This document describes a proposed smart street light system using IoT. It begins with an abstract that outlines the goals of the system, which are to provide an efficient and energy-saving lighting system through automatic determination of lighting conditions. It then provides details on the methodology, including a description of the current manual system and expected energy savings of a smart system using various techniques like dimming and scheduling. Key components of the proposed system are described, including an LDR sensor, relay, ESP8266 module, and ThingSpeak platform. Results are presented showing estimated energy consumption and savings. The conclusion states that the automated IoT-based system can significantly save energy compared to a manual system while reducing costs and carbon emissions.
Thank you very much for checking out my presentation.
If you are a student or a faculty of an engineering college and need to create a presentation, you can contact me. Check out my profile to know how.
This project describes about a device, which measures the power consumed by our household devices, using IoT technology.
IRJET - IoT based Energy Monitoring and Management System for Smart Home usin...IRJET Journal
This document describes an IoT-based energy monitoring and management system for smart homes using renewable energy resources. The system monitors energy consumption using sensors connected to an Arduino board. It displays real-time usage data on an LCD screen and allows remote control of appliances via a web interface. Energy is provided by solar panels and batteries, with the goal of optimizing energy use and costs through automated control based on renewable availability and usage patterns.
Energy-efficient Intelligent Street Lighting SystemIRJET Journal
This document summarizes a research paper on an energy-efficient intelligent street lighting system. The proposed system combines motion sensing, light sensing, and automatic dimming control features. It uses sensors like a light dependent resistor and motion sensor along with a microcontroller and WiFi module to automatically adjust the brightness of LED street lights based on ambient light levels and detected movement. This is intended to reduce energy consumption by preventing lights from remaining on during daylight hours or when no traffic is present. The system architecture and algorithm are described and it is suggested this approach could lower costs by using less energy and extending the lifetime of the lights.
IRJET- Brainy Streets with Automatic Lighting SystemIRJET Journal
This document proposes an automatic street lighting system that uses sensors to detect vehicle and pedestrian movement and adjusts streetlight illumination accordingly to conserve energy. The system uses an Arduino microcontroller, light dependent resistors (LDRs) to detect daylight levels, and passive infrared (PIR) sensors to detect motion. When the LDR detects low light levels and a PIR sensor detects movement, the microcontroller turns on the nearest streetlights. It then adjusts the lights as the movement passes each sensor until no movement is detected, at which point the lights are turned off. The system aims to automatically control streetlights based on actual need rather than operating on a fixed schedule, which could reduce unnecessary energy usage from lights remaining on when
This document presents a design for an IoT-based smart energy meter. Key features include:
1) The energy meter measures energy consumption and transmits readings to a cloud platform via an Arduino, ESP8266 WiFi module, and ThingSpeak. This allows for automatic remote meter reading and billing.
2) Additional features include consumption thresholds that trigger alerts and automatic power cuts, helping users monitor and reduce energy usage.
3) The smart meter is intended to address issues with traditional meters like manual readings prone to errors, lack of remote monitoring, and inability to detect transmission line faults.
IRJET - IoT based Smart Monitoring in Distribution SystemIRJET Journal
This document proposes an IoT-based smart monitoring system for electricity distribution. The system uses an ESP32 module connected to a smart energy meter to monitor electricity consumption. Current and voltage data are sent to the cloud for real-time viewing by the consumer and provider. It also detects power theft using a current sensor. The system aims to reduce human errors, enable remote monitoring and control of supply, and detect unauthorized electricity usage.
IRJET- Remotely Monitoring Health of the Solar Power System using ArduinoIRJET Journal
This document describes a system to remotely monitor the health of a solar power system using Arduino. The system monitors parameters like voltage, current from the solar panels using sensors and transmits the data via ESP8266 WiFi module to a cloud server (ThingSpeak). The data is displayed on a LCD screen and can be accessed from anywhere via the internet. This allows real-time monitoring of the solar power system for performance evaluation and preventative maintenance to address any issues impacting output.
IRJET- Design and Implement Mechanism for Efficient Energy Meter using IoTIRJET Journal
This document describes a proposed smart electricity meter system using IoT. The system would automate the manual process of monthly electricity bill calculation and reading. Sensors in the electricity meter would collect real-time energy consumption data and send it wirelessly to a centralized system. This would make the billing process more accurate and efficient by eliminating human error. It could also provide load monitoring to strengthen the electricity distribution system based on usage patterns. The proposed system aims to reduce costs for utilities while providing users with more control over their electricity usage and billing.
Thank you very much for checking out my presentation.
If you are a student or a faculty of an engineering college and need to create a presentation, you can contact me. Check out my profile to know how.
This project describes about a device, which measures the power consumed by our household devices, using IoT technology.
IRJET - IoT based Energy Monitoring and Management System for Smart Home usin...IRJET Journal
This document describes an IoT-based energy monitoring and management system for smart homes using renewable energy resources. The system monitors energy consumption using sensors connected to an Arduino board. It displays real-time usage data on an LCD screen and allows remote control of appliances via a web interface. Energy is provided by solar panels and batteries, with the goal of optimizing energy use and costs through automated control based on renewable availability and usage patterns.
Energy-efficient Intelligent Street Lighting SystemIRJET Journal
This document summarizes a research paper on an energy-efficient intelligent street lighting system. The proposed system combines motion sensing, light sensing, and automatic dimming control features. It uses sensors like a light dependent resistor and motion sensor along with a microcontroller and WiFi module to automatically adjust the brightness of LED street lights based on ambient light levels and detected movement. This is intended to reduce energy consumption by preventing lights from remaining on during daylight hours or when no traffic is present. The system architecture and algorithm are described and it is suggested this approach could lower costs by using less energy and extending the lifetime of the lights.
IRJET- Brainy Streets with Automatic Lighting SystemIRJET Journal
This document proposes an automatic street lighting system that uses sensors to detect vehicle and pedestrian movement and adjusts streetlight illumination accordingly to conserve energy. The system uses an Arduino microcontroller, light dependent resistors (LDRs) to detect daylight levels, and passive infrared (PIR) sensors to detect motion. When the LDR detects low light levels and a PIR sensor detects movement, the microcontroller turns on the nearest streetlights. It then adjusts the lights as the movement passes each sensor until no movement is detected, at which point the lights are turned off. The system aims to automatically control streetlights based on actual need rather than operating on a fixed schedule, which could reduce unnecessary energy usage from lights remaining on when
This document presents a design for an IoT-based smart energy meter. Key features include:
1) The energy meter measures energy consumption and transmits readings to a cloud platform via an Arduino, ESP8266 WiFi module, and ThingSpeak. This allows for automatic remote meter reading and billing.
2) Additional features include consumption thresholds that trigger alerts and automatic power cuts, helping users monitor and reduce energy usage.
3) The smart meter is intended to address issues with traditional meters like manual readings prone to errors, lack of remote monitoring, and inability to detect transmission line faults.
