New Microsoft PowerPoint Presentation.pptxKaliMoorthi
The document describes a proposed solution for developing smart water management systems that can dispense clean drinking water, monitor water usage and quality in real-time, and minimize water wastage. The key aspects of the proposed solution are a smart dispensing mechanism using sensors, a real-time monitoring system to track water quality and usage, a smart control system to optimize operations, reliable water sources and storage, and user-friendly features. The implementation process involves requirements gathering, design, prototyping, and full-scale deployment of the smart water fountains.
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.
IRJET- Smart Water Monitoring System for Real-Time Water Quality and Usage Mo...IRJET Journal
This document describes a proposed smart water monitoring system that uses sensors to monitor water quality parameters like flow, temperature, pH, conductivity, and oxidation reduction potential in real-time. The system aims to notify users of water quality and detect contaminants. It will also integrate a communal prepaid water metering system to monitor water usage. The system will help improve water service delivery and increase revenue collection for water providers.
Real Time River Quality Monitoring and Control System.docxsandyBS
The project aims to develop a real-time river water quality monitoring system using IoT. Sensors will monitor parameters like pH, temperature, and particle density of water. The data collected will be sent to a Raspberry Pi and stored in a cloud-based database. An alarm will trigger if any discrepancies are detected in water quality. The system allows continuous remote monitoring of river water with low power consumption and cost, providing accurate real-time assessment of water health.
Enhance Water Management with Smart Water Monitoring Systems.pdfeleasemashniti579
Investing in a smart water monitoring system is a strategic move towards efficient water management, cost savings, and environmental stewardship. Embrace the power of technology to optimize your water resources and create a more sustainable future.
ONLINE MONITORING OF DISTRIBUTION SYSTEMmitesh patel
This document discusses the benefits of online monitoring of water distribution networks. Municipalities face challenges in providing safe drinking water 24/7 to consumers from increasingly large and complex distribution systems. Online monitoring can help utilities reduce water and energy losses, improve operational efficiency, optimize supply, and aid in network planning. Some key benefits of online monitoring include water savings, energy savings, improved operational visibility, damage prevention, and early detection of network issues and quality problems. The document outlines important water quality parameters to monitor, such as chlorine residual and E. coli, as well as methods for sensor installation and selecting monitoring locations. Online monitoring provides results faster than conventional techniques and increases consumer confidence through continuous, real-time monitoring.
ICSEIET23 Paper_Id_655.pptx paper publishRonaldoMantis
This document describes the development and implementation of a water quality monitoring system for the Ganga River. The system uses sensors to continuously monitor key water quality parameters like pH, temperature, dissolved oxygen and conductivity. The sensor data is wirelessly transmitted to a centralized database in real-time. The system enables real-time monitoring of water quality, early detection of issues, and ensures water meets WHO standards for drinking water. It was found to be effective for improved water management and environmental sustainability.
IRJET- Software Sensor for Potable Water Quality through Qualitative and ...IRJET Journal
This document describes a software-based water quality monitoring system using sensors and the Internet of Things (IoT). The system aims to remotely monitor water quality parameters like pH levels and gas concentration in real-time to detect pollution. Sensors placed in overhead water tanks measure these parameters and send the data via a microcontroller and GSM module to an online database. Users can access this data through a webpage to monitor water quality without manual checks. The system seeks to efficiently manage water resources and ensure a continuous supply of clean water by enabling automatic real-time pollution detection and alerts.
New Microsoft PowerPoint Presentation.pptxKaliMoorthi
The document describes a proposed solution for developing smart water management systems that can dispense clean drinking water, monitor water usage and quality in real-time, and minimize water wastage. The key aspects of the proposed solution are a smart dispensing mechanism using sensors, a real-time monitoring system to track water quality and usage, a smart control system to optimize operations, reliable water sources and storage, and user-friendly features. The implementation process involves requirements gathering, design, prototyping, and full-scale deployment of the smart water fountains.
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.
