saideep, S. Joshua, Arimani Munirakesh, and T. Jebamani. "Radio Frequency Identification System and IoT based Tech Genix Lock." Revista Gestão Inovação e Tecnologias 11, no. 4 (2021): 5564–76. http://dx.doi.org/10.47059/revistageintec.v11i4.2579.
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In this paper a Door lock system using RFID and IOT Technologies. Using smart phone with Blynk App the Admin or owner can remotely monitor, control (ON & OFF the access) and can get Blynk notifications from the door lock when someone try to access it or if any suspicious activity happens (someone try to break the it). The registered User will receive Gmail’s when he tries to unlock the door. Other features are the admin or owner can remotely unlock and lock the door from any place, and he can disable the switch which is used for getting out from the room, for blocking the unknown persons who went with theft RFID card, it is done by seeing the notifications send to the user when door is unlocked with his card through Admin. For authorized person the lock will be opened and closed automatically after a predetermined delay. If it is an unauthorized person tries it alerts the admin and neighbors through a Blynk notification and buzzer sound. Thus, once implemented, the system will prove An Effective security with minimum cost and increase in comfort for system users and also more efficient compared to existing cost ineffective systems.
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Fachrid Wadly. "Design Smart Door Locks With Internet Of Things Based On Pin Security Features." International Journal Of Computer Sciences and Mathematics Engineering 2, no. 2 (2023): 176–86. http://dx.doi.org/10.61306/ijecom.v2i2.40.
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Smart door lock systems have become an interesting topic of research in recent years due to the need for higher security when accessing rooms or buildings. This research aims to design and implement a smart door lock system that uses an Internet of Things (IoT)-based personal identification number (PIN) that can be controlled through the Telegram messaging platform.
 The system is designed so that users can give commands via Telegram messages to open or lock doors securely. Users can access the door without needing to be physically near it. In addition, the level of security is enhanced by allowing only authorized users to control the door via Telegram messages, as well as by implementing strong encryption and authentication mechanisms.
 In conclusion, this study succeeded in designing and implementing an IoT-based smart door lock system that can be controlled through the Telegram messaging platform using a personal identification number (PIN) as a security method. This system provides an efficient, secure, and practical solution for managing smart door access remotely. It is expected that this research can make a positive contribution to the development of smart door security technology and IoT applications at large
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Kadam, Seema. "IoT based Smart Door Lock System with ESPCAM-32." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 4713–16. http://dx.doi.org/10.22214/ijraset.2021.35317.
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The advancement in technology Smart door locking system have become more advanced. The android based smart door lock system here is basically designed for smart lock with high security operations. Such system is very much required in Bank, home and Business organization. The system also gives functionalities for single user, where single user is authorized to operate the lock. The cost is very low implementation with advanced functionality and easy to use interface makes the system very useful.
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Ezeofor, C. Joseph, N. Stanley Felix, and S. Chigaemecha Enyite. "Development of an IoT-based Door Access control via Web Application." European Journal of Advances in Engineering and Technology 9, no. 3 (2022): 94–101. https://doi.org/10.5281/zenodo.10643901.
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<strong>ABSTRACT</strong> This paper presents the Development of an IoT-based door access control via web application. Over the years, house owners find it difficult to curb the rate of theft and burglary which was initiated by arm robbers in breaking through their homes. The footage of such incidents cannot be found anywhere and hence those culprits cannot be brought to book. It was a major challenge for aged parents to be taken proper care of, in the absence of other people. This work aimed at developing an IoT based door access restriction control onunauthorized users around home/office environment. The IoTsystem is made up of hardware and software. The hardware section comprises of ESP32 CAM board (for video streaming via non-static IP-address protocol), microcontroller (for coordinating and controlling the entire activities), and power supply. The software section comprises of web application platform (for granting access to door through internet) and embedded programming for hardware components. Both were achieved using prototyping and agile methods. During testing, someone was asked to go close to the entrance door, the camera captured the image of the person and sent to the microcontroller for processing. The processed data and message alert were sent to the house owner to grant access. On receiving the alert, the house owner open the web application online and viewed who is on the door before granting access. The testing was successful which can now be deployed to various homes to help boost the security challenges faced everyday.
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Al-Rasyid, Johansyah, and Chitra Putri Pratiwi. "The Keypad Passcode Design Analysis on Smart Lock Door System IoT Based." Jurnal Teknologi Informasi dan Pendidikan 16, no. 2 (2023): 56–67. http://dx.doi.org/10.24036/jtip.v16i2.740.