IRJET - IoT based Smart Monitoring in Distribution SystemIRJET Journal
This document proposes an IoT-based smart monitoring system for electricity distribution. The system uses an ESP32 module connected to a smart energy meter to monitor electricity consumption. Current and voltage data are sent to the cloud for real-time viewing by the consumer and provider. It also detects power theft using a current sensor. The system aims to reduce human errors, enable remote monitoring and control of supply, and detect unauthorized electricity usage.
IRJET- Remotely Monitoring Health of the Solar Power System using ArduinoIRJET Journal
This document describes a system to remotely monitor the health of a solar power system using Arduino. The system monitors parameters like voltage, current from the solar panels using sensors and transmits the data via ESP8266 WiFi module to a cloud server (ThingSpeak). The data is displayed on a LCD screen and can be accessed from anywhere via the internet. This allows real-time monitoring of the solar power system for performance evaluation and preventative maintenance to address any issues impacting output.
IRJET- Design and Implement Mechanism for Efficient Energy Meter using IoTIRJET Journal
This document describes a proposed smart electricity meter system using IoT. The system would automate the manual process of monthly electricity bill calculation and reading. Sensors in the electricity meter would collect real-time energy consumption data and send it wirelessly to a centralized system. This would make the billing process more accurate and efficient by eliminating human error. It could also provide load monitoring to strengthen the electricity distribution system based on usage patterns. The proposed system aims to reduce costs for utilities while providing users with more control over their electricity usage and billing.
IRJET- IoT based Smart Electricity Meter and Billing SystemIRJET Journal
This document describes a proposed IOT-based smart electricity meter and billing system. The existing system uses manual meter reading and billing which is time-consuming and prone to errors and corruption. The proposed system uses an Arduino microcontroller connected to electricity meters and relays. Sensor data from the meters is sent wirelessly to a cloud server via WiFi/Bluetooth modules. This allows automatic meter reading and billing calculation. Users receive notifications via SMS. Unpaid bills can trigger relays to remotely disconnect power supply. The system aims to improve accuracy, prevent theft, and reduce human involvement in the metering and billing process.
IRJET- A Remotely Controlled Home Automation System for Energy SavingIRJET Journal
This document describes a remotely controlled home automation system using GSM technology. The system allows a homeowner to control appliances in their home like fans, lights and air conditioners via SMS messages from their mobile phone. A microcontroller is used to receive SMS messages through a GSM module and control the appliances using sensors like temperature, smoke and light sensors. The system aims to automate home appliances and enable remote control for energy savings purposes. Key components include a microcontroller, sensors, relays, GSM module and appliances like fans that can be turned on/off remotely using SMS commands from the homeowner's mobile phone from anywhere.
The IOT based energy meter is based on Arduino. This system eliminates the human involvement in electricity maintenance. The theft of electricity increases the costs paid by customers. Hence this system is used for the detection of theft. The energy meter is connected to the Arduino. The Arduino checks the main meter and sub meter reading. If the difference between the main meter and sub meter is occurred then the message that theft has occurred will be displayed on the LCD display as well as on the thingspeak. The comparison between the main meter and sub meter reading is used to check the theft status. Customer can be access the thingspeak from anywhere on the globe at the anytime using the consumer number. Hence the customer can be easily access their energy usage. Mrs Sandhya Shinde | Mr. Yogesh Yadav | Miss. Bharti Sontakke | Miss. Pratiksha Zapake"IoT Based Smart Energy Meter" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-6 , October 2017, URL: http://www.ijtsrd.com/papers/ijtsrd5761.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/5761/iot-based-smart-energy-meter/mrs-sandhya-shinde
IRJET- Smart Wireless Electronic Energy MeterIRJET Journal
This document describes a smart wireless electronic energy meter system that uses technologies like Arduino, GSM modules, and IoT to remotely monitor electricity consumption. The system replaces traditional energy meters by automatically sending meter readings to a cloud server via GSM. An Arduino board senses electricity parameters using sensors and displays readings on an LCD screen. When readings deviate from input values, the Arduino sends a signal to adjust settings back. This allows remote monitoring of energy usage without physical visits, preventing electricity theft and bringing transparency to billing.
Solar panel monitoring solution using IoT-Faststream TechnologiesSudipta Maity
Faststream Technologies offers an automated IOT based solar panel monitoring/troubleshooting system that allows for automated solar panel monitoring from anywhere over the internet. As part of our solution, we make use of several IoT gateways suitable for different needs, based on SoCs like STM32, ESP32, ublox, CC3200, SiliconLabs, to monitor the solar panel parameters, in turn, providing Solar Plant Insights.
Our system constantly monitors the solar panel and transmits various parameters to the Cloud over the IoT system. Here we make use of the IoT platform to transmit solar power parameters to Amazon/ Azure cloud /IOT server via the gateway (over WiFi and Ethernet). A powerful web interface allows viewing of data in meaningful formats, enabling users to make decisions.
Design and Implementation of IOT Based Smart Power Monitoring and Management ...ijesajournal
We will design a system based on WSNs and IoT technologies to manage real-time power at buildings. This system comprises of: a wireless sensor network (sensing node and base station) and a smart home gateway. A sensing node is utilized wireless sensors to measure voltage and current; to calculate power consumption of connected appliances, transmitted wirelessly to a base station via Zigbee node. A base station is designed to receive all data transmitted from the sensing node and display it through GUI available at the personal computer, with the possibility of controlling ON and OFF appliances according to consumer requirements; All of these readings will be stored at database for analysis. In addition, a smart home gateway will connect the system with internet to allow consumers to continuous monitoring and remote control the appliances via a smartphone application. The benefit of this system, that the appliances control mechanism can be done in different ways (manually, automatically, and remotely). Various household appliances were tested to verify the accuracy of the electrical parameters that measured at system and compare them with practical measurement, found the average error ratio between them (0.3%) was in voltage, (1.5%) in current, and (1.8%) in power.
Real Time Monitoring and Electro Magnetic Interference causing Data corruptionRekaNext Capital
On site, where there are motors and generators, the sensor reading are affected by Electro-Magnetic Interference. The presentation shares some Good Engineering Practices to minimize Data Corruption. Real Time Monitoring Data Quality is even more sensitive to Data Corruption as there is a huge amount of sensors per hour.
IRJET- Internet of Things (IoT) based Smart GridIRJET Journal
1) The document discusses using Internet of Things (IoT) technology to create a smart grid system that can automatically reroute power from one grid station to another if there is a fault, preventing power outages.
2) It describes how sensors would be used in the smart grid system for monitoring grid stations and transformers as well as preventing electricity theft.
3) The system aims to solve the problem of power outages occurring when a grid station fails by connecting customer loads to a backup grid station through IoT technology with a single click.
IRJET- Measuring Electricity Consumption of Appliances and Monitoring the...IRJET Journal
This document describes a system that measures electricity consumption of appliances and monitors them using the Internet of Things (IoT) and machine learning. The system uses a current sensor clamped around the main circuit breaker to monitor electricity usage. Machine learning algorithms categorize usage by appliance. Users can view consumption data and remotely control appliances through a mobile app. The system aims to reduce electricity bills by detecting unnecessary usage and notifying users.