IRJET- Smart Water Monitoring System for Real-Time Water Quality and Usage Mo...IRJET Journal
This document describes a proposed smart water monitoring system that uses sensors to monitor water quality parameters like flow, temperature, pH, conductivity, and oxidation reduction potential in real-time. The system aims to notify users of water quality and detect contaminants. It will also integrate a communal prepaid water metering system to monitor water usage. The system will help improve water service delivery and increase revenue collection for water providers.
Real Time River Quality Monitoring and Control System.docxsandyBS
The project aims to develop a real-time river water quality monitoring system using IoT. Sensors will monitor parameters like pH, temperature, and particle density of water. The data collected will be sent to a Raspberry Pi and stored in a cloud-based database. An alarm will trigger if any discrepancies are detected in water quality. The system allows continuous remote monitoring of river water with low power consumption and cost, providing accurate real-time assessment of water health.
Enhance Water Management with Smart Water Monitoring Systems.pdfeleasemashniti579
Investing in a smart water monitoring system is a strategic move towards efficient water management, cost savings, and environmental stewardship. Embrace the power of technology to optimize your water resources and create a more sustainable future.
ONLINE MONITORING OF DISTRIBUTION SYSTEMmitesh patel
This document discusses the benefits of online monitoring of water distribution networks. Municipalities face challenges in providing safe drinking water 24/7 to consumers from increasingly large and complex distribution systems. Online monitoring can help utilities reduce water and energy losses, improve operational efficiency, optimize supply, and aid in network planning. Some key benefits of online monitoring include water savings, energy savings, improved operational visibility, damage prevention, and early detection of network issues and quality problems. The document outlines important water quality parameters to monitor, such as chlorine residual and E. coli, as well as methods for sensor installation and selecting monitoring locations. Online monitoring provides results faster than conventional techniques and increases consumer confidence through continuous, real-time monitoring.
ICSEIET23 Paper_Id_655.pptx paper publishRonaldoMantis
This document describes the development and implementation of a water quality monitoring system for the Ganga River. The system uses sensors to continuously monitor key water quality parameters like pH, temperature, dissolved oxygen and conductivity. The sensor data is wirelessly transmitted to a centralized database in real-time. The system enables real-time monitoring of water quality, early detection of issues, and ensures water meets WHO standards for drinking water. It was found to be effective for improved water management and environmental sustainability.
IRJET- Software Sensor for Potable Water Quality through Qualitative and ...IRJET Journal
This document describes a software-based water quality monitoring system using sensors and the Internet of Things (IoT). The system aims to remotely monitor water quality parameters like pH levels and gas concentration in real-time to detect pollution. Sensors placed in overhead water tanks measure these parameters and send the data via a microcontroller and GSM module to an online database. Users can access this data through a webpage to monitor water quality without manual checks. The system seeks to efficiently manage water resources and ensure a continuous supply of clean water by enabling automatic real-time pollution detection and alerts.
The rapid advancement in artificial intelligence and data analytics has opene...SumantaDey18
The rapid advancement in artificial intelligence and data analytics has opened new avenues for enhancing vehicle safety and management systems. Our project, titled "AI-Based Vehicle Monitoring System," aims to leverage these technologies to monitor and analyze vehicle data in real-time, thereby improving riding quality and ensuring driver safety.
The primary objective of this project is to continuously monitor various vehicle parameters such as speed, temperature, acceleration, Location, Fuel Consumption and driver health. By integrating sophisticated AI algorithms, the system can detect anomalies and potential signs of accidents early. This proactive approach not only helps in preventing unusual riding such as sudden acceleration/ declaration, over speeding, drunk driving, overload or unusual fuel consumption but also contributes to overall vehicle maintenance and performance optimization.
The system collects data through a network of sensors installed in the vehicle. This data is then transmitted to a central server where it is analyzed using machine learning models to identify patterns and potential risks. The real-time analysis enables timely interventions, providing alerts to the driver and relevant authorities in case of emergencies.
Our findings indicate that the AI-based system significantly enhances the accuracy of early accident detection, thereby reducing response times and potentially saving lives. Additionally, the system offers valuable insights into driving behavior and vehicle conditions, facilitating better decision-making for vehicle maintenance and fleet management.
