Instrumentation Project
RHVAC Department - Bandung state Polytechnic
2A - group 3
- Ade Herdiana (151611001)
- Rizkya Nadila (151611026)
- Yossa Fariz R (151611031)
more info : rizkyanadilas@gmail.com
Monitoring and Automatic Nutrient for Hydroponik Plant Using Ultrasonic SensorAde Herdiana
Instrumentation Project
RHVAC Department - Bandung state Polytechnic
2A - group 3
- Ade Herdiana (151611001)
- Rizkya Nadila (151611026)
- Yossa Fariz R (151611031)
more info : ade.herdiana99@gmail.com
Monitoring and Automatic Nutrient for Hydroponik Plant Base On Microcontrolle...Yossa F Ramadhan
Instrumentation Project
RHVAC Department - Bandung state Polytechnic
2A - group 3
- Yossa Fariz R (151611031)
- Ade Herdiana (151611001)
- Rizkya Nadila (151611026)
more info : yossafariz97@gmail.com
This document summarizes a student project to create a smart farm soil moisture detection system using a Raspberry Pi. The project aims to monitor soil moisture levels locally on an LCD screen or remotely via online dashboards. Key components include a soil moisture sensor, analog to digital converter, Raspberry Pi, and software to read sensor values and display them. The system will send daily emails if moisture drops below a threshold and has potential for automating watering based on soil conditions.
Drip irrigation automation using arduino unoPavan Surya
This document discusses using an Arduino system for drip irrigation. It begins with an overview of drip irrigation and its goal of placing water directly in plant root zones to minimize evaporation. The system uses an Arduino Uno microcontroller along with a moisture sensor to measure soil moisture and a flow meter to control water flow. It provides a block diagram of the components. Advantages of drip irrigation include minimizing fertilizer and nutrient loss, lessening soil erosion, and allowing use of non-potable water. The conclusion discusses how this project can help farmers irrigate more efficiently to minimize water use and pollution as supplies become scarce.
If you like my presentation then LIke it Follow for more nice presentations
In this presentation I try to clear that how to connect arduino with soil sensor.
This document proposes an automatic water irrigation system as a minor project. It aims to start and stop irrigation through supply channels and reduce water wastage and labor costs. The system uses a microcontroller, motor driver circuit, and soil moisture sensor. It senses soil moisture and compares it to a reference voltage. If dry, it signals the microcontroller to turn on the motor and pump water. Literature on irrigation system components is reviewed. Expected outcomes are avoiding plant dehydration through efficient watering with less labor.
This document describes an automatic plant watering system that uses sensors like soil moisture, humidity, light, and ultrasonic sensors along with an Arduino board to control water pumps, sprinklers, lights, and fans without human intervention. The system works by sensing soil moisture and humidity levels and turning on water pumps when levels drop below a threshold. It also controls lights and fans based on light and humidity readings. An LCD display shows sensor values and system status while a GSM module sends status messages to users. The automatic system aims to efficiently water plants and save water compared to manual methods.
Provide the right amount of water, at the right time, right place and right time. Leads to shared water resource, water conservation and minimal wastage. IoT and Cloud based monitoring and control
Monitoring and Automatic Nutrient for Hydroponik Plant Using Ultrasonic SensorAde Herdiana
Instrumentation Project
RHVAC Department - Bandung state Polytechnic
2A - group 3
- Ade Herdiana (151611001)
- Rizkya Nadila (151611026)
- Yossa Fariz R (151611031)
more info : ade.herdiana99@gmail.com
Monitoring and Automatic Nutrient for Hydroponik Plant Base On Microcontrolle...Yossa F Ramadhan
Instrumentation Project
RHVAC Department - Bandung state Polytechnic
2A - group 3
- Yossa Fariz R (151611031)
- Ade Herdiana (151611001)
- Rizkya Nadila (151611026)
more info : yossafariz97@gmail.com
This document summarizes a student project to create a smart farm soil moisture detection system using a Raspberry Pi. The project aims to monitor soil moisture levels locally on an LCD screen or remotely via online dashboards. Key components include a soil moisture sensor, analog to digital converter, Raspberry Pi, and software to read sensor values and display them. The system will send daily emails if moisture drops below a threshold and has potential for automating watering based on soil conditions.
Drip irrigation automation using arduino unoPavan Surya
This document discusses using an Arduino system for drip irrigation. It begins with an overview of drip irrigation and its goal of placing water directly in plant root zones to minimize evaporation. The system uses an Arduino Uno microcontroller along with a moisture sensor to measure soil moisture and a flow meter to control water flow. It provides a block diagram of the components. Advantages of drip irrigation include minimizing fertilizer and nutrient loss, lessening soil erosion, and allowing use of non-potable water. The conclusion discusses how this project can help farmers irrigate more efficiently to minimize water use and pollution as supplies become scarce.
