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educationtech · 4 years ago

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IoT Standards & Protocols Guide - Arya College

The essence of IoT is networking that students of information technology college should be followed. In other words, technologies will use in IoT with a set protocol that they will use for communications. In Communication, a protocol is basically a set of rules and guidelines for transferring data. Rules defined for every step and process during communication between two or more computers. Networks must follow certain rules to successfully transmit data.

While working on a project, there are some requirements that must be completed like speed, range, utility, power, discoverability, etc. and a protocol can easily help them find a way to understand and solve the problem. Some of them includes the following:

The List

There are some most popular IoT protocols that the engineers of Top Engineering Colleges in India should know. These are primarily wireless network IoT protocols.

Bluetooth

Bluetooth is a wireless technology standard for exchanging data over some short distances ranges from fixed and mobile devices, and building personal area networks (PANs). It invented by Dutch electrical engineer, that is, Jaap Haartsen who is working for telecom vendor Ericsson in 1994. It was originally developed as a wireless alternative to RS-232 data cables.

ZigBee

ZigBee is an IEEE 802.15.4-based specification for a suite of high-level communication protocols that are used by the students of best engineering colleges to create personal area networks. It includes small, low-power digital radios like medical device data collection, home automation, and other low-power low-bandwidth needs, designed for small scale projects which need wireless connection. Hence, ZigBee is a low data rate, low-power, and close proximity wireless ad hoc network.

Z-wave

Z-Wave – a wireless communications protocol used by the students of Top Information Technology Colleges primarily for home automation. It is a mesh network using low-energy radio waves to communicate from appliance to appliance which allows wireless control of residential appliances and other devices like lighting control, thermostats, security systems, windows, locks, swimming pools and garage door openers.

Thread

A very new IP-based IPv6 networking protocols aims at the home automation environment is Thread. It is based on 6LowPAN and also like it; it is not an IoT protocols like Bluetooth or ZigBee. However, it primarily designed as a complement to Wi-Fi and recognises that Wi-Fi is good for many consumer devices with limitations for use in a home automation setup.

Wi-Fi

Wi-Fi is a technology for wireless local area networking with devices according to the IEEE 802.11 standards. The Wi-Fi is a trademark of the Wi-Fi Alliance which prohibits the use of the term Wi-Fi Certified to products that can successfully complete interoperability certification testing.

Devices that can use Wi-Fi technology mainly include personal computers, digital cameras, video-game consoles, smartphones and tablets, smart TVs, digital audio players and modern printers. Wi-Fi compatible devices can connect to the Internet through WLAN and a wireless access point. Such an access point has a range of about 20 meters indoors with a greater range outdoors. Hotspot coverage can be as small as a single room with walls that restricts radio waves, or as large as many square kilometres that is achieved by using multiple overlapping access points.

LoRaWAN

LoRaWAN a media access control protocol mainly used for wide area networks. It designed to enable students of private engineering colleges in India to communicate through low-powered devices with Internet-connected applications over long-range wireless connections. LoRaWAN can be mapped to the second and third layer of the OSI model. It also implemented on top of LoRa or FSK modulation in industrial, scientific and medical (ISM) radio bands.

NFC

Near-field communication is a set of communication protocols that enable students of best engineering colleges in India two electronic devices. One of them is usually a portable device like a smartphone, to establish communication by bringing them within 4cm (1.6 in) of each other.

These devices used in contactless payment systems like to those used in credit cards and electronic ticket smartcards and enable mobile payment to replace/supplement these systems. Sometimes, this referred to as NFC/CTLS (Contactless) or CTLS NFC. NFC used for social networking, for sharing contacts, videos, photos,or files. NFC-enabled devices can act as electronic identity both documents and keycards. NFC also offers a low-speed connection with simple setup that can be used by the students of top btech colleges in India to bootstrap more capable wireless connections.

Cellular

IoT application that requires operation over longer distances can take benefits of GSM/3G/4G cellular communication capabilities. While cellular is clearly capable of sending high quantities of data. Especially for 4G with the expense and also power consumption will be too high for many applications. Also, it can ideal for sensor-based low-bandwidth-data projects that will send very low amounts of data over the Internet. A key product in this area is the SparqEE range of products including the original tiny CELLv1.0 low-cost development board and a series of shield connecting boards for use with the Raspberry Pi and Arduino platforms.

Sigfox

This unique approach in the world of wireless connectivity; where there is no signalling overhead, a compact and optimized protocol; and where objects not attached to the network. So, Sigfox offers a software-based communications solution to the students of top engineering colleges in India. Where all the network and computing complexity managed in the Cloud, rather than on the devices. All that together, it drastically reduces energy consumption and costs of connected devices.

SigFox wireless technology is based on LTN (Low Throughput Network). A wide area network-based technology which supports low data rate communication over larger distances. However, it mainly used for M2M and IoT applications which transmits only few bytes per day.

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ecareerpluz · 6 years ago

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ijtsrd · 6 years ago

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GSM Based Home Automation System using Arduino

by Ma May Thet Htar | Ma Hnin Yu Myaing ""GSM Based Home Automation System using Arduino""

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019,

URL: https://www.ijtsrd.com/papers/ijtsrd26806.pdf

Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/26806/gsm-based-home-automation-system-using-arduino/ma-may-thet-htar

call for paper biological science, ugc approved journals for computer science, biological science journal

Home Automation System is used to control home appliances. With the use of computers and electronics technology electrical appliances can be controlled from any part of the world. Consequently, greater amount of energy will be saved and hence the natural resources. This can be achieved by using the mobile phone. This system is designed using Arduino UNO and GSM module. The electrical appliances are controlled by sending a text message from any mobile located in any part provided it has GSM connectivity. There are many existing Home Automation Systems on the world. But every system has its pros and cons. The proposed system is easy to implement and understand.

#Arduino Uno #GSM module #L298 motor driver #LCD display

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callmejose · 8 years ago

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Project Proposal with InfoTech

List of Thesis and Capstone Project Titles for Information Technology

1. Face Recognition with SMS notification and Security System 2. Web Based File Manager with android app 3. Mobile Based Airline Reservation System (Android and IOS) 4. Mobile Based Exam Schedule Notification App 5. Android Based Door Lock App with SMS Notification 6. Web Based Water Billing Management System with Android and SMS Notification for Clients 7. Web and Mobile Event Tabulation App (Web for Admin and Mobile for Judges) 8. Android Based Attendance App using Smart Card Reader 9. Touchscreen Point of Sale Application 10. Cloud Based Accounting Application for Business Analytics