Low Cost Design of Water Quality Monitoring Systemijtsrd
According to the annual rankings of world economic forum, the issue related with quality of water has increased gradually. As per the records, millions of people especially small children die due to the bad quality of water. One of the main reasons is the unavailability of cheap water quality monitoring system available at such locations. Thus, to ensure the safety of people considering water quality, a low cost design for monitoring water quality has been proposed in this paper. The system uses microcontroller, display LCD, etc. whereas the various parameters considered includes pH, turbidity, TDS and temperature of sample water. The proposed design ensures the low cost factor of the system along with displaying the quality of water. Raghav Arora | Sahil Mehta "Low Cost Design of Water Quality Monitoring System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd32913.pdf Paper Url :https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/32913/low-cost-design-of-water-quality-monitoring-system/raghav-arora
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
Interactive Water Services: The Waternomics ApproachEdward Curry
The document describes the Waternomics project, which aims to introduce demand response and accountability principles in the water sector through interactive water services. The project will develop a water information platform and tools to provide personalized water consumption and availability data to households, companies and cities. It will implement pilots in Greece, Italy and Ireland to test applications like water dashboards, prediction tools, simulations and games to increase user awareness and encourage behavioral changes. The platform uses linked open data, Internet of Things sensors and semantic technologies to integrate scattered water data sources and address challenges of data interoperability across domains.
Interactive Water Services: The Waternomics Approach (WDSA 2014)Waternomics
WATERNOMICS focuses on the development of ICT as an enabling technology to manage water as a resource, increase end-user conservation awareness and affect behavioral changes. Unique aspects of WATERNOMICS include personalized feedback about end-user water consumption, the development of systematic and standards-based water resource management systems, new sensor hardware developments, and the introduction of forecasting and fault detection diagnosis to the analysis of water consumption data. These services will be bundled into the WATERNOMICS Water Information Services Platform. This paper presents the overall architectural approach to WATERNOMICS and details the potential interactive services possible based on this novel platform.
Waternomics Methodology: A Standards based Methodology for the Implementation...Waternomics
This brochure shows the Waternomics methodology introduced as a standards based methodology for the implementation of water efficiency programs using smart water systems
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.
Irrigation Management Software - Enhancing Agricultural Efficiency and Sustai...wiseconn1
Efficient water management in agriculture is crucial for conserving water resources, reducing costs, and enhancing crop yields. It helps mitigate the impacts of climate change and ensures sustainable agricultural practices, contributing to food security and environmental protection.
Step-by-Step Comprehensive Guide to Observation Wells.pdfjamesbacklinks571
Explore reliable observation wells for accurate groundwater monitoring. Our observation wells provide crucial insights, ensuring effective environmental and geological observations.
The document describes Water For People's Re-imagine Reporting (RIR) platform, which aims to help the organization manage, visualize, and reflect on programmatic and financial data. The RIR platform brings together various types of data to display the totality of an organization's work and allow stakeholders to assess progress over time towards goals of universal water and sanitation coverage. It also facilitates annual in-country reflections to review strengths, weaknesses, and priorities. The platform utilizes online and mobile tools to flexibly report on outcomes. While still being integrated, the RIR approach aims to shift reporting away from outputs and expenditures towards long-term impact and sustainability.
Rameez Muneeb And Talha presenttation .pptxf2020019036
This document presents a business plan for a Rainwater Cleaning and Electricity Production System (RCEPS) to address Pakistan's water crisis and electricity shortage. The RCEPS captures rainfall to produce clean water and electricity. It can be installed in various locations to effectively catch rainfall. With Pakistan's abundant rainfall, the RCEPS ensures a consistent water source and electricity generation. The plan discusses the opportunity in renewable energy and water conservation. It provides financial projections over 5 years showing increasing percentage growth and outlines funding requirements and key areas of focus for production, marketing, and distribution. The management team roles and responsibilities are identified to execute the business plan and realize the technology's environmental and social benefits.