If you like my presentation then LIke it Follow for more nice presentations
In this presentation I try to clear that how to connect arduino with soil sensor.
This document proposes an automatic water irrigation system as a minor project. It aims to start and stop irrigation through supply channels and reduce water wastage and labor costs. The system uses a microcontroller, motor driver circuit, and soil moisture sensor. It senses soil moisture and compares it to a reference voltage. If dry, it signals the microcontroller to turn on the motor and pump water. Literature on irrigation system components is reviewed. Expected outcomes are avoiding plant dehydration through efficient watering with less labor.
This document describes an automatic plant watering system that uses sensors like soil moisture, humidity, light, and ultrasonic sensors along with an Arduino board to control water pumps, sprinklers, lights, and fans without human intervention. The system works by sensing soil moisture and humidity levels and turning on water pumps when levels drop below a threshold. It also controls lights and fans based on light and humidity readings. An LCD display shows sensor values and system status while a GSM module sends status messages to users. The automatic system aims to efficiently water plants and save water compared to manual methods.
Provide the right amount of water, at the right time, right place and right time. Leads to shared water resource, water conservation and minimal wastage. IoT and Cloud based monitoring and control
Automatic Plant Fertilization, Base On Soil Humidity Utilising YL-69 SensorTito Riyanto
1. The document describes an instrumentation project to create an automatic plant fertilization system based on soil humidity using an Arduino microcontroller and YL-69 sensor.
2. The system monitors soil humidity levels and automatically activates a pump to supply fertilizer when the soil is dry, as indicated by humidity levels below a threshold.
3. The project details the components, schematic, program, prototype, and trial data to automatically control fertilization based on soil humidity measurements.
The document proposes an automated plant irrigation system called Smart Plant that monitors environmental parameters like humidity, light, and soil pH using sensors. It uses this sensor data to determine when plants need water and automatically irrigates them through a connected water tap. A mobile app and integration with Google Assistant allows users to monitor the system and plant status remotely. The system is built using an STM32 WiFi board connected to various sensors and a step motor water tap, drawing irrigation rules from a database of plant needs.
Smart Plant is a device that automates plant irrigation using sensors to monitor humidity, light, and other parameters in real time. It notifies the user via their smartphone about the status of their plants. The device aims to save water and money by only watering plants when necessary. It integrates with Google Assistant for voice commands and viewing statistics. The goal is to keep all plants healthy with customized care.
IRJET- IOT based Agriculture System using NodeMCUIRJET Journal
This document describes an IoT-based smart agriculture system using NodeMCU. The system monitors soil properties like temperature, humidity, and moisture levels using sensors and sends the data to NodeMCU. NodeMCU acts as both a microcontroller and server to control operations remotely. The system aims to automate watering based on soil moisture levels to avoid water wastage. It allows monitoring and controlling the farm from anywhere using a mobile or web application. Experimental results show the system can successfully monitor sensor values and automatically control a motor to irrigate fields based on moisture levels without human presence. This smart agriculture system using IoT has potential to improve efficiency in irrigation management.
This document discusses several automatic gardening projects that use sensors and microcontrollers like Arduino to monitor and control garden conditions. It describes Garduino, which connects plants and humans through technology, and Growerbot, a social gardening assistant. The document then provides instructions and links for building an automatic gardening system using an Arduino Nano, sensors for soil moisture, temperature, humidity and light, and actuators like a water pump, grow light and fan.
This document describes an Arduino-based automatic watering plant system that uses sensors to more simply and conveniently irrigate plants. The system uses a moisture sensor to detect soil dryness, a temperature sensor to monitor temperature, and an LDR sensor to measure light intensity. It displays sensor readings on an LCD and automatically controls a fan, water pump, and LED lights based on the sensor values to irrigate plants as needed without manual labor. The system aims to help farmers more easily irrigate fields and gardens.
it is a prototype arduino based auto irrigation system which turns on the pump while the field is dry. it uses soil moisture sensor to detect the amount of soil moisture content. As the system is arduino based it uses an arduino software which can be downloaded from https://www.arduino.cc/en/Main/Software
Automated irrigation system based on soil moisture using arduino boardjournalBEEI
In recent years, the best system of irrigation is studied by reducing the wasted amount of water and electricity. Automatic irrigation is the use of a device to operate irrigation structures so the change of flow of water from one bay, or set of bays, to another can occur in the absence of the irrigator. In this work, automatic control system of solar irrigation implemented practically using Arduino board. This photovoltaic (PV) system is applied in the garden of Engineering Technical College- Mosul (city in Iraq). PV system can be adjusted by many regions in Iraq where it planned to connect on small part of land. Irrigation process is controlled depending on moisture sensor that connected to sense the soil moisture and giving data to Arduino read pin. According to the program that uploaded to Arduino, DC pump can be controlled as ON-state or OFF-state as respect to the soil moisture percentage ratio. Finally, the practical results are approximately similar to that obtained from proteus Arduino simulator.