IRJET- Iot Based Smart Energy MonitoringIRJET Journal
This document describes an IOT-based smart energy monitoring system that uses an Arduino microcontroller and ESP8266 WiFi module. The system measures energy consumption in watts using a current sensor and displays the readings on an LCD screen and online via a webpage. It allows users to remotely monitor energy usage in real-time. If energy usage exceeds a threshold, the system can detect theft. The system aims to automate meter readings, optimize energy usage, and reduce wastage by providing usage data to consumers.
1) The document discusses a GSM based power meter reading and control system that uses GSM technology to remotely read electricity meters and control home appliances.
2) Current manual meter reading is time-consuming and prone to errors. The proposed system sends daily meter readings via SMS to both users and the electricity department to generate accurate bills.
3) It also allows remote control of appliances to reduce unnecessary power consumption and save energy by monitoring power usage and controlling loads that exceed predefined limits.
IRJET- Smart Farm Fertilizer and Pesticide Prediction using IoTIRJET Journal
This document describes a smart farm system that uses IoT sensors and devices to monitor soil conditions and predict optimal fertilizer and pesticide use. The system collects data from soil moisture, temperature, humidity, and light sensors to monitor crop field conditions. An AVR microcontroller processes the sensor data and sends it over WiFi to an Android application using an ESP8266 module. The application analyzes the sensor data and provides fertilizer and pesticide predictions to optimize crop yields based on different environmental conditions. By automating fertilizer and irrigation based on real-time soil monitoring, the smart farm system aims to increase productivity while reducing waste of water and agrochemicals.
IOT Based Smart Power Management System using WSNIRJET Journal
This document summarizes a research paper on an Internet of Things (IoT)-based smart power management system using wireless sensor networks. The system uses current and voltage sensors connected to home appliances to monitor power consumption. This data is transmitted wirelessly via Zigbee protocol and monitored remotely over the internet. The system allows users to control appliances automatically, manually, or remotely via a smartphone or computer. It provides a cheaper and more efficient way for consumers to manage electricity usage and save on power bills.
IRJET - A Cyber-Physical System for Environmental Monitoring Based on IOTIRJET Journal
This document describes a cyber-physical system for environmental monitoring using IoT. The system uses sensors like temperature, humidity, smoke, wetness, light, and carbon dioxide sensors. It also uses an Arduino, ESP8266 WiFi module, and LCD display. Sensor data is collected and sent over WiFi networks. This allows remote monitoring of environmental conditions from any internet-connected device. The system provides a low-cost solution for tracking multiple environmental factors and ambient conditions from different locations.
IRJET - Compactness based Traffic Signal Monitoring SystemIRJET Journal
This document describes a compactness-based traffic signal monitoring system that uses IoT devices like IR sensors and Arduino boards. The system aims to reduce traffic congestion by monitoring vehicle density using IR sensors on roads and dynamically adjusting traffic light timing slots accordingly. It allows emergency vehicles to get priority access through the use of RFID tags. The system is designed to operate in both automatic and manual modes. It was tested and found to control traffic signals as intended based on real-time vehicle density readings from IR sensors. The proposed approach aims to provide more efficient traffic flow management compared to traditional fixed-timing traffic light systems.
IRJET- IoT based Solar Power Monitoring SystemIRJET Journal
This document proposes an IOT-based solar power monitoring system that can monitor and control a solar photovoltaic system remotely. The system uses sensors to monitor the voltage, current, and power output of solar panels. A microcontroller connects the sensors to the internet via WiFi to upload the data to a cloud server. The system also includes a sun tracking mechanism using an LDR sensor and DC motor to automatically rotate the solar panels and maximize sunlight exposure for increased efficiency. The remote monitoring capabilities allow users to view the solar panel performance from anywhere via a web interface.
IRJET- Automated Energy Metering SystemIRJET Journal
The document proposes an automated energy metering system to address issues with existing analog and digital energy metering. The system uses wireless sensors connected to each load to monitor power usage, which is sent to a controller and then to the customer and substation via wireless network. This allows customers to track daily usage on a mobile app to reduce waste, and helps identify power theft. It automates billing and payment through the app. By monitoring each appliance, it eliminates human errors in meter reading and reduces costs.
IRJET- IOT Based Residence Energy Control SystemIRJET Journal
This document describes an IoT-based home energy control system called RECoS that aims to minimize home energy consumption. The system uses smart sockets connected to appliances via Zigbee communication. It monitors energy usage in real-time and uses a backpropagation neural network algorithm to learn usage patterns and set adaptive energy limits to automatically shut off devices during idle periods. Experimental results found the system could reduce total home energy usage by around 45% per week. The system provides remote monitoring of appliance energy usage via a mobile app and cloud server.
SMART STREET LIGHTING AND MONITORING SYSTEM BASED ON SUNLIGHT INTENSITY DETEC...IRJET Journal
This document summarizes a research paper on developing a smart street lighting system using IoT and cloud technology based on sunlight intensity detection. The system uses LDR sensors to detect sunlight intensity and an Arduino microcontroller to control LED street lights to automatically turn on and off based on the sensor readings. An ESP8266 WiFi module transmits sensor data to a cloud server (ThingSpeak API) for remote monitoring and visualization. The system aims to reduce energy consumption and maintenance costs compared to traditional street lighting by automating control of the lights based on sunlight availability. Experimental results show the smart street lighting system can effectively save energy on a large scale.
IRJET- Measuring Electricity Consumption of Appliances and Monitoring them us...IRJET Journal
The document describes a system that uses IoT and machine learning to measure and monitor electricity consumption of appliances. Sensors clamped around circuit breakers measure electricity usage, which is sent to the cloud. Machine learning algorithms analyze the data to attribute usage to individual appliances. This information is displayed on a mobile app, along with cost estimates and tips for reducing usage. The system aims to increase awareness of consumption and enable remote control and automation to reduce electricity waste.
Easy Metering of Energy Meter using Internet of things PlatformIRJET Journal
This document proposes a system to easily meter energy consumption from both renewable and non-renewable sources using an Internet of Things platform. A microcontroller automatically switches loads between solar/wind generated power stored in batteries and power from the grid. An energy meter connected to the microcontroller transmits power usage to an IoT system, which updates usage details on a web page for the electricity provider and user. This allows remote monitoring of renewable and non-renewable energy usage while reducing manual meter reading errors and increasing awareness of efficient renewable energy use.
IRJET- IoT based Smart Electricity Meter and Billing SystemIRJET Journal
This document describes a proposed IOT-based smart electricity meter and billing system. The existing system uses manual meter reading and billing which is time-consuming and prone to errors and corruption. The proposed system uses an Arduino microcontroller connected to electricity meters and relays. Sensor data from the meters is sent wirelessly to a cloud server via WiFi/Bluetooth modules. This allows automatic meter reading and billing calculation. Users receive notifications via SMS. Unpaid bills can trigger relays to remotely disconnect power supply. The system aims to improve accuracy, prevent theft, and reduce human involvement in the metering and billing process.
