KarIoT is the Smart water level monitoring and control system for effective water management. It enables users to control the level of water in a tank via an app or remote sensor, saving you time and money.212 characters
Smart Water Management Using IoT System - KarIoT.pdfalicealice90
The global smart water management market is developing rapidly. Discover which IoT water management solutions are driving this growth—from smart city water management and water level monitoring and management of dams to smart irrigation systems in agriculture. Check out our real-world examples.
Effective Smart water management with IoT.pdfmithranmithran1
IoT is being used heavily in water management strategies to precisely measure water usage, protect resources, and improve convenience. Most nations lack effective water resource management, which causes water shortages that are projected to affect 50% of the world's population within 4 years. The IoT-integrated smart water management system uses sensors throughout pipelines to collect data on water supply, quality, and quantity in industrial and commercial settings as well as overhead tanks, and sends this data to cloud storage to effectively save water. IoT plays a crucial role in water management and conservation efforts by enabling automated monitoring and optimization of water usage.
Smart Water Management Systems The Future of Water Monitoring Systems.pptxPlanetSmartCity
Smart water management system backed up by internet of things technology are changing future water monitoring. Such systems are redefining methods of preserving and monitoring water. This study investigates smart water management systems and the influence thereof on the people in a community, not necessarily referencing particular applications or companies.
IRJET- Advanced Water Quality Monitoring with IoTIRJET Journal
This document presents a system for advanced water quality monitoring using Internet of Things (IoT) technology. The proposed system architecture includes sensors to measure pH, water flow, and water level. An ESP8266 microcontroller processes the sensor readings and sends the data to the cloud for storage and analysis. The system aims to automatically detect changes in water quality parameters in real-time to identify potential pollutants and take appropriate actions. It seeks to develop a low-cost, efficient water quality monitoring and management system using IoT concepts.
KarIoT uses IoT technology to keep your pipes running smoothly and efficiently. We monitor the pressure and flow of your water system so you can see when it starts to get low on pressure or if there are any leaks.213 characters
5 Benefits to Avail from IoT Smart Water MetersTomJohn36
KarIoT is a new way of managing your water and energy bills. Imagine no more water meters, inaccurate readings, and high energy bills. KarIoT can measure your water use and report wirelessly back to you every time it gets.
IRJET- Smart Water Monitoring System using IoTIRJET Journal
This document presents a design for a low-cost smart water monitoring system using IoT (Internet of Things) technology. The system uses several sensors to measure water quality and quantity parameters like temperature, pH, turbidity, and water flow. An Arduino microcontroller processes the sensor data and sends it over WiFi to a cloud server for storage and analysis. The system can automatically stop water flow if a certain flow level is reached using an ultrasonic sensor. This smart water monitoring system allows users to monitor water usage and quality in real-time through a mobile or web application.
Smart Water Management Using IoT System - KarIoT.pdfalicealice90
The global smart water management market is developing rapidly. Discover which IoT water management solutions are driving this growth—from smart city water management and water level monitoring and management of dams to smart irrigation systems in agriculture. Check out our real-world examples.
Effective Smart water management with IoT.pdfmithranmithran1
IoT is being used heavily in water management strategies to precisely measure water usage, protect resources, and improve convenience. Most nations lack effective water resource management, which causes water shortages that are projected to affect 50% of the world's population within 4 years. The IoT-integrated smart water management system uses sensors throughout pipelines to collect data on water supply, quality, and quantity in industrial and commercial settings as well as overhead tanks, and sends this data to cloud storage to effectively save water. IoT plays a crucial role in water management and conservation efforts by enabling automated monitoring and optimization of water usage.
Smart Water Management Systems The Future of Water Monitoring Systems.pptxPlanetSmartCity
Smart water management system backed up by internet of things technology are changing future water monitoring. Such systems are redefining methods of preserving and monitoring water. This study investigates smart water management systems and the influence thereof on the people in a community, not necessarily referencing particular applications or companies.
IRJET- Advanced Water Quality Monitoring with IoTIRJET Journal
This document presents a system for advanced water quality monitoring using Internet of Things (IoT) technology. The proposed system architecture includes sensors to measure pH, water flow, and water level. An ESP8266 microcontroller processes the sensor readings and sends the data to the cloud for storage and analysis. The system aims to automatically detect changes in water quality parameters in real-time to identify potential pollutants and take appropriate actions. It seeks to develop a low-cost, efficient water quality monitoring and management system using IoT concepts.
KarIoT uses IoT technology to keep your pipes running smoothly and efficiently. We monitor the pressure and flow of your water system so you can see when it starts to get low on pressure or if there are any leaks.213 characters
5 Benefits to Avail from IoT Smart Water MetersTomJohn36
KarIoT is a new way of managing your water and energy bills. Imagine no more water meters, inaccurate readings, and high energy bills. KarIoT can measure your water use and report wirelessly back to you every time it gets.