This document describes a smart plant pot system that can automatically care for plants without human intervention. The system uses various sensors like soil moisture and light sensors, along with an Arduino microcontroller and motors, to move the plant pot to locations with optimal sunlight and water the plant when needed. It can send status updates to the owner via an IoT platform. The goal is to reduce the time and effort required for plant care while keeping plants healthy. The system moves the pot to areas with most sunlight, waters it when the soil is dry, and alerts owners when water tanks are empty.
Automated irrigation system based on soil moisture using arduinoVishal Nagar
Automated irrigation system based on soil moisture using arduino
More Details: Contact me 9982228229
www.roofurja.com
vishalnagarcool.blogspot.com
https://www.youtube.com/watch?v=utHRD4B8BxQ
This document describes the design and implementation of an automated aquarium system called AQUA-TRONICS. The system aims to automate tasks like temperature control, lighting, feeding, and water changes to make aquarium maintenance easier. Sensors monitor water conditions and a microcontroller sends commands to actuators like heaters, feeders, and pumps to maintain ideal parameters. Test results showed the system could successfully control temperature, feed fish daily, and change water when turbidity increased to prevent harming the fish. The automated system addresses common problems faced by aquarium caretakers and provides a low-cost, efficient solution.
IOT BASED SMART IRRIGATION SYSTEM BY EXPLOITING DISTRIBUTED SENSORIAL NETWORK IJCSEA Journal
In this research the Internet of Things (IoT) based smart irrigation system is developed for large scale
farming to ensure appropriate water management as well as to minimize unnecessary water utilization.
This system can control water wastage for irrigation purpose by using wireless sensor network (WSN) and
IoT. Each WSN node contains a unit of combined sensors which has been made by several external sensors
such as soil moisture, soil pH, and temperature sensor along with Node MCU for data transmission in the
cloud. Other nodes are distributed in the field to collect field data for different positions and this
information is sent to the server. Data processing and analysis are performed according to the proposed
algorithm. Obtained result as well as weather forecasting report is checked for three days from a
developed android app. The accomplished result is sent to the farmers through SMS; depending upon the
SMS, farmers take necessary steps for watering or not in the crops field through IoT. Using the particular
sensors in this system along with microcontroller board plays an important aspect for bringing automation
for a particular model. In this work wireless sensor technology in irrigation purposes can show the
direction to the rural farming community to replace some of the traditional techniques.
This is a presentation about automatic irrigation system. A technological irrigation. This presentation features about the types, Advantages & Dis-Advantages, Pictures, Drip and Sprinkler Systems, Common in both, The structure of the system and its usage
Arduino Automatic Watering System Plants Sprinkler Using IoTPRAVEEN KANSARI
In this project Arduino Automatic Watering System Plants Sprinkler using IoT, the watering system is automatic using the Arduino Uno board and gets the information about plants and moisture of the soil in Gmail, Twitter and Facebook. In here, two types of programming languages are used which are Embedded C and Python programming. The Embedded C is used for the arduino for automate the watering system of the plants and other language Python is used for sending status of the plants and soil moisture to the Gmail and also IFTTT is used for getting data in Twitter and Facebook. We get data of the moisture sensor in our Gmail, Twitter and Facebook account using the Python code. The data or information is value of the serial monitor of the arduino as the resistivity of soil moisture with the status of plant as a message.
Automatic Irrigation System is a prototype for a system of irrigation or watering automatically based on the Arduino microcontroller integrated with proximity sensors (Ultrasonic Sensor), the DC motor and the pump using LED indicator lights.
Made by :
Andika Jamal Nurganda 151611004
Putri Sintia Sari 151611021
Rizki Verdian 151611025
Refrigeration and Air Conditioning Engineering
Polytechnic State of Bandung
2016
Design Development of Water Monitoring Systems by Using Arduino and SensorsSai Bhaskar Reddy Nakka
The document discusses the design and development of a water monitoring system using various sensors. It begins with an acknowledgment section thanking those involved in the project. It then provides an abstract that outlines the need for effective water management and monitoring. The document goes on to discuss different types of sensors that can be used for monitoring water levels, soil moisture, and temperature/humidity. It describes contact sensors like soil moisture sensors and non-contact sensors like ultrasonic sensors. It also discusses the arduino processing platform and components like the GSM module for data transmission. The document appears to provide details on setting up water monitoring systems using the various sensors connected to an arduino.
IRJET- Desalination of Sea Water using Solar EnergyIRJET Journal
This document discusses using solar energy to desalinate sea water. It describes two types of solar desalination systems - direct and indirect. Direct systems combine solar energy collection and desalination in one process, like solar distillation using a solar still. Indirect systems have two subsystems, one for solar collection (using solar collectors or photovoltaics) and one for desalination (any conventional process). The document then discusses a project that uses an Arduino, sensors, and induction heating powered by solar panels to distill sea water through evaporation and condensation. It concludes some combinations of renewable energy and desalination technologies like thermal collectors with evaporation processes show promise.