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Along with the rampant crime lately, people are always wary of the valuable assets they have. This study discusses the security system, especially at the door of a building. The automatic door security system uses a solenoid lock door with a keypad as input and a vibration sensor as a detector if there is vibration. When the passcode input via the keypad is high or true, the microcontroller in the form of Arduino Uno will give an order to the relay and will activate the solenoid, so the door will open automatically and send a message via telegram. The results of this study indicate that the automatic door system using the keypad works well. This is evidenced by Arduino Uno, which gets input from the keypad, goes according to orders with the password code that has been programmed before, thereby activating the solenoid which receives input from the relay that the entered passcode is correct, and the door will open automatically by giving a notification. go to telegram. As well as a vibration sensor that detects if there is vibration at the door going well.
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N., Ramadevi, and Jayamma Manjula. "Intelligent Door Lock System using an advanced IOT." Journal of Sensor Research and Technologies 6, no. 2 (2024): 27–38. https://doi.org/10.5281/zenodo.11382965.
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<em>In today’s era, security is one of the most important things in life that everybody wants. As technology advances, people also want their security to be integrated with technology. With the most recent advancements in emerging technologies, IoT is one of the best alternatives that can solve various security related issues. Here is an IOT-based smart door lock system. This system works on wireless technology. This system will consist of a wireless module that connects via Bluetooth and the Internet and communication through it from anywhere around the globe. The user can lock his house door with a smart lock app. The primary goal of this study is to incorporate a locking system that can be unlocked in three ways where we can also open it through our mobile app which is Bluetooth and internet-based technology either with the help of password and voice assistant. An additional element that improves security is the ability for the user to monitor home activity.</em> <em>As the gadget contains 3 features to unlock the door using smart locking system. 1. Using the application unlock button. 2. Using the keypad to unlock using the password which is attached at the door. 3. Using the voice assistant which will be available in the application. It consists of a special feature that is indicates the status of the door whether the door is in open state or in closed state. This gives a best result for the user with the security. In the modern world, having a secure home is crucial. Even with the use of thick, difficult-to-open metal locks, there are still many reasons to be concerned, such as theft and misplacing the keys. Many new technologies have developed recently to address the shortcomings of conventional door locking mechanisms. With just a single click, these alternatives enable remote door access while simultaneously enhancing home security. One such technology that has greatly eased daily living is the Internet of Things, which offers answers for a wide range of issues. This paper discusses door lock systems in conjunction with OTP-driven technology to offer homeowners a high-security alternative. The OTP is produced in this gadget in order to grant door access. This paper discusses the suggested system's working model.</em>
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Adams, Donny, and Yo Ceng Giap. "Prototype of Automatic Door and Fire Alarm System Based on IoT." bit-Tech 6, no. 3 (2024): 363–70. http://dx.doi.org/10.32877/bt.v6i3.1246.
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This research discusses the development of a prototype of an automatic door and fire alarm system based on the Internet of Things (IoT) utilizing IR sensors to detect people, servo motors to automate door opening, flame detectors for fire detection, MQ-2 sensors for smoke detection, and Telegram as a notification medium. The integration of these technologies aims to enhance security and automation in home or office environments. IR sensors are used to detect people approaching the door, while servo motors provide a solution for door automation. Flame detectors and MQ-2 are employed to detect potential fires by issuing early warnings. This system communicates through the Telegram application to notify users. Testing conducted indicates that IR sensors can detect the presence of people up to a distance of 5cm to activate the micro servo opening the door. The flame detector effectively detects fire up to a distance of 30cm, while the MQ-2 sensor detects smoke up to a distance of 20cm; both generate output signals to activate the micro servo, LED, and buzzer for fire alarms, as well as sending notifications via Telegram to the building owner. With this approach, it is hoped to create an effective, efficient, and reliable system to enhance security and response to emergency situations.
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Dabekar, Sujita B., Sandhyarani A. Lahade, Manasi S. Lunge, and Prof Deepali Yewale. "IOT Based Smart Door Locked System Using Node MCU." International Journal for Research in Applied Science and Engineering Technology 10, no. 7 (2022): 4384–88. http://dx.doi.org/10.22214/ijraset.2022.45909.
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Abstract: People are experiencing more security issues around the world today, and security has become the most important concern everywhere in the world; as a result, security has become increasingly important in recent years. Security refers to the safeguarding of our lives and property. It is critical to ensure the safety of people and their valuables in order to prevent illicit handling. As a result, concentrating on door lock or gate security is critical to minimize more difficulties in the monitored area. The goal of this project was to create an internet-connected door lock that could be simply put on a variety of doors, operated via the internet, and trusted for security. Modern homes are gradually moving away from traditional switches and toward a centralized control system with remote control switches. A smartphone-controlled home automation system gives a modern answer. The most significant advantage of our proposed system is to build smart door lock which can be access remotely via mobile, to increase security of the house and to design and implement a cheap and open source home automation.This project will make human lives more versatile with enhanced security, ease, and the ability to live an upper-class lifestyle, resulting in our lives becoming much simpler, finer, accessible, and stable
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Prof., S. D. Lavange, Girish Goalit Mr, Sachin Kshirsagar Mr., and Prasad Barhate Mr. "IoT Assisted Fingerprint Based Door Security System using Raspberry PI 4." International Journal of Trend in Scientific Research and Development 4, no. 3 (2020): 1168–70. https://doi.org/10.5281/zenodo.3892907.
