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Edmondson, Michael C., L. Tang, and A. Kern. "Software Development Modules for Microcontroller-Based System." Advances in Science and Technology 56 (September 2008): 45–51. http://dx.doi.org/10.4028/www.scientific.net/ast.56.45.
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Microcontrollers are small devices commonly used for control purposes over a wide range of applications. As the control strategies and the selection of hardware differ from one application to another, it is a common practice for engineers to develop the application programs based-on the selected hardware and the control methodologies. Such development process requires time for programming and testing, especially for large projects which need to interface and integrate with a number of different hardware and software. This paper presents an approach using the concept of soft development modules to shorten the application program development time for control systems using microcontrollers. A set of soft modules has been developed for a widely used microcontroller. The testing conducted on the serial communication and fuzzy logic control modules successfully produced application programs within a much shorter time, and reduced human programming errors. The application of soft development modules will allow system developers to focus on the system design level without the need to spend large amount of time on generic programming details. Such an approach provides a useful programming development platform for future applications using microcontrollers.
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Cui, Jing Jun. "Motor Drive Control Based on Microcontroller and PID." Applied Mechanics and Materials 484-485 (January 2014): 511–14. http://dx.doi.org/10.4028/www.scientific.net/amm.484-485.511.
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This paper describes the incremental PID control algorithm and the basic principles of motor soft start, and introduced STM32F103RB8 basic performance microcontroller, combined with incremental PID control advantages, and gives MCU in motor soft start process control application. Practice shows that the incremental PID applications, simplifying the control ideas to improve the performance of the current loop control, limiting the starting current, smooth start-up speed, and achieved good results motor start.
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Ramu, Kurinjimalar, M. Ramachandran, and Manjula Selvam. "Microcontroller Based Sensor Interface and Its Investigation." Electrical and Automation Engineering 1, no. 2 (2022): 92–97. http://dx.doi.org/10.46632/eae/1/2/4.
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A microcontroller (sometimes called an MCU or microcontroller unit) is an integrated circuit (IS) commonly used for a specific application designed to do certain tasks. Devices, power tools, and automobile engine control products must be controlled automatically under certain conditions, such as computers and systems. And best examples of devices, but microcontrollers are beyond these applications. Essentially, the microcontroller collects input, processes this information, and publishes a specific action based on the information collected. Microcontrollers typically operate at low speeds of 1 MHz to 200 MHz and must be designed to use less power as they are embedded in other devices with higher power consumption in other areas. The microcontroller is a particular feature inside the embedded system a small included designed to manage Round. A common microcontroller chip processor, Memory and input output (I / O) gadgets Contains. Microcontrollers embedded Controller or microcontroller unit (MCU),Vehicles, robots, every now and then the workplace Machinery, Medical Devices, Mobile Radio Transceivers, vending machines and family Found in consumables. Unnecessarily small a small aspect designed to govern functions of the portable of private computer systems. For a complex pre-very last running system (OS).
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Beeran Kutty, Suhaili, Muhammad Azim Nazri, Che Nur Shafareen Afera Che Anuar, Murizah Kassim, and Norakmar Arbain Sulaiman. "Usability analysis of marker-based augmented reality application for the microcontroller study." International Journal of Advances in Applied Sciences 13, no. 3 (2024): 707. http://dx.doi.org/10.11591/ijaas.v13.i3.pp707-716.
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Virtual labs using augmented reality (AR) applications have brought transformation in teaching laboratory courses. However, in the field of engineering laboratories, the use of AR applications is still new. In this work, a marker-based AR application is used as a tool that enables a hands-on learning experience of microcontroller study. The software used to develop this application are Unity3D and Vuforia. C# programming language has also been used to provide the command for the interaction between the interface and the application. After the development of the application was complete, it was tested by a group of electrical engineering students. Then, the students are required to fill out a survey on the system usability scale (SUS) test. The SUS score of this application is 62.5. It was found that the perceived usability of the evaluated AR application as a teaching tool for laboratory courses is acceptable. This response shows the marker-based AR application has the potential to be used as a teaching aid in engineering laboratory courses.
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Suhaili, Beeran Kutty, Azim Nazri Muhammad, Nur Shafareen Afera Che Anuar Che, Kassim Murizah, and Arbain Sulaiman Norakmar. "Usability analysis of marker-based augmented reality application for the microcontroller study." International Journal of Advances in Applied Sciences (IJAAS) 13, no. 3 (2024): 707–16. https://doi.org/10.11591/ijaas.v13.i3.pp707-716.
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Virtual labs using augmented reality (AR) applications have brought transformation in teaching laboratory courses. However, in the field of engineering laboratories, the use of AR applications is still new. In this work, a marker-based AR application is used as a tool that enables a hands-on learning experience of microcontroller study. The software used to develop this application are Unity3D and Vuforia. C# programming language has also been used to provide the command for the interaction between the interface and the application. After the development of the application was complete, it was tested by a group of electrical engineering students. Then, the students are required to fill out a survey on the system usability scale (SUS) test. The SUS score of this application is 62.5. It was found that the perceived usability of the evaluated AR application as a teaching tool for laboratory courses is acceptable. This response shows the marker-based AR application has the potential to be used as a teaching aid in engineering laboratory courses.
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Rahman, Md Towfiqur, Md Monjurul Alam, Md Mosharraf Hossain, and Muhammad Rashed Al Mamun. "Microcontroller based granular urea application attachment for rice transplanter." Journal of the Bangladesh Agricultural University 17, no. 3 (2019): 380–87. http://dx.doi.org/10.3329/jbau.v17i3.43219.
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Transplanting and fertilizer application for rice production in Bangladesh are tedious, time consuming and laborious task, and mostly done manually. Mechanical transplanting of rice becoming popular in the country in recent years and few machines have been developed for granular urea deep placement, however, having some limitations. Placing granular urea precisely along with rice transplanting, an attempt was under taken to design and fabricate an electronic control granular urea applicator to be attach with a 4-row walk behind type rice transplanter. Fabrication of the electronic granular urea applicator was done in the workshop of the Department of Farm Power and Machinery, Bangladesh Agricultural University, Mymensingh. Physical structure of the attachment was assembled with available parts of BARI granular urea applicator. A DC gear motor was coupled with metering disk shaft to rotate and pick granular urea from hopper. Moreover, its speed was synchronized with the picker speed of the rice transplanter by a microcontroller Arduino Mega 2560. A computer program was developed and compiled successfully into Arduino IDE, where an equation was derived and incorporated into loop control structure. The program can also be used for any kind of applications where variable rate is required. The machine was found successful in test run and laboratory-based experiments. Average spacing of granular urea placement was found 34.71 cm with 1.38% missing hill, Its power requirement was found about 20 W. This innovation provided options for performing granular urea application and rice transplanting, two most laborious tasks simultaneously which might minimize the cost of production as well as human drudgery with an error free manner.