The document is a project report on monitoring and controlling the environment of a greenhouse called "The Project GreenBee". It was submitted by 4 students under the guidance of Er. Vivek Pandey of the Electrical and Electronics Engineering department of Bharat Institute of Technology, Meerut. The report introduces the current scenario of greenhouse automation in India, identifies problems with existing systems, and proposes a microcontroller-based model to automate greenhouse monitoring and control using sensors, an analog-to-digital converter, a microcontroller, and actuators.
Monitoring and Automatic Watering Based on Microcontroller Arduino Uno Using ...Ayudya Maulidiani Rachman
This document describes the design of an automatic plant watering system using an Arduino Uno microcontroller and soil moisture sensor. The system monitors soil moisture levels and automatically waters plants when the soil is dry. It includes a soil moisture sensor, pump, LEDs, buzzer and LCD to measure and display soil moisture levels. The system aims to simplify the watering process and keep soil moisture at appropriate levels for optimal plant growth. It works by measuring soil moisture and controlling the pump based on dry, humid or wet soil conditions.
Automatic Plant Fertilization, Base On Soil Humidity Utilising YL-69 SensorTito Riyanto
1. The document describes an instrumentation project to create an automatic plant fertilization system based on soil humidity using an Arduino microcontroller and YL-69 sensor.
2. The system monitors soil humidity levels and automatically activates a pump to supply fertilizer when the soil is dry, as indicated by humidity levels below a threshold.
3. The project details the components, schematic, program, prototype, and trial data to automatically control fertilization based on soil humidity measurements.
The document proposes an automated plant irrigation system called Smart Plant that monitors environmental parameters like humidity, light, and soil pH using sensors. It uses this sensor data to determine when plants need water and automatically irrigates them through a connected water tap. A mobile app and integration with Google Assistant allows users to monitor the system and plant status remotely. The system is built using an STM32 WiFi board connected to various sensors and a step motor water tap, drawing irrigation rules from a database of plant needs.
Smart Plant is a device that automates plant irrigation using sensors to monitor humidity, light, and other parameters in real time. It notifies the user via their smartphone about the status of their plants. The device aims to save water and money by only watering plants when necessary. It integrates with Google Assistant for voice commands and viewing statistics. The goal is to keep all plants healthy with customized care.
IRJET- IOT based Agriculture System using NodeMCUIRJET Journal
This document describes an IoT-based smart agriculture system using NodeMCU. The system monitors soil properties like temperature, humidity, and moisture levels using sensors and sends the data to NodeMCU. NodeMCU acts as both a microcontroller and server to control operations remotely. The system aims to automate watering based on soil moisture levels to avoid water wastage. It allows monitoring and controlling the farm from anywhere using a mobile or web application. Experimental results show the system can successfully monitor sensor values and automatically control a motor to irrigate fields based on moisture levels without human presence. This smart agriculture system using IoT has potential to improve efficiency in irrigation management.
This document discusses several automatic gardening projects that use sensors and microcontrollers like Arduino to monitor and control garden conditions. It describes Garduino, which connects plants and humans through technology, and Growerbot, a social gardening assistant. The document then provides instructions and links for building an automatic gardening system using an Arduino Nano, sensors for soil moisture, temperature, humidity and light, and actuators like a water pump, grow light and fan.
This document describes an Arduino-based automatic watering plant system that uses sensors to more simply and conveniently irrigate plants. The system uses a moisture sensor to detect soil dryness, a temperature sensor to monitor temperature, and an LDR sensor to measure light intensity. It displays sensor readings on an LCD and automatically controls a fan, water pump, and LED lights based on the sensor values to irrigate plants as needed without manual labor. The system aims to help farmers more easily irrigate fields and gardens.
it is a prototype arduino based auto irrigation system which turns on the pump while the field is dry. it uses soil moisture sensor to detect the amount of soil moisture content. As the system is arduino based it uses an arduino software which can be downloaded from https://www.arduino.cc/en/Main/Software
Automated irrigation system based on soil moisture using arduino boardjournalBEEI
In recent years, the best system of irrigation is studied by reducing the wasted amount of water and electricity. Automatic irrigation is the use of a device to operate irrigation structures so the change of flow of water from one bay, or set of bays, to another can occur in the absence of the irrigator. In this work, automatic control system of solar irrigation implemented practically using Arduino board. This photovoltaic (PV) system is applied in the garden of Engineering Technical College- Mosul (city in Iraq). PV system can be adjusted by many regions in Iraq where it planned to connect on small part of land. Irrigation process is controlled depending on moisture sensor that connected to sense the soil moisture and giving data to Arduino read pin. According to the program that uploaded to Arduino, DC pump can be controlled as ON-state or OFF-state as respect to the soil moisture percentage ratio. Finally, the practical results are approximately similar to that obtained from proteus Arduino simulator.
