EEE- - EWU - Final-Presentation-for-EEE400.pptx
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Oct 01, 2024
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About This Presentation
FINAL YEAR CAPSTONE PROJECT PRESENTATION ON IOT-BASED SMARTV MEDICINE BOX FOR DISABLED PEOPLE
Slide Content
“IoT Based Smart Medicine Box for Disabled People” EEE400 | 21 September, 2022 1
OUR TEAM: 2 MD. RAFIUL ABDUSSAMI (Senior Lecturer, Dept. of EEE, East West University) Supervisor: 1. Boshra Hasan 2. Shah Md. Hasan Habib (2017-2-80-027), 3. Tasnima Tabassum Haque Meem (2018-1-80-010), 4. Md. Saad Ibne Hossain (2018-1-80-012) (2017-1-80-050 ),
General Part 3
Concept Built for the visually impaired, hearing impaired, mute as well as deaf-mute patients. Improved Smart Medicine Box. 4
Normal IoT based Smart Medicine Box Our Developed IoT based Smart Medicine Box 5 Innovation 5 Ultrasonic sensor
Projected Design 6 Using an AC to DC step down transformer power supply module. 1 microprocessor will be used to process information from the sensors and do necessary calculations to operate the box.
7 Benefits enables impaired individuals to receive regular medical care deployment on a greater scale in hospitals Environment friendly Low Maintenance Cost
Technical Part 8
Objective Developing a smart healthcare system. Targeted consumer: Specially disabled people. Maintaining their medication schedule by our system. 9
Gantt Chart Part-A 10 Start date: 01 October, 2021 | 80 days
Gantt Chart Part-B and C respectively, 11 85 Days 95 Days
Alternate Approaches 12 Pill Box with Bluetooth System Based on a low power display. Built mainly by using Bluetooth module. Automatic Medicine Dispenser(AMD) Automatically stores medicines in a dispenser. Used IoT, MedCare App to Arduino.
Final Design Arduino +Electrical Part Website 13
Circuit for Total System Features connected with the Arduino Mega Node MCU to Website through SQL Database Using DHT22 Sensor in Node MCU 16
Arduino+ Electrical Part Arduino Mega’s connection with the other components except the website. Slide 27 14
Website Part Language used: PHP, JavaScript Connected with ESP8266 Node MCU Slide 27 15
Prototype Development 17 Developed in 3 steps: Trialing Evaluating Correcting & Improving.
Short video of prototype performance evaluation. 18
Performance Evalution 19 Tested by one of our stakeholders LED light, display & buzzer enables to c hoose right compartment properly Takes some time to update website
Design Refinement 20 We are proposing some new additions that can be used in future when it comes to the commercialization.
Product lifetime: 5 years. Per unit production cost: 5,148 taka. Selling price: 8,200 taka. 21 Economic Analysis Simple payback period: 3.59 years. Internal rate of return: 13% Net present value: 11,013,946 taka Production: 10000 units per year Interest rate: 9% Discount rate: 5%
Conclusion Verification of complex engineering problems P1: Depth of knowledge required. P3: Depth of analysis required. P4: Familiarity of issue. P6: Extent of stakeholder involvement P7: Interdependence. Meeting project objective Able to build a smart system for the disabled to make their medication intake easier. Economically beneficial. 22
Thank You 23
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