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The ongoing progress in the field of Internet of Things IoT permits to embed security system as a part of it. In order to deal with security, authentication of legit users and in turn warning of unauthorized person plays an essential task. This report proposes to design an intelligent entrance control system based on biometric train in terms of fingerprint which also incorporates IoT functionality for indication of illegitimate users. The ongoing progress in the field of Internet of Things IoT permits to embed security system as a part of it. In order to deal with security, authentication of legit users and in turn warning of unauthorized person plays an essential task. This report proposes to design an intelligent entrance control system based on biometric train in terms of fingerprint which also incorporates IoT functionality for indication of illegitimate users. Prof. S. D. Lavange | Mr Girish Goalit | Mr. Sachin Kshirsagar | Mr Prasad Barhate "IoT Assisted Fingerprint Based Door Security System using Raspberry PI 4" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30271.pdf Paper Url :https://www.ijtsrd.com/engineering/electrical-engineering/30271/iot-assisted-fingerprint-based-door-security-system-using-raspberry-pi-4/prof-s-d-lavange
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Annam, Meghana, Tejaswini Vejju, Nayan Venkata Udaya Sankar Lanke, Sai manikanta Reddy, and Bajivali Shaik. "IoT Based Automatic Door Unlocking System Using ESP32 Cam." International Journal for Research Trends and Innovation 9, no. 3 (2024): 40–47. https://doi.org/10.5281/zenodo.10851872.
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The lightning-fast pace of technological innovation in today's society has raised important concerns with respect to the protection of personal information and privacy. Because of the rapid advancement of technology and the progression of industrialization, it is now absolutely necessary for every single person to protect their privacy and security. When it comes to recognizing authorized persons and reducing instances of fraudulent activities, robberies, and other types of social crimes, authentication is an extremely important consideration. Traditional methods of locking doors often include flaws that may be exploited by someone who are not authorized to access the building. In spite of the fact that there are alternatives available, such as video streaming and smart doorbells, these solutions have several drawbacks, including high prices, complexity, and security flaws. A Smart Door Unlock System that makes use of facial recognition technology is what we suggest as a solution to handle these issues and to increase the level of security. One of the components of our proposed system is an esp32-cam camera sensor, which allows for the capture and storage of photographs of persons. The device uses artificial intelligence to identify a person's face while they are standing in front of the door. After the picture has been acquired, it is compared with permitted faces that are recorded on the SD card that is included inside the esp32-cam. The door is unlocked by a solenoid lock if the person who is attempting to enter is permitted. In the event that the individual is not permitted to enter, the door will continue to be locked. Not only does this cutting-edge device not only take the role of conventional mechanical locks, but it also offers an increased level of safety. In addition to this, it provides a convenient solution for persons who may misplace their keys and makes it simpler for people with disabilities to get entry.
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Radzi, Syafeeza Ahmad, M. K. Mohd Fitri Alif, Y. Nursyifaa Athirah, A. S. Jaafar, A. H. Norihan, and M. S. Saleha. "IoT based facial recognition door access control home security system using raspberry pi." International Journal of Power Electronics and Drive Systems (IJPEDS) 11, no. 1 (2020): 417. http://dx.doi.org/10.11591/ijpeds.v11.i1.pp417-424.
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The home security system has become vital for every house. Previously, most doors can be open by using traditional ways, such as keys, security cards, password or pattern. However, incidents such as a key loss has led to much worrying cases such as robbery and identity fraud. This has become a significant issue. To overcome this problem, face recognition using deep learning technique was introduced and Internet of Thing (IoT) also been used to perform efficient door access control system. Raspberry Pi is a programmable small computer board and used as the main controller for face recognition, youth system and locking system. The camera is used to capture images of the person in front of the door. IoT system enables the user to control the door access.
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A., R. Syafeeza, K. Mohd Fitri Alif M., Nursyifaa Athirah Y., S. Jaafar A., H. Norihan A., and S. Saleha M. "IoT based facial recognition door access control home security system using raspberry pi." International Journal of Power Electronics and Drive System (IJPEDS) 11, no. 1 (2020): 417–24. https://doi.org/10.11591/ijpeds.v11.i1.pp417-424.
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The home security system has become vital for every house. Previously, most doors can be open by using traditional ways, such as keys, security cards, password or pattern. However, incidents such as a key loss has led to much worrying cases such as robbery and identity fraud. This has become a significant issue. To overcome this problem, face recognition using deep learning technique was introduced and Internet of Thing (IoT) also been used to perform efficient door access control system. Raspberry Pi is a programmable small computer board and used as the main controller for face recognition, youth system and locking system. The camera is used to capture images of the person in front of the door. IoT system enables the user to control the door access.