11. Mobile Based Year Book Gallery App (Android and IOS)

12. Mobile Loan Management and Inquiry Application 13. LAN/Web Based Sales and Inventory with Decision Support System 14. Web Application for Real Estate Record Management 15. Android Based Doorbell Notification App with SMS Support 16. Web and Mobile Based Faculty Evaluation System (Web for Admin and Mobile for Rating of Students) 17. GPS based Vehicle theft detection system using GSM technology 18. Hospital ERP System with Decision Support System: A Data Warehouse of Patient Information 19. DTR, Payroll System with Android and SMS Notification for Employees 20. Home Automation and Surveillance with the help of ip camera and wifi module shield 21. ClassDroid: Web and Mobile Class Record Application 22. Android/SMS Based Controlled Electronic Bulletin Board 23. Nursing Education with the use of healthcare software 24. Information Kiosk for School Campus 25. RFid Based Security System with GSM technology 26. Coin Operated Loading Machine Kiosk 27. Converting Filipino Sign Language to Text using Microsoft Kinect Sensor 28. EventScore: Web and Mobile Event Evaluation Application 29. GSM based digital Notice board with display on PC Monitor 30. Android Based Weather Forecast Application using OpenWeatherMap API 31. Baha Watcher: Android Based Water Level Indicator Using Arduino with SMS Notification 32. Air Quality Tester Application for Android (using Arduino) 33. ItemFinder: Lost and Found Monitoring and Management System (Web and Android Application) 34. Coin Operated Printing Kiosk 35. Nursing education and training on management and use of healthcare software 36. RFID Based Bus Fare Payment System 37. Document Tagging Application with Android QR Scanner 38. MemoDroid: Web and Mobile Memo Notification App 39. Online Complaint Management System 40. Online Grading and Attendance Monitoring System with SMS Notification 41. AdviseMobile: A Web and Mobile Based Guidance Consultation System 42. Guidance Office Centralized Information Database System 43. Web Based Entrance Examination with Course Recommendation System (Android Support) 44. CedulaMobile: Cedula and Brgy Certification Request and Issuance Application 45. Mobile Health Care Management System 46. Mobile Nutrition Application with Admin Panel (jquery mobile, php, mysql, apache cordova) 47. Mobile Event Calendar Application 48. Android Based Log Book Application 49. City Tour: Mobile Based Map Application 50. Android Based Directory Listing Application 51. Mobile Based IQ Test Application 52. Cross Platform Mobile Learning System 53. Android App for Graduate School Studies 54. Android Based Library Catalog Application 55. RFID based Vehicle Tracking and Monitoring System 56. SweldoMobile: Mobile Based Salary Notification App 57. ClearDroid: Web and Android Based Clearance App 58. Android Based Room Temperature Monitoring App 59. Web Based Facility Management Information System 60. Web and Mobile Based Physician Expert System 61. Expert System in the field of Medical Technology 62. Web Based Expense Management System with Accounting System 63. Web and Mobile Based Web Tele Conference Application 64. Home security System based on LPG gas, Smoke and Fire Sensors with SMS Based alerts 65. Alumni Events Management System with SMS Notification 66. Medical Dictionary Application (iOS, Android) 67. RFID based Bus Announcement System for Blind 68. Web, Mobile and SMS Based Feedback Application 69. LAN Based Billing and Accounting System with Decision Support 70. Advanced Vehicle Security System with Theft control and Accident Notification via Android Development 71. Voice Recognition Application in Mobile Devices 72. Construction Management Performance and Monitoring System 73. Web and Mobile Based Meeting Notification App 74. Gold Fish Guide Mobile – Android Based Guide on how to take care of your Goldfish 75. Mobile Based Course Portal 76. RFID Door Lock Application 77. Android Based Photography Challenge App 78. RFID based Airport Luggage Security Scanning System 79. Vehicle over Speed Sensing System using Arduino 80. Crop Information Portal Using GIS Application 81. Web Based Purchase Request Processing System 82. Delivery Tracking System (GPS and GSM Based using Arduino) 83. Subject Evaluator App (iOS, Android and web based) 84. Android Based Locator Map Application 85. Fire & Smoke Alarm System with SMS Notification 86. Quiz Management System (mobile for students and web based for teachers) 87. Jewelry Sales Accounting and Appraisal System 88. Web based Manufacturing Management and Monitoring System 89. Online Grading with Mobile Based Subject Reservation Application 90. Warehouse Management System 91. Human Resources Information System 92. To Do / Checklist App 93. RFID Enabled Passport Verification 94. Knowledge Management System on Agriculture 95. Multimedia Web and Mobile Application for Biology Subject 96. Inventory Management in Android 97. Taxi Mobile: Android Based Taxi Booking Application 98. Android Based School Publication App 99. Sound Memory Game 100. Web Based School Management Integrated System 101. Number Catch Game in Android 102. Puzzle game in Android 103. Agriculture Marketing Information System 104. Android Based Water Level Controller using Arduino 105. Contact Management Application 106. City Guide Android Application 107. Event Planner Mobile App 108. Mobile Based Public Access Cataloguing 109. Android Scheduler App 110. Asthma Education via Mobile Application 111. Web and Mobile Forum for Education System 112. Poverty Heat Map using GIS Application 113. RFID Based Livestock Tracking Application 114. Medical Research Data Storage and Analysis System 115. MobileMangrove: Mobile Based Mangrove Species Field Guide 116. RescueAlert: Emergency Notification App 117. Android Based Remote Home Monitoring System 118. Web and Mobile Newsletter App with Forum for School Publication 119. Monitoring of Students and Teachers with SMS Notification using RFID 120. Role Playing Game in Unity 121. Web Based Job Ordering with Inventory Management System 122. Android Based Book Availability Inquiry and Reservation App 123. Android and Online Educational Math Learning Game 124. Flash Drive Locker with SMS Notification 125. Feeds Scheduler Dispensing Application using Android Phone 126. Android Based Alcohol Sensor Application 127. Water Refilling Inventory Management System with Android Support 128. OPOS: Online Point of Sale with Android Support 129. Android Based Light Dimmer App using Arduino 130. SMS based irrigation App (Android, iOS, windowMobile) 131. Medical Research Data Storage and Analysis System 132. Web Based Water Billing Management System with Due Date for Payment Notication via SMS 133. Flash Flood Prediction Model using Regression Analysis with Decision Support System 134. Web Based Customer Relations Management System 135. Online Job Application System with Job Matching Feature 136. E-Agriculture (geo-fencing, elearning, etc)

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manojdlk-blog · 7 years ago

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friendlysecurity-blog · 7 years ago

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Home security system using internet of things

Introduction or Internet Things refers to the network of connected physical objects that can communicate and exchange data among themselves without the need of any human intervention. It has been formally defined as an “Infrastructure of Information Society”, because IoT allows us to collect information from all kind of mediums such as humans, animals, vehicles, kitchen appliances. Thus any object in the physical world which can be provided with an IP address to enable data transmission over a network can be made part of IoT system by embedding them with electronic hardware such as sensors, software and networking gear. IoT is different than Internet as in a way it transcends Internet connectivity by enabling everyday objects that uses embedded circuits to interact and communicate with each other utilizing the current Internet infrastructure. The term IoT and its conception can be traced back to 1985 when Peter T Lewis spoke about the concept during his speech at Federal Communications Commission (FCC). Since then the scope of IoT has grown tremendously as currently it consists of more than 12 billion connected devices and according to the experts it will increase to 50 billion by the end of 2020. The IoT infrastructure has helped by providing real time information gathering and analysis using accurate sensors and seamless connectivity, which help in making efficient decisions. With the advent of IoT both manufacturers and consumers have benefited. Manufacturers have gained insight into how their products are used and how they perform out in the real world and increase their revenues by providing value added services which enhances and elongates the lifecycle of their products or services. Consumers on the other hand have the ability to integrate and control more than one devices for a more customized and improved user experience.