This document describes a smart plant pot system that can automatically care for plants without human intervention. The system uses various sensors like soil moisture and light sensors, along with an Arduino microcontroller and motors, to move the plant pot to locations with optimal sunlight and water the plant when needed. It can send status updates to the owner via an IoT platform. The goal is to reduce the time and effort required for plant care while keeping plants healthy. The system moves the pot to areas with most sunlight, waters it when the soil is dry, and alerts owners when water tanks are empty.
Automated irrigation system based on soil moisture using arduinoVishal Nagar
Automated irrigation system based on soil moisture using arduino
More Details: Contact me 9982228229
www.roofurja.com
vishalnagarcool.blogspot.com
https://www.youtube.com/watch?v=utHRD4B8BxQ
This document describes the design and implementation of an automated aquarium system called AQUA-TRONICS. The system aims to automate tasks like temperature control, lighting, feeding, and water changes to make aquarium maintenance easier. Sensors monitor water conditions and a microcontroller sends commands to actuators like heaters, feeders, and pumps to maintain ideal parameters. Test results showed the system could successfully control temperature, feed fish daily, and change water when turbidity increased to prevent harming the fish. The automated system addresses common problems faced by aquarium caretakers and provides a low-cost, efficient solution.
IOT BASED SMART IRRIGATION SYSTEM BY EXPLOITING DISTRIBUTED SENSORIAL NETWORK IJCSEA Journal
In this research the Internet of Things (IoT) based smart irrigation system is developed for large scale
farming to ensure appropriate water management as well as to minimize unnecessary water utilization.
This system can control water wastage for irrigation purpose by using wireless sensor network (WSN) and
IoT. Each WSN node contains a unit of combined sensors which has been made by several external sensors
such as soil moisture, soil pH, and temperature sensor along with Node MCU for data transmission in the
cloud. Other nodes are distributed in the field to collect field data for different positions and this
information is sent to the server. Data processing and analysis are performed according to the proposed
algorithm. Obtained result as well as weather forecasting report is checked for three days from a
developed android app. The accomplished result is sent to the farmers through SMS; depending upon the
SMS, farmers take necessary steps for watering or not in the crops field through IoT. Using the particular
sensors in this system along with microcontroller board plays an important aspect for bringing automation
for a particular model. In this work wireless sensor technology in irrigation purposes can show the
direction to the rural farming community to replace some of the traditional techniques.
This is a presentation about automatic irrigation system. A technological irrigation. This presentation features about the types, Advantages & Dis-Advantages, Pictures, Drip and Sprinkler Systems, Common in both, The structure of the system and its usage
Arduino Automatic Watering System Plants Sprinkler Using IoTPRAVEEN KANSARI
In this project Arduino Automatic Watering System Plants Sprinkler using IoT, the watering system is automatic using the Arduino Uno board and gets the information about plants and moisture of the soil in Gmail, Twitter and Facebook. In here, two types of programming languages are used which are Embedded C and Python programming. The Embedded C is used for the arduino for automate the watering system of the plants and other language Python is used for sending status of the plants and soil moisture to the Gmail and also IFTTT is used for getting data in Twitter and Facebook. We get data of the moisture sensor in our Gmail, Twitter and Facebook account using the Python code. The data or information is value of the serial monitor of the arduino as the resistivity of soil moisture with the status of plant as a message.
Automatic Irrigation System is a prototype for a system of irrigation or watering automatically based on the Arduino microcontroller integrated with proximity sensors (Ultrasonic Sensor), the DC motor and the pump using LED indicator lights.
Made by :
Andika Jamal Nurganda 151611004
Putri Sintia Sari 151611021
Rizki Verdian 151611025
Refrigeration and Air Conditioning Engineering
Polytechnic State of Bandung
2016
Design Development of Water Monitoring Systems by Using Arduino and SensorsSai Bhaskar Reddy Nakka
The document discusses the design and development of a water monitoring system using various sensors. It begins with an acknowledgment section thanking those involved in the project. It then provides an abstract that outlines the need for effective water management and monitoring. The document goes on to discuss different types of sensors that can be used for monitoring water levels, soil moisture, and temperature/humidity. It describes contact sensors like soil moisture sensors and non-contact sensors like ultrasonic sensors. It also discusses the arduino processing platform and components like the GSM module for data transmission. The document appears to provide details on setting up water monitoring systems using the various sensors connected to an arduino.
