IoT Web based Smart Shopping🛒Trolley with ESP32-CAM QR Code Mobile📱Cart Application | iot based smart shopping cart using rfid and nodemcu | smart trolley using barcode scanner | smart car parking system using arduino literature review | rfid based car parking system using arduino and vb.net | smart shopping cart | Trolley for malls near me | Foldable Trolley for Shopping | Grocery Trolley with Wheels | Supermarket Trolley manufacturers | Shopping Trolley Bag | Mall Trolley price | IOT BASED SMART SHOPPING TROLLEY | IOT Based Smart Shopping Trolley for Mall.***********************************************************If You Want To Purchase the Full Working Project KITMail Us: [email protected] Name Along With You-Tube Video LinkWe are Located at Telangana, Hyderabad, Boduppal. Project Changes also Made according to Student Requirementshttp://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 ServiceWe Will Provide Project Soft Data through Google Drive1. Project Abstract / Synopsis 2. Project Related Datasheets of Each Component3. Project Sample Report / Documentation4. Project Kit Circuit / Schematic Diagram 5. Project Kit Working Software Code6. Project Related Software Compilers7. Project Related Sample PPT’s8. Project Kit Photos9. Project Kit Working Video linksLatest Projects with Year Wise YouTube video Links157 Projects  https://svsembedded.com/ieee_2022.php135 Projects  https://svsembedded.com/ieee_2021.php 151 Projects  https://svsembedded.com/ieee_2020.php103 Projects  https://svsembedded.com/ieee_2019.php61 Projects    https://svsembedded.com/ieee_2018.php171 Projects  https://svsembedded.com/ieee_2017.php170 Projects  https://svsembedded.com/ieee_2016.php67 Projects    https://svsembedded.com/ieee_2015.php55 Projects    https://svsembedded.com/ieee_2014.php43 Projects    https://svsembedded.com/ieee_2013.php1100 Projects https://www.svskit.com/2022/02/900-pr...***********************************************************1. Smart Shopping Trolley with Automated Billing using Arduino2. RFID Based Smart Shopping Cart Using Arduino | RC5223. Automated Smart Trolley with Smart Billing  Arduino | RFID4. IoT based Smart Shopping Cart using RFID and NodeMCU5. RFID based Shopping trolley6. IoT based Smart Door Lock System using NodeMCU7. IOT Based Smart Attendance System Project using NodeMCU ESP82668. DIY Smart Wi-Fi Video Doorbell using ESP32 and Camera9. IoT based Fire Alarm System Project using NodeMCU ESP826610. The Internet of Things with ESP32 | webserver | IoT Design Pro11. IoT based Smart Irrigation System using Soil Moisture Sensor12. Moduino X Series - Industrial IoT module based on ESP3213. Iot Home Automation Using ESP-32 with videos (Hindi

More Innovative ideas of NodeMCU based projects for final year students

Do you want to make your NodeMCU based Projects Creatively? Our Takeoff Edu group provide best and unique projects for Final year students. It will help you to get more scores in Final exams. Here our Professionals Support students ideas and guide them to build their own projects.

For real-time monitoring and control, the NodeMCUs are located in the classroom strategically. These devices allow for automation of functions like attendance, light control, and temperature control. With NodeMCU’s Wi-Fi capacities, the information is transmitted directly to a centralized server and thus, the educators receive the information instantaneously.

This NodeMCU project not only emphasizes the technical aspects of IoT and programming but also underscores the practical applications in daily life. From energy efficiency to increased security, the Smart Home Automation System powered by NodeMCU showcases the potential of this platform to transform the way we interact with and manage our living spaces. As the project evolves, it opens doors to further innovations in IoT and serves as a testament to NodeMCU's adaptability in creating smarter, interconnected environments.

Here are the Takeoff Edu Group’s titles of NodeMCU based projects:

Mudslide Disaster Monitoring and Early Warning System Based on ESP32

Home Automation Using Google Voice Assistant

Mudslide Disaster Monitoring and Early Warning System Based on ESP32

Mudslide disasters have a great impact on mortal society, and severe mudslide disasters can beget significant casualties and property damage. In order to reduce the damage caused by natural disasters to mortal society, this paper designs a mudflow disaster monitoring and early warning system based on ESP32 module. The system uses downfall detector, fractometer, soil humidity content detector and infrasound detector to gain corresponding data. The 4G module transmits these data to the pall garcon for data processing and judgment of debris inflow threat. The reused data is displayed in the We Chat applet. The results show that the system can cover the environmental conditions of the target area from a long distance and give a more accurate early warning of mudslide disasters.