An important factor to consider when we talk about home automation is Security. Home security is a very important feature of home automation and maybe the most crucial one. Home security made a drastic changes in the past few decades and continue to advance much more in the coming years. Previously home security systems meant having an alarm that would go off when somebody would break in but a smart secure home can do much more than that. Therefore the main objective of our work is to design a system which can alert the owner and others of an intruder break-in by sending a notification to their smart phones. The owner will also have the ability to stop or start the alarm remotely using just his smart phone. This system will help the users to safeguard their homes by placing the system on the doors or windows and monitoring the activity through their smart phones. There has been an unprecedented growth in the number of devices being connected to the Internet since past few years. All these devices connected to the internet are part of the IoT infrastructure which can that allows these devices to send and receive data among each other. This is why it is beneficial to use such an existing infrastructure for designing the proposed security system. An alarm system that sounds the buzzer is of no use when a user is not present in the home to take action. When the owner is away communicate with each other. The IoT network consists of embedded electronics, sensors and software from their home, they want to be assured that their home is protected by intruders and thieves while they are gone. This is why the proposed system keeps the owner informed in the real time about the security status of their home. The designed system informs the user as there is a break-in so that the user can take necessary actions. The paper is organized as follows: Section 1 discuss about the introduction of IOT and its applications. Section 2, gives a details review of the focus of the paper. Section 3 talks about the materials and the methods to implement the proposed systems. Section 4 proposed the working model of the proposed system, whereas section 5 gives the configuration of the application. Section 6 explains the experimental results followed by conclusion and future enhancement as Section 7. 2. Literature review Design and Implementation of Security for Smart Home based on GSM technology was discussed by Govinda et al. (2014) that provides two methods to implement home security using IoT [1]. One is using web cameras such that whenever there is any motion detected by the camera, it sounds an alarm and sends a mail to the owner. This method of detecting intrusion is quite good, albeit somewhat expensive due to the cost of the cameras involved in the process. The cameras need to be of good quality which means it should have a wide range and the picture quality should be high enough to detect movement. Also if you go for movable cameras such as dome cameras they will cost even more than the fixed ones. SMS based system using GSM was proposed by Karri and Daniel (2005) propose to use internet services to send messages or alert to the house owner instead of the conventional SMS.[2] Jayashri and Arvind (2013) have implemented a fingerprint based authentication system to unlock a door This system helps users by only allowing the users whose fingerprint are authorized by the owner of the house. This system can also be used to monitor who all have used the sensor to gained entry into the house. The system is coupled with a few more home protection features such as gas leakage and fire accidents. Although a good system, fingerprint sensors are expensive and complex (as they need increased sensor resolution) to integrate into an IoT setup. Some experts also argue that only relying on a fingerprint sensor is not wise as it is relatively easy to lift someone‟s fingerprints and replicate them, which is why it is always advised to use fingerprint scanners in a two factor authentication systems where an additional layer of security is available in the form of PIN, passcode, voice recognition, etc. Some researchers proposed an idea of robust IoT home security system where a fault in of one component in the system does not lead to the failure of the whole system [4]. The idea of using multiple devices which may or may not be directly compatible with each other but can be made to work in such a way that they can replace an existing component of the system in case of a fault. In tandem to this, the model has the ability to use overlap between various devices which would result in preserving energy thus making the model more efficient. An example provided of the said model would use temperature sensor, WiFi module and a door sensor to replace a faulty camera. The authors are successful in an effort to demonstrate the given example. However such systems are useful for people with energy efficiency in mind and for those who need a high degree of robustness with their security systems and are willing to expend more money than usual. Laser rays and LDR sensor are used to to detect intrusion using their movement was proposed in 2016 [5]. The way the system works is that a laser is focused towards a LDR sensor and the moment that the contact of laser to LDR sensor breaks, the alarm connected to the sensor goes off alerting the neighbours and sends a SMS to the owner. This system solves the problem of covering the places which are out of range from the fixed cameras but faces the same difficulties which are faced with systems consisting of GSM modules to send text messages, which is that the delivery of message is dependent on network coverage. Also due to the nature of lasers being a straight beam, it can be avoided by intruders who know about the system and are capable of dodging the lasers, rendering the whole system useless. A novel way to design an electronic lock using Morse code and IoT technology [6]. The authors claim that this as an original idea which have not been tried before and is the first of its kind “optical Morse code-based electronic locking system”. This system uses LED‟s (Light emitting diodes) as an encrypting medium to send signals. To make it more accessible to general public, the LED in smart phones has been used. On the receiver‟s side is a photosensitive resistor as well as a microcontroller such as arduino processor which has the ability to decrypt the optical signal after receiving them from the LED. Upon decoding the signal it can than upload the current condition of the lock to a cloud from where the owner can monitor the system. The authors have experimented the system in real time and it has proved to work under different illumination environments with all the functions working as they were intended to. The authors also claim to have an easy and user-friendly interface. The IoT system developed here works very well and can be used by anyone and is very convenient due to the use of mobile phones as LED, which also makes it a cost expensive alternative[7]. Anitha et al (2016) proposed an home automation system using artificial intelligence and also proposed a model for cyber security systems [8,9]. 3. Materials and Methods Various hardware materials are required to have an home automation system. Some of the essential components are listed below to have and idea about the proposed system. 3.1. Arduino Uno Arduino is an open source, PC paraphernalia and programming organization, endeavour, and client group that plans and produce microcontroller packs for constructing programmed devices and intelligent object that can detect and control questions in the real world. The inception of the Arduino extend began at the Interaction Design Institute in Ivrea, Italy. The equipment reference plans are appropriated under a Creative Commons Attribution Share

Once the ESP8266 has been flashed with the latest firmware, other components can be added to the configuration. For this we will need a breadboard to connect the microcontroller, reed sensor, buzzer and the ESP8266 using the jumper wires. The breadboard is used to interface between the various components available. It also makes it easy to connect multiple inputs to a single pin on the arduino board.

Configuring Blynk App After the user installs the Blynk app on the smartphone, an account has to be created in the app to access its services. The first time the app is opened, it will ask to either sign in or create an account. Create an account and add a new project to get started as given in figure 9. Each project has its own authentication code which is used by the code to communicate with that particular model as provided in figure 10. To interface with our components, we need to add widgets to our model. To add widgets press „+” to add to the model. The app provides a neat interface to add all the required widgets and setting them up according to the code as shown in figure 11. The Blynk needs to be running in the background for the user to get real time notifications.