IRJET- A Remotely Controlled Home Automation System for Energy SavingIRJET Journal
This document describes a remotely controlled home automation system using GSM technology. The system allows a homeowner to control appliances in their home like fans, lights and air conditioners via SMS messages from their mobile phone. A microcontroller is used to receive SMS messages through a GSM module and control the appliances using sensors like temperature, smoke and light sensors. The system aims to automate home appliances and enable remote control for energy savings purposes. Key components include a microcontroller, sensors, relays, GSM module and appliances like fans that can be turned on/off remotely using SMS commands from the homeowner's mobile phone from anywhere.
The IOT based energy meter is based on Arduino. This system eliminates the human involvement in electricity maintenance. The theft of electricity increases the costs paid by customers. Hence this system is used for the detection of theft. The energy meter is connected to the Arduino. The Arduino checks the main meter and sub meter reading. If the difference between the main meter and sub meter is occurred then the message that theft has occurred will be displayed on the LCD display as well as on the thingspeak. The comparison between the main meter and sub meter reading is used to check the theft status. Customer can be access the thingspeak from anywhere on the globe at the anytime using the consumer number. Hence the customer can be easily access their energy usage. Mrs Sandhya Shinde | Mr. Yogesh Yadav | Miss. Bharti Sontakke | Miss. Pratiksha Zapake"IoT Based Smart Energy Meter" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-6 , October 2017, URL: http://www.ijtsrd.com/papers/ijtsrd5761.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/5761/iot-based-smart-energy-meter/mrs-sandhya-shinde
IRJET- Smart Wireless Electronic Energy MeterIRJET Journal
This document describes a smart wireless electronic energy meter system that uses technologies like Arduino, GSM modules, and IoT to remotely monitor electricity consumption. The system replaces traditional energy meters by automatically sending meter readings to a cloud server via GSM. An Arduino board senses electricity parameters using sensors and displays readings on an LCD screen. When readings deviate from input values, the Arduino sends a signal to adjust settings back. This allows remote monitoring of energy usage without physical visits, preventing electricity theft and bringing transparency to billing.
Solar panel monitoring solution using IoT-Faststream TechnologiesSudipta Maity
Faststream Technologies offers an automated IOT based solar panel monitoring/troubleshooting system that allows for automated solar panel monitoring from anywhere over the internet. As part of our solution, we make use of several IoT gateways suitable for different needs, based on SoCs like STM32, ESP32, ublox, CC3200, SiliconLabs, to monitor the solar panel parameters, in turn, providing Solar Plant Insights.
Our system constantly monitors the solar panel and transmits various parameters to the Cloud over the IoT system. Here we make use of the IoT platform to transmit solar power parameters to Amazon/ Azure cloud /IOT server via the gateway (over WiFi and Ethernet). A powerful web interface allows viewing of data in meaningful formats, enabling users to make decisions.
Design and Implementation of IOT Based Smart Power Monitoring and Management ...ijesajournal
We will design a system based on WSNs and IoT technologies to manage real-time power at buildings. This system comprises of: a wireless sensor network (sensing node and base station) and a smart home gateway. A sensing node is utilized wireless sensors to measure voltage and current; to calculate power consumption of connected appliances, transmitted wirelessly to a base station via Zigbee node. A base station is designed to receive all data transmitted from the sensing node and display it through GUI available at the personal computer, with the possibility of controlling ON and OFF appliances according to consumer requirements; All of these readings will be stored at database for analysis. In addition, a smart home gateway will connect the system with internet to allow consumers to continuous monitoring and remote control the appliances via a smartphone application. The benefit of this system, that the appliances control mechanism can be done in different ways (manually, automatically, and remotely). Various household appliances were tested to verify the accuracy of the electrical parameters that measured at system and compare them with practical measurement, found the average error ratio between them (0.3%) was in voltage, (1.5%) in current, and (1.8%) in power.
Real Time Monitoring and Electro Magnetic Interference causing Data corruptionRekaNext Capital
On site, where there are motors and generators, the sensor reading are affected by Electro-Magnetic Interference. The presentation shares some Good Engineering Practices to minimize Data Corruption. Real Time Monitoring Data Quality is even more sensitive to Data Corruption as there is a huge amount of sensors per hour.
IRJET- Internet of Things (IoT) based Smart GridIRJET Journal
1) The document discusses using Internet of Things (IoT) technology to create a smart grid system that can automatically reroute power from one grid station to another if there is a fault, preventing power outages.
2) It describes how sensors would be used in the smart grid system for monitoring grid stations and transformers as well as preventing electricity theft.
3) The system aims to solve the problem of power outages occurring when a grid station fails by connecting customer loads to a backup grid station through IoT technology with a single click.
IRJET- Measuring Electricity Consumption of Appliances and Monitoring the...IRJET Journal
This document describes a system that measures electricity consumption of appliances and monitors them using the Internet of Things (IoT) and machine learning. The system uses a current sensor clamped around the main circuit breaker to monitor electricity usage. Machine learning algorithms categorize usage by appliance. Users can view consumption data and remotely control appliances through a mobile app. The system aims to reduce electricity bills by detecting unnecessary usage and notifying users.
IRJET- Iot Based Smart Energy MonitoringIRJET Journal
This document describes an IOT-based smart energy monitoring system that uses an Arduino microcontroller and ESP8266 WiFi module. The system measures energy consumption in watts using a current sensor and displays the readings on an LCD screen and online via a webpage. It allows users to remotely monitor energy usage in real-time. If energy usage exceeds a threshold, the system can detect theft. The system aims to automate meter readings, optimize energy usage, and reduce wastage by providing usage data to consumers.
1) The document discusses a GSM based power meter reading and control system that uses GSM technology to remotely read electricity meters and control home appliances.
2) Current manual meter reading is time-consuming and prone to errors. The proposed system sends daily meter readings via SMS to both users and the electricity department to generate accurate bills.
3) It also allows remote control of appliances to reduce unnecessary power consumption and save energy by monitoring power usage and controlling loads that exceed predefined limits.
IRJET- Smart Farm Fertilizer and Pesticide Prediction using IoTIRJET Journal
This document describes a smart farm system that uses IoT sensors and devices to monitor soil conditions and predict optimal fertilizer and pesticide use. The system collects data from soil moisture, temperature, humidity, and light sensors to monitor crop field conditions. An AVR microcontroller processes the sensor data and sends it over WiFi to an Android application using an ESP8266 module. The application analyzes the sensor data and provides fertilizer and pesticide predictions to optimize crop yields based on different environmental conditions. By automating fertilizer and irrigation based on real-time soil monitoring, the smart farm system aims to increase productivity while reducing waste of water and agrochemicals.
