Ecology, Environment, Climate Change and Disaster Management

Slides:

Advertisements

Similar presentations

CENTURION™ (C4-SERIES) Erin Cox, Market Research Analyst, Natural Gas Production Controls - Presenter Sanjay Kumar, Market Research Specialist & Product.

Advertisements

IT INFRASTRUCTURE AND EMERGING TECHNOLOGIES

C-Bus Now and in the Future

Vehicle Tracking Systems Accurate Tracking Updates  High Position Accuracy (< 2.5 meters)  Smart Position updates feature: Accurate, “on the road” positions.

Rongo Rongo Rongo Rongo. » Team Members » Problem Definition » Purpose of the Project » Market Research » Project ˃Hardware ˃How it works ˃Target » What.

1 of 5 This document is for informational purposes only. MICROSOFT MAKES NO WARRANTIES, EXPRESS OR IMPLIED, IN THIS DOCUMENT. © 2006 Microsoft Corporation.

Army Total Asset Visibility with Enhanced RFID Tracking November 15, 2010 Recorded Demonstration.

Project Proposal: Academic Job Market and Application Tracker Website Project designed by: Cengiz Gunay Client: Cengiz Gunay Audience: PhD candidates and.

ResourceFull Authors: Matt Kaye (EE ‘12) Nitin Puri (SSE ‘12) Advisor: Dr. Alejandro Ribeiro Special Thanks.

Common Alerting Protocol (CAP) Implementation Workshop – 2014 ArcGIS Geotrigger for CAP Implementation by Nalaka Kodippili Geo Technical Manager GIS Solutions.

DESIGN & IMPLEMENTATION OF SMALL SCALE WIRELESS SENSOR NETWORK

Ultra-low cost IoT system for smart house applications Characterization Presentation Students: Sagiv Katony Asaf Luster Advisors: Evgeny Kuksin

Eric GrahamNathan Yau Staff Ecologist, CENSGraduate Student, Department of Statistics Use CasesSensorBase Coupled Human-Observational Systems Technology.

Raspberry Pi: Automated Garden Monitoring System Stacy, Devin, Brandon.

Team 4 Smart Garden Irrigation System

TITLE 1. Donate Blood Why Blood donation is important  Only way to maintain sufficient blood supplies for medical treatment  support local communities.

CONTENTS: 1.Abstract. 2.Objective. 3.Block diagram. 4.Methodology. 5.Advantages and Disadvantages. 6.Applications. 7.Conclusion.

Wisdom of the Crowed Final Review High Speed Digital Systems Lab.

Student Name USN NO Guide Name H.O.D Name Name Of The College & Dept.

Background Real-time environmental monitoring is a field garnering an ever-increasing amount of attention. The ability for sensors to make and publish.

Cevgroup.org C utting E dge V isionaries. cevgroup.org TODAY’s TALK 1) Internet Of Things (IoT) 2) Wi-Fi Controlled Robots 3) Augmented Reality.

CONTENTS: 1.Abstract. 2.Objective. 3.Block diagram. 4.Methodology. 5.Advantages and Disadvantages. 6.Applications. 7.Conclusion.

Simple Water Level Controller Circuit with Microcontroller and Alarm.

Heilmeier Questions Stacy, Devin, Brandon. What are we trying to do?  We are trying to implement an automated greenhouse monitor system.  Monitor and.

A microcontroller-based system for multi sensor monitoring and messaging via GSM network Bachelor thesis Angelakis Vaios Supervisor:Kazarlis S.

Karnataka Forest Department Developed & Maintained by Plantations Civil and Building Structures Goods Services Status of Assets in Real time.

Digital Carpool Aid Mid-semester Presentation Senior Design I March 5, 2015.

Verizon Intelligent Track and Trace: Serialization and Cold Chain

Suraki-Bhoomi ” - Landslides Early Warning System

Smart Parking Application

XBee Based Motor Control for Farmers

Aim: How is ecology the study of the environment?

English for Advance Learners I

Citizen Driven IoT Innovation for Disaster Relief

Connected Living Connected Living What to look for Architecture

Pilot Watcher Product Overview V5.3

Growing Plants with the Power of Robotany

Always Connected introduces Tigo SMART 3.0 This guide is interactive!

GrubTruck (iOS Food Truck App)

Capabilities for Industrial Use SHORT, EN,

Students vs IoT security

Textbook Detection System With Radio-Frequency Identification

Outline Introduction Standards Project General Idea

Spring 2017 Senior Design Project Team32 -May1732

Internet of Things and its applications

Connected Living Connected Living What to look for Architecture

Peer-to-peer networking

PROJECT MEMBERS: P.BALACHANDRABOSE ( ) S.HARISH KUMAR RAJU ( )

Deconstruction of the Wilderness Weather Station Case Study

‘SONAR’ using Arduino & ultrasonic distance sensor

Understanding Wi-Fi Direct in Windows 8

Instrumented Beehive Team 1: CSE: Max Aukshunas, Manali Palwankar

Instrumented Beehive Team 1: CSE: Max Aukshunas, Manali Palwankar

Completed Design Review

IOT based Home Automation Over the Cloud

IzoT™ Routers and Network Interfaces

Controlling Sensors Efficiently with MCUs

Always Connected introduces Tigo SMART 3.1 This guide is interactive!