IRJET- Smart Water Monitoring System using IoTIRJET Journal
This document presents a design for a low-cost smart water monitoring system using IoT (Internet of Things) technology. The system uses several sensors to measure water quality and quantity parameters like temperature, pH, turbidity, and water flow. An Arduino microcontroller processes the sensor data and sends it over WiFi to a cloud server for storage and analysis. The system can automatically stop water flow if a certain flow level is reached using an ultrasonic sensor. This smart water monitoring system allows users to monitor water usage and quality in real-time through a mobile or web application.
Water Supply Measurement and Management System Based on IoT with Water Leakag...IRJET Journal
This document presents a water supply measurement and management system based on IoT (Internet of Things) with water leakage detection. The system aims to efficiently measure, monitor, and manage water distribution through continuous monitoring and control via a central server. It comprises sensors like a water level sensor and flow sensor connected to an Arduino UNO and ESP8266 WiFi module. The sensors collect data on water levels and flow rates, which is sent to the cloud via WiFi for remote monitoring and detection of issues like overflow, overconsumption, and leakages. When a leakage is detected based on changes in flow rate readings, the location can be identified using a GPS module. This system addresses inefficiencies in existing water distribution systems and aims
The document describes a proposed smart rainwater harvesting system that uses IoT sensors to monitor water quality and levels. The system would include sensors to measure pH, water level, and water flow that send data to the cloud. Water would be collected and filtered, with the filtered water stored in tanks for household use. Sensors in the tanks would monitor various water properties in real-time. This system aims to effectively manage rainwater resources to conserve water and ensure a reliable supply.
IoT-Based Smart Water Management System- Functions and Benefits (2).pdfalicealice90
Teamforsure is the firm to choose if you're seeking for the best clone app development company. Our team consists of skilled programmers with experience in creating clone apps. For a variety of enterprises, including food delivery, taxi booking, handyman services, and rentals, we have created clone apps.
MYRESKILL IOT PoC Slide - Revenue Discovery Sdn Bhd.pptxKuhaanPro
This project proposes an aqua fishing monitoring system using IoT devices. Sensors measure water temperature, turbidity, pH, water level, and CO3 gas on a fish farm in real-time. The data is sent to an IoT analytics platform and the system provides information on normal ranges, maximums, minimums, averages, and findings. This allows farmers to avoid distress for fish and obtain optimal water monitoring data to guide growth. The system implementation resulted in a real-time smart monitoring system that collects sensor data and displays it on the analytics platform. Further biological sensors could improve accuracy but are currently expensive.
TACKLING WATER SCARCITY AND CONSERVATION IN TAIWAN, BELGIUM, SOUTH AFRICA, AN...iQHub
UnaBiz is a global IoT solutions provider that has implemented several smart water metering projects around the world to help utilities tackle water scarcity and conservation. Some of the key projects discussed are installing over 500,000 smart water meters in South Africa to detect leaks and fraud, connecting over 300,000 devices in Belgium to provide real-time consumption data, and connecting over 457,000 devices in Brazil to rapidly detect water issues. The document outlines the benefits of smart metering solutions for utilities and customers, such as reducing non-revenue water, improving demand management, and enhancing customer satisfaction.
Smart meters are a major component of eco friendly home or building. Smart metering is required for the operation of the smart homes and buildings. The benefits of smart water metering have been recognized. A powerful approach for hour by hour monitoring and metering purposes in water networks is the automatic meter infrastructure AMI . Smart metering is now an established technology which can be applied to collect, store, and distribute real time data on water usage. This paper provides a brief introduction to the smart water metering. Matthew N. O. Sadiku | Adedamola A. Omotoso | Sarhan M. Musa "Smart Water Metering" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-6 , October 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29223.pdf Paper URL: https://www.ijtsrd.com/engineering/electrical-engineering/29223/smart-water-metering/matthew-n-o-sadiku
IRJET- IoT based Smart Water Manangement SystemIRJET Journal
This document describes an IoT-based smart water management system that was developed by a group of students. The system uses sensors to monitor water flow and conductivity in real-time. It consists of an IoT device that can be installed at any water source to measure water usage. The data is transmitted to a webpage where users can view water usage and conductivity levels. The goals of the system are to prevent water waste, identify excessive usage, and ensure more equal water distribution. It aims to overcome issues with traditional water management systems like human errors, unequal supply, and illegal consumption.