 J Bangladesh Agril Univ 17(3): 380–387, 2019
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Jovanović, Borisav, Milunka Damnjanović, Predrag Petković, and Vančo Litovski. "Standard Cell-Based Low Power Embedded Controller Design." Journal of Circuits, Systems and Computers 24, no. 06 (2015): 1550077. http://dx.doi.org/10.1142/s0218126615500772.
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Microcontrollers represent unavoidable parts of state-of-the-art system-on-chips (SoCs) and they are widely embedded as IP blocks. This paper describes design steps and the application of available low-power techniques, to the design of a microcontroller IP core with 8051 instruction set, based on a prescribed standard cell libraries. Choice of the technology node and the cell library supplier is a design challenge that was considered and conclusions reached. The necessary steps of microcontroller design flow are presented which enable power reduction at several abstraction levels. An optimal microcontroller was designed to be embedded in various SoCs. The goal was to get energy-efficient microcontroller operation in applications which don't require intensive data processing. The impact of technology scaling on microcontroller energy efficiency is considered by comparison of the results obtained from implementations in three standard cell technologies. Moreover, power dissipation models are created which allow for microcontroller's power estimation in low throughput sensors networks applications.
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Jadhav, Shreya Sharad. "Microcontroller Based Digital Pressure Measurement System Using Gefran Transducer." International Journal for Research in Applied Science and Engineering Technology 13, no. 4 (2025): 6131–35. https://doi.org/10.22214/ijraset.2025.69663.
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This paper presents a study on the application of the ME1-6-M-B35D-1-4-D-XMB31 2130X00 transducer for accurate pressure measurement. The transducer’s specifications and characteristics are discussed, highlighting its suitability for precise pressure monitoring. Experimental results demonstrate the transducer’s high accuracy and reliability in measuring pressure across various ranges. The findings of this study confirm the effectiveness of the ME1-6-M-B35D-1-4-D-XMB31 2130X00 transducer in pressure measurement applications, making it a valuable tool in various industrial and research contexts.
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Aggry Saputra and Rio Ari Prasetio. "Sistem Otomatis Putaran Kipas Angin Berdasarkan Suhu Ruang Menggunakan Mikrokontroler ATmega32 Berbasis Android." Jurnal Bangkit Indonesia 7, no. 2 (2018): 62–65. http://dx.doi.org/10.52771/bangkitindonesia.v7i2.164.
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In designing this automatic system, the research methodology used is the data collection method and the development method. The data collection method consisted of literature study and experiment. For the development method, the Rapid Application Development (RAD) development method is used which includes the requirements planning, process and design, implementation stages. Automatic Fan Rotation System Based on Room Temperature Using an Android-based AtMega 32 Microcontroller implemented based on a needs analysis using the Borland Delphi 7 programming language as a desktop-based monitoring application, Arduino as a microcontroller programming language and Eclipse to create Android applications.
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Selvin, Pradeep Kumar S. "Password Based Remote Controlled Door Opening Using Android Application." INTERNATIONAL JOURNAL OF ENGINEERING DEVELOPMENT AND RESEARCH 4, no. 4 (2016): 634–38. https://doi.org/10.5281/zenodo.233832.
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The main objective of this paper is to unlock a hotel room door by using an android application using a password entered through the android application device. Opening and closing of hotel room door involves using of smart card. The opening and closing of hotel room door is achieved by using an android application. The owner can connect android application device to the system through Wi-Fi, which in turn is connected to a microcontroller controlled door that can open/close the door by entering the password. Remote operation is achieved by any smart-phone/Tablet, with Android OS, upon a GUI (Graphical User Interface) based touch screen operation. This paper is based on the android application, android application send data through Wi-Fi. Another Wi-Fi device connected at the receiving end which is fed to the microcontroller. The sent data (password entered by the user) matches with the password stored in the microcontroller, and then the microcontroller initiates a mechanism to open the door through a motor driver interface. The combination of Wi-Fi and android technology will satisfy timeliness, safety and involves elimination of smart card.
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Silaban, Freddy Artadima, Rendy Elmianto, and Lukman Madriavin Silalahi. "Build Smart Home Controls Using Wemos Microcontroller-Based Telegram App." CCIT Journal 14, no. 1 (2021): 1–12. http://dx.doi.org/10.33050/ccit.v14i1.802.
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Current technological developments are very fast and progressing. One of the developments that occurs in the IoT (Internet Of Things) system. Many IOT (Internet Of Things) systems already have open source and can be suitable as needed, therefore by utilizing technological advancements, lamp controllers and house doors are made using Telegram applications. This control system can carry out home communications and control home electronic devices such as lights and house doors remotely using the Wemos and Arduino UNO microcontrollers. The Telegram application is used to send commands connected to the io.adafruit.com server. This system can provide notifications sent to the Telegram application when the house door is opened. The conclusion of the results obtained when the tool needed to communicate with the server is 12.94 seconds. For the voltage of 4 lights ± 220 V AC and for servo voltage ± 4.8 V DC. For the response time of the tool to the server ± 3 seconds, while the response time of the tool to Nextion LCD is ± 1 second
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Hu, Ruiming. "Application of Microcontroller-Based Multipath Servos in Industrial Robot Control Systems." Journal of Robotics 2023 (March 31, 2023): 1–11. http://dx.doi.org/10.1155/2023/7235120.
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In recent years, nanotechnology has continued to develop, especially the use of nanomaterials in various fields. Microcontroller is the most typical embedded system at this stage. With the development of science and technology, microcontroller has been widely used in people’s production life. A simple and practical multiservo controller can be built by using microcontroller and LED control chip PCA9685, which can realize at least 16 channels of servo control. In this paper, the control program of multichannel actuator is designed in detail, and the speed regulation of multichannel actuator is studied, which is applied to the industrial robot system driven by actuator. Nanomaterials, as new materials with various unique properties, have great application prospects, and this paper investigates the extension of nanomaterials in the field of robotic systems.
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Bagriya, Shital, Sahil Khandewal, Shahrukh Mohammd, Shyanu Sharma, and Vikas Mahala. "Microcontroller Based Voice Control Home Automation System." International Journal for Research in Applied Science and Engineering Technology 12, no. 4 (2024): 2918–23. http://dx.doi.org/10.22214/ijraset.2024.60163.