Intelligent HVAC Control

Smart Go Training Presentation 4/4/2019 3:22 PM

Tareq Khan, Ph.D. Assistant Professor,

Smart Irrigation System

Designed by Hwandong Joo

Notes - Ecology .

Navigation By Touch מנחה הפרוייקט: כפיר לב-ארי.

Mark Quirk Head of Technology Developer & Platform Group

Impact of IoT/AI in Agriculture

Organization of Life.

Presentation transcript:

Ecology, Environment, Climate Change and Disaster Management Project Title : Ped Bachao,Ped ka Khayal Rakho Team Members: 1.Atul Kumar Agrawal 2.Kashish Rath 3.Suman Rath 4.Suchita Sriramaka Team: ms.atul1303_c23b

PROBLEM STATEMENT: Solution expected: Many saplings planted with so much enthusiasm and fanfare die an untimely death due to lack of care and support. It needs a little attention and protection against grazing, dry condition, and hazards of other biotic and abiotic factors. Solution expected: Track the trees we plant. Locate it on the Google map. Create a database of such plants/trees with geo- spatial reference. Locate the plant/tree and know the present condition.

Web App:- DATABASE:- Proposed Design Consists of: SENSORS :- Users have to upload the location of sapling which they planted in the app and is later viewed using goggle maps for geotagging purpose. SENSORS :- Sensors to accurately measure the temperature, humidity and moisture level of soil for analysis of the plantation area. 1.Soil moisture sensor 2.Temperature and humidity sensor 3.Ultrasonic sensor 4.NodeMCU DATABASE:- Different components communicate with the database using Google maps API and firebase module which is used to create a personal area network. The values of the database get automatically updated with the current sensor values. Contd.

SOLUTION:- Each user will login through the app and maintain its own profile and details of the planted saplings and will get updates from the sensors. The coordinates will be saved in the database for geotagging of the plantation which will act as reference for database. The app will also monitor basic information about how to prevent plant death and information about what nutrients and conditions are proper for plant growth. The web app has been designed to alert the user regularly water the plant and check its health and send notifications if any irregularity is detected. These sensors have been designed to send data every hour to the database. An automatic sprinkler turns on when the soil moisture level goes below the threshold value and user can also control the sprinkler using the button in the app. Contd.

Node MCU:- Advantages: NodeMCU is an open source IoT platform. It includes firmware which runs on the ESP8266 Wi- Fi SoC from Espressif Systems, and hardware which is based on the ESP-12 module. The term "NodeMCU" by default refers to the firmware rather than the development kits. ESP8266 is a low-cost, Wi-Fi Module chip that can be configured to connect to the Internet for Internet of Things(IoT) and similar Technologies. Advantages: 1.Interactive 2.Programmable 3.Low Cost 4.Simple Interface 5.Smart IOT enabled with inbuilt wifi 6.Arduino Compatible Node MCU

Sensors used:- Moisture Sensor SOIL MOISTURE SENSOR ULTRASONIC SENSOR 2 probes used to measure the volumetric content of water. Current passes through soil and gets the resistance value to measure the moisture content. More resistance value implies less moisture and vice versa. Moisture Sensor ULTRASONIC SENSOR Ultrasonic sensors work by emitting 40KHZ frequency which is not perceivable by humans but can be perceived by cattles and other animals. As this frequency is disturbing for them, they do not come near the plantation area. It has a transmitter which emits the sound waves and receiver to detect the sound if it is reflected by any object placed in its path.

ADVANTAGES: Efficient system for long lasting solution. Compact and easy to setup in any area. Effective sensor integration and economical. Efficient and flexible code. Automatic sprinkler system. Easy tracking and geo-tagging of plantation area. The model is scalable for business applications over wide areas.

COST ESTIMATION:- Things Used and Price Estimation (3 sq.m) Soil Moisture Sensor – Rs150 Node MCU – Rs 350 Ultrasonic Sensors – Rs 80X8= Rs640 Temperature Sensor and humidity sensor–Rs 100 (surrounding atmosphere) Sprinkler System –Rs 90 L298 Motor Driver: Rs 150 Total: Rs 1,480

COST vs. AREA ANALYSIS

Proposed Layout (Forest Area) Sensor box Water Harvesting Tank With Sprinkler Wifi

FUTURE ASPECTS: Rainwater Harvesting: To conserve water in dry places this method can be adopted to store the rain water in closed tank which will serve as a reserve during summers and the sprinkler will get water from this tank. GIOVANNI Use of NASA database to verify sensor values and to detect any malfunction

THANK YOU