IRJET- Desalination of Sea Water using Solar EnergyIRJET Journal
This document discusses using solar energy to desalinate sea water. It describes two types of solar desalination systems - direct and indirect. Direct systems combine solar energy collection and desalination in one process, like solar distillation using a solar still. Indirect systems have two subsystems, one for solar collection (using solar collectors or photovoltaics) and one for desalination (any conventional process). The document then discusses a project that uses an Arduino, sensors, and induction heating powered by solar panels to distill sea water through evaporation and condensation. It concludes some combinations of renewable energy and desalination technologies like thermal collectors with evaporation processes show promise.
The document is a project report on monitoring and controlling the environment of a greenhouse called "The Project GreenBee". It was submitted by 4 students under the guidance of Er. Vivek Pandey of the Electrical and Electronics Engineering department of Bharat Institute of Technology, Meerut. The report introduces the current scenario of greenhouse automation in India, identifies problems with existing systems, and proposes a microcontroller-based model to automate greenhouse monitoring and control using sensors, an analog-to-digital converter, a microcontroller, and actuators.
Monitoring and Automatic Watering Based on Microcontroller Arduino Uno Using ...Ayudya Maulidiani Rachman
This document describes the design of an automatic plant watering system using an Arduino Uno microcontroller and soil moisture sensor. The system monitors soil moisture levels and automatically waters plants when the soil is dry. It includes a soil moisture sensor, pump, LEDs, buzzer and LCD to measure and display soil moisture levels. The system aims to simplify the watering process and keep soil moisture at appropriate levels for optimal plant growth. It works by measuring soil moisture and controlling the pump based on dry, humid or wet soil conditions.
project arduino - Nutrisi otomatis untuk hidroponikRizkya Nadila
1. Proyek ini membuat sistem kontrol dan pemberian nutrisi otomatis untuk tanaman hidroponik menggunakan Arduino Uno.
2. Sistem ini menggunakan sensor ultrasonik untuk memantau tingkat nutrisi dan pompa untuk menyalurkan nutrisi secara otomatis.
3. Buzzer akan berbunyi jika tingkat nutrisi sudah rendah untuk memberi tahu pengisian ulang.
Monitoring dan Nutrisi Otomstis untuk Tanaman Hidroponik Berbasis Mikrokontro...Yossa F Ramadhan
Instrumentation Project
Jurusn Teknik Refrigerasi dan Tata Udara - Politeknik Negeri Bandung
2A - Kelompok 3
- Yossa Fariz R (151611031)
- Ade Herdiana (151611001)
- Rizkya Nadila (151611026)
more info : yossafariz97@gmail.com
Monografi ini membahas budidaya tanaman sayuran dengan sistem hidroponik. Sistem ini memungkinkan produksi sayuran berkualitas tinggi secara terus-menerus tanpa menggunakan tanah. Prinsip utama sistem ini adalah penyediaan nutrisi seimbang dan lingkungan yang optimal bagi pertumbuhan perakaran melalui larutan nutrisi. Buku ini memberikan panduan praktis tentang unsur-unsur penting, formula nutrisi, pemilihan media dan komoditas, serta hasil
1. Hidroponik adalah metode bercocok tanam tanpa menggunakan tanah sebagai media utama, melainkan mengandalkan air dan nutrisi yang disuplai melalui sistem irigasi.
Ibu Risnani, atau yang disapa dengan panggilan akrab Ibu Riris bekerja di CV Kreatif Indah Alam yang bergerak di bidang pendampingan masyarakat, pembibitan tanaman, industri kreatif, pewarna batik alami, dll. Ibu Riris menjelaskan mengenai cara bertanam hidroponik sebagai solusi dari permasalahan keterbatasan lahan di perkotaan.
AUTOMATIC IRRIGATION SYSTEM USING ARDUINO UNORizki Verdian
This Presentation explain you about Automatic Irrigation System is a prototype for a system of irrigation or watering automatically based on the Arduino microcontroller integrated with proximity sensors (Ultrasonic Sensor), the DC motor and the pump using LED indicator lights.
Made by :
Andika Jamal Nurganda 151611004
Putri Sintia Sari 151611021
Rizki Verdian 151611025
Refrigeration and Air Conditioning Engineering
Polytechnic State of Bandung
2016
Dont forget watch demonstration video in youtube
This document presents a project proposal for an IoT-based hydroponic system. It includes sections on the motivation, problem definition, literature review, software and hardware requirements, project scope, timeline, architecture, algorithms, UML diagrams, implementation, and performance analysis. The goal of the project is to design an efficient hydroponic system that uses IoT devices like Arduino to automate monitoring and control of growth conditions and increase crop yields. A wireless sensor network would collect data on factors like temperature, water levels, and pH to regulate water and nutrient delivery and lighting.