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Abstract: The world is rapidly advancing towards automation, as individuals have limited time to manage tasks. Automation offers a straightforward solution where devices or machines can be programmed to fulfill desired tasks. The purpose of this paper is to construct and design a home automation system based on Arduino and a Bluetooth module. The proposed solution offers a simple and dependable technology that is assisted by an Android app. The home automation system, which includes an Arduino Unoanda Bluetooth module, controls home equipment such as fans, lamps, air conditioners, and automated door locks. The article focuses mostly on monitoring and controlling smart houses using an Android phone, providing security when in habit antsare absent. The objective is to manage home appliances in a user- friendly manner, designed atminimal cost withs impleinstallation procedures. The system comprises three key components: an Arduino microcontroller for appliance connectivity, a Bluetooth module for signal transmission, and a smart phone running the Android application. The Android application interprets the user’s voice commands and extracts their precise meaning. The system design is centered around an Arduino Uno board, with appliances connected to switches linked to the board. The smartphone communicates with the Arduino through Bluetooth. The primary focus of system development is to ensure afford abil- ity and scalability as per requirements. Additionally, password protection can enhance security measures. The Voice-controlled House Automation System utilizes voice commands for device control, offering several advantages. Notably, the reisnoneed for training in operating the technology, and the simplified services facilitate wider adoption, benefitting individuals with diverse disabilities who can access the technology effortlessly.
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Wael, A. Salah, and Abu Zneid Basem. "Evolution of microcontroller-based remote monitoring system applications." International Journal of Electrical and Computer Engineering (IJECE) 9, no. 4 (2019): 2354–64. https://doi.org/10.11591/ijece.v9i4.pp2354-2364.
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This study reviews the evolution of smart applications of microcontroller-based wireless/wired remote monitoring systems. Rapid developments in science and technology offer the advantages of using integrated embedded chips, microprocessors, and microcontrollers. The use of microcontrollers in industrial processes, such as automobiles, aeronautics, space, robotics, electronics, defense applications, mobile communications, rail transport, and medical applications, is rapidly increasing. This study aims to review the progress of microcomputers in smart remote monitoring and controlling applications for the control and management of different systems using wireless/wired techniques.
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Li, Guang Song. "The Application Research Based on Arduino and Kinect." Applied Mechanics and Materials 635-637 (September 2014): 1742–45. http://dx.doi.org/10.4028/www.scientific.net/amm.635-637.1742.
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Arduino is a popular platform for interactive application. The posture recognition of human body is realized by the Microsoft’s Kinect sensor, and it translates the posture into data based on the protocol, and then transmits the data to the Arduino microcontroller through the serial port, and finally, the microcontroller controls the LED status according to data. Experiments show that, this method has higher recognition rate and shorter response time. The method can meet the somatosensory controlling requirements of the LED lamps, spreads the commonly controlling method of LED lamp.
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Wang, Shu Shi, and Yu Chuan Zhu. "A New Monitoring System Based on Microcontroller." Applied Mechanics and Materials 389 (August 2013): 404–8. http://dx.doi.org/10.4028/www.scientific.net/amm.389.404.
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This paper introduces the design of a warehouse temperature and humidity monitoring system based on a STC89C51 microcontroller. Compared with the traditional method, this system has the advantages of accuracy, sensitivity, short time and intuitiveness, and reduces the workload of the technicians and the cost of warehouse supervision. The greenhouse control system based on a microcontroller and digital temperature and humidity sensors can realize the automatic measurement and adjustment of temperature and humidity inside the greenhouse, which greatly reduces the labor intensity of operators, makes the greenhouse reach a more advanced management level, and is a low-cost, easy-to-use and accurate temperature and humidity measuring instrument, therefore it has a broad application prospect.
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Arumugam, Puvanesan, Pin Jern Ker, Jin Yeong Tan, and Dineis Mani. "Microcontroller-Based Face Recognition System with Web-Based Application for Car Security." Advanced Science Letters 23, no. 5 (2017): 4031–35. http://dx.doi.org/10.1166/asl.2017.8279.
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Khalifeh, Ala’, Felix Mazunga, Action Nechibvute, and Benny Munyaradzi Nyambo. "Microcontroller Unit-Based Wireless Sensor Network Nodes: A Review." Sensors 22, no. 22 (2022): 8937. http://dx.doi.org/10.3390/s22228937.
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In this paper, a detailed review of microcontroller unit (MCU)-based wireless sensor node platforms from recently published research articles is presented. Despite numerous research efforts in the fast-growing field of wireless sensor devices, energy consumption remains a challenge that limits the lifetime of wireless sensor networks (WSNs). The Internet-of-Things (IoT) technology utilizes WSNs for providing an efficient sensing and communication infrastructure. Thus, a comparison of the existing wireless sensor nodes is crucial. Of particular interest are the advances in the recent MCU-based wireless sensor node platforms, which have become diverse and fairly advanced in relation to the currently available commercial WSN platforms. The recent wireless sensor nodes are compared with commercially available motes. The commercially available motes are selected based on a number of criteria including popularity, published results, interesting characteristics and features. Of particular interest is to understand the trajectory of development of these devices and the technologies so as to inform the research and application directions. The comparison is mainly based on processing and memory specifications, communication capabilities, power supply and consumption, sensor support, potential applications, node programming and hardware security. This paper attempts to provide a clear picture of the progress being made towards the design of autonomous wireless sensor nodes to avoid redundancy in research by industry and academia. This paper is expected to assist developers of wireless sensor nodes to produce improved designs that outperform the existing motes. Besides, this paper will guide researchers and potential users to easily make the best choice of a mote that best suits their specific application scenarios. A discussion on the wireless sensor node platforms is provided, and challenges and future research directions are also outlined.
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Tiasha, Banik, Das Trisha, Biswas Srabani, et al. "Desktop and Mobile Application based Three Step Security System." International Journal of Innovative Science and Research Technology 8, no. 4 (2023): 2075–79. https://doi.org/10.5281/zenodo.7931723.
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The main objective of this paper is to propose a new design for a door locking system that involves a three-step process using desktop and mobile application. To achieve this, two separate applications have been developed, one for the desktop and another for the mobile device. The desktop application has been specifically designed for the Raspberry Pi device, while the mobile application uses Bluetooth technology for its implementation. The system utilizes an Arduino microcontroller as the hardware component, although the desktop application can also be implemented on a Raspberry Pi microprocessor. In this proposed system, the user is required to complete the first two steps of the process, which involve setting up a user ID, password, and a security question. The final step involves authentication through the use of a one-time password (OTP). This three-step process is designed to enhance security and provide greater protection against unauthorized access to the locked door. It is important to note that this proposed design is unique and has not been reported previously in any other research work. The use of a desktop and mobile application, combined with the implementation of a three-step process using an OTP, provides an innovative and effective approach to door locking systems. Overview of Technology: The Desktop and Mobile Application Based Three Step Security System is an innovative project that utilizes various technologies to provide enhanced security for users. Here is an overview of the technologies used in this project: Desktop Application: The desktop application in this system is designed for the Raspberry Pi device. The application is developed using Python programming language and utilizes the PyQt5 library for graphical user interface (GUI) development. The desktop application provides a user-friendly interface for users to set up their security credentials and manage their account. Mobile Application: The mobile application is implemented using Bluetooth technology, which allows for secure communication between the mobile device and the Arduino microcontroller used in the system. The mobile application is developed using Android Studio and Java programming language. The mobile application enables users to receive OTP and authenticate themselves. Arduino Microcontroller: The Arduino microcontroller is the hardware component of this system. The microcontroller is programmed using C++ programming language and is responsible for managing the authentication process.