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Pratama, Bagas Yudhi, and Sunardi Sunardi. "Monitoring and control of home garage access using IoT-based smartphones." Signal and Image Processing Letters 2, no. 2 (2023): 36–42. https://doi.org/10.31763/simple.v2i2.64.
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Technological developments are increasing to help facilitate human work, including developing control of equipment using smartphones. The system built in this study utilizes the Internet of Things (IoT) and the blynk application as a controller for the garage door opening and closing system using a smartphone to make it easier for owners to open and close the garage door without having to get out of the vehicle and do it manually. The system is built using the NodeMCU ESP8266 microcontroller which is connected to the blynk application to control the opening and closing of the garage door. Ultrasonic sensors are used to monitor the condition of the vehicles in the garage, while servo motors are used to open and close the garage door. This home garage access prototype using an IoT-based smartphone has succeeded in being able to open and close the garage door using the blynk application with a duration of 10 seconds when opening or closing the garage without having to do it manually. In this system, the user can monitor the condition of the garage for the presence or absence of vehicles by using the application.
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SNEHAL, NARAYANRAO BELSARE, and R.N.PATIL PROF. "A REVIEW ON SMART SECURITY SOLUTIONS BASED ON IOT." JournalNX - A Multidisciplinary Peer Reviewed Journal 2, no. 10 (2016): 19–22. https://doi.org/10.5281/zenodo.1468144.
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This paper deals with the Review of design and implementation of Smart surveillance monitoring system using Raspberry pi and fingerprint sensor. It increases the usage of mobile technology to provide essential security to our homes and for other control applications. The proposed The project aims at designing an intelligent access control system based on fingerprint technology. The proposed system makes use of finger print module for authentication process and an electromechanical relay switch to control magnetic door locking system for door accessing. The system also supports with camera based image capturing technique when any wrong finger print was detected and alerts through email from wireless Wi-Fi connectivity. https://journalnx.com/journal-article/20150125
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Sakti, Tri, and Imam Suharjo. "PROTOTYPE SECURITY SYSTEM OPENS DOORS WITH TELEGRAM BOT INTERNET-BASED OF THINGS." Journal ICTEE 2, no. 2 (2021): 20. http://dx.doi.org/10.33365/jictee.v2i2.1001.
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AbstrakTechnological advances today are very developed, so it can help the community in monitoring home security. One example is offices or houses owned by themselves. In this research I am interested in doing research and development in the field of IoT where this research aims to build a system that can help homeowners to provide security at the door of the house during remote travel. With fingerprint system equipped with door monitoring using botTelegram this system itself is implemented with the concept of internet of things (IoT). In this study using the concept of internet of things implemented in the automatic door system using microcontroller that serves as a prototype regulator so that the prototype can run properly. In this system has an interface in the form of Telegram-based applications by utilizing BotTelegram that serves as a communication tool between users and the system. In this system, users can monitor the security of the door when traveling or at home. Based on the results of the study, it can be concluded that the system can run with a percentage of 85% where the system can open automatic doors with fingerprint configuration data that has been registered in the fingerprint module. Keywords: Internet of things, fingerprints, telegram bots, nodemcu, Door Security
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Bekele, Simon Kasahun, Million Gonfa Gutema, Ebisa Damene Tujuba, Rituraj Jain, and Yohannes Bekuma. "IoT-Deep Learning Based Face Mask Detection System for Entrance and Exit Door." International Journal of Electrical and Electronics Research 10, no. 3 (2022): 751–59. http://dx.doi.org/10.37391/ijeer.100356.
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During the pandemic, it has been seen that the global population follows the guidelines issued by the health organization regarding wearing face masks, but some people do not take care of this and do not use masks. The objective of the proposed system, Wollega University Face Mask Detection System (WUFMDS), is to restrict people who are not wearing a mask on the door side by identifying the face mask from the face or open the door if the incoming person is wearing the mask. This system is based on the Internet of Things (IoT) and a Deep Learning algorithm called Convolutional Neural Network (CNN). For this purpose, images with and without masks were collected as samples from the university. The CNN algorithm is used to detect the mask and classify it as with or without masks. The IoT module controls the door operation based on the classification response sent to the IoT module by the CNN algorithm. The system was tested lively with the dummy door system in order to ensure the functionality of the face mask detection system and developed software applications for the system model are working as defined objectives. Our model had 99.36% accuracy with the training dataset and 99.29% accuracy with the validation set. Hence, the proposed system could be used for the automatic identification and classification of masks on the face and to operate the door to allow the person who is wearing the mask to pass through while keeping it closed when no mask is found on the face.
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Sembiring, Arnes. "Sistem Kendali Dan Pengawasan Wilayah Pintu Berbasis IoT." JURNAL TEKNOLOGI INFORMASI 2, no. 2 (2019): 101. http://dx.doi.org/10.36294/jurti.v2i2.423.