Automatic Water Level Controller for Overhead and Underground Water TankIJAEMSJORNAL
This is an Arduino-based automatic water level controller. Here, we are going to measure the water level with the help of Float switch fluid level controller sensors. The Float switch fluid level controller sensors use the principle of a “2-way switch”. The motor pump automatically turns ON when the water level is low. There is a lot of drinking water crisis in India and also in other countries. Today we need to preserve water at any cost. In India, we can see many houses as overhead tanks and they keep on overflowing water. It wastes a lot of water as well as electricity. If we do not do anything on this matter, then we can face a huge scarcity of water. In this project, implement an automatic water level controller so that we no longer have to manually switch ON and switch OFF the motor. The device automatically detects the water level, when it is low, hence triggering the relay which turns on the motor. This helps in reducing wastage of water as well as electricity. This also reduces manpower as we no longer need to operate it manually.
IRJET- IoT based Water Monitoring SystemIRJET Journal
This document describes an Internet of Things (IoT) based water monitoring system that measures water quality parameters in real-time. The system uses sensors to detect turbidity, pH, water level, and flow. It sends this sensor data to stakeholders through a web portal and mobile apps. The system aims to efficiently monitor water resources and provide timely information to facilitate quick decision making and protect public health. It consists of an ARM controller, water quality sensors, and an IoT module. The results show the system can effectively monitor water quality in real-world environments like residential societies and help optimize water management.
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- Real-Time Water Quality Monitoring SystemIRJET Journal
This document describes a real-time water quality monitoring system using sensors connected to a Raspberry Pi. The system measures temperature, pH, dissolved oxygen, and electrical conductivity of water in residential areas. It sends the sensor data to a web portal and mobile apps in graphical and tabular formats. The system aims to continuously monitor water quality and provide timely alerts to ensure safe drinking water for residents. An experimental prototype was built using a Raspberry Pi, sensors, and ThingSpeak cloud platform to visualize real-time data. The system effectively monitors key water parameters and has potential for practical use in monitoring water quality.
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 low-cost system for real-time water quality monitoring and controlling using IoT. The system uses physiochemical sensors to measure parameters like temperature, turbidity, conductivity, pH and flow. The sensor values are processed by a Raspberry Pi controller and sent to the cloud. Users can view the sensed data and control water flow through the cloud and mobile devices using IoT. The system was tested and able to successfully monitor water quality and control flow in real-time through the internet for applications like water distribution and aquafarming.
The simplified electron and muon model, Oscillating Spacetime: The Foundation...RitikBhardwaj56
Discover the Simplified Electron and Muon Model: A New Wave-Based Approach to Understanding Particles delves into a groundbreaking theory that presents electrons and muons as rotating soliton waves within oscillating spacetime. Geared towards students, researchers, and science buffs, this book breaks down complex ideas into simple explanations. It covers topics such as electron waves, temporal dynamics, and the implications of this model on particle physics. With clear illustrations and easy-to-follow explanations, readers will gain a new outlook on the universe's fundamental nature.
The rapid advancement in artificial intelligence and data analytics has opene...SumantaDey18
The rapid advancement in artificial intelligence and data analytics has opened new avenues for enhancing vehicle safety and management systems. Our project, titled "AI-Based Vehicle Monitoring System," aims to leverage these technologies to monitor and analyze vehicle data in real-time, thereby improving riding quality and ensuring driver safety.
The primary objective of this project is to continuously monitor various vehicle parameters such as speed, temperature, acceleration, Location, Fuel Consumption and driver health. By integrating sophisticated AI algorithms, the system can detect anomalies and potential signs of accidents early. This proactive approach not only helps in preventing unusual riding such as sudden acceleration/ declaration, over speeding, drunk driving, overload or unusual fuel consumption but also contributes to overall vehicle maintenance and performance optimization.
The system collects data through a network of sensors installed in the vehicle. This data is then transmitted to a central server where it is analyzed using machine learning models to identify patterns and potential risks. The real-time analysis enables timely interventions, providing alerts to the driver and relevant authorities in case of emergencies.