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Satrinawati, Satrinawati, Dedy Irfan, and Efrizon Efrizon. "Augmented Reality-Based Programming Using Atmega 2560 Microcontroller Trainer Kit Support." Jurnal Teknologi Informasi dan Pendidikan 15, no. 2 (2023): 110–21. http://dx.doi.org/10.24036/jtip.v15i2.670.
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The application of an augmented reality system to the Atmega 2560 microcontroller trainer kit is a tool designed to create learning methods that are interactive, fun, motivating, and provide space for students to develop creativity and independence. This research uses research and development (R&D) methods. This research and development consists of a preliminary study stage, needs analysis, design, manufacture, testing of tool specifications and the final stage is product evaluation with expert opinion. The development of this microcontroller trainer kit has three main parts, namely the microprocessor, input and output. The microcontroller used is the ATmega 2560. By using augmented reality technology and adding electronic components such as DC motors, servo motors, ultrasonic sensors, this tool can be used in sensor and transducer learning. Apart from learning sensors, this trainer kit can also be applied to learning microcontrollers and their applications. This trainer kit is equipped with a practicum module as a support in learning. Through the microcontroller trainer kit and Augmented reality system, it is hoped that student competency will be better.
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Ersin, Çağatay, Riza Gürbüz, and Ali Kemal Yakut. "Application of an Automatic Plant Irrigation System Based Arduino Microcontroller Using Solar Energy." Solid State Phenomena 251 (July 2016): 237–41. http://dx.doi.org/10.4028/www.scientific.net/ssp.251.237.
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In this system, plants’ optimum water need level is controlled by Ardiuno Uno Microcontroller. With the help of the buttons on the Lcd Shields, the plant species are chosen and after the humidity level is entered, it is controlled by Ardiuno Uno Microcontroller. When the humidity level of the earth decreases, Ardiuno Uno Microcontroller sends data for irrigation the plant and takes photo of it with Raspberry Pi before irrigation. The e-mail which contains necessary datum and photos is sent to related person. When the irrigation of the plants reaches the chosen humidity level, Ardiuno Uno Microcontroller stops irrigation and Raspberry Pi sends photos of the plant as an e-mail to the related person again after irrigation. The energy of this system is provided by the battery charging.
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Jani, Akbar Rafni Rafsan, Dwipa Handayani, and Achmad Noeman. "Fire Detection System Using Android-Based Microcontroller." PIKSEL : Penelitian Ilmu Komputer Sistem Embedded and Logic 9, no. 2 (2021): 173–84. http://dx.doi.org/10.33558/piksel.v9i2.3074.
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The Fire Detection System can be supported by Internet of Things technology, e.g. a Microcontroller device which is used to control the related devices. In this study, android-Based fire detection system was designed in which the house owner can always monitor the condition of the house all the times and accessing the information about their house when a fire occurs until the fire suppression process is complete. Information of the house condition will be displayed on the Blynk application which is located in the kitchen area and is connected to several supporting sensors. The design of a Fire Detection System Using an Android-Based Microcontroller is divided into several stages, namely: (1) Requirement Identification; (2) Requirement Analysis;(3) Hardware Design; (4) The software design (Arduino IDE 1.8.5 and Blynk). The testing results showed that the android-based Fire Detection System Using Microcontroller was able to provide information to residents of the house in the real-time.
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Prayuda, Rizki Budi, Muhammad Ikhwan Jambak, and Zaid Romegar Mair. "Monitoring Suhu dan Kelembaban Ruangan Server di BSPJI Palembang Menggunakan Microcontrol Arduino Berbasis Android." Jurnal Pengembangan Sistem Informasi dan Informatika 4, no. 2 (2024): 46–55. http://dx.doi.org/10.47747/jpsii.v4i2.1744.
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This research aims to develop a temperature and humidity monitoring system for the server room at the Palembang Industrial Standardization and Services Center (BSPJI) using an Android-based microcontroller. This system monitors server room environmental conditions in real-time to maintain equipment performance and reliability. The microcontroller integrated with the Android application can collect temperature and humidity data using appropriate sensors, which can be accessed and analyzed remotely via the Android application. Temperature and humidity measurement results can also be forwarded via in-app notifications to notify users of abnormal conditions. This research combines microcontroller technology, environmental sensors, and Android applications to provide a monitoring solution that is effective and responsive to environmental changes in the server room. Hopefully, this system can help maintain server stability and performance at BSPJI more efficiently
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Huang, Song Lin, and Jian Zhong Cui. "The Design of Embedded Ethernet System Based Microcontroller." Advanced Materials Research 1046 (October 2014): 352–55. http://dx.doi.org/10.4028/www.scientific.net/amr.1046.352.
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With the wide application of Internet technology, the embedded system is becoming more and more to develop in the direction of the network. The combination of embedded devices and the Internet represents the future direction of development of embedded systems. In this paper, a microprocessor-based embedded Ethernet solution was presented. The collaborative software and hardware design thought was used in system. TheμC /OS-II operating system, joined the TCP/IP protocol stack, was transplanted to the embedded Ethernet platform. The test results proved that the embedded Ethernet system network communication is stable and reliable.
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N. A. Ispulov, M. Zh. Sultanova, Zh. Dzh. Ospanova, and E. M. Jussupova. ""AIR HEATING CONTROL SYSTEM BASED ON MICROCONTROLLER "." Bulletin of Toraighyrov University. Energetics series, no. 2.2023 (June 30, 2023): 153–65. http://dx.doi.org/10.48081/qyfy4461.
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"This article discusses a technological solution developed on the basis of an Arduino-type microcontroller with automatic control of air heating in production. Currently, microcontrollers have a large range (more than 10,000), which differ among themselves in terms of application, parameters and other properties. Dozens of manufacturers are engaged in the release of microcontrollers. Increasing reliability, speed and functional saturation, as well as reducing the amount of modern computer technology and electricity consumed have led to its widespread use to control complex technological objects with a large number of physical quantities and controlled installations. The result of this article will be the development of a block diagram, drawing up a schematic diagram of a control system, block diagrams, writing a program for a microcontroller, developing an operation algorithm and a set of elements that can be used in any production, production process (for example, drying systems, heating installations, etc.), where an air heating control system is deemed necessary. Also, the main conclusions, concepts of this research work can be used in production processes, household appliances and as a teaching aid. "
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Azli, Naziha Ahmad, Norkharziana Mohd Nayan, Shahrin Md Ayob, Ami Nurul Nazifah Abdullah, and Siti Khodijah Mazalan. "Microcontroller-Based HEPWM Cascaded H-Bridge Multilevel Inverter System for Renewable Energy Application." Applied Mechanics and Materials 793 (September 2015): 297–303. http://dx.doi.org/10.4028/www.scientific.net/amm.793.297.