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Abstract - In this study, an IoT-based door security system was proposed which facilitated homeowners to open and close doors and unlock doors through the internet. The system is also equipped with a real time video streaming feature so that the owner can save the environment around the door and ensure the person at the door before opening it. The Raspberry Pi is used as the main controller of the system that provides web pages for users and signatories to access Arduino Uno boards. Arduino Uno controls the servo to control the door. The camera used in this study is a Raspberry Camera with 5 MP resolution. From the results of the tests carried out, the results of the system that have been made can work well. Expected full service and response to changes in users on web pages is also quite fast. Streaming video runs smoothly at 30 fps with a resolution of 640x480.Keywords - Raspberry Pi, Streaming Video, Internet of Things, Door Control
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Mas Erwan, Athirah Nabihah, Mohamad Norul Hafiz Muzaffar Alfian, and Mohamad Syafiq Mohamad Adenan. "Smart Door Lock." International Journal of Recent Technology and Applied Science 3, no. 1 (2021): 1–15. http://dx.doi.org/10.36079/lamintang.ijortas-0301.194.
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Internet of Things (IoT) has become a phenomenon in many researchers. A smart digital automated system based on IoT plays major role which helps in reducing human work by applying interaction technology in daily life. This research introduces the IoT Smart Door Lock where smartphone uses Wireless Fidelity (Wi-Fi) to activate the door lock. By using Android software, the smartphone will automatically activate the door lock within a specific range. Data transmission will be done using Wi-Fi technology. So, the user does not have to worry whether the door has been locked or not because user can control it by using their smartphone within a specific range. The user also does not have to worry about losing the door key anymore because there is no device required except user’s smartphone. This project consists of hardware and software development. The main purpose on the design is to prevent the situation where the user is unable to unlock the door when the key is missing also to give a solution for users to monitor door status when they forget the door has been locked or not. This system aims to eliminate the use of keys to access the door, where the daily struggle faced to bring along a bunch of keys anywhere. Besides that, the door locking system must function efficiently. The prototype of this system is successfully done, the procedure and the software and hardware requirement has been compiled in this report.
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Budiyanto, Setiyo, Freddy Artadima Silaban, Lukman Medriavin Silalahi, et al. "The automatic and manual railroad door systems based on IoT." Indonesian Journal of Electrical Engineering and Computer Science 21, no. 3 (2021): 1847–55. https://doi.org/10.11591/ijeecs.v21.i3.pp1847-1855.
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The automatic and manual IoT-based rail door (internet of things) is a door bar designed to be able to close and open automatically and manually. The automatic system works based on sensors that detect the presence of trains and system manual works based on the open and Close button on the smartphone. The components to be used are ATmega328 microcontrollers, Infrared sensors, power supply, CCTV and android applications. Infrared sensor will detect the presence of the train and the gate will close automatically. Then the doorway will open when the train has crossed the automatic door bar. By the manual way, rail door control can be open and closed with android smartphones in real-time with graphical display provided by CCTV. The whole process is connected to a WEB server where the program is embedded. Either it is automatic or manual control. From the tests that have been done, that the response data from the server is very fast, which is less than 1 second civil. For Infrared Sensor 1 There is an average delay of 0,687/sec and Infrared Sensor 2 is 3,449/sec. In realtime CCTV There is an average delay of 0,857/sec.
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Patel, Anjali, and Ashok Verma. "IOT based Facial Recognition Door Access Control Home Security System." International Journal of Computer Applications 172, no. 7 (2017): 11–17. http://dx.doi.org/10.5120/ijca2017915177.
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Nurmuhlisa, Achmad Fauzi, and Hermansyah Sembiring. "Internet-Based Smart Door Design of Things (IOT) with Visitor Access Controller Indoor." Journal of Artificial Intelligence and Engineering Applications (JAIEA) 4, no. 1 (2024): 109–16. http://dx.doi.org/10.59934/jaiea.v4i1.566.
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In the era of digital technology, the Internet of Things (IoT) has become an innovative solution in various sectors, including in access management and room security. This research aims to design and implement an IoT-based smart door system that is able to control visitor access using NodeMCU ESP8266 and send notifications through the Telegram application. The system uses PIR sensors to detect the presence of visitors and servo motors to operate the door automatically. When the number of visitors reaches the maximum set capacity, the system will automatically close the door and send a warning notification to the Telegram bot and activate the buzzer as a warning sign. Thus, this system not only improves the safety and comfort of visitors, but also helps prevent the spread of diseases by limiting the number of visitors according to a safe capacity. The test results show that this smart door system can function well in controlling visitor access and providing real-time notifications when the room capacity is exceeded. The implementation of this system is expected to be applied in various public places to improve security management and visitor capacity effectively.
