METODE BUDIDAYA TAUGE DALAM SMART GREEN HOUSE DENGAN SISTEM PENYIRAMAN OTOMATIS

There are many techniques to cultivate mung bean sprout, however the process requires many human involvements which can cause problems, such as forgetting to water the mung bean sprout, cutting the tail which must be cut one by one, finding the ideal location, and detecting water leakage. In this research, mung bean sprout will be grown with an automatic watering system in a Smart Green House system, which is able to monitor the mung bean sprout using technologies such as light, temperature and humidity sensors to determine the ideal place of cultivation, water level sensor to measure remaining water level in the container, and water sensor to detect water leakage from the planting medium. Arduino Mega 2560 is used as the microcontroller in this system. The sensors and components used in the system includes Light Dependent Resistor GL5506, Water Sensor Funduino, buzzer, Ultrasonic Ping HC-SR04, Humidity and Temperature Sensor DHT11, potentiometer, servo motor, relay with 12V pump, Knee and Nipple Watering System, and Fogger Head Sprayer. The system is able to cultivate mung bean sprout with length of 3-5 cm, without losing their color in the process, and can be harvested without tail.

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Perancangan Miniatur Pintu Air Otomatis Berbasis Sensor Water Level dan Arduino Uno pada Sistem Irigasi Persawahan

Jurnal Serambi Engineering ◽

10.32672/jse.v6i3.3125 ◽

2021 ◽

Vol 6 (3) ◽

Author(s):

Muhaimin Muhaimin ◽

Bengawan Alfaresi ◽

Feby Ardianto

Keyword(s):

Water Level ◽

Data Storage ◽

Water Surface ◽

Ultrasonic Sensor ◽

Irrigation Canal ◽

Sluice Gate ◽

Level Sensor ◽

Water Sensor ◽

Arduino Uno ◽

Opening And Closing

The arrangement of the floodgates for rice irrigation canals is currently still using the manual method. This is very burdensome for farmers because it requires time and energy. Therefore, we need a sluice in the irrigation canal that can be done automatically. The purpose of this research is to design a miniature sluice system that can automate the sluice gate in opening and closing the sluice gate based on the water level limit of the channel. The method used in this study is the use of Arduino Uno as data storage, a servo motor that functions as a floodgate controller, a water level sensor to open the floodgate and an ultrasonic sensor that functions to determine the water level. The results of the tool testing in the research of the miniature automatic sluice gate that has been designed, namely the automatic sluice gate will open when the water sensor at the top is exposed to water. The ultrasonic sensor will measure the distance between the sensor and the water surface to make a decision to close the floodgate. If the sensor distance with the water surface is still 14 m, then the floodgate will open 1800, if the sensor distance with the water surface is 4 cm and 14 cm, then the floodgate will open 900 and if the distance between the sensor and the water surface is 4 cm, then the floodgate will be closed.

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PENGONTROLAN KETINGGIAN AIR PADA BAK PENAMPUNG BERBASIS NODE MCU

CCIT Journal ◽

10.33050/ccit.v11i2.589 ◽

2018 ◽

Vol 11 (2) ◽

pp. 217-224

Author(s):

Indrianto Indrianto ◽

Ferry Sudarto ◽

Siti Juhriah Novianty

Keyword(s):

Natural Resources ◽

Water Level ◽

Water Use ◽

Solenoid Valve ◽

Active System ◽

Level Sensor ◽

Water Sensor ◽

And Control ◽

Control Water ◽

Water Height

This research will discuss a system designed to control water use savings. Because water is one of the natural resources of the non-biological. At this point nearly everyone save or hold water in the sump. But, sometimes the water is sure to be closed or turned off so that the water will be wasted over the limit sump. The existence of thisprototype is no more water is wasted down the drain sump over the limit. As for the circuit system used on the prototype consists of a Water Level Sensor as the water sensor, microcontroller (MCU) as Node, Relay switching as that can control the activeand non-active system running, and Solenoid Valve as a valve that cuts or close the stream when the water height is sufficient. So this system aims to control the height of the water in the sump automatically and control the use of water become more efficient

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Smart Plant Growth Control and Monitoring System for Indoor Hydroponic Farming

Journal of Engineering and Scientific Research ◽

10.23960/jesr.v1i2.11 ◽

2019 ◽

Vol 1 (2) ◽

Author(s):

Fina Supegina

Keyword(s):

Water Level ◽

Monitoring System ◽

Growth Control ◽

Set Point ◽

Water Solvent ◽

Growth Room ◽

Smart Control ◽

Level Sensor ◽

Planting Method ◽

Hydroponic Growth

Hydroponics is one of planting method that use water as a medium of plants growth, in this technique, mineral solution added into the water solvent, allowing the nutrient uptake process by the plants. Farming by hydroponic method must pay attention to the following parameters namely, temperature, humidity, the level of water needs and nutrients and also the level of sunlight need for photosynthesis process. This research used hydroponic technique in hydroponic growth room, and there is a LED growth light as an alternate of sunlight, due to this room is closed without sunlight. There are outputs displayed in monitoring system namely, temperature sensor, humidity sensor, ultrasound sensor to detect height of the plant and water level sensor to measured height of the water as a medium of the plant. Results of measured sensor in hydroponic growth room explained as the following: fan cooler worked when temperature , and humidity . Water pump worked when water level is less than 50% accordance set point. Control on LED Growth Light and LED Bulb when LDR sensor reached set point > 500 in bright condition, and < 500 in dark condition respectively. The average of Time update/received data in thing speak web is 2.4 second. Keywords: Smart Control, Hydroponic, IoT, Monitoring