Internet of Things (IoT) Based Plant Monitoring System in an Aeroponics Verti...IRJET Journal
This document summarizes an Internet of Things (IoT) based plant monitoring system for an aeroponics vertical farming technique. It discusses using sensors like temperature, humidity, light, and pH connected to an ESP32 microcontroller to monitor and control the environment for plant growth. The system aims to maintain optimal conditions for growing plants using an aeroponics technique indoors without soil or pesticides. It provides a block diagram and flowchart of the system and describes the components used like the ESP32, sensors, LED grow lights and aeroponics watering method.
The document describes an IoT-based smart irrigation system project. The system uses sensors to measure soil moisture, temperature and water levels. It sends this sensor data to an ESP32 microcontroller which controls a water pump based on the readings and plant requirements. This allows remote monitoring and control of irrigation. The system aims to save water and labor costs while improving crop yields through more efficient irrigation management.
The document summarizes an IoT-based smart gardening system that was designed to automate gardening tasks and make gardening easier. The system uses sensors like a soil moisture sensor and temperature sensor to monitor plant conditions. It includes a microcontroller, sensors, actuators like a servo motor and sprinkler, and an LCD display. The system can automatically water plants based on soil moisture levels, open a shelter when needed, and save water and electricity compared to manual gardening.
The document describes a next generation hydroponic system for agriculture using IoT. The system aims to automate hydroponic cultivation operations using sensors to monitor temperature, humidity, water levels and light conditions. It uses an Arduino, WiFi module, sensors and actuators to control fans, lights and water pumps based on sensor readings. The system is designed to reduce manual labor, save time and improve crop health by automating nutrient delivery and environmental control in the hydroponic growth space.
This document describes a student project from Sanskrithi School of Engineering on an IoT enabled smart irrigation system with weather forecasting. The system uses soil moisture, temperature, and weather data to predict irrigation needs and control a drip irrigation system. It was guided by Dr. D. Nagaraju and presented by 5 students. The system collects sensor data wirelessly via the cloud and a web interface provides real-time insights and predictions. Initial results over 3 weeks show the system's predictions are encouraging. Future work could link the system to IoT for remote monitoring and use data logging to further optimize irrigation scheduling.
This document describes a smart water management system that monitors water quality in real-time using Internet of Things (IoT) technology. The system uses sensors to measure the pH level, total dissolved solids (TDS) content, temperature, and flow of water. An ATmega328p microcontroller collects data from the sensors. The measured values help analyze water quality parameters. The system allows users to access this water quality information remotely without visiting the location. It aims to conserve water resources through efficient monitoring and control of water usage and quality.
Home Automation Water Tank Level Control Upamanyu Ray
Using Arduino Mega (only to simplify the connections, otherwise, Uno or Nano would have sufficed) tank level control to prevent overflow and absence of water in the tank, and also to make sure that the pump does not dry run in the sump.
This document describes the design and implementation of an automated water bottle filling system. The system uses sensors, a microcontroller, motors and other electrical components to automate the bottle filling process. Bottles are moved along a conveyor belt and infrared sensors detect when each bottle reaches the filling station. A pump then fills each bottle for a set time before the conveyor moves the bottle along. The system is designed for small industries to reduce labor costs and increase productivity compared to manual bottle filling. It allows bottles to be consistently filled with the same amount of water in an efficient automated process.
This document describes a student project on inevitable aqua-culture (hydroponic farming without soil). The project aims to create an automated, counter top herb garden using a real-time clock, pH and EC sensors, nutrient solutions, and pumps to precisely control nutrients. Hydroponic farming uses less water than other methods and can achieve higher yields in smaller spaces without soil-borne pests. The conclusion states that hydroponic technology has advantages over conventional farming and can make barren areas productive.
IoT Based Water Quality Monitoring System for Smart CitiesYogeshIJTSRD
Since from the last centuries, water has been affected due to many parameters and actions done by human beings. Due to these actions drinking water becomes dangerous and harmful with increase in living population and also due to global warming and changes in natural climate. So, in upcoming generation we need safe drinking water for all living things. For these safety measures we need to first monitor the quality of the drinking water. In earlier days, people used some manual types of measurements for monitoring the water. But it takes more time and it has less efficiency. So, we need a better idea to check the quality of the water because water is more essential for all living things. By considering all these necessities, we develop a new methodology for monitoring the quality of the given water using IOT environment with low level of cost and with high efficiency. We also ensure real time data value by developing a web application using wi fi module, which can be accessed at anywhere. A. Guna Selvi | S. Vibhithra | A. John Clement Sunder "IoT Based Water Quality Monitoring System for Smart Cities" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-3 , April 2021, URL: https://www.ijtsrd.com/papers/ijtsrd40058.pdf Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/40058/iot-based-water-quality-monitoring-system-for-smart-cities/a-guna-selvi
Water Quality Measuring System Using Wireless Sensor NetworkIRJET Journal
This document describes a wireless sensor network system to monitor water quality parameters in real-time. The system uses various sensor nodes connected to a base station via an RF module. Sensors measure pH, temperature, turbidity and rainfall. Data is transmitted wirelessly and displayed on a GUI. The sensor nodes are powered by solar panels, providing an inexpensive, low-maintenance solution. The system aims to remotely monitor drinking water quality and help analyze parameters to improve water treatment.