Our findings indicate that the AI-based system significantly enhances the accuracy of early accident detection, thereby reducing response times and potentially saving lives. Additionally, the system offers valuable insights into driving behavior and vehicle conditions, facilitating better decision-making for vehicle maintenance and fleet management.
Low Cost Design of Water Quality Monitoring Systemijtsrd
According to the annual rankings of world economic forum, the issue related with quality of water has increased gradually. As per the records, millions of people especially small children die due to the bad quality of water. One of the main reasons is the unavailability of cheap water quality monitoring system available at such locations. Thus, to ensure the safety of people considering water quality, a low cost design for monitoring water quality has been proposed in this paper. The system uses microcontroller, display LCD, etc. whereas the various parameters considered includes pH, turbidity, TDS and temperature of sample water. The proposed design ensures the low cost factor of the system along with displaying the quality of water. Raghav Arora | Sahil Mehta "Low Cost Design of Water Quality Monitoring System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd32913.pdf Paper Url :https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/32913/low-cost-design-of-water-quality-monitoring-system/raghav-arora
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
Interactive Water Services: The Waternomics ApproachEdward Curry
The document describes the Waternomics project, which aims to introduce demand response and accountability principles in the water sector through interactive water services. The project will develop a water information platform and tools to provide personalized water consumption and availability data to households, companies and cities. It will implement pilots in Greece, Italy and Ireland to test applications like water dashboards, prediction tools, simulations and games to increase user awareness and encourage behavioral changes. The platform uses linked open data, Internet of Things sensors and semantic technologies to integrate scattered water data sources and address challenges of data interoperability across domains.
Interactive Water Services: The Waternomics Approach (WDSA 2014)Waternomics
WATERNOMICS focuses on the development of ICT as an enabling technology to manage water as a resource, increase end-user conservation awareness and affect behavioral changes. Unique aspects of WATERNOMICS include personalized feedback about end-user water consumption, the development of systematic and standards-based water resource management systems, new sensor hardware developments, and the introduction of forecasting and fault detection diagnosis to the analysis of water consumption data. These services will be bundled into the WATERNOMICS Water Information Services Platform. This paper presents the overall architectural approach to WATERNOMICS and details the potential interactive services possible based on this novel platform.
Waternomics Methodology: A Standards based Methodology for the Implementation...Waternomics
This brochure shows the Waternomics methodology introduced as a standards based methodology for the implementation of water efficiency programs using smart water systems
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.
Irrigation Management Software - Enhancing Agricultural Efficiency and Sustai...wiseconn1
Efficient water management in agriculture is crucial for conserving water resources, reducing costs, and enhancing crop yields. It helps mitigate the impacts of climate change and ensures sustainable agricultural practices, contributing to food security and environmental protection.
Step-by-Step Comprehensive Guide to Observation Wells.pdfjamesbacklinks571
Explore reliable observation wells for accurate groundwater monitoring. Our observation wells provide crucial insights, ensuring effective environmental and geological observations.
The document describes Water For People's Re-imagine Reporting (RIR) platform, which aims to help the organization manage, visualize, and reflect on programmatic and financial data. The RIR platform brings together various types of data to display the totality of an organization's work and allow stakeholders to assess progress over time towards goals of universal water and sanitation coverage. It also facilitates annual in-country reflections to review strengths, weaknesses, and priorities. The platform utilizes online and mobile tools to flexibly report on outcomes. While still being integrated, the RIR approach aims to shift reporting away from outputs and expenditures towards long-term impact and sustainability.
Rameez Muneeb And Talha presenttation .pptxf2020019036
This document presents a business plan for a Rainwater Cleaning and Electricity Production System (RCEPS) to address Pakistan's water crisis and electricity shortage. The RCEPS captures rainfall to produce clean water and electricity. It can be installed in various locations to effectively catch rainfall. With Pakistan's abundant rainfall, the RCEPS ensures a consistent water source and electricity generation. The plan discusses the opportunity in renewable energy and water conservation. It provides financial projections over 5 years showing increasing percentage growth and outlines funding requirements and key areas of focus for production, marketing, and distribution. The management team roles and responsibilities are identified to execute the business plan and realize the technology's environmental and social benefits.