Experimental results The experiment was carried out in Pentium iv 2.60GHz intel dual core processor, with 4 GB RAM, 15‟ LCD monitor with hard disk as 40 GB. The software required are Blynk App, Arduino IDE, in windows operating system using C++ programming language. The resultant system was checked thoroughly by repeating the motion of opening the door multiple times to see if each time a notification is sent or not and by remotely switching the buzzer on or off from the Blynk app which showed that the system works in the intended way and flawlessly. To test the endurance of the hardware, the setup was left turned on for a couple of hours and tested afterwards. The components got heated which is acceptable but still worked and the notification was shown

Conclusion and future scope The sensors placed on the door informs the home owner as soon as the door is opened by sending a Push notification. The user will get this notification irrespective of whether the phone is locked or unlocked or even if any other app is opened at the moment. This was the main objective of the project, which is the user feels safe and not worry about any intrusion or break-ins when he is away from home. This setup can also be used in commercial offices where some areas are restricted for certain personnel, such a system will immediately inform the administrator of any unauthorized personnel trying to access such an area. Therefore the extensibility and applicability of such a system is only limited only by the imagination. Another important component of the project is the connectivity between the ESP8266 (WiFi module) and the Blynk server. The system successfully connected to the Blynk server using the authentication token and the Blynk libraries. As a result, we were able to get the notification on our smart phones as soon as there was any change in the status of the reed module sensor. Also the additional ability to control the alarm remotely is very beneficial and can be very useful in some unforeseen circumstances. It was also observed that the Blynk app worked smoothly and carried out all communication between the hardware and the app very accurately. The developed system can also be used to in industrial and commercial applications such as offices, warehouses and other areas where some areas are reserved for authorized personnel only or other places where safety and precautions are of primary concerns such as internet server room of a big MNC from where corporate data can be stolen. The system can also be easily upgraded to add extra safety features such as cameras, motion detection sensors, etc. for increased safety. The system can also further be developed by adding an RFID scanner so that the authorized users need only carry a RFID or NFC tag with them on their person. The RFID scanner will work by scanning the tag wirelessly and if the user is authorized to enter, the alarm system will be disabled for some time so that the user can enter.

Fire-smoke detectors | UL-listed monitoring station | Friendly Security Inc

#Friendly Security Inc #UL-listed monitoring station #fire-smoke detectors

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isearchgoood · 7 years ago

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March 20, 2018 at 10:01PM - 2018 Arduino Enthusiast E-Book Bundle (pay what you want) Ashraf

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This book begins with the fundamentals of C programming such as data types, functions, decision making, program loops, and more with the help of an Arduino board. Later, you’ll get acquainted with Arduino interactions with sensors, LEDs, and autonomous systems while setting up the Arduino environment. By the end of the book, you’ll be able to make basic projects like an LED cube and smart weather system that leverages C.

Play w/ mathematical operations using C

Use logical operations & loops to play w/ LEDs and the Arduino board

Create custom functions using C & connect an SD card to the Arduino

Use Object-oriented Programming to connect a GSM module to the Arduino board

Play w/ an LCD board & Servo using standard Arduino libraries

Build projects using Arduino such as a LED cube, a smart weather system & home security

Identify & fix common errors on an Arduino board

In this course, you’ll find out how the Arduino microcomputer can be used to build a range of secret agent projects that would make James Bond’s Q proud. Each chapter will show you how to construct a different gadget, helping you to unlock the full potential of your Arduino. From alarm systems to fingerprint sensors, each of these projects will help you uncover new ground with your Arduino.

Get to know the full range of Arduino features so you can be creative with practical projects

Discover how to create a simple alarm system & a fingerprint sensor

Find out how to transform your Arduino into a GPS tracker

Use the Arduino to monitor top secret data

Build a complete spy robot, a Cloud Camera & Microphone System

Arduino is a powerful and versatile platform for creating DIY electronics projects. This book takes a recipe-based approach, giving you precise examples of how to build Internet of Things projects of all types using the Arduino platform. From robotics to home automation to social media interactions, you’ll learn how to build quick and easy projects that broaden your horizons in the world of IoT and Arduino.

Monitor several Arduino boards simultaneously

Tweet sensor data directly from your Arduino board

Post updates on your Facebook wall directly from your Arduino board

Create an automated access control w/ a fingerprint sensor

Control your entire home from a single dashboard

Make a GPS tracker that you can track in Google Maps

Build a live camera that streams directly from your robot

Arduino by Example is a project-oriented guide to help you fully utilize the power of one of the world’s most powerful open source platforms, Arduino. This book demonstrates three projects ranging from a home automation project involving your lighting system to a simple robotic project to a touch sensor project. You will first learn the basic concepts such as how to get started with the Arduino, then develop the practical skills needed to successfully build Arduino-powered projects with real-life impact.

Master use of the Arduino inside & out w/ 242 pages of content

Integrate sensors to gather & effectively display environmental data

Add Bluetooth, Wi-Fi & other modules to allow the Arduino to communicate & send data between devices

Build automated projects to learn complex algorithms that mimic biological locomotion

Create simple servers to facilitate communication

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Practice & learn basic programming etiquette

Whether you’re a seasoned developer or an Arduino newbie, you’ll find this book useful for building amazing smart electronic devices. Start by building a sound effects generator using recorded audio-wave files you’ve made or obtained from the Internet. You’ll then build DC motor controllers operated by a web page, slide switch, or touch sensor, and end by constructing an electronic operating status display for an FM radio circuit using Arduino.

Build interactive electronic devices using the Arduino w/ 252 pages of content

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Install the Nordic nRF8001 Bluetooth Low Energy code to Arduino

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Wire a small DC motor driver to Arduino w/ a transistor & diode circuit

Dive into over 50 step-by-step recipes to build virtually any Arduino project, whether simple or advanced. Topics encompass Arduino development essentials ranging from programming buttons to operating motors, managing sensors, and controlling displays. You’ll also find tips and tricks for troubleshooting any development problems and pushing your project to the next level.

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This e-book starts with the fundamentals of turning on the basic Arduino hardware, then provides complete, step-by-step instructions on how to maximize its potential. You’ll learn by doing—building projects that can move using DC motors, walk using servo motors, and avoid barriers using its sensors. On top of that, you’ll also learn how to add more complex navigational techniques (such as GPRS) so that your robot won’t get lost.

Develop a series of exciting robots that can sail, go under water, and fly w/ 240 pages of content

Effectively control the movements of all types of motors using Arduino

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Unbox, power up & configure your Arduino

Tweak Arduino to make wheels or legs move so your robot can be mobile

Add GPS to your projects so your robots can know where they are

Use RF signals to control your robot remotely

Connect your robot to a display so you can see what it is thinking

Build more complex robots that can move, swim, or fly

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Measure water flow speed & volume w/ liquid flow sensors and record real-time readings

Set up motion-activated Arduino security cameras & upload images to the cloud

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berwynd-blog · 7 years ago

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Quotations and Literature Review

QUOTATIONS

A Mobile Phone Based Homecare Management System on the Cloud

“Due to the cost and complexity of equipment, in the past, telemedicine contacts were mostly used for consultations between special telemedicine centers in hospitals and clinics. More recently, however, providers have begun to experiment with telemedicine contacts between healthcare providers and patients at home to monitor conditions for chronic disease.”

This quotation states that researchers are beginning to create more systems that help healthcare in maintaining the well-being of patients. In the past, telemedicine seemed costly and complex, but due to many advancements, improvements were introduced, does pushing the agenda of creating a healthcare management system that uses modern technology as its environment.

An Intelligent Mobile Diabetes Management and Educational System for Saudi Arabia: System Architecture

“On completion of the long-term study, there will be a need to carry out a suitable testing module and questionnaire to study the SAED system’s usability in diabetic patients.”

After completing the study, there will be a need for a long-term test to know if the system does work according to plan. This quotation is important since it states that it is important that we do so.