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A Smart Green House Control and Management System Using IoT

Advances in Intelligent Systems and Computing - 17th International Conference on Information Technology–New Generations (ITNG 2020) ◽

10.1007/978-3-030-43020-7_86 ◽

2020 ◽

pp. 641-646

Author(s):

Abdallah Chamra ◽

Haidar Harmanani

Keyword(s):

Management System ◽

Green House ◽

Control And Management ◽

Smart Green House

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Embedded System Based Power Plant Monitoring and Controlling

Indonesian Journal of Electrical Engineering and Computer Science ◽

10.11591/ijeecs.v9.i2.pp275-278 ◽

2018 ◽

Vol 9 (2) ◽

pp. 275

Author(s):

J S Ashwin ◽

N Manoharan

Keyword(s):

Power Plant ◽

Embedded System ◽

Water Level ◽

Threshold Value ◽

Temperature Sensors ◽

Water Tank ◽

Environmental Condition ◽

The Status ◽

Level Sensor ◽

Plant Monitoring

An embedded based power plant system is used for checking the environmental condition based on different sensor. The microcontroller is fixed inside the boiler which is a turbine, to monitor the status and the information is passed through GSM. In this project we proposed the main water tank supplies number of boilers. The water level is controlled by a water level sensor, each evaporator has two channels, one is delta other one is outlet and the channels' valves are controlled by some temperature sensors composed in each package. From the GSM modem, the user will get the present status of the boiler level by sending a radiator ID number as message. When the temperature inside the boiler exceed the threshold value it will indicate as a warning to the concerned authority person to take the immediate step.

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Design a Monitoring and Control in Irrigation Systems using Arduino Wemos with the Internet of Things

Journal of Integrated and Advanced Engineering (JIAE) ◽

10.51662/jiae.v1i1.13 ◽

2021 ◽

Vol 1 (1) ◽

pp. 53-64

Author(s):

Lukman Medriavin Silalahi ◽

Setiyo Budiyanto ◽

Freddy Artadima Silaban ◽

Arif Rahman Hakim

Keyword(s):

Soil Moisture ◽

Water Level ◽

Irrigation System ◽

Ground Level ◽

Prototype System ◽

Monitoring And Control ◽

Moisture Sensor ◽

Turn On ◽

Soil Moisture Sensors ◽

Level Sensor

Irrigation door is a big issue for farmers. The factor that became a hot issue at the irrigation gate was the irresponsible attitude of the irrigation staff regarding the schedule of opening/closing the irrigation door so that it caused the rice fields to becoming dry or submerged. In this research, an automatic prototype system for irrigation system will be designed based on integrating several sensors, including water level sensors, soil moisture sensors, acidity sensors. This sensor output will be displayed on Android-based applications. The integration of communication between devices (Arduino Nano, Arduino Wemos and sensors supporting the irrigation system) is the working principle of this prototype. This device will control via an Android-based application to turn on / off the water pump, to open/close the irrigation door, check soil moisture, soil acidity in real time. The pump will automatically turn on based on the water level. This condition will be active if the water level is below 3cm above ground level. The output value will be displayed on the Android-based application screen and LCD screen. Based on the results of testing and analysis of the prototype that has been done in this research, the irrigation door will open automatically when the soil is dry. This condition occurs if the water level is less than 3 cm. The calibrated Output value, including acidity sensor, soil moisture sensor and water level sensor, will be sent to the server every 5 seconds and forwarded to an Android-based application as an output display.

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Internet-Based Flood Detection System (Iot) and Telegram Messenger Using Mcu Node and Water Level Sensor

JOURNAL OF INFORMATICS AND TELECOMMUNICATION ENGINEERING ◽

10.31289/jite.v4i1.3892 ◽

2020 ◽

Vol 4 (1) ◽

pp. 230-235

Author(s):

Novianda Nanda Nanda ◽

Rizalul Akram ◽

Liza Fitria

Keyword(s):

Water Level ◽

Early Warning ◽

High Intensity ◽

Rainy Season ◽

Early Warning System ◽

Detection System ◽

Warning System ◽

Level Sensor ◽

Flood Detection ◽

Internet Of Thing

During the rainy season, several regions in Indonesia experienced floods even to the capital of Indonesia also flooded. Some of the causes are the high intensity of continuous rain, clogged or non-smooth drainage, high tides to accommodate the flow of water from rivers, other causes such as forest destruction, shallow and full of garbage and other causes. Every flood disaster comes, often harming the residents who experience it. The late anticipation from the community and the absence of an early warning system or information that indicates that there will be a flood so that the community is not prepared to face floods that cause a lot of losses. Therefore it is necessary to have a detection system to provide early warning if floods will occur, this is very important to prevent material losses from flooded residents. From this problem the researchers designed an internet-based flood detection System of Things (IoT). This tool can later be controlled via a smartphone remotely and can send messages Telegram messenger to citizens if the detector detects a flood will occur.Keywords: Flooding, Smartphone, Telegram messenger, Internet of Thing (IoT).

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