IOT Based Smart Power Management System using WSNIRJET Journal
This document summarizes a research paper on an Internet of Things (IoT)-based smart power management system using wireless sensor networks. The system uses current and voltage sensors connected to home appliances to monitor power consumption. This data is transmitted wirelessly via Zigbee protocol and monitored remotely over the internet. The system allows users to control appliances automatically, manually, or remotely via a smartphone or computer. It provides a cheaper and more efficient way for consumers to manage electricity usage and save on power bills.
IRJET - A Cyber-Physical System for Environmental Monitoring Based on IOTIRJET Journal
This document describes a cyber-physical system for environmental monitoring using IoT. The system uses sensors like temperature, humidity, smoke, wetness, light, and carbon dioxide sensors. It also uses an Arduino, ESP8266 WiFi module, and LCD display. Sensor data is collected and sent over WiFi networks. This allows remote monitoring of environmental conditions from any internet-connected device. The system provides a low-cost solution for tracking multiple environmental factors and ambient conditions from different locations.
IRJET - Compactness based Traffic Signal Monitoring SystemIRJET Journal
This document describes a compactness-based traffic signal monitoring system that uses IoT devices like IR sensors and Arduino boards. The system aims to reduce traffic congestion by monitoring vehicle density using IR sensors on roads and dynamically adjusting traffic light timing slots accordingly. It allows emergency vehicles to get priority access through the use of RFID tags. The system is designed to operate in both automatic and manual modes. It was tested and found to control traffic signals as intended based on real-time vehicle density readings from IR sensors. The proposed approach aims to provide more efficient traffic flow management compared to traditional fixed-timing traffic light systems.
IRJET- IoT based Solar Power Monitoring SystemIRJET Journal
This document proposes an IOT-based solar power monitoring system that can monitor and control a solar photovoltaic system remotely. The system uses sensors to monitor the voltage, current, and power output of solar panels. A microcontroller connects the sensors to the internet via WiFi to upload the data to a cloud server. The system also includes a sun tracking mechanism using an LDR sensor and DC motor to automatically rotate the solar panels and maximize sunlight exposure for increased efficiency. The remote monitoring capabilities allow users to view the solar panel performance from anywhere via a web interface.
IRJET- Automated Energy Metering SystemIRJET Journal
The document proposes an automated energy metering system to address issues with existing analog and digital energy metering. The system uses wireless sensors connected to each load to monitor power usage, which is sent to a controller and then to the customer and substation via wireless network. This allows customers to track daily usage on a mobile app to reduce waste, and helps identify power theft. It automates billing and payment through the app. By monitoring each appliance, it eliminates human errors in meter reading and reduces costs.
IRJET- IOT Based Residence Energy Control SystemIRJET Journal
This document describes an IoT-based home energy control system called RECoS that aims to minimize home energy consumption. The system uses smart sockets connected to appliances via Zigbee communication. It monitors energy usage in real-time and uses a backpropagation neural network algorithm to learn usage patterns and set adaptive energy limits to automatically shut off devices during idle periods. Experimental results found the system could reduce total home energy usage by around 45% per week. The system provides remote monitoring of appliance energy usage via a mobile app and cloud server.
SMART STREET LIGHTING AND MONITORING SYSTEM BASED ON SUNLIGHT INTENSITY DETEC...IRJET Journal
This document summarizes a research paper on developing a smart street lighting system using IoT and cloud technology based on sunlight intensity detection. The system uses LDR sensors to detect sunlight intensity and an Arduino microcontroller to control LED street lights to automatically turn on and off based on the sensor readings. An ESP8266 WiFi module transmits sensor data to a cloud server (ThingSpeak API) for remote monitoring and visualization. The system aims to reduce energy consumption and maintenance costs compared to traditional street lighting by automating control of the lights based on sunlight availability. Experimental results show the smart street lighting system can effectively save energy on a large scale.
IRJET- Measuring Electricity Consumption of Appliances and Monitoring them us...IRJET Journal
The document describes a system that uses IoT and machine learning to measure and monitor electricity consumption of appliances. Sensors clamped around circuit breakers measure electricity usage, which is sent to the cloud. Machine learning algorithms analyze the data to attribute usage to individual appliances. This information is displayed on a mobile app, along with cost estimates and tips for reducing usage. The system aims to increase awareness of consumption and enable remote control and automation to reduce electricity waste.
Easy Metering of Energy Meter using Internet of things PlatformIRJET Journal
This document proposes a system to easily meter energy consumption from both renewable and non-renewable sources using an Internet of Things platform. A microcontroller automatically switches loads between solar/wind generated power stored in batteries and power from the grid. An energy meter connected to the microcontroller transmits power usage to an IoT system, which updates usage details on a web page for the electricity provider and user. This allows remote monitoring of renewable and non-renewable energy usage while reducing manual meter reading errors and increasing awareness of efficient renewable energy use.
1) The document describes a smart campus energy management system that uses Bluetooth beacons, sensors, a microcontroller, and a mobile app to automatically control electrical appliances and reduce energy consumption.
2) The system determines if a user enters or exits a room using beacons and sensors to track the user's location and movement. It then controls power to appliances accordingly to cut off power when users are not present.
3) This smart energy management system aims to reduce energy costs by ensuring energy usage is only when needed and avoiding wastage when rooms are unoccupied.
1. The document describes an intelligent lighting solution that uses sensors like IR, LDR, and Bluetooth to automate lighting and reduce electricity consumption.
2. The system turns lights on when motion is detected by the IR sensor and it is dark based on the LDR sensor. It can also be controlled remotely using Bluetooth.
3. By combining multiple sensors like IR, LDR, and Bluetooth, the lighting can be automated intelligently based on presence and light levels to reduce unnecessary electricity usage from lights.
Industrial Automation Monitor and Control using IoT IRJET Journal
This document describes a system for industrial automation monitoring and control using IoT technologies. The system uses sensors connected to a Raspberry Pi 3 to monitor environmental parameters like temperature, gas levels, vibration etc. in an industrial setting. The sensor data is transmitted to a cloud server and can be accessed from mobile phones or PCs for real-time monitoring. If any sensor detects harmful conditions, an alert will be sent via SMS to registered mobile numbers. The system aims to remotely monitor and control electrical appliances in industries without human intervention, allowing for faster communication, reduced costs and optimized energy usage.
IRJET- Energy Meter Reading over InternetIRJET Journal
1. The document proposes a system to remotely read energy meter readings over the internet using IoT technology. It uses sensors to detect voltage and current flowing to appliances, an Arduino board to collect and transmit data, and a GSM module for internet connectivity. Data is sent to a cloud server database.
2. A user portal allows customers to access their energy consumption data, billing information, and pay bills online. This system aims to reduce manual meter reading work and human errors by automating the process using IoT.
