Academic literature on the topic 'Arduino. Electric. Industry'
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Journal articles on the topic "Arduino. Electric. Industry"
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Sau, Matius, Yoel Jeamri, and Yusril Azarya Monasri. "Utilization of Arduino on Electric Motor Starting." Journal of Physics: Conference Series 2394, no. 1 (2022): 012025. http://dx.doi.org/10.1088/1742-6596/2394/1/012025.
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Abstract The development of technology in the industrial world 4.0 is very fast, in particular it can be seen in the rapidly growing remote control system, the use of applications via the network is increasing, and so on. Remote control such as the use of Arduino with an internet network that can be used as a tool to provide information and receive information so that the industry can save in terms of time, employees and other operational costs. This paper aims to utilize Arduino as a tool in controlling electric motor starting which is operated via bylink. The results showed that by utilizing Arduino which was controlled from Bylink via a smartphone, it was able to operate an electric motor starting with a direct on line circuit, a wye-delta circuit and a sequential motor circuit.
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Journal, IJSREM. "Intelligent Electric Vehicle Battery Monitoring System." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 07, no. 12 (2023): 1–11. http://dx.doi.org/10.55041/ijsrem27663.
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In recent years the need for battery vehicles has become the need of the automobile industry. The heart of the Electric vehicle system is the Battery. The performance, range, and safety of an electric vehicle (EV) depend heavily on the battery is ability to operate properly.The proposed system can precisely and consistently track the status of charge level of the battery along with the measurement of battery temperature, output voltage and current values. In this project, a voltage sensor, current sensor, and temperature sensor are used with Arduino as microcontroller. The sensors are used to measure the battery parameters and the values are sent to the Arduino micro controller. Controller checks the safe level of the battery parameters and issues alert signal if the battery is operating with unsafe values. To prevent damage to the battery and fire, the battery will be promptly withdrawn from operation when the safe levels are exceeded. Key Words: Arduino, voltage sensor, current sensor, temperature sensor and battery level indicator
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Hadiyanto Hadiyanto. "MOTOR CONTROLLER ARDUINO BASED 3 (THREE) PHASE." MULTICA SCIENCE AND TECHNOLOGY (MST) JOURNAL 1, no. 2 (2021): 76–79. http://dx.doi.org/10.47002/mst.v1i2.279.
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Electrical machinery plays a very important in industry and in everyday life hari. Exsitasi or starting a means used by man to ignite and drive the electrical machinery. The way or starting exsitasi electrical machines taken by man to get a good efficiency power efficiency and torque efficiency. Thus it takes a piece of equipment that is capable of performing exsitasi electrical machines with a small power with big torque. Inverter or more commonly known as VSD (Variable Speed Drive) is one option which is used in making exsitasi or starting the electric machines. The inverter is able to perform exsitasi electric machines both single phase and 3 phase with prefix absorbs very little power and have very besar.Contoller torque inverter done so fine that almost did not happen rebound flow and speed that can cause damage to the machines The electricity nor the couple or connecting circuits. In the world of industrial inverter controlled semi-automated and automated by the semi-automatic circuit. Automatic performed by a series of contactors and relays, while the control is automatically done by the PLC (Programmable Logic Control). Arduino can be used as a substitute for controlling performed by contactors, relays and PLC. Arduino able to control the start-stop, round forward and reverse rotation and control the motor rotation speed can be displayed in the display LCD (Liquid Cristal Display)
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Arielson, Gama Ferreira, dos Anjos Fernandes Pacheco Maria, and Cristina Nogueira Marques Pinheiro Érika. "USO DE ARDUINO UNO NA AUTOMATIZAÇÃO NO PROCESSO DE FIXAÇÃO DE PELÍCULA EM B-COVER EM UMA INDÚSTRIA DA CIDADE DE MANAUS." Revistaft 27, no. 122 (2023): 86. https://doi.org/10.5281/zenodo.7901286.