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This paper presents the implementation of a microcontroller-based Harmonic Elimination PWM (HEPWM) switching scheme of a Cascaded H-Bridge Multilevel Inverter (CHMI) for renewable energy system. This technique applies Particle Swarm Optimization (PSO) technique to allow computation of HEPWM switching angles. The detail description on the microcontroller-based implementation is provided in this paper. The performance of CHMI employing the control strategy based-on the simulation and experimental results are shown for comparison purposes.
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Laksana, Muhammad Tegar Tirta, Auliya Rahman Isnain, and Heni Sulistiani. "Penerapan Teknologi Aplikasi Rumah Pintar Berbasis Web Menggunakan Microcontroller ESP32." Jurnal Pepadun 5, no. 2 (2024): 121–30. http://dx.doi.org/10.23960/pepadun.v5i2.217.
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In the current era of 5.0, integrating internet technology with electronic devices has become increasingly seamless, enabling smarter and more efficient living environments. This research focuses on implementing a web-based smart home application utilizing the ESP32 microcontroller. The application allows users to monitor and control household appliances in real-time through a web interface accessible on devices like smartphones and computers. The ESP32 microcontroller was selected for its Wi-Fi connectivity and compatibility with various sensors and actuators. The web application is designed with a user-friendly and responsive interface, employing web services for effective communication with the ESP32 microcontroller. Currently, the system's functionality is limited to basic operations, such as turning lights on and off, but further development is expected to expand its capabilities. This study demonstrates that a web-based system using the ESP32 microcontroller offers an effective and cost-efficient solution for building a smart home system.
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Önder, Fatih. "Line and load regulation: a microcontroller-based experiment." Physics Education 59, no. 4 (2024): 045011. http://dx.doi.org/10.1088/1361-6552/ad40ef.
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Abstract Voltage regulators, the most common application of Zener diodes, are included in many electronic devices we use in our daily lives. Therefore, students need to learn about regulators to understand the place of Zener diodes in modern electronic technologies. This study focuses on a microcontroller-based experiment that can be used to teach line and load regulation with real-time graphics. The main advantage of the designed experiment over its classical equivalent is its ability to display autonomous and real-time data display. It also eliminates the problem of determining the load resistance, which is the main difficulty of the classical experiment.
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Ramiz, Salama. "Developing cooling system application for the immobile patients." Global Journal of Information Technology: Emerging Technologies 12, no. 1 (2022): 01–21. http://dx.doi.org/10.18844/gjit.v12i1.7027.
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There is an increase in the use of automated systems as technology moves forward towards the 21st century; people are trying to make use of their time the most with modern technology, with Microcontrollers becoming a necessity. Arduino, the popular portable microcontroller is one of the best currently in terms of making fast, efficient, automated devices that help in day-to-day life. This paper aims to present the ARDUINO-powered COOLING SYSTEMS, which can be applied in different areas including daily used objects. The use of this as COOLING will improve human life while educating people on the uses of microcontrollers. This book defines the Arduino microcontroller and the Arduino idea. Their methodology was to share microcontroller-based equipment and plan stages to share thoughts and advance development. To meet the wide group of onlookers, the document has been segmented to fulfill the need of everyone. The document contains numerous equipment guides to help the peruser ascertain all assortment of frameworks. Keywords: ARDUINO; cooling system; Liquid Crystal Display ( LCD); Microcontroller; sensor.
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Sani, F., H. N. Yahya, M. Momoh, I. G. Saidu, and D. O. Akpootu. "Design and Construction of Microcontroller Based Charge Controller for Photovoltaic Application." IOSR Journal of Electrical and Electronics Engineering 9, no. 1 (2014): 92–97. http://dx.doi.org/10.9790/1676-09119297.
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Ika Hidayati, Permata. "Learning Media Application Based On Microcontroller Chip Technology In Early Age." IOP Conference Series: Materials Science and Engineering 336 (April 2018): 012026. http://dx.doi.org/10.1088/1757-899x/336/1/012026.
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Mircea, Risteiu, Ileana Ioan, and Marc Gheorghe. "Web-Based Tools for House Automation." Applied Mechanics and Materials 245 (December 2012): 247–54. http://dx.doi.org/10.4028/www.scientific.net/amm.245.247.
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The present paper is focused on integration TCP-IP devices into smart house projects. The designed devices will send data to web application. The proposed implementation starts from server sent events for real time measurements and from X10 protocol- based devices for energy metering. In the paper we analyze hardware and software designing principles and architectures around a microcontroller application. Some real time and offline results are shown and analyzed. All the applications are successful tested in different projects, then integrated in present application.
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Gül, Ömer, and Uğur Bayrak. "A Smart Home System based on Microcontroller using Android Application and MySQL Database." Academic Perspective Procedia 3, no. 1 (2020): 455–64. http://dx.doi.org/10.33793/acperpro.03.01.90.
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In recent years, people may disremember to turn off various devices or not be sure open or closed. Predefined scenarios for these people, home comfort and efficiency in the workplace will help a lot. Most people spend time with mobile phones throughout the day. Therefore, the control of smart devices by phones would be an appropriate solution. In this study, it is designed with microcontroller based intelligent building automation system hardware and software to provide energy efficient, security and comfort. The programming of the microcontroller, writing the android application program for the mobile phone and MySQL database software were realized. Microcontroller with GSM shield, it is possible to control the devices connected to the system by an android application automatically and manually by means of the internet connection by the MySQL database on the remote server. It is ensured that all devices are adjusted with a single touch according to predefined scenarios.
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Zhong, Xiaolei, and Rui Qiao. "Design and Implementation of an Intelligent Ultrasonic System based on 51 Microcontroller." International Journal of Electric Power and Energy Studies 2, no. 2 (2024): 50–58. http://dx.doi.org/10.62051/ijepes.v2n2.06.