Internet of Things (IoT) based Smart Water Tank Level Monitoring and Motor Pu...IRJET Journal
This document presents an Internet of Things (IoT) based system for smart water tank level monitoring and motor pump control to prevent water waste. The system uses sensors to monitor the water level in the tank. When the level drops below a threshold, users can turn on the motor pump remotely using an Android application. When the water level rises above the maximum, the motor pump can be turned off to prevent overflow. The system aims to provide real-time monitoring of water levels and remote control of the motor pump to efficiently manage water resources and prevent wastage.
An internet of things (IoT) irrigation system is challenged by several issues, such as cost, energy consumption, and data storage. This paper proposes a novel energy-efficient, cost-effective IoT system called "NewAgriCom" to monitor agricultural field water flow. NewAgriCom works with an embedded energy harvesting system, is an autonomous remote supervisory control and data acquisition (SCADA) based on a general packet radio service (GPRS) cellular network that effectively communicates irrigation field data to the Node.js server using SIM808 EVBV3.2 modem. In javascript object notation (JSON) format, data is transmitted over the hypertext transfer protocol (HTTP) protocol to the MySQL database. Then data are transferred to the proposed IoT platform, which gives us a hand to control actuators, visualise, store and download the data. NewAgriCom can significantly reduce water consumption. It can set a schedule to control water automatically at specific times in various modes, including normal, light, and deep sleep modes. It regularly provides the location, time, signal strength, and the state of actuators with the identifier of every device remotely on the IoT Platform.
IoT is enabling smart warehouses through the use of sensors, internet connectivity, and embedded processors. This allows physical devices like inventory and equipment to be monitored and controlled remotely. Some key IoT applications in warehouses include smart glasses to provide hands-free order picking instructions, autonomous mobile robots to transport inventory and reduce worker travel, and sensors to provide real-time inventory visibility and analytics. The use of IoT is helping to streamline warehouse operations, reduce costs, improve efficiency, and meet rising consumer expectations for fast delivery.
ROLE OF IOT ,SENSORS AND NANOBIOSENSORS IN AGRICULTURE.pptxarchana reddy
Role of Internet of things, sensors, biosensors in agriculture,types of sensors,Artificial intelligence is the science and engineering of making intelligent machines, especially intelligent computer programs. It is related to the similar task of using computers to understand human intelligence.
Machine learning is a branch of (AI) and computer science which focuses on the use of data and algorithms to imitate the way that humans learn, gradually improving its accuracy.
Deep learning is a subset of ML, which is essentially a neural network with three or more layers, which attempt to simulate the behavior of the human brain—though far from matching its ability—allowing it to “learn” from large amounts of data.
Pradhan Mantri Fasal Bima Yojana (PMFBY)
This is a government-sponsored crop insurance scheme that integrates multiple stakeholders on a single platform. To improve the crop sector, the government will now envisage the use of innovative technologies like AI, remote sensing imageries, and modelling tools to reduce the time lag for settling of claims of the farmers. By analysing the data collected, the scheme aims at increasing the crop insurance penetration in India by increasing farmer awareness and reducing farmer premium rates.
PM-KISAN
By leveraging the benefits of AI, the government of India has rolled out a scheme — PM-KISAN, where every farmer is going to receive Rs. 6000 annually to support their farming abilities. The government is aimed to leverage the huge amount of collected data by several agri-schemes and use the same to better target the farmer who requires the benefit of PM-KISAN.
The data will be used in creating a proper framework for farmers, along with the right policy. It will also help in converging some government projects to achieve the targeted development of farmers and the overall sector.
In a bid to push innovative technologies in agriculture secure, the government of India has also launched another initiative — AGRI-UDAAN – Food & Agribusiness accelerator 2.0 to mentor 40 agricultural startups from cities like Chandigarh, Ahmedabad, Pune, Bengaluru, Kolkata and Hyderabad, and enable them to connect with potential investors. This initiative is a six-month-programme in which shortlisted Agri startups with innovative business models will be mentored and guided to improve their operations, enhance commercialisation, improve product validation and business plan preparation, risk analysis, customer engagement, finance management, and fundraising. These shortlisted startups will also stand a chance of receiving $40,000 as funding assistanceLaunched earlier this year, the project is based out of Maharashtra — seeks to use innovative technologies to address various risks related to cultivation such as poor rains, pest attacks, etc. and to accurately predict crop yielding. The project will also use this data to inform farmers about several policy requirements including pricing, warehousing and crop
How Blockchain and IoT Decentralize Online Food Delivery Services In Smart Ci...Techugo
The shift to online delivery following the pandemic reflects the trend towards ordering food online. Trust is essential between all the leading players in the process. This includes requiring restaurants and online food delivery app development company to meet the quality requirements, provide safe and high-quality meals, and requiring them to adhere to delivery conditions. This research explores a novel approach that combines IoT and Blockchain technology with city LoRa networks to create a trusted, decentralized method for food distribution in a Smart City.