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A interação homem-máquina acontece a partir do momento que a máquina pode oferecer uma vantagem para os esforços humanos do trabalho manual e repetitivo. Além disso, o homem ainda precisa saber coordenar todo o seu conhecimento cognitivo para gerenciar, controlar e manipular máquinas para que de fato estas possam se apresentar eficientes no fluxo produtivo. Por isso, o estudo voltado sobre ergonomia está direcionado para reduzir os impactos advindos de trabalhos manuais, sendo que máquinas são criadas para agilizar a produção e também reduzir esforços e movimentos repetitivos. Este artigo tem como principal objetivo desenvolver uma proposta que vise usar o Arduino UNO junto com o motor de passo para reduzir movimentos repetitivos em uma linha de montagem. Trata-se de uma pesquisa exploratória e bibliográfica, realizada em uma indústria no qual busca-se apresentar uma solução para um problema presente na linha de aplicação de película em B-cover. B-cover é o nome dado para o material que faz parte do carregador de celular ou de aparelhos que precisem desse tipo de carregador. O conhecimento voltado para a sociedade acadêmica sobre a possibilidade de usar o Arduino UNO e motor de passo para criar um dispositivo é fundamental para fazer com que cada vez mais novas ideias surjam e possam facilitar atividades laborais dentro de um chão de fábrica.
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Kartika, Kartika, and Ahmad Rezki Setiawan. "GAS ELECTRIC VALVE DESIGN." International Journal of Social Science, Educational, Economics, Agriculture Research and Technology (IJSET) 1, no. 8 (2022): 397–404. http://dx.doi.org/10.54443/ijset.v1i8.46.
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In this era of globalization, science and technology has developed rapidly, especially in the industrial world. As for science and technology that is beneficial to industry, namely for components of the production process, one of which is Valve control. This technology is used to modify the fluid flow or pressure rate in a process system by using power for its operation. The application of this control valve is used to control a pressure rate or quantity, such as the amount of oxygen gas content (O₂) and carbon dioxide (CO₂) in fruit and vegetable plants. In the research that has been carried out on the carbon dioxide (CO₂) process using a porous fiber membrane contactor, the gas model is absorbed in a pure state at cold room temperature. In this study, it is still an obstacle when applied in the field because there are many factors that have not been taken into account, so in an effort to control the wasted gas, an electric gas valve control system device is needed which is designed to determine the value of wasted gas. This system is designed with valve components, servo motors, solenoid valves, Arduino uno, and relays, where all these components are built and programmed with Arduino uno microcontroller. The results of the test are carried out to determine the level of accuracy of each input to the control valve and to determine the value of the gas wasted at the degree of opening of the valve. The test results on the ten forms of angular movement are when the valve works and opens at a movement angle of 0° to the movement, the valve opens at 0%. When the valve works and opens at an angle of movement of 10° to rotation, the valve opens by 11.1%, and when the valve works and opens at an angle of movement of 20° to 80° to the movement, the valve opens by 22.2% to by 88.8%, then when the valve works and opens at an angle of movement of 90° to the movement, the valve opens by 100% or fully opens. The benefits of this research in the performance process of production technology in industry are to meet consumer demand by producing safe, minimally processed, additive-free, and stable quality food.
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Nurcahyo, Eko, and Taufik Hidayat. "DESIGN AND DEVELOPMENT OF AUTOMATIC REBUNG TOOLS USING VARIABLE FREQUENCY DRIVE BASED ON ARDUINO UNO." JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) 5, no. 1 (2022): 35–40. http://dx.doi.org/10.26905/jeemecs.v5i1.5716.