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With the rapid development of microelectronics and intelligent technology, microcontroller units (MCUs) are increasingly applied in various fields. This paper proposes the design and implementation of an intelligent ultrasonic system based on a 51 microcontroller, integrating ultrasonic sensors, an LCD display, and a 51 MCU to achieve real-time distance measurement, data display, and intelligent control functions. The system utilizes a CD4069 ultrasonic sensor to transmit and receive ultrasonic waves, measuring the distance between the sensor and an object by calculating the time difference between transmission and reception. The measured distance data is processed and displayed on an LCD screen in real-time. Furthermore, the system features intelligent control capabilities, automatically adjusting and controlling devices based on the measured data, thereby enhancing the system's level of intelligence. The intelligent ultrasonic system based on the 51 microcontroller offers advantages such as low cost, high precision, and strong versatility. It can be widely used in various fields, including intelligent robots, obstacle avoidance systems, and automatic parking systems. The design and implementation of this system not only demonstrate innovative applications of ultrasonic ranging technology but also provide valuable references for the extensive application of microcontroller units in intelligent technology fields.
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Erwinnanto, Yohan, Andi Kurniawan N, and Sri Heranurweni. "RANCANG BANGUN SMART HOME AUTOMATIC CONTROL dengan KOMUNIKASI MELALUI BLUETOOTH HC-05 BERBASIS MIKROKONTROLER ARDUINO dan ANDROID." Elektrika 9, no. 2 (2017): 1. http://dx.doi.org/10.26623/elektrika.v9i2.1092.
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<p><strong>D</strong>esign of Smart Home Automatic Control with Communications Via Bluetooth HC-05-Based Microcontroller Arduino and Android, will provide all the comfort, safety, security and energy savings, which takes place automatically and programmed via microcontroller, the house or building. Design of Smart Home Automatic with Control Communications Via Bluetooth HC-05-Based Microcontroller Arduino and Android is intended for automatic control processes.</p><p>The system consists of seven sensors, keypad password for security doors, HC-05 Bluetooth GSM alarm application and device control applications aktuaktor, and aktuaktor buzzer, dc motors, lights, fans and fan dc exhausting. Among these sensors is a PIR sensor to detect theft, sensor MQ6 to detect leakage of LPG gas and smoke from fires, sensor HC-SR04 ultrasonic for automatic garage doors, fire sensors to detect a fire, the sensor LM35 to detect the temperature of the room, when the room temperature is hot the fan will be on automatically, when the cold room temperature will shut off the fan and LDR sensor to detect the intensity of light during the day which turn the lights off automatically and vice versa, thus saving energy. Homeowners can also control lights and monitoring sensors with android phones that are connected with communication via Bluetooth HC-05 microcontroller arduino, and can receive GSM alarm application sensors such as calling and sms.</p><p>Test results are used UART communication data transmission between the microcontroller serial monitor monitor has an error of 0 % . HC - 05 Bluetooth can accept orders at the farthest distance of 11 meters . The fire sensor can work well when the fire was 1-10 cm . Sensor HC - SR04 is already working with an error rate of 0.3 %, so the accuracy of this tool by 100 % - 0.3 % = 99.7 % .</p><p><strong>Keywords :</strong> Security Door , Bluetooth HC - 05 , Microcontroller Arduino and Android , Application Control and Application GSM alarm.</p>
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Dr.V.Ramesh, Babu, K.Rajani, J.S.P.S.Komal, Rajesh Ch., and B.Manjunadha. "Microcontroller-Based Voice and Gesture Home Automation for Smart Living." International Journal for Modern Trends in Science and Technology 11, no. 03 (2025): 64–70. https://doi.org/10.5281/zenodo.15080937.
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<em>This paper presents a Microcontroller-Based Voice and Gesture Home Automation System that enables users to control electrical appliances using Bluetooth-based voice and gesture commands. The system is designed to assist individuals, particularly the elderly and disabled, who may have difficulty operating conventional electrical switches. The proposed system integrates an Arduino Uno microcontroller, a Bluetooth module, and a relay driver circuit to control multiple household appliances such as lights, fans, heaters, and air conditioners.</em> <em>Users interact with the system via an Android application, which provides a Graphical User Interface (GUI) for sending voice commands. The Bluetooth module receives input from the Android device and transmits it to the microcontroller, which processes the command and controls the corresponding appliance. The system uses relay switching to turn appliances ON and OFF based on received instructions.</em> <em>This home automation system enhances convenience and accessibility by providing a hands-free and intuitive control mechanism. The power supply unit includes a step-down transformer, bridge rectifier, capacitive filter, and voltage regulator to ensure smooth operation. The system's low-cost design, ease of implementation, and user-friendly interface make it a viable solution for smart home applications in residential and industrial settings.</em>
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Lu, Xueping, Yan Ma, and Yiming Fang. "Learning-by-Doing Approach to Teach Microcontroller Course with Portable Training Board." International Journal of Emerging Technologies in Learning (iJET) 18, no. 16 (2023): 62–73. http://dx.doi.org/10.3991/ijet.v18i16.42369.
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Microcontroller education is attracting increasing attention owing to the widespread application of microcontroller-based systems. This study proposes the learning-by-doing approach. Rather than emphasizing a deep understanding of datasheets and register-level programming, the new teaching model focuses on microcontroller-based applications. During the pre-class, in-class, and post-class phases, students were instructed to practice writing subroutines or building circuits to interface external devices with a training board. A typical case study is presented to illustrate the detailed process of the proposed model. Feedback from students and teaching supervisors in the recent years has shown that the teaching approach coupled with the training board provides students with more opportunities to work on real equipment, which benefits both the grasp of the theoretical knowledge and improvement of practical skills.
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Bogdanowicz, Artur, Marcin Zacharewicz, and Jakub Król. "The Use of a Microcontrollers in Hygrometric Measurements Application." Scientific Journal of Polish Naval Academy 220-221, no. 1-2 (2020): 47–57. http://dx.doi.org/10.2478/sjpna-2020-0004.
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AbstractThe article presents the possibility of using microcontroller systems as one of elements of a teaching position. The Arduino Mega system based on the ATMega 2560 microcontroller from the AVR family was used to build the station. At the beginning, a virtual hygrometer model was designed in the AUTOCAD program and then the air channels were made using 3D printing. After assembling the station, it was compared to a laboratory aspiration hygrometer. The analysis was presented in the final part of the article.
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Ablay, Günyaz. "Chaotic Map Construction from Common Nonlinearities and Microcontroller Implementations." International Journal of Bifurcation and Chaos 26, no. 07 (2016): 1650121. http://dx.doi.org/10.1142/s0218127416501212.
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This work presents novel discrete-time chaotic systems with some known physical system nonlinearities. Dynamic behaviors of the models are examined with numerical methods and Arduino microcontroller-based experimental studies. Many new chaotic maps are generated in the form of [Formula: see text] and high-dimensional chaotic systems are obtained by weak coupling or cross-coupling the same or different chaotic maps. An application of the chaotic maps is realized with Arduino for chaotic pulse width modulation to drive electrical machines. It is expected that the new chaotic maps and their microcontroller implementations will facilitate practical chaos-based applications in different fields.