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Preethi, Pathala. "IoT based Breaking Control System for EV Vehicle and Monitoring System." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 05 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem35338.
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It is imperative that we transition to the use of electric vehicles because these vehicles are the next generation of transportation. Overcharging or over discharging can damage the batteries in electric vehicles, therefore it's important for them to correctly assess the charge status to keep them working for longer and protect the components they power. In this article, we offer an inexpensive, IoT-based system for electric vehicle battery management and monitoring. A user-friendly application that leverages the power of the Internet of Things is at the heart of its design. Important information about the battery's status, such as its capacity and the current entering and leaving it, is provided by the system. You might be able to observe these changes unfold in real time. This system is built using the Blynk Internet of Things platform, the Blynk mobile app, and an ESP32 microcontroller. Keywords— EV Vehicle, Breaking Control System, Monitoring System.
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Telagam, Nagarjuna, U. Somanaidu, M. Arun Kumar, M. Sabarimuthu, and Nehru Kandasamy. "IoT Based Secure Lock/Unlock System Using Google Assistant Based English And French Languages." International Journal of Online and Biomedical Engineering (iJOE) 17, no. 10 (2021): 34. http://dx.doi.org/10.3991/ijoe.v17i10.24279.
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The user can utilise the voice acknowledgement in making it more straightforward for individuals with inabilities to get to entryway frameworks and give better security to lives and properties. In this paper, the advancement of the technology is used for opening any locking system. We are implementing this type of module where it can be of low cost, and even physically disabled persons can open the door without any assistance. The Blynk app and a Wi-Fi module can access the system by giving the input and output as a voice recognition speech command. Hence, in this paper, any person can just use google assistant from their smartphone to lock or unlock a secure system with just two controls, i.e., "Ok Google Lock Door one", "Ok Google Unlock Door one". This Project works seamlessly for three locks in one system that can be operated separately using only one main microcontroller, i.e., Node-MCU ESP8266, and relays drivers so that our Project can be quickly developed and deployed. The applications of this Project is endless as technology constantly evolves. Suppose the user is connected with the internet and operated using Google Assistant. In that case, the lock is operated only from one account, making it secure and available to all who use smartphones and have a google account. Even for people who are blind, this can be an excellent way to lock and unlock their resources just with their voice. Anyone can utilise this Project from their convenience, making it the easiest way for anyone to lock/unlock just by two words, i.e., "Ok Google Lock Door."
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Budiyanto, Setiyo, Freddy Artadima Silaban, Lukman Medriavin Silalahi, et al. "The automatic and manual railroad door systems based on IoT." Indonesian Journal of Electrical Engineering and Computer Science 21, no. 3 (2021): 1847. http://dx.doi.org/10.11591/ijeecs.v21.i3.pp1847-1855.
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<span lang="EN">The automatic and manual IoT-based rail door (internet of things) is a door bar designed to be able to close and open automatically and manually. The automatic system works based on sensors that detect the presence of trains and system manual works based on the open and Close button on the smartphone. The components to be used are ATmega328 microcontrollers, infrared sensors, power supply, CCTV and android applications. Infrared sensor will detect the presence of the train and the gate will close automatically. Then the doorway will open when the train has crossed the automatic door bar. By the manual way, rail door control can be open and closed with Android smartphones in real-time with graphical display provided by CCTV. The whole process is connected to a WEB server where the program is embedded. Either it is automatic or manual control. From the tests that have been done, that the response data from the server is very fast, which is less than 1 second civil. For infrared sensor 1 there is an average delay of 0,687/sec and Infrared Sensor 2 is 3,449/sec. In realtime CCTV There is an average delay of 0,857/sec</span><span>.</span>
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Permana, Ketut Ananta Kevin, I. Nyoman Piarsa, and Anak Agung Ketut Agung Cahyawan Wiranatha. "IoT-Based Smart Door Lock System with Fingerprint and Keypad Access." Journal of Information Systems and Informatics 6, no. 3 (2024): 2086–98. http://dx.doi.org/10.51519/journalisi.v6i3.844.
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Doors are important components in a home, serving as entry points, room dividers, and security barriers. Door locks have evolved from manual mechanisms to automatic systems using technologies such as passwords, face sensors, and fingerprint sensors. To enhance practicality and efficiency, an Internet of Things (IoT)-based Smart Door Lock system using keypads and fingerprint sensors was developed in this research. The system was built using the Waterfall model Software Development Life Cycle (SDLC) and utilizes Firebase for real-time data communication and control through an Android application. Black box testing was conducted to verify the system’s functionality, achieving a 100% success rate across 20 trials. The system offers enhanced security and remote access control, with potential applications in both residential and commercial settings.