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In chopping Rebung for the home industry, they still use conventional methods and lack the application of technology. This, of course, causes the productivity and quality of the home industry products to be less than optimal. Productivity is influenced by several factors, including requiring workers to be more careful so that it requires a lot of concentration, worker fatigue, which makes it less optimal in using time, and the workers' speed. Therefore, the primary control system was made an automatic Rebung chopper based on the VFD with Arduino Uno. The 3-phase induction electric motor is used as a prime mover for chopping blades and control using VFD (Variable Frequency Drive). For the critical system, use a spring and open the pressing tube's lid using a servo motor and the buzzer as a monitoring medium. The test uses VFD to adjust the rotational speed of the electric motor. The test results show that at a frequency of 20 Hz with a speed of 147.8 rpm, it produces chops with a length of 3 cm in 2 minutes 54 seconds. At a frequency of 35 Hz with a speed of 221.2 Rpm, it produces 2 cm chunks in 1 minute 53 seconds. At a frequency of 50 Hz with a speed of 260.1 Rpm, it produces 1 cm chops in 1 minute 5 seconds. If chopping is done manually, it takes 5 minutes with an average length of 2 cm
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M A, Omprakas, Manikandan M, Balakrishnan S, et al. "Cutting Fluid pH Value Maintenance in CNC Machine by Arduino Nano." E3S Web of Conferences 529 (2024): 04002. http://dx.doi.org/10.1051/e3sconf/202452904002.
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Cutting fluid plays an important role in machining operations like milling, drilling, reaming, etc. In production industry such as automobile industries, aerospace industries, etc., soluble cutting fluids are mainly used for machining operations. The maximum service life of the cutting fluid is about 3 to 4 months in that industry, when they mixed with water, the cutting fluid will get dried out or converted into vapour due to heat generation and due to friction between the cutting tool and the components. The repeated use of cutting fluid for machining operations, the chemical and physical property of the cutting fluid will be changed. The proper mixing ratio of cutting fluid can be done with the help of Arduino nano device and valves, sensors. Automatic cutting fluid filling process can be done by proper Arduino coding. In the present study, the pH sensor is used to detect the pH level of cutting fluid and the Solenoid valves are electromagnetic valves, these valves are used to maintain the proper flow of cutting fluid and water mixture ratio, whenever the cutting fluid pH value differs from the fixed value, the pH sensor will indicate in Arduino nano. The mixing of cutting fluid and water is carried out by stirrer mechanism, which is attached at just above the cutting fluid tank. Control valve is used to control the flow of cutting fluid during the machining operation. The electric signal from touch sensor will stops automatically, when the cutting fluid in the tank reaches its maximum limit. In this paper, cutting fluid pH value is maintained automatically by Arduino nano device for CNC Machine in industries is discussed.
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Vijayan, Dr PM, Thatigiri Vani, B. Jyothi, B. Mallikharjuna reddy, and V. Venkateswarulu. "Real-Time IOT Monitoring and Safety Control in EV Battery Management Systems." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 03 (2025): 1–9. https://doi.org/10.55041/ijsrem42551.
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Further development of electric vehicle technology (EV) requires efficient and intelligent battery management systems. BMS) Ensure battery, service life and optimal performance safety. The project focuses on developing IoT-based real-time surveillance and security control systems for EV batteries and integrating Arduino and Node MCU microcontrollers with a variety of sensors to monitor voltage, electricity, temperature and fire. This system provides local monitoring via LCD screen and remote access via Ubidots cloud platform, allowing battery health to persecute battery health. To improve security, automated mechanisms are implemented to trigger alarms and isolate batteries with overload, overheating or fire detection. This IoT-enabled BMS has been developed to be inexpensive, scalable, energy efficient, minimize manual inspections, optimize battery life and improve EV security. By using wireless data transmission, real-time analysis and automated security controls, the system contributes to a more reliable and sustainable EV ecosystem, while simultaneously promoting smart energy management in the automotive industry. Key Words: Charge Monitoring, Fire Protection, Arduino, Voltage Sensor, Temperature Sensor
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Sukhadip, Chougule, Patil Sohan, Lotekar Prathmesh, Limbhore Durgesh, and Vhatkar Rohit. "Design & Development of Electric Two-Wheeler Chassis." Journal of Automation and Automobile Engineering 5, no. 1 (2020): 17–25. https://doi.org/10.5281/zenodo.3768041.