A Low-power, Wireless, Wrist-worn Device for Long Time Heart Rate Monitoring and Fall Detection

“With the development of wireless technique and the demand for long-time vital sign monitoring, devices for real time, wireless heart rate monitoring systems are proposed”

This quotation is relevant to my study since it explains why I should be doing my study in the first place. It is why I make what I should be making.

Blood Pressure Beyond the Clinic: Rethinking a Health Metric for Everyone

“Reframing BP devices away from disease management toward well-being can help reduce the stigma and emotional anxiety associated with BP and stimulate greater adoption and use of these devices.”

The authors of this study tackled about how blood pressure monitoring outside the clinic can become more helpful that one's monitored inside clinical facilities. This is relevant for my study since I will propose a system that does the same, and knowing how important it is to consider one's environment in monitoring their vital statistics.

The Internet of Things for Health Care

“The Internet of Things has a variety of application domains, including health care. The IoT revolution is redesigning modern health care with promising technological, economic, and social prospects.”

This quote talks about how the Internet of Things can redesign current models of health care with more promise to economic and social aspects. This is relevant because the system I will propose uses aspects of IoT in its core.

Design of Remote Medical Monitoring System Based on ZigBee Technology

“Sensors to collect all kinds of human health parameters, the analog signal by pre circuit, micro controller with input in the form of a digital signal, through the wireless data transmission and computer universal serial bus interface into PC, sent by the Internet to the remote monitoring center, provide a variety of important physiological parameters for doctors and help their real-time monitoring remote user's physical health, and can in a timely manner to take corresponding measures”

Authors of this study lay out the general schematics of their systems, which for me is important since I can model my system with theirs, and incorporating ideas that can become helpful as I dig dip in my study.

Smart Real-Time Healthcare Monitoring and Tracking System using GSM/GPS Technologies

“Smart and Innovative solutions should be adopted to increase the responsive actions quality in both time and level. The merit of this project relies on two factors; first its multi-uses and services by making some modification on the software many diseases and illnesses like Alzheimer, mental and motion patients could be benefited from this system; secondly, wireless technologies cloud be used to avoid wired connections which somehow may limit the patient mobility.”

In the future, the concept of a Smart City will be the word of mouth among the demographic. In creating systems that merge modern technology and healthcare is a step forward towards achieving this future. In this quotation, the author talks about how we should adapt to changing times to provide better quality in the responsive actions that we partake.

Web Based Patient Health Monitoring System using Raspberry Pi

“This system is useful for monitoring the health status of elderly and ill patients who are not able to visit hospital daily and require assistance in critical conditions.”

This quotation is relevant to my study since it states the possible user of the proposed system, and who will benefit from the study.

An Interfacing Digital Blood Pressure Meter with Arduino-GSM Module for Real-time Monitoring

“With the reason of busyness, such check and consultation, however, are sometimes difficult to be done by the patient. The urgency of this research is the implementation of a system in health tele-monitoring for areas that are not reached by the internet service.”

This quotation is important since it serves as the reason to do the project. Without the need for tele-medicine, there would be no reason to study this particular subject in the first place. Especially since not everyone can afford the luxury of visiting hospitals, it is important to introduce a new method of monitoring their health.

Wireless Chest Wearable Vital Sign Monitoring Platform for Hypertension

“The object of research were to

1) Design a wireless wearable vital sign monitoring platform,

2) To look for noninvasive BP measurement method,

3) To investigate novel legitimate position for arterial stiffness measurement and

4) To a conduct clinical technical evaluation for prototype.”

This quotation is helpful and relevant since it's a model of how the author's system work, hence making it easier for me to pinpoint a specific step in their model and learn how they have created and. This is especially helpful if I wanted to re-create their system.

LITERATURE REVIEW

In modern medicine, the need to proactively monitor one’s vital statistics is a must, especially when the patient is out of the hospital’s range. These vital statistics include one’s pulse rate, blood pressure and body temperature. All three of these are important in monitoring a patient’s health. But when a patient is out of the hospital, the need to monitor their stats can be a burden, especially to those who can’t do it by themselves. A study by Kendall, et. al. (2015) stated that blood pressure documented in clinical environments are captured in irregular intervals. That is why there needs to be a constant update on the patient’s blood pressure, treating it as a value of continuously fluctuating measure. This also holds true for one’s pulse rate and body temperature.

For these reasons, a web-based health monitoring system is designed to enable the doctor to view the patient’s statistics in real-time using internet-aided devices such as tablets, smartphones, and computers. The system will monitor the patient’s vital statistics and it the doctor can monitor it remotely. When a certain threshold of the patient’s statistics is surpassed, the doctor is notified with the use of Short Messaging Services (SMS) so that they can take further action. Such a system can possibly help patients reduce their bills by being admitted to the hospital.

An Automated Vital Sign Monitoring System for Congestive Heart Failure Patients

Chen, et al (2010) described Congestive heart failure (CHF) as a cardiovascular disorder that affects approximately 4.6 million Americans and is a leading cause of death in the United States. It is a condition in which heart function is inadequate to supply oxygenated blood to the patient. CHF has become an important public health problem but Chen, et al stated that, “mechanisms to monitor patients’ health status and behaviors are limited by constraints imposed by the patient’s geography, infirmity, or resources.” That is why they have developed a remote monitoring system so that it has a more dynamic connection between “healthcare providers and patients.” They also said that it improves health promotion and patient care through monitoring of health data. The system also communicates health reminders, and has a built-in mechanism for patient feedback.

The system they managed to develop is called the Weight and Activity Blood Pressure Monitoring System (WANDA). The WANDA system is built on a three-tier architecture consisting of sensors, a web server, and back-end database tiers. The small study has enabled patients to reduce or maintain the number of readings which are out of the acceptable range. At the end of their study, the results show that the WANDA study is effective for patients with CHF.

Creating a system that has a three-tier architecture can help in the proper communication of patients and health experts.

A Mobile Phone Based Homecare Management System on the Cloud

Wei-Tse Tang, et al (2010) are researchers based in Taiwan. Their study combined Hospital Information System (HIS) and the basis of mobile communication, establishing a telemedicine home care management system for sustainable health monitoring through the transmission of Multimedia Messaging Service (MMS) and Short Messaging Service (SMS). In the past, telemedicine were used in specialized telemedicine centers, due to its cost and complexity. However, due to many advancements in technology “...providers have begun to experiment with telemedicine contacts between healthcare providers and patients at home to monitor conditions for chronic disease.”

The system works by sending real-time physiological responses to telemedicine homecare information management system through GSM 900/1800 2G mobile phone in Taiwan. The participants of the study and their records of blood pressure were connected to the hospitals’ HIS. With this, the physicians may link to the system through the health record page in HIS for patients’ physiological responses and records. If there are any abnormal data, physicians and medical staff can inform and arrange patients back to the clinic for further treatment or observation.

Using this kind of system would reduce the high cost of healthcare, and will serve the as the first line of defense in the medical service system.