Automatic Water Level Controller for Overhead and Underground Water TankIJAEMSJORNAL
This is an Arduino-based automatic water level controller. Here, we are going to measure the water level with the help of Float switch fluid level controller sensors. The Float switch fluid level controller sensors use the principle of a “2-way switch”. The motor pump automatically turns ON when the water level is low. There is a lot of drinking water crisis in India and also in other countries. Today we need to preserve water at any cost. In India, we can see many houses as overhead tanks and they keep on overflowing water. It wastes a lot of water as well as electricity. If we do not do anything on this matter, then we can face a huge scarcity of water. In this project, implement an automatic water level controller so that we no longer have to manually switch ON and switch OFF the motor. The device automatically detects the water level, when it is low, hence triggering the relay which turns on the motor. This helps in reducing wastage of water as well as electricity. This also reduces manpower as we no longer need to operate it manually.
IRJET- IoT based Water Monitoring SystemIRJET Journal
This document describes an Internet of Things (IoT) based water monitoring system that measures water quality parameters in real-time. The system uses sensors to detect turbidity, pH, water level, and flow. It sends this sensor data to stakeholders through a web portal and mobile apps. The system aims to efficiently monitor water resources and provide timely information to facilitate quick decision making and protect public health. It consists of an ARM controller, water quality sensors, and an IoT module. The results show the system can effectively monitor water quality in real-world environments like residential societies and help optimize water management.
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- Real-Time Water Quality Monitoring SystemIRJET Journal
This document describes a real-time water quality monitoring system using sensors connected to a Raspberry Pi. The system measures temperature, pH, dissolved oxygen, and electrical conductivity of water in residential areas. It sends the sensor data to a web portal and mobile apps in graphical and tabular formats. The system aims to continuously monitor water quality and provide timely alerts to ensure safe drinking water for residents. An experimental prototype was built using a Raspberry Pi, sensors, and ThingSpeak cloud platform to visualize real-time data. The system effectively monitors key water parameters and has potential for practical use in monitoring water quality.
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 low-cost system for real-time water quality monitoring and controlling using IoT. The system uses physiochemical sensors to measure parameters like temperature, turbidity, conductivity, pH and flow. The sensor values are processed by a Raspberry Pi controller and sent to the cloud. Users can view the sensed data and control water flow through the cloud and mobile devices using IoT. The system was tested and able to successfully monitor water quality and control flow in real-time through the internet for applications like water distribution and aquafarming.
Similar to Project On Water Level Indicator for residential.pptx (20)
The simplified electron and muon model, Oscillating Spacetime: The Foundation...RitikBhardwaj56
Discover the Simplified Electron and Muon Model: A New Wave-Based Approach to Understanding Particles delves into a groundbreaking theory that presents electrons and muons as rotating soliton waves within oscillating spacetime. Geared towards students, researchers, and science buffs, this book breaks down complex ideas into simple explanations. It covers topics such as electron waves, temporal dynamics, and the implications of this model on particle physics. With clear illustrations and easy-to-follow explanations, readers will gain a new outlook on the universe's fundamental nature.
Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
it describes the bony anatomy including the femoral head , acetabulum, labrum . also discusses the capsule , ligaments . muscle that act on the hip joint and the range of motion are outlined. factors affecting hip joint stability and weight transmission through the joint are summarized.
How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
How to Manage Your Lost Opportunities in Odoo 17 CRMCeline George
Odoo 17 CRM allows us to track why we lose sales opportunities with "Lost Reasons." This helps analyze our sales process and identify areas for improvement. Here's how to configure lost reasons in Odoo 17 CRM
ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
Denis is a dynamic and results-driven Chief Information Officer (CIO) with a distinguished career spanning information systems analysis and technical project management. With a proven track record of spearheading the design and delivery of cutting-edge Information Management solutions, he has consistently elevated business operations, streamlined reporting functions, and maximized process efficiency.