Home Automation Using Google Voice Assistant

The thing of this paper is to design a home robotization board that's both functional and aesthetically pleasing, and that can be concealed within the AC power units that are mounted on our walls. We're suitable to control all of the widgets that are linked to the board by giving it a simple voice command similar as “Okay, Google, and turn on the lights.” This will beget the lights to turn on. Because of this paper, we're suitable to control our ménage appliances online, manually, and using a timekeeper.

Takeoff Edu Group not only gives this NodeMCU based projects but also provide all kind of Projects for Final year students. It helps you to learn how to control devices like LED lights, motors, sensors, and more.

Learn how to control an #ESP32 smart home relay using serial commands over the web using Webserial! 😍👍👏

#IoT #smarthome #diy #maker #Arduino #Tech

Know More - http://tinyurl.com/2sz3rxxc

Teknologi ESP32, Aplikasi dan Penggunaanya

Daftar Isi Mengenal Lebih Jauh Teknologi ESP32: Keunggulan dan Aplikasi yang Bisa Diterapkan Memanfaatkan ESP32 untuk Meningkatkan Koneksi Internet of Things (IoT) Inovasi Terbaru: Aplikasi ESP32 dalam Pembangunan Smart Home ESP32 sebagai Solusi untuk Mengoptimalkan Penggunaan Energi Listrik di Rumah Kesimpulan Teknologi ESP32 adalah sebuah sistem mikrokontroler yang dikembangkan oleh…

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How do I start my home automation project with iot at low cost?

Take into account the following steps to start an inexpensive IoT home automation project. First, establish your objectives. List the appliances and processes, such lighting, thermostats, or security cameras, that you wish to automate. Choose open-source solutions with flexibility and device interoperability, such as Home Assistant or OpenHAB.

Next, choose IoT devices from embedded that are being classified as automotive embedded or electric vehicles embedded affordable and compatible with your preferred platform. Affordable smart switches and sensors are offered by companies like Sonoff and Shelly. For device communication, use well accepted protocols like MQTT to ensure easy integration.Repurpose current hardware: The controllers can be Raspberry Pi boards or old iPhones. Utilise cloud services that are free or inexpensive, such as Blynk or Cayenne, for remote access. Investigate do-it-yourself options for creating unique sensors or actuators using Arduino or ESP8266/ESP32 boards.

Use tutorials, forums, and internet tools to educate oneself. There is a wealth of knowledge available on IoT and home automation projects on websites like YouTube and GitHub. Engage the neighbourhood to resolve problems and learn more.Consider security when using strong passwords and frequently updating device firmware. As necessary, gradually extend your system while balancing usefulness and expense. With this strategy, you may create a personalised home automation system while keeping costs down and acquiring important IoT experience.

The ESP32 is a versatile microcontroller that can handle a wide range of tasks, including:

1. **IoT Applications**: It's commonly used in Internet of Things (IoT) projects for tasks like sensor data collection, remote monitoring, and control.

2. **Wireless Communication**: The ESP32 has built-in Wi-Fi and Bluetooth capabilities, making it suitable for applications like home automation, smart devices, and wireless data transmission.

3. **Embedded Systems**: It can be used in embedded systems for tasks such as controlling motors, lights, and displays in various applications.

4. **Data Logging**: The ESP32 can log data from sensors and send it to a server or store it locally, making it suitable for data acquisition and logging applications.

5. **Web Servers**: It can run web servers, enabling you to create web-based control interfaces for your projects.

6. **Audio Processing**: With its capabilities, it can handle audio processing tasks, such as playing music, streaming audio, or processing voice commands.

7. **Robotics**: ESP32 can be used for controlling robots and drones, thanks to its GPIO pins and processing power.

8. **Home Automation**: It's popular for creating smart home systems, allowing you to control lights, thermostats, and other devices remotely.

9. **Prototyping and Development**: ESP32 is often used in prototyping due to its low cost and ease of use, allowing developers to quickly test ideas.

10. **Industrial Automation**: In industrial settings, it can be used for monitoring and controlling machinery, sensors, and equipment.

11. **Weather Stations**: ESP32-based weather stations can collect data like temperature, humidity, and pressure and transmit it to a central server or display it locally.

12. **Gaming and Multimedia**: It can run simple games, multimedia applications, and displays for basic graphics and user interfaces.

13. **Security Systems**: ESP32 can be used in security systems, including camera surveillance and access control.

14. **Education and Learning**: It's a great platform for learning about microcontrollers and IoT, making it popular in educational settings.

15. **Custom Projects**: Its versatility allows you to create custom solutions for specific tasks limited only by your creativity and programming skills.