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At present, the fuel can exceed just for a particular period and it also becomes costlier and creates environmental issues. Due to these constraints, alternate fuels and other source of energy like solar, wind, etc. bringing the car industry to subsequent level. Also, the electrical vehicles are developing rapidly. The electricity stored during a rechargeable battery, which provides power to electric motor and this power helps in propulsion of the motorcycle. The speed of this vehicle is restricted (60km/h). Also, this study is aimed to developing frame of a two-wheeler, two-seater motorcycle, whereas considering strength, safety and optimum performance of the vehicle. The said study has been administered with a two-step approach. the primary step includes modelling considering aesthetic point of view as well as determination of loads working on the frame. The second step is about stress analysis using finite element analysis software and style modifications for weight reduction without affecting structural strength. we propose an answer to Vehicle Security problem by employing a fingerprint authenticated vehicle starter system. This ignition is meant using Arduino UNO. The biometric system provides a secure and hassle-free thanks to start/stop the vehicle engine and therefore the system only allows authorized users to start the vehicle. Users must enrol into the system by uploading their fingerprints. During the monitoring mode, the system scans for the user’s biometrics and therefore the engine gets ignited through authentication. additionally, thereto a vehicle theft system is meant to prevent the vehicle from being stolen. The GSM Module is connected via the telephonic network with the Vehicle owner. Motor Controller are often started or stopped by sending a SMS to the GSM Module.
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Silva dos Santos, Danilo, Fabiana Rocha Pinto, and Felipe Silva dos Santos. "Intelligent Systems as Tools for Measuring Residential Energy Consumption." International Journal for Innovation Education and Research 7, no. 11 (2019): 213–22. http://dx.doi.org/10.31686/ijier.vol7.iss11.1873.
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The implementation of intelligent systems in homes for measuring energy consumption are possibilities that owe their viability to the IoT (Internet of Things and investments in R&D). Becoming fundamental for this change in the way of thinking and using electric power in households, buildings and especially in industry 4.0. The present work demonstrates an experiment focused on a residence for the analysis of energy consumption measurement, with the use of a nano arduino plate, current and voltage sensors, internet connection and use of the MQTT protocol making the integration in the Blynk platform. Obtaining as results voltage approximately 224V, electric current close to 3.89A, 356 points of samples for measurement of consumption and 255 points for preparation of graphs. Minimums for voltage and current 207.75V and 0.62A respectively and maximums 233.22V and 25.31A. A standard deviation of 5.54 for voltage and 3.33 for current. Analyses performed by Blynk, from estimates by mathematical modeling, considered by means of tests and it was observed that the behavior of current and voltage signals are close to the realities of energy distributors.
Dissertations / Theses on the topic "Arduino. Electric. Industry"
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Lindholm, Viktor. "Trådlösåterställning av industriella ljusskydd : Trådlösåterställning av ljusridåer/ljusbommar med ett öppet lasersystem." Thesis, Mittuniversitetet, Avdelningen för elektronikkonstruktion, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:miun:diva-32466.