IRJET- A Smart Monitoring System for Hybrid Energy System using IoTIRJET Journal
This document describes a smart monitoring system for a hybrid energy system using IoT. The system uses solar and wind energy sources and can switch between them without inconvenience through an Android app and WiFi module. An ESP32 microcontroller module transmits and receives electrical data wirelessly from the app and monitors the system. Users can control the energy sources remotely through the app in a flexible and secure manner. The system provides an efficient, cheaper, and flexible way to control hybrid energy sources manually and remotely.
Wind Turbine Monitoring System Using IoTIRJET Journal
This document describes a study on developing an IoT-based wind turbine monitoring system. Researchers installed various sensors on a wind turbine to measure parameters like temperature, humidity, pressure, rain detection, object detection and distance. The sensor data is transmitted to a cloud server and displayed on a dashboard for remote monitoring. This allows authorized personnel to track the turbine's performance, identify any issues, and schedule maintenance efficiently. Analyzing the collected operational data can also help optimize the turbine's design. The study demonstrated that this IoT-based approach provides benefits like reduced costs, improved safety and efficiency compared to traditional monitoring methods.
IRJET - Real Time Street Light using Raspberry PiIRJET Journal
This document describes a real-time street light system using a Raspberry Pi that aims to reduce power consumption. An infrared sensor detects vehicles, animals or people within 100 meters of a street light and a light dependent resistor sensor detects darkness. The street light will only turn on when both sensors provide a positive response. This prevents wastage by not illuminating when no movement is detected. The system uses solar power from photovoltaic cells charged by a battery and controller to automatically turn the solar LED street lights on at dusk and off at dawn daily.
In today’s world energy saving has become a major factor and need. This project is developed keeping this problem in mind. The huge amount of electrical power of many countries is consumed in lighting the streets. However, there are stages of time when there is less vehicle density during night time or even no vehicles during late night time. The main principle of this system is object detection and then triggering the respective circuit and to provide light only at that part of road where it is needed. Logically, this system may save a large amount of the electrical power. This paper focuses on the proposal of different possible architectures of this system.
IRJET- Intelligent Lighting System for Classrooms and Mall using IoTIRJET Journal
This document describes an intelligent lighting system for classrooms and malls using IoT (Internet of Things). The system uses PIR sensors, an Arduino, relay modules, and an ESP8266 WiFi module to automatically turn lights on and off based on detected movement. It also uses an IR sensor to count the number of people entering and exiting a room. A mobile app is used to monitor and control the lighting system remotely. The system aims to conserve energy by more efficiently controlling lighting and reducing unnecessary use.
Information technology plays a very important role in the progress and development of country. The technology domain is present in every sector like banking, e-commerce, tourism etc. The applications are developed using number of platforms and people are using applications more and more for number of tasks. This paper focus on IOT technology and how it is implemented in power systems like power grids to make proper automation and minimize problems that we face in manual system. Rameez Rashid | Naseer Ganiee"Robotic Monitoring of Power Systems" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-5 , August 2018, URL: http://www.ijtsrd.com/papers/ijtsrd16961.pdf http://www.ijtsrd.com/engineering/electrical-engineering/16961/robotic-monitoring-of-power-systems/rameez-rashid
IRJET- Energy Consumption and Monitoring System using IoTIRJET Journal
This document describes an energy monitoring system that uses IoT technology to monitor and display the power consumption of individual devices. The system collects power consumption data from smart plugs and sensors, sends the data over WiFi to a microcontroller and web server. This allows users to view energy usage on a mobile app in real-time. The goal is to help users analyze energy consumption at the device level to detect billing errors and better manage usage by identifying inefficient devices. The system was implemented using an Arduino microcontroller, current sensors, WiFi module and mobile app. It provides wireless monitoring of devices and can automatically shut off power to devices that exceed set limits.
This document describes an IoT-based smart energy meter that was developed to address issues with traditional energy meters. Key features of the smart meter include using an Arduino microcontroller to measure current and voltage from sensors, displaying readings on an LCD screen, and sending readings over WiFi to an IoT platform for remote monitoring of energy usage and costs. The system aims to optimize power usage, reduce theft and tampering, and eliminate the need for manual meter readings through remote access and automation.
IoT Based Control and Monitoring of Smart Grid and Power Theft Detection by L...IRJET Journal
This document discusses using IoT technology to create a smart grid system for monitoring and controlling power distribution and detecting power theft. The system uses Raspberry Pi hubs connected to smart meters via Zigbee to collect power usage data from consumers and send it to the Azure cloud. This allows identifying locations of power theft by comparing total usage recorded at transformers to reported consumer usage. The system can also detect faults, notify consumers of outages or price changes, and allow excess power from solar installations to be returned to the grid.
This document provides a review of Internet of Things (IoT) technology and its applications in industry. It discusses how IoT allows for remote monitoring and control of industrial machines using sensors, microcontrollers and the internet. Specifically, it proposes an IoT system to monitor and control an etching machine used in printed circuit board manufacturing. The system would use sensors to monitor temperature and machine parameters, a Raspberry Pi for data collection and control, and a webpage for remote access from any smartphone or internet connection, allowing workers to oversee the machine from anywhere. The document reviews several related works applying IoT in other industries and concludes that the proposed system would provide a useful way to remotely monitor and control industrial equipment.
This document describes a smart street lighting system using IoT technology. The system uses PIR sensors and light dependent resistors connected to an Arduino board to automatically control street lights. When it gets dark, the lights turn on, and when motion is detected by the PIR sensors, the lights switch to a brighter mode. This saves energy by only using full brightness when needed. The system can be monitored over the internet using IoT to check light status remotely and troubleshoot any issues. Implementing this smart street lighting system could reduce energy costs for cities while still providing adequate lighting levels on roads.
A REVIEW PAPER ON: IOT Based Library Light Management SystemIRJET Journal
This document provides a review of an IOT based library light management system. It discusses using sensors like PIR and LDR connected to an Arduino board to automatically turn lights on and off based on detecting human presence. This can help save electricity by reducing unnecessary light usage. The system is described as using LED lights controlled by a relay module based on input from the sensors. Advantages include energy savings and reducing manual effort. Potential applications are discussed like using in other buildings or with additional sensors for better control.
IRJET - Speed Control of DC Motor by using IoTIRJET Journal
This document describes a system to control the speed of a DC motor using IoT (Internet of Things). The system uses an Arduino microcontroller, WiFi module, temperature sensor, IR sensor, and relay to monitor and control the motor remotely. It protects the motor from overcurrent and overheating. The system allows observing parameters like temperature, current, and voltage of the motor. Commands sent from a website through the WiFi module control the motor speed and direction. The system provides a way to remotely protect, monitor, and control a DC motor using IoT technology.
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TUNNELING IN HIMALAYAS WITH NATM METHOD: A SPECIAL REFERENCES TO SUNGAL TUNNE...IRJET Journal
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2) NATM involves continuous monitoring during construction to adapt to changing ground conditions, and makes extensive use of shotcrete for temporary tunnel support.
3) The methodology section outlines the systematic geotechnical design process for tunnels according to Austrian guidelines, and describes the various steps of NATM tunnel construction including initial and secondary tunnel support.