A Low-power, Wireless, Wrist-worn Device for Long Time Heart Rate Monitoring and Fall Detection

According to the study by Zhou, et al (2014) the need to monitor the heart rate, especially in the elderly, is an important factor to consider since it plays a significant role in the healthcare industry. Monitoring elderly people's heart rate gives a clearer picture of their overall health and physicians can provide necessary medical service in time. The researchers have developed a wrist-worn device to answer the need for real-time vital sign monitoring. The authors described it as "a miniature wrist-worn watch like device which can be easily worn without disturbing one’s daily life or job." (Zhou, et al, 2014)

The system they have designed to detect and measure the electric signal of one's pulse, then amplified with high impedance and filtered using fourth-order band-pass filter before being sent to the microcontroller. After this, the microcontroller adjusts in signal in amplitude, then converting it from analog to digital. The microcontroller is also responsible for the heart rate detection algorithm and detecting the fall by utilizing the 3-axes accelerometer. This data is then sent to a personal computer for proper analyzation.

The proposed device is compared to the POLAR RS100 to see if its effectiveness is much better. After testing a total of nine subjects, statistics show that the standard deviation of the proposed device are 60.83 and 9.705 while the standard deviation are 60.83 and 9.317. The authors of the study then concluded that the proposed device has better effectiveness than the existing device.

Blood Pressure Beyond the Clinic: Rethinking a Health Metric for Everyone

A study by Kendall, et al (2015) stated that monitoring blood pressure, among other vital signs, is important as it is widely used as an indicator for assessing cardiovascular health. According to Cheng, et al (2005), one in five hypertensive patients do not know that they have the chronic disease, and that the public awareness of BP is poor. The researchers said that for a health indicator like blood pressure, there needs to be a continuous advancement in the tools that people use in monitoring their BP. Kendall, et al (2015) said that "continuous BP monitors suggest a future in which cardiovascular metrics are captured as easily as the activity data dominating the current wearable technology market."

As a valuable metric for health, the researchers did tests to prove their theory. In their tests, they asked participants to monitor their blood pressure at home with the use of a mobile app to help them keep track. The researchers identified that this method of tracking one's blood pressure can be analyzed in such a way that physicians consider their daily activities as a factor. Kendall, et al suggests that future designs should be considerate of the contexts when they deal with health maintenance so that it reduces the stigma and emotional anxiety further linked with BP monitoring.

The Internet of Things for Healthcare

In the near future, the world will see new advancements in technology that is integrated with various aspects of everyday life. Such a future will be aided by the Internet of Things, and no doubt that healthcare is part of this innovation. According to Pattichis, et al (2002), “wireless network will be an important bridge between healthcare providers and consumers of medical care.” Aspects like security and privacy, which is a major concern among users, are also being considered in the development of Smart Cities.

In a paper written by Srinivasan, et al (2016), they described that data, whenever passed between machines and crosses machines boundaries, could give privacy and security issues, because machines can provide access to people without the regards for privacy. The solution to this is to store collected data where the concern for privacy is a priority. Designing privacy conscious architecture which can address the user's concern in data privacy.

Moreover, in a paper by Islam, et al (2015), they suggested to adapt or develop security measures to further secure data from the patients. They stated that, “security services are designed using dynamic algorithms, and there is strong collaboration between these services to defend against present, possible, and unseen attacks.”

Smart Real-Time Healthcare Monitoring and Tracking System using GSM/GPS Technologies

Aziz, et al (2016) have designed a smart system architecture for smart healthcare that uses GSM and GPS technologies. Their aim was to provide an effective application for real-time monitoring and tracking of patients. The researchers stated that, “...the system will track, trace, monitor patients and facilitate taking care of their health; so efficient medical services could be provided at appropriate time.”

This task is done using specific sensors that captures and compares data with a configurable threshold set by doctors via a microcontroller. So that in case there is an emergency, the doctors can then respond immediately, as they are notified using SMS with the exact details of the patient’s current state via the GSM module. The researchers stated that, “...the system will be able to bridge the gap between patients - in dramatic health change occasions- and health entities who response and take actions in real time fashion.” They have concluded that the system is helpful to patients who cannot go to the hospital on a daily basis or require assistance in critical conditions.

An Interfacing Digital Blood Pressure Meter with Arduino-GSM Module for Real-time Monitoring

According to Hadiyoso, et al (2017), heart diseases such as hypertension is one of the main causes of death worldwide, but not many are aware of the importance of cardiac health. For patients diagnosed with hypertension who has to regularly check their blood pressure, consultation with medical experts are crucial. But due to certain factors such as time conflicts, checking and consulting with doctors cannot be done. That is why they have designed a system that sends the patient’s blood pressure value so that the doctor can monitor remotely. The patients can conduct the blood pressure checking by themselves and the device sends the value blood pressure via SMS so that they can consult with medical experts anytime and anywhere. They stated that, “Tele-monitoring application to resolve the issue.”

They developed a blood pressure measurement system based on the E-Health module, integrated with the Arduino to read the measurement data and then sends it via short message service using the SIM 900 module. This type of system can help outpatients in particular in keeping up-to-date with their doctors, lessening the visits to hospitals. The need to innovate and create more systems like this is becoming more evident as time goes by.

Diabetes Management and Educational System for Saudi Arabia

Researchers from Saudi Arabia designed a monitoring system for diabetes patients which can track their lifestyle and vital signs. According to Alotaibi (2014), diabetes is one of the major chronic diseases with approximately 366 million individuals diagnosed in 2011. Risks of one’s poor choices and lifestyle and the lack of health awareness are one of the many causes of diabetes in the Kingdom of Saudi Arabia. But on the other hand, Saudi Arabia had the largest number of Smartphone users in the world in 2012. With the fast-paced technological development, Smartphone has made it possible to create platforms for monitoring and managing diabetes patients. Istepanian, et al (2006) described this as “…the exploitation of the mobile telecommunication and multimedia technologies and their integration into new mobile healthcare delivery systems.”

The system works by enabling the physician to remotely overview the diabetic patient’s present condition. Wherein data from the devices needed such as blood glucose and blood pressure device are transferred to the cloud server via 3G or LTE Network. The researchers stated that, “the diabetic patient is provided with a friendly web interface that includes a data management environment that offers a personal medical profile and a record of glucose and blood pressure levels in the form of tables and charts.” On the other hand, these transferred data are presented to the physician concerned and it “...includes a friendly web interface and mobile application. These two present a diabetes data management system that allows the specialist diabetic nurse to communicate with and monitor the diabetic patient remotely.”

As stated, this type of system can be help diabetic patients who are out of the hospital but still has the need to be monitored constantly. The researchers concluded that system is “...presented to achieve intensive monitoring of daily blood glucose levels, optimized treatment and a normal lifestyle for diabetic patients in Saudi Arabia without restrictions on daily life.” Thus, the use of modern technology in the monitoring of patients can be achieved through the right equipment and methodologies used.

REFERENCES

1. Suh, M., Evangelista, L. S., & Chen, C. (2010, November 11). An Automated Vital Sign Monitoring System for Congestive Heart Failure Patients. Retrieved January 19, 2018, from https://dl.acm.org/citation.cfm?id=1883010

Description: This paper talks about a monitoring system designed by the authors that is meant to check the well-being and health of patients with Congestive Heart Failure, all with the use of technology.

2. Tang, W., Hu, C., & Hsu, C. (2010). A Mobile Phone Based Homecare Management System on the Cloud. Retrieved January 19, 2018, from http://ieeexplore.ieee.org/document/5639917/

Description: This study talks about designing a homecare health management system via the Cloud technology.