Certified as an ISO/IEC 27001: Information Security Management Systems (ISMS) Lead Implementer, Data Protection Officer, and Cyber Risks Analyst, Denis brings a heightened focus on data security, privacy, and cyber resilience to every endeavor.
His expertise extends across a diverse spectrum of reporting, database, and web development applications, underpinned by an exceptional grasp of data storage and virtualization technologies. His proficiency in application testing, database administration, and data cleansing ensures seamless execution of complex projects.
What sets Denis apart is his comprehensive understanding of Business and Systems Analysis technologies, honed through involvement in all phases of the Software Development Lifecycle (SDLC). From meticulous requirements gathering to precise analysis, innovative design, rigorous development, thorough testing, and successful implementation, he has consistently delivered exceptional results.
Throughout his career, he has taken on multifaceted roles, from leading technical project management teams to owning solutions that drive operational excellence. His conscientious and proactive approach is unwavering, whether he is working independently or collaboratively within a team. His ability to connect with colleagues on a personal level underscores his commitment to fostering a harmonious and productive workplace environment.
Date: May 29, 2024
Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
-------------------------------------------------------------------------------
Find out more about ISO training and certification services
Training: ISO/IEC 27001 Information Security Management System - EN | PECB
ISO/IEC 42001 Artificial Intelligence Management System - EN | PECB
General Data Protection Regulation (GDPR) - Training Courses - EN | PECB
Webinars: https://pecb.com/webinars
Article: https://pecb.com/article
-------------------------------------------------------------------------------
For more information about PECB:
Website: https://pecb.com/
LinkedIn: https://www.linkedin.com/company/pecb/
Facebook: https://www.facebook.com/PECBInternational/
Slideshare: http://www.slideshare.net/PECBCERTIFICATION
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
Introduction to AI for Nonprofits with Tapp NetworkTechSoup
Dive into the world of AI! Experts Jon Hill and Tareq Monaur will guide you through AI's role in enhancing nonprofit websites and basic marketing strategies, making it easy to understand and apply.
हिंदी वर्णमाला पीपीटी, hindi alphabet PPT presentation, hindi varnamala PPT, Hindi Varnamala pdf, हिंदी स्वर, हिंदी व्यंजन, sikhiye hindi varnmala, dr. mulla adam ali, hindi language and literature, hindi alphabet with drawing, hindi alphabet pdf, hindi varnamala for childrens, hindi language, hindi varnamala practice for kids, https://www.drmullaadamali.com
How to Build a Module in Odoo 17 Using the Scaffold MethodCeline George
Odoo provides an option for creating a module by using a single line command. By using this command the user can make a whole structure of a module. It is very easy for a beginner to make a module. There is no need to make each file manually. This slide will show how to create a module using the scaffold method.
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
2. 1
Introduction to Water Level Indicator Project
A water level indicator is a device that helps in
monitoring and controlling the water level in
tanks or reservoirs.
This project is designed to provide a simple and
efficient solution for tracking water levels in
various applications.
By implementing this project, users can prevent
overflow or shortage of water in tanks, ensuring
efficient water management.
3. 2
Components Needed for the Project
The key components required for this project
include water sensor probes, microcontroller
unit, display unit, and power supply.
Water sensor probes are essential for detecting
the water levels accurately.
The microcontroller unit processes the sensor
data and controls the display unit accordingly.
4. 3
Working Principle of the Water Level Indicator
The water sensor probes are placed at different
levels in the tank to detect the water level.
The sensor data is sent to the microcontroller,
which interprets the information and triggers
the display to show the current water level.
Users can easily monitor the water level
displayed on the unit and take necessary actions
based on the readings.
5. 4
Setting Up the Water Level Indicator Project
Begin by connecting the water sensor probes to
the microcontroller as per the schematic
diagram.
Ensure proper calibration of the sensors to
accurately measure the water levels.
Power up the system and verify that the display
unit shows the correct water level readings.
6. 5
Applications of Water Level Indicators
Water level indicators are commonly used in
overhead tanks, sump pumps, and irrigation
systems.
These devices are crucial in industrial settings
to prevent water wastage and maintain optimal
water levels.