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Ljusbommar/ljusridåer är ett vanligt säkerhetsskydd på dagens industrier, där arbete görs vid rörliga delar. Det ställs höga säkerhetskrav på ljusbommar/ljusridåer. När ett skydd bryts behöver det återställas och detta görs vanligtvis med en tryckknapp. Detta system medför ett hinder i situationer där truckar används, eftersom att arbetaren behöver kliva ur trucken för att göra återställning av skyddet. Ett trådlöst system av återställningen är lösningen på problemet, men det ställs krav på ett sådant system. Ett öppet lasersystem har valts att undersökas om det skulle kunna uppfylla de krav som ställs. För att testa om ett öppet lasersystem skulle kunna användas togs en prototyp fram. Prototypen bestod av en lasermodul som sändare och en solcell som mottagare. Systemet styrdes av två stycken mikrokontrollers som kommunicerade via UART. Prototypen testades för hur stabilt systemet var mot ljusstörningar och inom vilket område det var begränsat. Det visade sig att den prototyp som tagits fram inte fungerade när störningsljus med frekvenser i sig belyste mottagaren. Prototypens områdesbegränsning visade sig var alldeles för stor. Slutsatsen av undersökningen var att det är teoretiskt möjligt att byta ut knappen mot ett öppet lasersystem, dock inte med den prototyp som togs fram. Det behövs istället en prototyp som måste bearbetas mer för att kunna uppfylla de krav som skulle ställas för trådlösåterställning av ljusbommar/ljusridåer.<br>Light beams / light curtains are a common safety guard on today's industries, where work is done on moving parts. High safety requirements are imposed on light beams / light curtains. When a protection is broken, it needs to be reset and this is usually done with a pushbutton. This system in which truckers are used, a problem arises, because the worker needs to get out of the truck to repair the guard. A wireless recovery system is the solution to the problem, but it needs to meet high standards. An open laser system has been chosen to be investigated if it could meet the requirements. To test if an open laser system could be used, a prototype was taken. The prototype consists of a laser module as a transmitter and a solar cell as a receiver. The system is controlled by two microcontrollers communicating via UART. The prototype was tested for how stable the system was and in which area it was limited. It turned out that the prototype produced did not work when the interference light with frequencies in itself illuminated the receiver. The prototype area restriction proved to be too wide in the area. The conclusion of the survey was that it is theoretically possible to replace the button with an open laser system. However, not with the prototype that was presented, but with a prototype that has to be processed more to meet the requirements for wireless reset of light bombs / light curtains.
Books on the topic "Arduino. Electric. Industry"
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Gehlot, Anita, Lovi Raj Gupta, Bhupendra Singh, and Mahendra Swain. Internet of Things with Raspberry Pi and Arduino. Taylor & Francis Group, 2021.
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Singh, Rajesh, Anita Gehlot, Lovi Raj Gupta, Bhupendra Singh, and Mahendra Swain. Internet of Things with Raspberry Pi and Arduino. Taylor & Francis Group, 2019.
Find full textConference papers on the topic "Arduino. Electric. Industry"
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Kattan Urrutia, Andres Antonio, and Alberto Max Carrasco Bardales. "Design and Development of a Soft Pneumatic Gripper for Precise Grasping of Fragile Objects." In I Conferencia Internacional de Ciencia, Tecnología e Innovación. Trans Tech Publications Ltd, 2024. http://dx.doi.org/10.4028/p-8acltz.
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Soft robotics is an emerging subfield of robotics that studies the design and fabrication of automated systems composed of flexible materials. They present a potential solution to protect fragile objects from high stress induced by rigid grippers. This paper proposed a 3D printed soft pneumatic gripper adapted to precisely grasp delicate and fragile objects such as those encountered in the marine, electronic, and food industry. The gripper was based on the principle of a fluidic elastomer actuator and consisted of two soft TPU fingers and a rigid base with an Arduino-driven flexing sensor to measure the curvature of the fingers during grasping and a force sensor that enables precise measurement and adjustment of gripping force, ensuring the objects were held securely without damage. The design and fabrication were cost-efficient and engineered to not affect the continuous flexing of the soft fingers, addressing key challenges grasping with precision and efficiency. The relationship between the sensor outputs and pneumatic inputs were analyzed through graphs from conducted experimental tests.
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Vasanthakumar, Parthasarathy, Jigme Tsering, and Sumanth Siddhartha Suddunuri. "Design, Fabrication and Analysis of an Electric Ducted Fan." In ASME 2019 Gas Turbine India Conference. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/gtindia2019-2620.
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Abstract Driven by rapid development in battery technology and increase in scope for electric air taxi vehicles, developing an efficient combustion free propulsion system to pair with an electric aircraft is crucial for future of aircraft industry. However, with current technology, ducted fan configuration engines are the only feasible option when it comes to combustion free propulsion system which are already being used in many unmanned drones and unmanned aerial vehicles. In the present work, simple design, analysis and fabrication of ducted fan is performed. Propeller fan and duct is designed using basic principles of blade element theory and momentum theory. Using the parameters from the theoretical design phase, 3D model is made and fabricated using 3D printing and assembled to fit with tolerances suitable for mounting motor. A test stand capable of measuring thrust by varying rpm is designed and built using Arduino based interface. Finally, the designed model is analyzed in Ansys CFX for thrust output using an MRF simulation.