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Murti, Tengku Nopriyanti, Ikhwan Ruslianto, and Uray Ristian. "Implementasi Sistem Kendali dan Monitoring Keamanan Pintu Berbasis IoT Menggunakan Perangkat Mobile." JURIKOM (Jurnal Riset Komputer) 9, no. 6 (2022): 1760. http://dx.doi.org/10.30865/jurikom.v9i6.5032.
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One of the important things in the management of the lecture building is the need for a security system to lock the door. This is necessary to avoid the possibility of theft and negligence in opening or closing the door at certain hours. The purpose of this study is to implement an Internet of Things-based door security control and monitoring system using a mobile device. This system is a substitute for door security that uses conventional locks. The system can be accessed by setting the operating time from 07.00-17.00. If there is a change in operational time, the admin can reset the operational time. Before the operating time ends, the speaker gives an automatic door lock warning, and the door is automatically locked and cannot be accessed. In addition, the system is equipped with a door alarm using a buzzer and a notification is sent via the application when the door is forcibly opened. The door control process starts by reading the operating time and the status of the door lock solenoid. If the initial status of the door lock solenoid is locked, the RFID tag sends data to the RFID reader, then the door lock solenoid opens. The test results show that the response time for opening and locking doors using RFID is 26,22 seconds and 22,25 seconds. The response time to open and lock the door using the application is 5,03 seconds and 5,34 seconds, respectively. The average response time when the door is forcibly opened is 14,83 seconds
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Matuska, Slavomir, Juraj Machaj, Robert Hudec, and Patrik Kamencay. "An Improved IoT-Based System for Detecting the Number of People and Their Distribution in a Classroom." Sensors 22, no. 20 (2022): 7912. http://dx.doi.org/10.3390/s22207912.
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This paper presents an improved IoT-based system designed to help teachers handle lessons in the classroom in line with COVID-19 restrictions. The system counts the number of people in the classroom as well as their distribution within the classroom. The proposed IoT system consists of three parts: a Gate node, IoT nodes, and server. The Gate node, installed at the door, can provide information about the number of persons entering or leaving the room using door crossing detection. The Arduino-based module NodeMCU was used as an IoT node and sets of ultrasonic distance sensors were used to obtain information about seat occupancy. The system server runs locally on a Raspberry Pi and the teacher can connect to it using a web application from the computer in the classroom or a smartphone. The teacher is able to set up and change the settings of the system through its GUI. A simple algorithm was designed to check the distance between occupied seats and evaluate the accordance with imposed restrictions. This system can provide high privacy, unlike camera-based systems.
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Sugihartono, Tri, Burham Isnanto, Rendy Rian Chrisna Putra, Rahmat Sulaiman, and Harrizki Arie Pradana. "Automation Smartlock for Implementing Smarthome Security Using Location Based Service." Jurnal Telematika 14, no. 1 (2020): 27–30. http://dx.doi.org/10.61769/telematika.v14i1.259.
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Currently, the development of technology is very rapid. Technology is used to assist humans in carrying out dailyactivities. One of the advances in technology is the developmentof tools that can control over long distances or remotely (the Internet of Things). IoT applications are for remote monitoringand smart home appliance controlling. We propose a mobile-based door security model. At present, there are many door security models, but in this study, we propose security at doors using Location Based Services (LBS). The door will automatically open and close. The user's location is based on the cell phone user’s location. If the user's location is outside the door area of the house, the door will be closed automatically. Instead, the door will open if the user has entered the house. With the security door model using LBS, the house will be secured. The door will automatically be locked when the owner is outside the house within a radius of 1 meter. With the application of Internet of Things (IoT) technology, residents will feel safe without worrying when traveling. The IoT technology used in this study is ESP 8266, as a Wifi module and as an opening tool that can move smart lock, to open and lock the door. The results of this study are the accuracy of the performance of the smart door lock system with location-based service by 70%.Saat ini perkembangan teknologi sangat pesat. Teknologi digunakan untuk membantu manusia dalam menjalankan aktivitas sehari-hari. Salah satu kemajuan dalam teknologi adalah pengembangan alat yang dapat mengontrol dalam jarak jauh (Internet of Things). Banyak aplikasi IoT adalah untuk memantau jarak jauh dan mengendalikan peralatan rumah tangga (smart home appliance). Kami mengusulkan model keamanan pintu berbasis mobile. Saat ini, ada banyak model keamanan pintu, tetapi dalam penelitian ini, kami mengusulkan keamanan di pintu menggunakan Layanan Berbasis Lokasi (LBS). Pintu akan secara otomatis membuka dan menutup. Lokasi pengguna berdasarkan yang diperoleh dari pengguna ponsel. Jika lokasi pengguna berada di luar area pintu rumah, pintu akan ditutup secara otomatis. Sebaliknya, pintu akan terbuka jika pengguna sudah masuk rumah. Dengan model keamanan pintu menggunakan LBS, rumah akan diamankan. Pintu akan otomatis terkunci ketika pemiliknya berada di luar rumah dalam radius 1 meter. Dengan penerapan teknologi Internet of Things (IoT) ini, penghuni rumah akan merasa aman tanpa khawatir jika bepergian. Teknologi IoT yang digunakan dalam penelitian ini adalah ESP 8266, sebagai modul wifi dan sebagai alat pembuka yang bisa menggerakkan smartlock, untuk membuka dan mengunci pintu. Hasil dari penelitian ini adalah akurasi kinerja aplikasi smartlock dengan location-based service sebesar 70%.