Marikina officials together with the National Disaster Risk Reduction Management Council (NDRRMC) made a way to prevent the flood casualties.
Philippine Disaster Risk Reduction Management Act
enhances the disaster preparedness and capabilities of the national government and local government units
Water Level Monitoring System using LabVIEW.
More accurate
More independent
aligned in the standards of the Flood Alert Level Monitoring in Marikina River
This document describes a proposed smart water management system that uses various sensors and an Arduino microcontroller to monitor and control water usage. The system includes flow sensors to measure water usage, water level sensors to monitor tank levels, a GSM module to send data to the cloud for storage and analysis, and a solenoid valve and relay to control water distribution. The system aims to encourage efficient water usage by tracking individual usage and allowing administrators to manage supply. It provides real-time tank level information on an LCD display and automatically shuts off water flow if usage limits are exceeded to prevent waste. Data on usage is sent to a cloud server using the GSM module for remote monitoring of supply and demand.
Integration of IoT and chatbot for aquaculture with natural language processingTELKOMNIKA JOURNAL
The development of internet of things (IoT) technology is very fast lately. One sector that can be implemented by IoT technology is the aquaculture sector. One important factor in the success of aquaculture is a good and controlled water quality condition. But the problem for the traditional aquaculture farmers is to monitor and increase the water quality quickly and efficiently. To resolve the above-mentioned problem, this paper proposes a real-time monitoring system for aquaculture and supported with chatbot assistant to facilitate the user. This system was composed of IoT system, cloud system, and chatbot system. The proposed system consists of 7 main modules: smart sensors, smart aeration system, local network system, cloud computing system, client visualization data, chatbot system, and solar powered system. The smart aeration system consists of NodeMCU, relay, and aerator. The smart sensors consist of several sensors such as dissolved oxygen, pH, temperature, and water level sensor. Natural language processing is implemented to build the chatbot system. By combining text mining processing with naive Bayes algorithm, the result shows the very good performance with high precision and recall for each class to monitor the quality of water in aquaculture sector.
IoT is revolutionizing warehouse and supply chain operations by enabling real-time visibility and data-driven decision making. Sensors, internet connectivity, and embedded processors allow physical devices to be monitored and controlled remotely. This provides opportunities to streamline operations and improve efficiency across the supply chain. Emerging technologies like smart glasses and autonomous mobile robots are being adopted in warehouses to reduce errors, increase speed, and improve worker productivity and order fulfillment. The use of IoT helps meet rising consumer expectations for fast delivery by transforming warehouses into highly efficient hubs within the smart supply chain.
IRJET - Water Distribution and Monitoring SystemIRJET Journal
This document summarizes a student project to develop an IoT-based water distribution and quality monitoring system. The system uses various sensors like ultrasonic sensors, pH sensors, and flow sensors connected to a controller to monitor water levels in tanks, measure water quality parameters, track water usage, and control water distribution via solenoid valves. The data collected is sent to a database for analysis and monitoring on an Android app. The system aims to automate water distribution, reduce water wastage, and provide online billing to customers. It allows remote monitoring of water levels and quality to improve water management efficiency.
Almost everything in your warehouse will eventually be connected to the Internet of Things (IoT), the online network that connects and exchanges data between devices, vehicles, inventory and even buildings. The Internet of Things is already starting the digital transformation of supply chains by improving efficiency, accuracy, and reducing costs. It is anticipated that many more benefits and opportunities will emerge in the future. Every supply chain business, from manufacturing to logistics, should be taking a close look at the Internet of Things now. Early adopters of IoT technologies will be better able to take a giant leap forward in their business and gain a competitive edge from this technology.
Water Level Monitoring System using IOTIRJET Journal
This document describes an Internet of Things (IoT) based water level monitoring system that uses ultrasonic sensors and a microcontroller to detect liquid levels in containers and send the data via Wi-Fi. It aims to prevent water wastage by informing users when the liquid reaches certain levels through an LCD screen or web page. The system activates a buzzer alarm when the maximum level is crossed. It allows remote monitoring of water levels to help conserve water resources.