This document describes an automated pH and EC system for hydroponic lettuce cultivation using IoT. It discusses how maintaining proper pH and EC levels is important for hydroponic plant growth but difficult to do manually for large operations. The proposed system uses sensors to measure the pH and EC levels of the nutrient solution and Arduino programming to automatically dose alkaline or acidic solutions to keep levels in the optimal range for lettuce. The system aims to reduce labor, prevent nutrient shocks, and remove human error through automatic dosing. Block diagrams and descriptions of the hardware components like the Arduino, sensors, relays and pumps used to build the prototype are provided.
This document presents an automatic hydroponic plant grow pot system. It aims to overcome obstacles to indoor plant growth like lack of sunlight, time, and space. The system uses a grow light, water pump, sensors, and an Arduino controller to automatically regulate watering, lighting, and nutrients for plant growth. It was created to help recover plant life lost to construction by enabling indoor growing with no user intervention needed. The fully automated, closed-loop system allows plants to be grown indoors using efficient hydroponics methods.
(1) The document describes an Arduino-based project to detect adulteration in liquids like oil, milk, and water. (2) It was motivated by the serious issue of adulteration in edible oils using cheap adulterants that can cause life-threatening diseases. (3) The project aims to make consumers aware of adulteration levels and risks through a system using a pH sensor, Arduino board, and GSM module to measure and send purity readings to consumers.
IOT Smart Agriculture Monitoring and Controlling final ppt agri new.pptxSagar Dahatonde Patil
The aim of this project is to improve agricultural practices by using technology to monitor and manage various aspects of farming. This includes tracking environmental conditions, resource utilization, and crop health to enhance productivity, reduce waste, and promote sustainability in agriculture.
Water quality monitoring in a smart city based on IOTMayur Rahangdale
The document describes a water quality monitoring system for smart cities using IoT. The system uses sensors to measure parameters like pH and turbidity in water samples. The sensor data is sent to a smartphone application in real-time via an Arduino board, WiFi module, and Blynk software. The smartphone app displays the sensor readings and issues alerts if water quality thresholds are exceeded. The system allows low-cost, automatic, and remote water quality monitoring to help ensure a safe drinking water supply.
IRJET- Design & Implementation of Water Quality Monitoring & Notification SystemIRJET Journal
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The document describes a major project report submitted by Tanmoy Kar on water level detection using an ultrasonic sensor. It includes a certificate signed by the project guide and department head to certify the completion of the project. The abstract provides an overview of the project which aims to explore non-contact water level detection using an ultrasonic sensor connected to an Arduino board for processing. Various components used in the project like the ultrasonic sensor, LCD display, buzzer, and Arduino are described along with their working principles and applications of the developed water level detection system.
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1. “ Monitoring and Automatic
Nutrient for Hydroponic
Plant
Based-Microcontroller
(Arduino Uno)”Presented by : Ade Herdiana
Rizkya Nadila S
Yossa Fariz R
Politeknik Negeri Bandung
2016
3. Background
In the era of globalization, technological advances and rapidly developing
science, technological progress and scientific instrumentation make the
community triggered to create a new breakthrough in solving a problem.
As students attempt to do about it is to make miniature controls and
automatic nutrients in hydroponic plant-based arduino.
4. The Purpose of making project
• Simplify the process of monitoring
• Simplify the process of providing nutrition to the plant control
• Make a miniature Arduino Uno microcontroller-based tools
• Apply the Arduino Uno with ultrasonic sensors for hydroponic plants
5. Description Project
This project uses two pumps, because the hydroponic nutrients using two
different nutrients, the pump will automatically distribute nutrients, the first
pump will pump first, then followed by the second pump. the rest of the
nutrients can be seen in the lcd, if the nutrients begin to decrease from a
predetermined threshold, the buzzer will sound as a notification indicator for
replenishment of nutrients
23. How it Work
• Put the liquid in the container nutrients nutrition
• Place the ultrasonic sensor on top of the container of nutrients
• Connect the pump hose to water tank
• Connect the power supply to the pump and arduino
• Observe what happens to the pump and lcd
24. Procedures Experiment
• Masukan nutrisi cair pada wadah nutrisi
• Tempatkan sensor Ultrasonik di atas wadah nutrisi
• Sambungkan selang pompa ke bak penampung air
• Sambungkan power supply ke pompa dan arduino
• Amati apa yang terjadi pada pompa dan lcd
27. Conclusion
This project-based work with
microcontroller Arduino Uno to
combine ultrasonic sensor, buzzer and
micro water pump that are connect to
each other. And this project was made
to facilitate the process of monitoring
residual nutrients for hydroponic plants