3. Alotaibi, Istepanian, Sungoor, & Philip. (2014). An Intelligent Mobile Diabetes Management and Educational System for Saudi Arabia: System Architecture. Retrieved January 19, 2018, from http://ieeexplore.ieee.org/document/6864296/

Description: This paper talks about developing a diabetes management and monitoring system guided by technology for diabetic patients of the Kingdom of Saudi Arabia.

4. Zhou, C., Tu, C., & Gao, Y. (2014). A Low-power, Wireless, Wrist-worn Device for Long Time Heart Rate Monitoring and Fall Detection. Retrieved February 2, 2018, from http://ieeexplore.ieee.org/document/6954670/

Description: The authors of the study proposed a device that can detect a person’s heart rate using their wrists. This device can also detect if the person has fallen or not.

5. Kendall, L., Morris, D., & Tan, D. (2015, April 18). Blood Pressure Beyond the Clinic: Rethinking a Health Metric for Everyone. Retrieved January 19, 2018, from https://dl.acm.org/citation.cfm?id=2702276

Description: This paper talks about how blood pressure outside the clinical setting should be properly discussed since studies have proven that home-based monitoring can be more effective.

6. Kwak K., & Islam, S. (2015). The Internet of Things for Health Care: A Comprehensive Survey. Retrieved February 2, 2018, from http://ieeexplore.ieee.org/document/7113786/

Description: This study is a survey about a how the Internet of Things is integrated with healthcare and all its benefits and disadvantages.

7. Xu, D., Feng, P., & Ren, S. (2015). Design of Remote Medical Monitoring System Based on ZigBee Technology. Retrieved February 2, 2018, from http://ieeexplore.ieee.org/document/7310740/

Description: A paper that talks about using the ZigBee technology in creating a medical monitoring system for its users.

8. Aziz, K., Tarapiah, S., Ismail, S. H., & Atalla, S. (2016). Smart Real-Time Healthcare Monitoring and Tracking System using GSM/GPS Technologies. Retrieved January 19, 2018, from http://ieeexplore.ieee.org/document/7460394/

Description: This paper talks about designing a system that monitors a patient’s health remotely and tracking them using the GPS technology.

9. Sunehra, D., & Ramakrishna, P. (2016). Web Based Patient Health Monitoring System using Raspberry Pi. Retrieved February 2, 2018, from http://ieeexplore.ieee.org/document/7918028/

Description: This paper talks about creating a system that uses the Raspberry Pi technology in creating a monitoring system

10. Fajar, Z., Hadiyoso, S., & Rizal, A. (2017). An Interfacing Digital Blood Pressure Meter with Arduino-GSM Module for Real-time Monitoring. Retrieved January 19, 2018, from http://ieeexplore.ieee.org/document/8226669/

Description: This paper studies about developing a blood pressure monitor aided by Arduino so that it can check the patient’s health in real-time without the need of going to hospitals

11. J., & G. (2017). Wireless Chest Wearable Vital Sign Monitoring Platform for Hypertension. Retrieved February 02, 2018, from http://ieeexplore.ieee.org/document/8036950/

Description: A study that talks about a proposed device used in the chest for real-time vital sign monitoring. This is especially useful for patients with hypertension.

Additional References:

1. R. Istepanian, et al., M-health: emerging mobile health systems. Berlin: Springer, 2006

2. C. S. Pattichis, E. Kyriacou, S. Voskarides, M. S. Pattichis, R. Istepanian and C. N. Schizas, “Wireless telemedicine systems: an overview,” Antennas and Propagation Magazine (IEEE), Vol. 44., Issue 2., 143-153, Apr 2002

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svsembedded · 9 months ago

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Design & Implementation of an Automated Reminder Medicine for Old People in Hospitals Using Arduino | Design and implementation of Automatic Medicine Reminder Using Arduino with GSM - SMS Alert | Design of Automatic Medication Dispenser | Automatic Pill Dispenser | Design and implementation of automatic medicine dispensing | Design and Implementation of Hospital Automatic Nursing | IOT based Medicine Reminder System with Email Alert. *********************************************************** If You Want To Purchase the Full Working Project KIT Mail Us: [email protected] Title Name Along With You-Tube Video Link We are Located at Telangana, Hyderabad, Boduppal. Project Changes also Made according to Student Requirements http://svsembedded.com/  https://www.svskits.in/ http://svsembedded.in/  http://www.svskit.com/ M1: +91 9491535690  M2: +91 7842358459 We Will Send Working Model Project KIT through DTDC / DHL / Blue Dart / First Flight Courier Service We Will Provide Project Soft Data through Google Drive 1. Project Abstract / Synopsis 2. Project Related Datasheets of Each Component 3. Project Sample Report / Documentation 4. Project Kit Circuit / Schematic Diagram 5. Project Kit Working Software Code 6. Project Related Software Compilers 7. Project Related Sample PPT’s 8. Project Kit Photos 9. Project Kit Working Video links Latest Projects with Year Wise YouTube video Links 157 Projects  https://svsembedded.com/ieee_2022.php 135 Projects  https://svsembedded.com/ieee_2021.php 151 Projects  https://svsembedded.com/ieee_2020.php 103 Projects  https://svsembedded.com/ieee_2019.php 61 Projects  https://svsembedded.com/ieee_2018.php 171 Projects  https://svsembedded.com/ieee_2017.php 170 Projects  https://svsembedded.com/ieee_2016.php 67 Projects  https://svsembedded.com/ieee_2015.php 55 Projects  https://svsembedded.com/ieee_2014.php 43 Projects  https://svsembedded.com/ieee_2013.php 1100+ Projects https://www.svskit.com/2022/02/900-pr... *********************************************************** 1. Smart Medicine Reminder Box | e-pill Medication Reminders, 2. MeDuino - Automatic Medicine Reminder. Arduino diy, 3. Medicine Reminder using Arduino by Saddam Khan, 4. Smart Medicine Box, 5. Arduino Uno based Medicine reminder project, 6. Pill Reminder with Arduino version, 7. Automatic patient medicine reminder system || Best project center in Bangalore, 8. Automatic Pill Reminder Using Arduino uno, 9. Raspberry Pi Based Speaking Medication Reminder Project, 10. IoT Based Smart Medicine Box, 11. Medicine Reminder simulation on proteus, 12. Automatic Medicine Reminder with date using Arduino, 13. Medicine reminder, 14. Smart Medicine Pill Reminder IOT Project using Aurdino, 15. Medicine Reminder Box Using Arduino, 16. Smart Medicine Dispenser, 17. Medicine reminder/Alarm using Arduino, 18. MedBox: Smart Medication Box with Arduino - self test, 19. Medicine Reminder System | Smart Medicine Pill Reminder Project, 20. Medicine reminder using Arduino, 21. Best Medicine Reminder DIY, 22. Explanation of our Medicine Reminder Project, 23. SmartSF Smart Pill Box, 24. Medication Reminder using PIC Microcontroller, 25. Medicine Reminder Using Home Made Arduino, 26. Medicine Reminder System Using Microcontroller, 27. ANDROID APP BASED SMART MEDICATION REMINDER SYSTEM, 28. IOT Based Medicine Reminder System with Email Alert, 29. Simulation: Photoresistor-based Smart Pill Dispenser | Schematic Diagram, Arduino Code & Simulation, 30. PILL REMINDER USING ARDUINO BOARD, 31. Pill Reminder Using Raspberry Pi, 32. Our first mini project(Vishva- automatic medicine reminder), 33. Automatic Medication Reminder for People to Take Medicines in Time, 34. Arduino Automatic Medicine Reminder, 35. smart medicine reminder using arduino, 36. Medicine reminder using arduino, 37. Medicine Reminder for Elder people, 38. Renesas: Smart Medicine Box, 39. Smart Medicine Box App, 40. Medicine Reminder System Using Arduino, Design

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sofcontraining-blog · 8 years ago

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SMS Based home automation using Arduino Microcontroller

Today GSM networks are widely used, either for making calls or sending SMSes. Let us discuss a project of controlling home appliances by sending sms.