Precision Agriculture for Water Management Using IOTrahulmonikasharma
In the territory of agriculture, proper use of irrigation is important and it is well known that irrigation by drip approach is very cost effective and efficient.Role of agriculture in the development of agricultural country is very important. The freshly come up wireless sensor network (WSN) technology has growing rapidly into distinct multi-disciplinary fields. Agriculture and farming is one of the management which have freshly switch their consideration to WSN, curious this cost adequate technology to improve its production and boost agriculture yield definitive. The outlook of this paper is to design and develop an agricultural monitoring system using wireless sensor network and IOT to enlarge the productivity and quality of farming without penetrating it for all the time manually. Temperature, humidity and water levels are the most important circumstances for the productivity, growth, and quality of plants in agriculture. The temperature, humidity and water level sensors are set up to cluster the temperature and humidity values. One of the most stimulating fields having an exotic need of decision support systems is Precision Agriculture (PA). Through sensor networks, agriculture can be associated to the IoT, with the help of this approach which provides real-time information about the lands and crops that will help farmers make right decisions. The primary influence is implementation of WSN in Precision Agriculture (PA) with the help of IoT which will enhance the usage of water, fertilizers while expand the yield of the crops and also notifications are sent to farmers mobile periodically. The farmers can able to monitor the field conditions from anywhere.
Water Supply Measurement and Management System Based on IoT with Water Leakag...IRJET Journal
This document presents a water supply measurement and management system based on IoT (Internet of Things) with water leakage detection. The system aims to efficiently measure, monitor, and manage water distribution through continuous monitoring and control via a central server. It comprises sensors like a water level sensor and flow sensor connected to an Arduino UNO and ESP8266 WiFi module. The sensors collect data on water levels and flow rates, which is sent to the cloud via WiFi for remote monitoring and detection of issues like overflow, overconsumption, and leakages. When a leakage is detected based on changes in flow rate readings, the location can be identified using a GPS module. This system addresses inefficiencies in existing water distribution systems and aims
The document describes a proposed smart rainwater harvesting system that uses IoT sensors to monitor water quality and levels. The system would include sensors to measure pH, water level, and water flow that send data to the cloud. Water would be collected and filtered, with the filtered water stored in tanks for household use. Sensors in the tanks would monitor various water properties in real-time. This system aims to effectively manage rainwater resources to conserve water and ensure a reliable supply.
IoT-Based Smart Water Management System- Functions and Benefits (2).pdfalicealice90
Teamforsure is the firm to choose if you're seeking for the best clone app development company. Our team consists of skilled programmers with experience in creating clone apps. For a variety of enterprises, including food delivery, taxi booking, handyman services, and rentals, we have created clone apps.
MYRESKILL IOT PoC Slide - Revenue Discovery Sdn Bhd.pptxKuhaanPro
This project proposes an aqua fishing monitoring system using IoT devices. Sensors measure water temperature, turbidity, pH, water level, and CO3 gas on a fish farm in real-time. The data is sent to an IoT analytics platform and the system provides information on normal ranges, maximums, minimums, averages, and findings. This allows farmers to avoid distress for fish and obtain optimal water monitoring data to guide growth. The system implementation resulted in a real-time smart monitoring system that collects sensor data and displays it on the analytics platform. Further biological sensors could improve accuracy but are currently expensive.
TACKLING WATER SCARCITY AND CONSERVATION IN TAIWAN, BELGIUM, SOUTH AFRICA, AN...iQHub
UnaBiz is a global IoT solutions provider that has implemented several smart water metering projects around the world to help utilities tackle water scarcity and conservation. Some of the key projects discussed are installing over 500,000 smart water meters in South Africa to detect leaks and fraud, connecting over 300,000 devices in Belgium to provide real-time consumption data, and connecting over 457,000 devices in Brazil to rapidly detect water issues. The document outlines the benefits of smart metering solutions for utilities and customers, such as reducing non-revenue water, improving demand management, and enhancing customer satisfaction.
Smart meters are a major component of eco friendly home or building. Smart metering is required for the operation of the smart homes and buildings. The benefits of smart water metering have been recognized. A powerful approach for hour by hour monitoring and metering purposes in water networks is the automatic meter infrastructure AMI . Smart metering is now an established technology which can be applied to collect, store, and distribute real time data on water usage. This paper provides a brief introduction to the smart water metering. Matthew N. O. Sadiku | Adedamola A. Omotoso | Sarhan M. Musa "Smart Water Metering" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-6 , October 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29223.pdf Paper URL: https://www.ijtsrd.com/engineering/electrical-engineering/29223/smart-water-metering/matthew-n-o-sadiku
IRJET- IoT based Smart Water Manangement SystemIRJET Journal
This document describes an IoT-based smart water management system that was developed by a group of students. The system uses sensors to monitor water flow and conductivity in real-time. It consists of an IoT device that can be installed at any water source to measure water usage. The data is transmitted to a webpage where users can view water usage and conductivity levels. The goals of the system are to prevent water waste, identify excessive usage, and ensure more equal water distribution. It aims to overcome issues with traditional water management systems like human errors, unequal supply, and illegal consumption.