STUDY THE EFFECT OF RESPONSE REDUCTION FACTOR ON RC FRAMED STRUCTUREIRJET Journal
This study examines the effect of response reduction factors (R factors) on reinforced concrete (RC) framed structures through nonlinear dynamic analysis. Three RC frame models with varying heights (4, 8, and 12 stories) were analyzed in ETABS software under different R factors ranging from 1 to 5. The results showed that displacement increased as the R factor decreased, indicating less linear behavior for lower R factors. Drift also decreased proportionally with increasing R factors from 1 to 5. Shear forces in the frames decreased with higher R factors. In general, R factors of 3 to 5 produced more satisfactory performance with less displacement and drift. The displacement variations between different building heights were consistent at different R factors. This study evaluated how R factors influence
A COMPARATIVE ANALYSIS OF RCC ELEMENT OF SLAB WITH STARK STEEL (HYSD STEEL) A...IRJET Journal
This study compares the use of Stark Steel and TMT Steel as reinforcement materials in a two-way reinforced concrete slab. Mechanical testing is conducted to determine the tensile strength, yield strength, and other properties of each material. A two-way slab design adhering to codes and standards is executed with both materials. The performance is analyzed in terms of deflection, stability under loads, and displacement. Cost analyses accounting for material, durability, maintenance, and life cycle costs are also conducted. The findings provide insights into the economic and structural implications of each material for reinforcement selection and recommendations on the most suitable material based on the analysis.
Effect of Camber and Angles of Attack on Airfoil CharacteristicsIRJET Journal
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A Review on the Progress and Challenges of Aluminum-Based Metal Matrix Compos...IRJET Journal
This document reviews the progress and challenges of aluminum-based metal matrix composites (MMCs), focusing on their fabrication processes and applications. It discusses how various aluminum MMCs have been developed using reinforcements like borides, carbides, oxides, and nitrides to improve mechanical and wear properties. These composites have gained prominence for their lightweight, high-strength and corrosion resistance properties. The document also examines recent advancements in fabrication techniques for aluminum MMCs and their growing applications in industries such as aerospace and automotive. However, it notes that challenges remain around issues like improper mixing of reinforcements and reducing reinforcement agglomeration.
Dynamic Urban Transit Optimization: A Graph Neural Network Approach for Real-...IRJET Journal
This document discusses research on using graph neural networks (GNNs) for dynamic optimization of public transportation networks in real-time. GNNs represent transit networks as graphs with nodes as stops and edges as connections. The GNN model aims to optimize networks using real-time data on vehicle locations, arrival times, and passenger loads. This helps increase mobility, decrease traffic, and improve efficiency. The system continuously trains and infers to adapt to changing transit conditions, providing decision support tools. While research has focused on performance, more work is needed on security, socio-economic impacts, contextual generalization of models, continuous learning approaches, and effective real-time visualization.
Structural Analysis and Design of Multi-Storey Symmetric and Asymmetric Shape...IRJET Journal
This document summarizes a research project that aims to compare the structural performance of conventional slab and grid slab systems in multi-story buildings using ETABS software. The study will analyze both symmetric and asymmetric building models under various loading conditions. Parameters like deflections, moments, shears, and stresses will be examined to evaluate the structural effectiveness of each slab type. The results will provide insights into the comparative behavior of conventional and grid slabs to help engineers and architects select appropriate slab systems based on building layouts and design requirements.
A Review of “Seismic Response of RC Structures Having Plan and Vertical Irreg...IRJET Journal
This document summarizes and reviews a research paper on the seismic response of reinforced concrete (RC) structures with plan and vertical irregularities, with and without infill walls. It discusses how infill walls can improve or reduce the seismic performance of RC buildings, depending on factors like wall layout, height distribution, connection to the frame, and relative stiffness of walls and frames. The reviewed research paper analyzes the behavior of infill walls, effects of vertical irregularities, and seismic performance of high-rise structures under linear static and dynamic analysis. It studies response characteristics like story drift, deflection and shear. The document also provides literature on similar research investigating the effects of infill walls, soft stories, plan irregularities, and different
This document provides a review of machine learning techniques used in Advanced Driver Assistance Systems (ADAS). It begins with an abstract that summarizes key applications of machine learning in ADAS, including object detection, recognition, and decision-making. The introduction discusses the integration of machine learning in ADAS and how it is transforming vehicle safety. The literature review then examines several research papers on topics like lightweight deep learning models for object detection and lane detection models using image processing. It concludes by discussing challenges and opportunities in the field, such as improving algorithm robustness and adaptability.
Long Term Trend Analysis of Precipitation and Temperature for Asosa district,...IRJET Journal
The document analyzes temperature and precipitation trends in Asosa District, Benishangul Gumuz Region, Ethiopia from 1993 to 2022 based on data from the local meteorological station. The results show:
1) The average maximum and minimum annual temperatures have generally decreased over time, with maximum temperatures decreasing by a factor of -0.0341 and minimum by -0.0152.
2) Mann-Kendall tests found the decreasing temperature trends to be statistically significant for annual maximum temperatures but not for annual minimum temperatures.
3) Annual precipitation in Asosa District showed a statistically significant increasing trend.
The conclusions recommend development planners account for rising summer precipitation and declining temperatures in
P.E.B. Framed Structure Design and Analysis Using STAAD ProIRJET Journal
This document discusses the design and analysis of pre-engineered building (PEB) framed structures using STAAD Pro software. It provides an overview of PEBs, including that they are designed off-site with building trusses and beams produced in a factory. STAAD Pro is identified as a key tool for modeling, analyzing, and designing PEBs to ensure their performance and safety under various load scenarios. The document outlines modeling structural parts in STAAD Pro, evaluating structural reactions, assigning loads, and following international design codes and standards. In summary, STAAD Pro is used to design and analyze PEB framed structures to ensure safety and code compliance.
A Review on Innovative Fiber Integration for Enhanced Reinforcement of Concre...IRJET Journal
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Survey Paper on Cloud-Based Secured Healthcare SystemIRJET Journal
This document summarizes a survey on securing patient healthcare data in cloud-based systems. It discusses using technologies like facial recognition, smart cards, and cloud computing combined with strong encryption to securely store patient data. The survey found that healthcare professionals believe digitizing patient records and storing them in a centralized cloud system would improve access during emergencies and enable more efficient care compared to paper-based systems. However, ensuring privacy and security of patient data is paramount as healthcare incorporates these digital technologies.
Review on studies and research on widening of existing concrete bridgesIRJET Journal
This document summarizes several studies that have been conducted on widening existing concrete bridges. It describes a study from China that examined load distribution factors for a bridge widened with composite steel-concrete girders. It also outlines challenges and solutions for widening a bridge in the UAE, including replacing bearings and stitching the new and existing structures. Additionally, it discusses two bridge widening projects in New Zealand that involved adding precast beams and stitching to connect structures. Finally, safety measures and challenges for strengthening a historic bridge in Switzerland under live traffic are presented.