There are many types of home automation systems available in the market. Some are DTMF controlled home appliances, IR remote controlled home appliances and RF based. This system executes accurate control according to the message sent by the mobile phone. Just by sending a message to the GSM modem interfaced to a Arduino microcontroller (MCU) on/off operations can be performed. Present status of the equipment is also verified through a LCD display.

Arduino Microcontroller based home automation system works off 12v power supply. Arduino microcontroller (MCU) requires only 5v but GSM modem requires 12V. A LCD display is used for receiving and displaying the messages. Here LCD is used in 4-bit mode, which means only four lines are required to display data. When you want to control equipment and show its status information, you need to send an SMS to GSM Modem. Arduino Uno reads the messaged received by the GSM modem and sends commands to control the equipments and displays its status on LCD. GSM modem sends the commands in the text mode to Arduino Uno using RS232 interface.

AT command is sent from Arduino Uno to the GSM modem as the program starts up, and the response is received from the GSM modem after a very short period of time. After receiving the command to turn on loads, the relay set performs the switching operation.

The home automation market is growing very fast and there is a need a vast range of developments is carried out. Arduino Uno along with GSM provides smart automated home system with desired buad rate of 9600 bps.

#automation #Microcontroller

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svsembedded · 11 months ago

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IOT Based Gas Cylinder Level Detection

IOT Based Gas Cylinder Level Detection & Sensor's Alert using Arduino [ SMS / E - MAIL ] | Automatic GAS Booking System and Leakage Detection using IOT | Automatic LPG Gas Booking and Leakage Detection using IOT | IOT Based LPG GAS Booking & Sensor Alert System [ SMS / E - MAIL ] | Arduino Based LPG GAS Monitoring & Automatic Cylinder booking with Alert System Using IoT | IOT Based Gas Cylinder Level Detection & Sensor's Alert using Arduino [ SMS / E - MAIL ] | LPG Gas Monitoring and Automatic cylinder booking alert system | IOT Based Gas Cylinder Level And Leakage Detection Using Arduino. *********************************************************** If You Want To Purchase the Full Working Project KIT Mail Us: [email protected] Title Name Along With You-Tube Video Link We are Located at Telangana, Hyderabad, Boduppal. Project Changes also Made according to Student Requirements http://svsembedded.com/  https://www.svskits.in/ http://svsembedded.in/  http://www.svskit.com/ M1: +91 9491535690  M2: +91 7842358459 We Will Send Working Model Project KIT through DTDC / DHL / Blue Dart / First Flight Courier Service We Will Provide Project Soft Data through Google Drive 1. Project Abstract / Synopsis 2. Project Related Datasheets of Each Component 3. Project Sample Report / Documentation 4. Project Kit Circuit / Schematic Diagram 5. Project Kit Working Software Code 6. Project Related Software Compilers 7. Project Related Sample PPT’s 8. Project Kit Photos 9. Project Kit Working Video links Latest Projects with Year Wise YouTube video Links 157 Projects  https://svsembedded.com/ieee_2022.php 135 Projects  https://svsembedded.com/ieee_2021.php 151 Projects  https://svsembedded.com/ieee_2020.php 103 Projects  https://svsembedded.com/ieee_2019.php 61 Projects  https://svsembedded.com/ieee_2018.php 171 Projects  https://svsembedded.com/ieee_2017.php 170 Projects  https://svsembedded.com/ieee_2016.php 67 Projects  https://svsembedded.com/ieee_2015.php 55 Projects  https://svsembedded.com/ieee_2014.php 43 Projects  https://svsembedded.com/ieee_2013.php 1100+ Projects https://www.svskit.com/2022/02/900-pr... *********************************************************** 2. GSM based LPG weight and LPG leakage detection System, 3. Building A Home & LPG GAS Security System Using IoT , 4. IoT for the Home – Smart LPG Weighing System, 5. Smart Kitchen Using IoT, 6. Home Automation Using Internet of Things, 7. Dangerous Gas Detection using an Integrated Circuit and MQ-9, 8. 9 Simple Ways To Turn Your House Into A Smart Home, 9. ECE final year projects for B.Tech & M.Tech students, 10. Design and Development of Kitchen Gas Leakage Detection, 11. automatic gas booking system project, 12. gsm based lpg weight and lpg leakage detection system, 13. project report on automatic gas booking system, 14. lpg gas detector using gsm module project report, 15. gsm based lpg weight and lpg leakage detection system pdf, 16. gsm based gas leakage detection system ppt, 17. lpg gas leakage detector using 8051, 18. lpg gas level indicator project, 19. Automatic LPG Booking, Leakage Detection And Real Time Gas, 20. Design and Development of Kitchen Gas Leakage Detection, 21. Design and Implementation of an Economic Gas Leakage, 22. IoT based Home Alert System using Wi-Fi and Cloud Technologies, 23. IOT Based Person/Wheelchair Fall Detection, 24. IOT Based Remote Automated Irrigation Control System, 25. IOT based Remote machines status monitoring and controlling in industries, 26. IOT Based Sky Level Monitoring Snow Level, 27. IoT based smart data logging & visualization system, 28. IoT Based smart health monitoring system, 29. IoT based Smart HealthCare Kit, 30. IOT Based Smart Road Way Markers to avoid accident or blocked Route, 31. IoT based Super Market Inventory Management System, 32. IOT Based Toll Booth Manager System, 33. IOT based Traffic density monitoring system, 34. IOT Based Trash Collection Vehicle Route Optimiaztion by Rubbish Level Detection, 35. IoT based weather monitoring & prediction system using MEMS sensors., 36. IOT Based Wireless Remote Soil Moisture Sensing & Monitoring System, 37. IOT Based WSN Monitoring and Controling System, 38. IoT Dune Buggy - Control it from Anywhere, 39. IOT Electronic Door Opener, 40. IoT Enabled SCADA system for Electric Substations, 41. IOT Garbage Monitoring System, 42. IOT Heart Attack Detection & Heart Rate Monitor, 43. IOT Home Automation Using Raspberry Pi, 44. IOT Industry Automation Using Raspberry Pi, 45. IOT Irrigation Monitoring & Controller System, 46. IOT Liquid Level Monitoring System, 47. IOT Patient Health Monitoring Project, 48. IoT Pill Bottle, 49. IoT Power Strip with MQTT enabled control, 50. IOT Theft Detection Using Raspberry Pi,

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