Internet of Things (IoT) based Smart Water Tank Level Monitoring and Motor Pu...IRJET Journal
This document presents an Internet of Things (IoT) based system for smart water tank level monitoring and motor pump control to prevent water waste. The system uses sensors to monitor the water level in the tank. When the level drops below a threshold, users can turn on the motor pump remotely using an Android application. When the water level rises above the maximum, the motor pump can be turned off to prevent overflow. The system aims to provide real-time monitoring of water levels and remote control of the motor pump to efficiently manage water resources and prevent wastage.
An internet of things (IoT) irrigation system is challenged by several issues, such as cost, energy consumption, and data storage. This paper proposes a novel energy-efficient, cost-effective IoT system called "NewAgriCom" to monitor agricultural field water flow. NewAgriCom works with an embedded energy harvesting system, is an autonomous remote supervisory control and data acquisition (SCADA) based on a general packet radio service (GPRS) cellular network that effectively communicates irrigation field data to the Node.js server using SIM808 EVBV3.2 modem. In javascript object notation (JSON) format, data is transmitted over the hypertext transfer protocol (HTTP) protocol to the MySQL database. Then data are transferred to the proposed IoT platform, which gives us a hand to control actuators, visualise, store and download the data. NewAgriCom can significantly reduce water consumption. It can set a schedule to control water automatically at specific times in various modes, including normal, light, and deep sleep modes. It regularly provides the location, time, signal strength, and the state of actuators with the identifier of every device remotely on the IoT Platform.
IoT is enabling smart warehouses through the use of sensors, internet connectivity, and embedded processors. This allows physical devices like inventory and equipment to be monitored and controlled remotely. Some key IoT applications in warehouses include smart glasses to provide hands-free order picking instructions, autonomous mobile robots to transport inventory and reduce worker travel, and sensors to provide real-time inventory visibility and analytics. The use of IoT is helping to streamline warehouse operations, reduce costs, improve efficiency, and meet rising consumer expectations for fast delivery.
ROLE OF IOT ,SENSORS AND NANOBIOSENSORS IN AGRICULTURE.pptxarchana reddy
Role of Internet of things, sensors, biosensors in agriculture,types of sensors,Artificial intelligence is the science and engineering of making intelligent machines, especially intelligent computer programs. It is related to the similar task of using computers to understand human intelligence.
Machine learning is a branch of (AI) and computer science which focuses on the use of data and algorithms to imitate the way that humans learn, gradually improving its accuracy.
Deep learning is a subset of ML, which is essentially a neural network with three or more layers, which attempt to simulate the behavior of the human brain—though far from matching its ability—allowing it to “learn” from large amounts of data.
Pradhan Mantri Fasal Bima Yojana (PMFBY)
This is a government-sponsored crop insurance scheme that integrates multiple stakeholders on a single platform. To improve the crop sector, the government will now envisage the use of innovative technologies like AI, remote sensing imageries, and modelling tools to reduce the time lag for settling of claims of the farmers. By analysing the data collected, the scheme aims at increasing the crop insurance penetration in India by increasing farmer awareness and reducing farmer premium rates.
PM-KISAN
By leveraging the benefits of AI, the government of India has rolled out a scheme — PM-KISAN, where every farmer is going to receive Rs. 6000 annually to support their farming abilities. The government is aimed to leverage the huge amount of collected data by several agri-schemes and use the same to better target the farmer who requires the benefit of PM-KISAN.
The data will be used in creating a proper framework for farmers, along with the right policy. It will also help in converging some government projects to achieve the targeted development of farmers and the overall sector.
In a bid to push innovative technologies in agriculture secure, the government of India has also launched another initiative — AGRI-UDAAN – Food & Agribusiness accelerator 2.0 to mentor 40 agricultural startups from cities like Chandigarh, Ahmedabad, Pune, Bengaluru, Kolkata and Hyderabad, and enable them to connect with potential investors. This initiative is a six-month-programme in which shortlisted Agri startups with innovative business models will be mentored and guided to improve their operations, enhance commercialisation, improve product validation and business plan preparation, risk analysis, customer engagement, finance management, and fundraising. These shortlisted startups will also stand a chance of receiving $40,000 as funding assistanceLaunched earlier this year, the project is based out of Maharashtra — seeks to use innovative technologies to address various risks related to cultivation such as poor rains, pest attacks, etc. and to accurately predict crop yielding. The project will also use this data to inform farmers about several policy requirements including pricing, warehousing and crop
How Blockchain and IoT Decentralize Online Food Delivery Services In Smart Ci...Techugo
The shift to online delivery following the pandemic reflects the trend towards ordering food online. Trust is essential between all the leading players in the process. This includes requiring restaurants and online food delivery app development company to meet the quality requirements, provide safe and high-quality meals, and requiring them to adhere to delivery conditions. This research explores a novel approach that combines IoT and Blockchain technology with city LoRa networks to create a trusted, decentralized method for food distribution in a Smart City.