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Hay, Man Oo, Thandar Tun Khin, and Mon Aung Su. "Coin Acceptor Based Vending Machine using Microcontroller." International Journal of Trend in Scientific Research and Development 3, no. 5 (2019): 2239–43. https://doi.org/10.5281/zenodo.3591254.
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This paper investigates based on coin acceptor vending machine using microcontroller system. Technology has become a part of the different aspects of peoples' lives as it makes most of their work faster and easier. One of the fast paced technologies is the vending machine. It is a machine that dispenses automatically, products such as beverages, tickets, snacks, etc., by inserting currency or credit to the machine. Vending machines appear in different forms and functions. These are generally used in public and private areas such as malls, markets, business and government offices, schools and along the streets. This paper proposes the design of Arduino based automatic vending machine. The main objective of this paper is to launch new technology application in society. In this proposed system, Arduino Mega board, Liquid Crystal Display LCD , coil acceptor, servo motor, stepper motor and push button are used. The rectifier circuit is used for power supply and step down DC to DC module is used to reduce the rectifier output voltage 12V to 5V. Mega is mainly used to run the program for the vending machine. LCD is used for showing the information, for inserting coil and making a selection. The user can choose the product by touching the related button. Four push button are used to choose four different types of product. For the servo motor, it is used for the dropping of the product. Hay Man Oo | Khin Thandar Tun | Su Mon Aung "Coin Acceptor Based Vending Machine using Microcontroller" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd28003.pdf
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Qin, An Bi, and Cheng Yong Li. "The Weak Light Signal Acquisition Detection Technology Based on Multi-Touch Application Research." Applied Mechanics and Materials 687-691 (November 2014): 572–75. http://dx.doi.org/10.4028/www.scientific.net/amm.687-691.572.
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The system test results show that the system modules can run normally. When light detection circuit, pyroelectric infrared sensor detects information, microcontroller will drive the relay open the light, or shut down. In the window, the motor can work normally, can automatically control the curtain, in the ZigBee information transmission, can to control the power supply and remind. DT11 indoor temperature and humidity sensor detection, can work normally. Through repeated tests, HOLTEK microcontroller based ZigBee smart classroom lighting control system is developed.
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Dashdamirli, N. "INTEGRATION OF MICROSERVICES ARCHITECTURE IN MICROCONTROLLER-BASED INTERNET OF THINGS SYSTEMS." Sciences of Europe, no. 143 (June 26, 2024): 99–102. https://doi.org/10.5281/zenodo.12540935.
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Microservices offer a method for designing and developing robust and scalable software systems. Despite the differences in their focus, Internet of Things systems have similar requirements to microservices architecture, which makes application of microservices beneficial in the field. This paper proposes a novel approach to address the problem of application of microservices in Internet of Things systems built on microcontroller-based devices. This approach is based on virtualization and clusterization of microcontrollers over network and has several advantages over traditional bare-metal development methods for microcontrollers.
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Ario, Muhamad Keenan, David Leon, Muhammad Rizki Pratama, and Gentrya Wirya Pamungkas. "Designing IoT-Based Smarthome System With Chatbot." Engineering, MAthematics and Computer Science (EMACS) Journal 4, no. 3 (2022): 113–17. http://dx.doi.org/10.21512/emacsjournal.v4i3.8787.
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Smart home system aim to maximize surveillance, monitoring, and security. This system is integrated with telecommunications and control systems from the microcontroller to create the Internet of Things (IoT). Nowadays, home appliances are integrated with the Smart System that connected to the internet. On the other hand, messenger applications now integrated with chat bot with Artificial Intelligence to make user easier to communicate. This trend made a possibility to implement a system where a home appliance can be operated by only using a messenger application. In this research, a Smart home system designed with a client-server system based on Raspberry Pi as microcontroller and Telegram Messenger as interface that perform the control communication. The process separated into three stages: design, implementation, and result. The design consists of designing the server, interface, and Smart Home control system. To test the performance, the Messenger Bot are compared with other direct controller application. The result show that the Telegram Messenger application is suitable and more convinient for being the IoT controller.
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Mafuratidze, Munoda. "Design and Implementation of an Intelligent Microcontroller-Based Home Security System." International Journal of Scientific and Management Research 08, no. 05 (2025): 13–19. https://doi.org/10.37502/ijsmr.2025.8502.
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This research presents design and implementation of an intelligent microcontroller- based home security system aimed at enhancing residential safety through real-time, multi- layered protection and user-friendly management. Leveragig PIC 16F877A microcontroller and an HC06 Bluetooth module, this system enables wireless communication with a dedicated Android application for remote monitoring, arming, disarming and emergency notifications. The system integrates infrared motion sensors, magnetic contacts, and automated response protocols to detect unauthorised entry, activating a series of responses including alarms, image capture and SMS alerts. Unlike traditional systems which are often limited to basic alarm triggers, this design captures images of intruders, stores evidence and sends images directly to the home owner’s smartphone. The system was developed with MickroC software and MIT Application Inventor, this system combines hardware versatility with software flexibility, creating a scalable, cost-effective solution suitable for modern home security needs.
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Darmawan, Reyhan Issatyadi, Arf Surtono, Donni Kis Apriyanto, and Amir Supriyanto. "Design of Computer Based 12 Lead ECG Using STM32F401 Microcontroller." Journal of Energy, Material, and Instrumentation Technology 3, no. 4 (2022): 147–56. http://dx.doi.org/10.23960/jemit.v3i4.127.
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The research of designing computer-based 12 lead ECG using STM32F401 microcontroller has been done. ECG is a healthcare device recording heart electrical activity and assesses heart condition. ECG was chosen for health condition check-ups because it is low-cost and can monitor heart conditions in real-time. To get more details about a heart condition, an ECG with more than one lead is required, of which 12 leads are used for diagnostic application. The designed ECG uses a computer to display and record the ECG signal from the human body using a GUI program created with Visual Studio 2019, capable of recording 12 leads simultaneously and using USB to connect to the computer. STM32F401 is used as a digital signal processor to filter the ECG signal to make a good quality and noise-free ECG recording. Specifying the designed 12 lead ECG is a signal gain of 384 times with error less than 5%, 115.05 dB CMRR, and 0.05-200 Hz frequency response suitable for diagnostic application. The ECG was also capable of recording ECG signals from the human body.
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Darlan Sidik, Ahmad Risal, and Andi Hudiah. "Iot-Based Microcontroller Trainer Media: Innovation for Vocational Education Essential Programs." International Journal of Latest Technology in Engineering Management & Applied Science 13, no. 11 (2024): 6–10. http://dx.doi.org/10.51583/ijltemas.2024.131102.