React based fullstack edtech web applicationIRJET Journal
The document describes the architecture of an educational technology web application built using the MERN stack. It discusses the frontend developed with ReactJS, backend with NodeJS and ExpressJS, and MongoDB database. The frontend provides dynamic user interfaces, while the backend offers APIs for authentication, course management, and other functions. MongoDB enables flexible data storage. The architecture aims to provide a scalable, responsive platform for online learning.
A Comprehensive Review of Integrating IoT and Blockchain Technologies in the ...IRJET Journal
This paper proposes integrating Internet of Things (IoT) and blockchain technologies to help implement objectives of India's National Education Policy (NEP) in the education sector. The paper discusses how blockchain could be used for secure student data management, credential verification, and decentralized learning platforms. IoT devices could create smart classrooms, automate attendance tracking, and enable real-time monitoring. Blockchain would ensure integrity of exam processes and resource allocation, while smart contracts automate agreements. The paper argues this integration has potential to revolutionize education by making it more secure, transparent and efficient, in alignment with NEP goals. However, challenges like infrastructure needs, data privacy, and collaborative efforts are also discussed.
A REVIEW ON THE PERFORMANCE OF COCONUT FIBRE REINFORCED CONCRETE.IRJET Journal
This document provides a review of research on the performance of coconut fibre reinforced concrete. It summarizes several studies that tested different volume fractions and lengths of coconut fibres in concrete mixtures with varying compressive strengths. The studies found that coconut fibre improved properties like tensile strength, toughness, crack resistance, and spalling resistance compared to plain concrete. Volume fractions of 2-5% and fibre lengths of 20-50mm produced the best results. The document concludes that using a 4-5% volume fraction of coconut fibres 30-40mm in length with M30-M60 grade concrete would provide benefits based on previous research.
Optimizing Business Management Process Workflows: The Dynamic Influence of Mi...IRJET Journal
The document discusses optimizing business management processes through automation using Microsoft Power Automate and artificial intelligence. It provides an overview of Power Automate's key components and features for automating workflows across various apps and services. The document then presents several scenarios applying automation solutions to common business processes like data entry, monitoring, HR, finance, customer support, and more. It estimates the potential time and cost savings from implementing automation for each scenario. Finally, the conclusion emphasizes the transformative impact of AI and automation tools on business processes and the need for ongoing optimization.
Multistoried and Multi Bay Steel Building Frame by using Seismic DesignIRJET Journal
The document describes the seismic design of a G+5 steel building frame located in Roorkee, India according to Indian codes IS 1893-2002 and IS 800. The frame was analyzed using the equivalent static load method and response spectrum method, and its response in terms of displacements and shear forces were compared. Based on the analysis, the frame was designed as a seismic-resistant steel structure according to IS 800:2007. The software STAAD Pro was used for the analysis and design.
Cost Optimization of Construction Using Plastic Waste as a Sustainable Constr...IRJET Journal
This research paper explores using plastic waste as a sustainable and cost-effective construction material. The study focuses on manufacturing pavers and bricks using recycled plastic and partially replacing concrete with plastic alternatives. Initial results found that pavers and bricks made from recycled plastic demonstrate comparable strength and durability to traditional materials while providing environmental and cost benefits. Additionally, preliminary research indicates incorporating plastic waste as a partial concrete replacement significantly reduces construction costs without compromising structural integrity. The outcomes suggest adopting plastic waste in construction can address plastic pollution while optimizing costs, promoting more sustainable building practices.
Applications of artificial Intelligence in Mechanical Engineering.pdfAtif Razi
Historically, mechanical engineering has relied heavily on human expertise and empirical methods to solve complex problems. With the introduction of computer-aided design (CAD) and finite element analysis (FEA), the field took its first steps towards digitization. These tools allowed engineers to simulate and analyze mechanical systems with greater accuracy and efficiency. However, the sheer volume of data generated by modern engineering systems and the increasing complexity of these systems have necessitated more advanced analytical tools, paving the way for AI.
AI offers the capability to process vast amounts of data, identify patterns, and make predictions with a level of speed and accuracy unattainable by traditional methods. This has profound implications for mechanical engineering, enabling more efficient design processes, predictive maintenance strategies, and optimized manufacturing operations. AI-driven tools can learn from historical data, adapt to new information, and continuously improve their performance, making them invaluable in tackling the multifaceted challenges of modern mechanical engineering.
Null Bangalore | Pentesters Approach to AWS IAMDivyanshu
#Abstract:
- Learn more about the real-world methods for auditing AWS IAM (Identity and Access Management) as a pentester. So let us proceed with a brief discussion of IAM as well as some typical misconfigurations and their potential exploits in order to reinforce the understanding of IAM security best practices.
- Gain actionable insights into AWS IAM policies and roles, using hands on approach.
#Prerequisites:
- Basic understanding of AWS services and architecture
- Familiarity with cloud security concepts
- Experience using the AWS Management Console or AWS CLI.
- For hands on lab create account on [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
# Scenario Covered:
- Basics of IAM in AWS
- Implementing IAM Policies with Least Privilege to Manage S3 Bucket
- Objective: Create an S3 bucket with least privilege IAM policy and validate access.
- Steps:
- Create S3 bucket.
- Attach least privilege policy to IAM user.
- Validate access.
- Exploiting IAM PassRole Misconfiguration
-Allows a user to pass a specific IAM role to an AWS service (ec2), typically used for service access delegation. Then exploit PassRole Misconfiguration granting unauthorized access to sensitive resources.
- Objective: Demonstrate how a PassRole misconfiguration can grant unauthorized access.
- Steps:
- Allow user to pass IAM role to EC2.
- Exploit misconfiguration for unauthorized access.
- Access sensitive resources.
- Exploiting IAM AssumeRole Misconfiguration with Overly Permissive Role
- An overly permissive IAM role configuration can lead to privilege escalation by creating a role with administrative privileges and allow a user to assume this role.
- Objective: Show how overly permissive IAM roles can lead to privilege escalation.
- Steps:
- Create role with administrative privileges.
- Allow user to assume the role.
- Perform administrative actions.
- Differentiation between PassRole vs AssumeRole
Try at [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
An improved modulation technique suitable for a three level flying capacitor ...IJECEIAES
This research paper introduces an innovative modulation technique for controlling a 3-level flying capacitor multilevel inverter (FCMLI), aiming to streamline the modulation process in contrast to conventional methods. The proposed
simplified modulation technique paves the way for more straightforward and
efficient control of multilevel inverters, enabling their widespread adoption and
integration into modern power electronic systems. Through the amalgamation of
sinusoidal pulse width modulation (SPWM) with a high-frequency square wave
pulse, this controlling technique attains energy equilibrium across the coupling
capacitor. The modulation scheme incorporates a simplified switching pattern
and a decreased count of voltage references, thereby simplifying the control
algorithm.
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.