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Rajendra Sanap, Miss Jayshree. "Secure Your Entry Ways: Using Cloud Based Door Access System." International Scientific Journal of Engineering and Management 04, no. 05 (2025): 1–7. https://doi.org/10.55041/isjem03372.
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Abstract - In this paper, we emphasize the protection of entry points through a cloud-based door access system based on our earlier conceptual design to provide a fully developed prototype. Meeting today's security demands, the system takes advantage of IoT technology for effective visitor tracking and access control in residential and commercial buildings. The model deployed employs a Raspberry Pi as the processing unit, coupled with a Pi camera that takes real-time photographs of visitors when the doorbell is pressed. The photographs are sent in real-time to a Dropbox cloud server, where they are stored securely encrypted, providing tamper-proof digital records for future authentication [3]. The system increases post-conflict security by being able to keep log records of current activities, which can be presented electronically in times of conflict or incidents. Managed through a mobile app, authorized personnel are able to control visitor access remotely, receiving real-time alerts and images to make the decision whether to grant entry. This ensures safe and verified access control. Cloud integration offers scalability and remote management across numerous properties through a single platform [2]. The deployed prototype, which was put to the test in a simulated setting, boasts high reliability, with 97% accuracy in fingerprint authentication and a response time of 2 seconds. This "Secure Your Entry Ways: Using Cloud-Based Door Access System" integrates IoT technology, mobile app control, and safe cloud storage to present a dependable, effective solution for contemporary security requirements, real-time monitoring, safe record-keeping, and distant management, improved user convenience and security. Key Words: IOT, Door Lock, Cloud Computing Security, Biometric Authentication, Fingerprint Sensor, Raspberry Pi.
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Hafizh, Abdul, Nur Kholis, M. Syariffuddien Zuhrie, and Arif Widodo. "PROTOTYPE OF EARLY WARNING SYSTEM FOR HOME DOOR SECURITY BASED ON IOT USING PIEZOELECTRIC SENSOR." INAJEEE Indonesian Journal of Electrical and Eletronics Engineering 3, no. 2 (2020): 56. http://dx.doi.org/10.26740/inajeee.v3n2.p56-62.
Full textAbstract:
Early warning system of door security based on IoT with piezoelectric sensor, this was an early warning system wich could detect a threat on the door and send a notification to the owner smart phone to do preverentive action. This system was made with affordable cost, wich anyone can own this not only the rich one. This system will classified wich a safe knkck and a threat. This system used piezoelectric sensor to monitor a threat and buzzer to make some noise around. This system was equiped a relay to control the solenoid lock as your primary lock. This system used blynk cloud as the based wich could be operated on smart phone. The test used one room and one door. Take a survey to decide wich a normal knock and a stroke. And as got the result, then set the set point based on the output voltage of the sensor, as a threat to the door. Wich that the microcontroller could send a notification to the blynk apps on smart phone. After tahat we did some test to the respond time of, notification, buzzer, and the relay. Wich the respond time of notification was 2,15 second, the buzzer was 1,1 second, and the relay was 1,15 second. This system has 80% accuracy. This system might be well monitored the door with blynk apps.
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Shirisha, P., G. Satish Kumarr, K. Shivanjan, K. Shiva Rama Krishna, and K. Vineela. "IoT based wifi fingerprint door lock system with raspberry pi & webcam." MATEC Web of Conferences 392 (2024): 01066. http://dx.doi.org/10.1051/matecconf/202439201066.
Full textAbstract:
The traditional doorlock system were facing lack of security with vital issues from burglary to overcome on this the latest technologies are being adopted to clear the gap of issues. In this system the IoT-based WiFi fingerprint door lock with live streaming using a Raspberry Pi and a webcam is a smart door lock system that provides enhanced security features for homes.The system utilizes the IoT platform for to integrate & connect the lock to a WiFi network and enable remote access through a mobile device.The system also features a Raspberry Pi device that is connected to a webcam, allowing live streaming of the entrance area. Users can view the live feed of the entrance area on their mobile application or whatapp , which providing an additional layer of security. The Raspberry Pi device can also be programmed to send notifications when the door is unlocked or opened, alerting the user of any unauthorized access.Using Raspberry Pi as the main platform for the project, allowing for easy customization and development. Integrating a webcam into the system to enable live streaming. The live steaming can be viewed from web Application or from whatsapp .