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Abstract: Vocational or technical education is inseparable from the application and advancement of technology, particularly the Internet of Things (IoT), which has brought significant changes to various fields, including vocational education at the Faculty of Engineering, Universitas Negeri Makassar (FT UNM). Vocational education students require interactive learning media to facilitate their understanding of microcontroller fundamentals and IoT applications. The main issue addressed in this study is the absence of learning media based on microcontrollers and IoT applications. This study aims to develop an IoT-based microcontroller trainer media using three main types of microcontrollers: (1) ATmega, (2) Arduino Uno, and (3) NodeMCU. The trainer media is designed to enable students to learn programming steps, hardware integration, and IoT connectivity within a unified platform. The development method employed is Research and Development (R&D), encompassing stages from needs analysis to evaluation. Testing with students revealed that the trainer media effectively enhanced their understanding of microcontrollers and IoT. The implementation and trial results showed that 85% of students could utilize the product and practically and interactively analyze basic IoT concepts. This study demonstrates that the developed trainer media serves as an essential learning tool to support vocational education for students in Electronic Engineering Education.
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Rospawan, Ali, and Joni Welman Simatupang. "Microcontroller-Based Lead-Acid Battery Balancing System for Electric Vehicle Applications." Jurnal Elektronika dan Telekomunikasi 21, no. 2 (2021): 128. http://dx.doi.org/10.14203/jet.v21.128-139.
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In application of lead-acid batteries for electrical vehicle applications, 48 V of four 12 V batteries in a series configuration are required. However, the battery stack is repeatedly charged and discharged during operation. Hence, differences in charging and discharging speeds may result in a different state-of-charge of battery cells. Without proper protection, it may cause an excessive discharge that leads to premature degradation of the battery. Therefore, a lead-acid battery requires a battery management system to extend the battery lifetime. Following the LTC3305 balancing scheme, the battery balancing circuit with auxiliary storage can employ an imbalance detection algorithm for sequential battery. It happens by comparing the voltage of a battery on the stack and the auxiliary storage. In this paper, we have replaced the function of LTC3305 by a NUCLEO F767ZI microcontroller, so that the balancing process, the battery voltage, the drawn current to or from the auxiliary battery, and the surrounding temperature can be fully monitored. The prototype of a microcontroller-based lead-acid battery balancing system for electrical vehicle application has been fabricated successfully in this work. The batteries voltage monitoring, the auxiliary battery drawn current monitoring, the overcurrent and overheat protection system of this device has also successfully built. Based on the experimental results, the largest voltage imbalance is between battery 1 and battery 2 with a voltage imbalance of 180 mV. This value is still higher than the target of voltage imbalance that must be lower than 12.5 mV. The balancing process for the timer mode operation is faster 1.5 times compared to the continuous mode operation. However, there were no overcurrent or overtemperature occurred during the balancing process for both timer mode and continuous mode operation. Furthermore, refinement of this device prototype is required in the future to improve the performance significantly.
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Jin, Shihao. "STM32 microcontroller and CAN bus based FSAE racing car electrical part design." Applied and Computational Engineering 85, no. 1 (2024): 256–61. http://dx.doi.org/10.54254/2755-2721/85/20241003.
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A microcontroller is a kind of chip in integrated circuits, which is a device that integrates multiple components together to accomplish a certain function. Compared with the traditional digital module, the advantages of a microcontroller lie in smaller size, lower power consumption, and higher flexibility. Its performance and functionality of the expansion depend on the design and manufacturing process of integrated circuits, and the wide application of microcontrollers cannot be separated from the support of integrated circuits. With the continuous development of integrated circuits, the application of microcontrollers is also more and more extensive; in automotive electronics, industrial control, and embedded systems have been applied on a large scale. CAN bus is a kind of serial communication protocol used for communication between various electronic components in the vehicle. It is one of the most widely used communication buses in the world, and it has been applied on a large scale in the fields of the automotive industry, aerospace industry, industrial control, safety protection, and so on. Scale application. This paper mainly discusses the application of STM32 microcontrollers and their ability to bus in FSAE racing cars, the functions they can realize, and the enhancement of racing car performance.
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Dahlan, Feri Prayogi, and Indra Roza. "RANCANGAN SISTEM RUMAH PINTAR TYPE 45 MENGGUNAKAN MIKROKONTROLLER ATMEGA328P BERBASIS APLIKASI ANDROID." JiTEKH 9, no. 1 (2021): 20–28. http://dx.doi.org/10.35447/jitekh.v9i1.324.
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Remote control is not something new, so the development of remote control has been done in many applications. The author designed automatic control of equipment and devices at home and buildings from a distance. The microcontroller used in this study was the ATmega 328P AVR type (Alf and Vegaard's Risc). ATmega 328P is an external microcontroller from atmel that has a RISC (Reduce Instruction Set Computer) architecture where each data execution process is faster than the CISC (Completed Intruction Set Computer) architecture. In the research, the application of access to devices in the home such as light control, fans and servo motors as a door driver using Arduino UNO as a microcontroller and Android applications as the main controller to control electronic devices. The circuit work system with a voltage of 3.3V to 5V, then each device in the circuit will be active (ArduinoUno, Bluetooth HC05 and Relay Module) with a 12V voltage on each tool. HC-05 As a connection with a maximum distance of 12M the tools can work. Based on the test results, it is obtained that the control system based on the android application using Arduino can be used as a controller for lights, fans and doors properly.
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Nayak, Aruna S., Namrata D. Hiremath, Umadevi F.M, Preeti B. Patil, and Satyadhyan Chickerur. "Fostering Higher Cognitive Skills Through Industry Collaboration: A Microcontroller-Based Approach." Journal of Engineering Education Transformations 37, IS2 (2024): 688–94. http://dx.doi.org/10.16920/jeet/2024/v37is2/24107.
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Abstract— This paper presents an innovative approach to enhance higher cognitive skills in students through collaboration with the industry, focusing on microcontroller education. In the fastevolving landscape of technology, bridging the gap between academia and industry is paramount. Our paper describes a course activity that leverages industry collaboration to impart critical thinking, problem-solving, and knowledge application skills to students. The course activity centers on the in-depth study of the Atmega32 microcontroller, chosen for its industry relevance and rich feature set. Students delve into fundamental concepts, architecture, programming, timers, counters, interrupts, and peripheral integration. They are encouraged to apply their knowledge to realworld scenarios through hands-on projects (Bolanakis, 2019) Key components of this approach include industry mentorship, project-based learning and formative assessment. Industry professionals guide students in solving industry-related challenges, fostering creativity and practical problem-solving. Continuous evaluation assesses students' critical thinking, knowledge application, and problem-solving abilities. The paper demonstrates the positive impact of this collaborative learning approach on students' cognitive skills and their preparedness for real-world industry roles. By adapting theoretical knowledge to address industry needs and aligning with best practices, students gain valuable skills essential for success in the technology-driven job market. Keywords— Cognitive Skills; Critical Thinking; Industry Collaboration; Knowledge Application; Problem-Solving