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Ekong, Otuekong E., Anthony U. Etim, and Anietie P. Ekong. "Automated Real-Time Electricity Supply Monitoring System." In 27th iSTEAMS-ACity-IEEE International Conference. Society for Multidisciplinary and Advanced Research Techniques - Creative Research Publishers, 2021. http://dx.doi.org/10.22624/aims/isteams-2021/v27p2.
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In many developing countries, several homes are yet to be fitted with the traditional electro-mechanical meter or newer smart meter for measuring electricity consumption. As such, distribution network operators resort to estimated billing. This work proposes a low cost and easy-to-install alternative capable of monitoring the duration of supply which can be used as the basis to generate bills for unmetered customers. The Recursive Waterfall model guided its design and implementation. The system comprises of Electricity Supply Monitoring (ESM) Hub and ESM App. The Hub is the sensing unit and is designed using ATmega328 microcontroller on Arduino Uno board together with HC-05 Bluetooth module for communication. The App is the display/storage unit and comes with two variants: ESM Mobile App developed using Python and ESM Desktop App developed using C#. Results show the system is capable of providing timely feedback for consumers and real-time transparency for electricity supply industry stakeholders. Keywords: Energy consumption, energy informatics, meter reading, power measurement, smart meters.
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Valderrama Riveros, Óscar Camilo, and Jhon Freddy Ramírez Casallas. "ENSEÑANZA EN LA CREACIÓN DE VIDEOJUEGOS CON HERRAMIENTAS LIBRES, INSPIRADOS EN EL AGRO COLOMBIANO PARA INGENIEROS DE SISTEMAS." In La formación de ingenieros: un compromiso para el desarrollo y la sostenibilidad. Asociacion Colombiana de Facultades de Ingeniería - ACOFI, 2020. http://dx.doi.org/10.26507/ponencia.714.
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La enseñanza en la ingeniera permite utilizar múltiples contextos para aterrizar o profundizar competencias. La Ingeniería de Sistemas permite una transversalidad frente a otras ingenierías, por lo que su aplicación permea múltiples contextos y/o escenarios. En el programa Ingeniería de Sistemas del Campus Ibagué-Espinal se dicta la asignatura Electica Especifica II. Desde el 2018 esta clase se ha enfocado en el desarrollo de videojuegos; ámbito que apasiona a los estudiantes y provoca una gran entrega a las actividades de la clase.Anteriormente se permitía a los estudiantes seleccionar el escenario y temática de su videojuego.Pero articulados con el contexto local, nacional y los ODS (Objetivos de desarrollo sostenible) 2, 4 y 15: Hambre Cero e Industria, Educación de calidad, Vida de ecosistemas terrestres, se seleccionó el agro colombiano como contexto principal para su desarrollo. Adicionalmente, se proporcionaroninstrucción a los estudiantes acerca de cómo generar un videojuego que permita aprender sobre la agricultura. Los temas propuestos por los estudiantes para los videojuegos fueron: Las plagas en los cultivos, conocer sobre los cultivos típicos por regiones y, de forma específica, cuál es el proceso para los cultivos de café y papa. Estos videojuegos se programaron utilizando herramientas libres, como Processing. Adicionalmente, se une al uso de las placas Arduino para permitir una mayor interactividad con el videojuego.En razón a la situación del Covid-19, este curso se migro a la modalidad virtual, lo cual permitió comprobar la posibilidad de dictar este curso de forma virtual y realizar una comparación con los resultados de este, pero en modalidad presencial. Si bien el mayor reto fue el seguimiento del avance de los desarrollos en Arduino, los resultados finales fueron muy similares en ambas modalidades. Adicionalmente, es importante resaltar el interés desarrollado por los estudiantes en la creación de estos videojuegos, en donde fue necesario que investigaran sobre un tema atípico en la formación de ingenieros de sistemas, pero relevante para el desarrollo del país y de la humanidad.