Marikina officials together with the National Disaster Risk Reduction Management Council (NDRRMC) made a way to prevent the flood casualties.
Philippine Disaster Risk Reduction Management Act
enhances the disaster preparedness and capabilities of the national government and local government units
Water Level Monitoring System using LabVIEW.
More accurate
More independent
aligned in the standards of the Flood Alert Level Monitoring in Marikina River
This document describes a proposed smart water management system that uses various sensors and an Arduino microcontroller to monitor and control water usage. The system includes flow sensors to measure water usage, water level sensors to monitor tank levels, a GSM module to send data to the cloud for storage and analysis, and a solenoid valve and relay to control water distribution. The system aims to encourage efficient water usage by tracking individual usage and allowing administrators to manage supply. It provides real-time tank level information on an LCD display and automatically shuts off water flow if usage limits are exceeded to prevent waste. Data on usage is sent to a cloud server using the GSM module for remote monitoring of supply and demand.
Integration of IoT and chatbot for aquaculture with natural language processingTELKOMNIKA JOURNAL
The development of internet of things (IoT) technology is very fast lately. One sector that can be implemented by IoT technology is the aquaculture sector. One important factor in the success of aquaculture is a good and controlled water quality condition. But the problem for the traditional aquaculture farmers is to monitor and increase the water quality quickly and efficiently. To resolve the above-mentioned problem, this paper proposes a real-time monitoring system for aquaculture and supported with chatbot assistant to facilitate the user. This system was composed of IoT system, cloud system, and chatbot system. The proposed system consists of 7 main modules: smart sensors, smart aeration system, local network system, cloud computing system, client visualization data, chatbot system, and solar powered system. The smart aeration system consists of NodeMCU, relay, and aerator. The smart sensors consist of several sensors such as dissolved oxygen, pH, temperature, and water level sensor. Natural language processing is implemented to build the chatbot system. By combining text mining processing with naive Bayes algorithm, the result shows the very good performance with high precision and recall for each class to monitor the quality of water in aquaculture sector.
IoT is revolutionizing warehouse and supply chain operations by enabling real-time visibility and data-driven decision making. Sensors, internet connectivity, and embedded processors allow physical devices to be monitored and controlled remotely. This provides opportunities to streamline operations and improve efficiency across the supply chain. Emerging technologies like smart glasses and autonomous mobile robots are being adopted in warehouses to reduce errors, increase speed, and improve worker productivity and order fulfillment. The use of IoT helps meet rising consumer expectations for fast delivery by transforming warehouses into highly efficient hubs within the smart supply chain.
IRJET - Water Distribution and Monitoring SystemIRJET Journal
This document summarizes a student project to develop an IoT-based water distribution and quality monitoring system. The system uses various sensors like ultrasonic sensors, pH sensors, and flow sensors connected to a controller to monitor water levels in tanks, measure water quality parameters, track water usage, and control water distribution via solenoid valves. The data collected is sent to a database for analysis and monitoring on an Android app. The system aims to automate water distribution, reduce water wastage, and provide online billing to customers. It allows remote monitoring of water levels and quality to improve water management efficiency.
Almost everything in your warehouse will eventually be connected to the Internet of Things (IoT), the online network that connects and exchanges data between devices, vehicles, inventory and even buildings. The Internet of Things is already starting the digital transformation of supply chains by improving efficiency, accuracy, and reducing costs. It is anticipated that many more benefits and opportunities will emerge in the future. Every supply chain business, from manufacturing to logistics, should be taking a close look at the Internet of Things now. Early adopters of IoT technologies will be better able to take a giant leap forward in their business and gain a competitive edge from this technology.
Water Level Monitoring System using IOTIRJET Journal
This document describes an Internet of Things (IoT) based water level monitoring system that uses ultrasonic sensors and a microcontroller to detect liquid levels in containers and send the data via Wi-Fi. It aims to prevent water wastage by informing users when the liquid reaches certain levels through an LCD screen or web page. The system activates a buzzer alarm when the maximum level is crossed. It allows remote monitoring of water levels to help conserve water resources.