Homeowners can benefit from water level
indicators to avoid water overflow or shortage
in their tanks.
7. 6
Advantages of Implementing a Water Level Indicator Project
Efficient water management leading to
conservation of water resources.
Prevents water wastage and overflow in tanks
or reservoirs.
Provides real-time monitoring of water levels
for timely action.
8. 7
Challenges and Considerations
Ensuring the accuracy and reliability of the
sensor readings.
Proper maintenance of the system to avoid
malfunctions.
Compatibility with different types of tanks and
environments.
9. 8
Future Enhancements and Upgrades
Integration of wireless connectivity for remote
monitoring.
Incorporation of automated water pumping
systems based on the water level data.
Development of a mobile application for
convenient monitoring and control.
10. 9
Cost Analysis and Budgeting
Calculate the costs of components, materials,
and tools required for the project.
Consider the overall budget for the
implementation of the water level indicator
system.
Evaluate the return on investment in terms of
water savings and efficiency improvements.
11. 10
Safety Precautions and Installation Guidelines
Follow proper safety protocols while working
with electrical components.
Ensure that the system is installed in a secure
and stable location.
Regularly inspect and maintain the water level
indicator for optimal performance.
12. 11
Troubleshooting Common Issues
Check the sensor connections and wiring for
any loose connections.
Verify the power supply and ensure it is
functioning correctly.
Calibrate the sensors and adjust the settings if
inaccurate readings are observed.
13. 12
Case Study: Implementing a Water Level Indicator in a
Residential Setting
Describe a scenario where a homeowner installs
a water level indicator in their overhead tank.
Discuss the benefits and challenges faced
during the installation process.
Highlight the improved water management and
efficiency achieved post-implementation.
14. 13
Environmental Impact of Water Level Indicators
By reducing water wastage and promoting
efficient usage, these devices contribute to
water conservation efforts.
Preventing water overflow can also help in
mitigating water pollution and soil erosion.
Incorporating sustainable practices through
water level indicators aligns with
environmental conservation goals.
15. 14
Regulatory Compliance and Standards
Ensure that the water level indicator project
meets relevant safety and quality standards.
Adhere to local regulations and guidelines
regarding water management systems.
Obtain necessary approvals or certifications for
the implementation of the project.
16. 15
Collaboration Opportunities with Water Management
Organizations
Partnering with water conservation groups or
NGOs to promote the use of water level
indicators.
Participate in community initiatives focused on
sustainable water management practices.
Share knowledge and experiences with other
stakeholders to enhance water conservation
efforts.
17. 16
Educational Outreach and Awareness Campaigns
Conduct workshops or training sessions to
educate individuals on the importance of water
level indicators.
Engage schools or educational institutions to
promote STEM learning through hands-on
projects like this.
Raise awareness about water conservation and
sustainable practices through social media
campaigns.
18. 17
Project Impact and Evaluation Metrics
Measure the effectiveness of the water level
indicator project in terms of water savings and
efficiency gains.
Collect feedback from users regarding the
usability and performance of the system.
Identify areas for improvement and future
developments based on the project evaluation.
19. 18
Scaling Up the Project for Larger Applications
Explore opportunities to deploy water level
indicators in commercial buildings, industries,
and agricultural settings.
Customize the system to meet the specific
requirements of different applications and
environments.
Collaborate with stakeholders to implement
large-scale water management solutions using
these indicators.
20. 19
Public Benefits and Social Impact
Enhancing access to clean water through
improved water management practices.
Empowering communities to take control of
their water resources and promote
sustainability.
Contributing to the overall well-being of
society by conserving a vital resource like
water.
21. 20
Conclusion and Call to Action
Summarize the key points discussed in the
presentation regarding the water level indicator
project.
Encourage individuals, organizations, and
policymakers to adopt similar projects for
sustainable water management.
Emphasize the importance of collective action
in safeguarding our water resources for future
generations.
22. 21
References
Insert citations and references for the
information presented in the slides following
appropriate formatting guidelines.
Your second bullet
Your third bullet