Precision Agriculture for Water Management Using IOTrahulmonikasharma
In the territory of agriculture, proper use of irrigation is important and it is well known that irrigation by drip approach is very cost effective and efficient.Role of agriculture in the development of agricultural country is very important. The freshly come up wireless sensor network (WSN) technology has growing rapidly into distinct multi-disciplinary fields. Agriculture and farming is one of the management which have freshly switch their consideration to WSN, curious this cost adequate technology to improve its production and boost agriculture yield definitive. The outlook of this paper is to design and develop an agricultural monitoring system using wireless sensor network and IOT to enlarge the productivity and quality of farming without penetrating it for all the time manually. Temperature, humidity and water levels are the most important circumstances for the productivity, growth, and quality of plants in agriculture. The temperature, humidity and water level sensors are set up to cluster the temperature and humidity values. One of the most stimulating fields having an exotic need of decision support systems is Precision Agriculture (PA). Through sensor networks, agriculture can be associated to the IoT, with the help of this approach which provides real-time information about the lands and crops that will help farmers make right decisions. The primary influence is implementation of WSN in Precision Agriculture (PA) with the help of IoT which will enhance the usage of water, fertilizers while expand the yield of the crops and also notifications are sent to farmers mobile periodically. The farmers can able to monitor the field conditions from anywhere.
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Smart Water Level Monitoring & Control for Effective Water Management
1. Smart Water Level Monitoring & Control for Effective Water Management
Iot In Water
Water, being the universal solvent, a great cooler, and the world's most plentiful
resource, plays a vital part in every sector. It has many applications and uses,
ranging from cutting-edge manufacturing to commodities transportation and even
power generation.
It is not an exaggeration to state that properly managing storage has a significant
impact on the seamless operation of most operations in any company. To retain
stock and distribute it within their business's proximity, companies rely on overhead
tanks, supplies from their towns or water utilities, and their pipeline network.
Managing its stock levels and distribution, however, might be challenging without
good water level measurement and regulating equipment.
Companies can now keep a constant check on available water and control its
distribution with ease thanks to the cutting-edge technology of the Internet of Things
(IoT).
A Brief About Internet of Things:
2. The Internet of Things (IoT) is one of the most popular technologies of this decade. It
refers to a network of linked devices that communicate with one another across long
distances via the internet. The information (or data) acquired by numerous sensors
on the devices is sent to a dashboard through gateways and cloud servers. This
dashboard serves as the user's interface for accessing data.
Managers and operators in the industry use this technology to monitor and regulate
the condition of their equipment, the performance of their processes, and the overall
efficiency of their facility.
Companies may control and regulate their water demands with the help of IoT smart
water management technologies. Let's have a look at how this is done.
IoT Based Smart Water Management
Water storage and distribution are made easier by storage tanks and pipeline
networks, which are used by both manufacturing units and businesses. Companies
may view the entire apparatus on a mobile or web-powered dashboard when they
use KarIoT IoT technology with its level monitoring and smart water metering
solution.
The level and volume of liquid held in storage tanks and containers are measured
using level monitoring sensors. This level of data is then communicated in real-time
to the dashboard, allowing users to see how much data they still have.
The water flowing via the pipelines that link these tanks to the discharge locations
may also be monitored. Companies can assess the flow and pressure of water going
through these pipelines thanks to smart water meters put on them. The dashboard,
3. which allows users to follow where the water is dumped, may receive this data once
again.
Companies can get various benefits from the continuous intake of data and
monitoring capabilities that assist them to manage their water demands.
Managing Water Stock Levels: The real-time water level measurements collected by the
corporation via level sensors mounted on its storage tanks allow them to keep track
of how much water is remaining in the tanks. The amount of water accessible in the
tanks is determined based on their form and size, which aids in stock-level
maintenance.
Reducing Water Wastage: Smart water management systems that are connected with a
company's whole water distribution pipeline network assist in detecting water flow in
the pipes. This allows organizations to discover abnormalities in their water network,
such as water leaks and pipeline breaches, and take rapid action to repair the
problem.
Furthermore, because water consumption data is constantly analyzed, businesses
may assist in identifying areas where water is being wasted and then taking the
required actions to decrease waste and save money.
Improve process efficiency: Industries that rely extensively on the water for activities
such as manufacturing, fabrication, washing, or cooling might benefit from IoT
technology and its solutions. Level monitoring and smart water metering systems
based on this technology may be utilized as a part of an automation infrastructure to
automate processes, boost output rate, and detect likely faults.
Summing it Up:
The most precious natural resource is certainly water. Its uses in various residential,
commercial, and industrial settings are extremely diverse. However, there has been
a significant decrease in the availability of drinkable water, and it is past time to take
drastic measures to rectify the situation.
Industry can play a critical part in this, and Internet of Things technology may help.
Although young, this technology has already been implemented in a variety of
industries and is rapidly evolving. Saving water with the Internet of Things is an
excellent way to combine technology and resource conservation. To make things
operate wisely, you need an intelligent mind, which is why the creation of the smart
water meter and level monitoring solution is the best way to save water using the
Internet of Things.
Here are a few of the solutions' key features:
4. ● Monitoring through the web in real-time
● Modular and very scalable.
● Savings galore
● Non-revenue water data alerts
● Analytical techniques for big data