The ESP32's wide range of capabilities, low power consumption, and affordability make it a popular choice for many embedded and IoT projects.

100 IoT project ideas with ESP8266

In this post I am going to make a list of 100 projects which could be implemented with ESP8266 or ESP32 or Raspberry Pi Pico W. These are IoT based Projects. Home Automation System: Control lights, fans, and appliances remotely through the web dashboard. Weather Station: Read and display temperature, humidity, and other weather data using sensors. Smart Irrigation System: Monitor soil moisture…

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Basic Understanding of Microcontroller

Understanding of Microcontroller

Hello and welcome to my blog! Today I’m going to talk about one of my favorite topics: microcontrollers. If you are interested in electronics, robotics, or IoT, you should definitely learn more about these amazing devices.

A microcontroller is a small computer that can be programmed to perform specific tasks. Unlike a general-purpose computer, a microcontroller is designed for a specific application and has limited resources. For example, a microcontroller may have only a few kilobytes of memory and run at a few megahertz. However, this also makes them cheaper, smaller, and more energy-efficient than regular computers.

A microcontroller consists of three main components: a central processing unit (CPU), a memory unit, and an input/output unit. The CPU is the brain of the microcontroller that executes the instructions stored in the memory. The memory unit stores the program code and data that the CPU needs. The input/output unit allows the microcontroller to interact with other devices, such as sensors, actuators, displays, or communication modules.

To program a microcontroller, you need to write code in a programming language that the microcontroller can understand. The most common languages are C and assembly, but there are also other options such as Python, Arduino, or Scratch. You also need a software tool called an integrated development environment (IDE) that helps you write, compile, and upload your code to the microcontroller. Some popular IDEs are Arduino IDE, MicroPython IDE, and MPLAB X IDE.

Once you have your code ready, you need to connect your microcontroller to your computer using a cable or a wireless connection. Then you can use the IDE to upload your code to the microcontroller’s memory. After that, you can disconnect your microcontroller and power it with a battery or another source. Your microcontroller will then run your code and perform the task you programmed it to do.

There are many types of microcontrollers available in the market, each with different features and capabilities. Some of the most popular ones are Arduino, Raspberry Pi, ESP32, STM32, PIC, and AVR. You can choose the one that suits your needs and budget best.

Microcontrollers are fun and versatile devices that can be used for many projects and applications. You can use them to create robots, smart home devices, musical instruments, games, wearable gadgets, and more. The only limit is your imagination!

If you are interested to understand more about the Microcontroller, then you can go through the PiEmbSysTech Microcontroller Tutorial Blog. If you have any questions or query, that you need to get answer or you have any idea to share it with the community, you can use Piest Forum.

I hope you enjoyed this blog post and learned something new about microcontrollers. If you have any questions or comments, please leave them below. Thank you for reading and happy coding!

Will guide you to how to use a Wappsto IoT Cloud and to build your first project with Wappsto. Things used in this project Hardware componentsM5Stack M5StickC ESP32-PICO Mini IoT Development Board×1Arduino 101×1Software apps and online servicesArduino IDEwappsto Story Introduction: Here are some information about Wappsto, this information was taken from (https://wappsto.seluxit.com/about/) What is Wappsto? Wappsto is a web app store where you can share and, in the future, even sell your data and buy my data. But why would I want to buy and sell data? Data is the key to enriching my personal smart life. If, for example, my neighbor already has a weather station, I can save myself the trouble and buy his data. Okay, so why would I want my neighbor’s data? For example, with weather data, I could better control my floor heating. But how do I put the data to use? Wappsto! Wappsto is the AppStore that Steve Jobs might have dreamt of as a web app store. No SDK, just web standards. Wappsto where data exchange between you and me is improving our smart life. It is a sophisticated way to get your smart things and services to work together. Inspired by the AppStore, Wappsto is a web app store where you can find web apps to automate the stuff in your life. We call them ‘wapps’. Wappsto is also a web-based tool to create and run wapps. Wappsto brings together the capabilities of talented developers with the highly personalized needs of individual end-users. Because developers create programs with javascript, they have powerful flexibility, enabling end-users to tackle even the most challenging automation tasks with ease. Wappsto’s Mission We created Wappsto in response to recurring high-level challenges that we were facing when developing solutions for our customers within the Internet of Things (IoT). Our customers wanted to automate the interaction of their devices, but their customers also wanted to include third-party things and services in their automation. The desired automation was often complex, but they wanted flexible configurations in a straightforward user interface. We realized that there is no one-size-fits-all solution for these problems, so we developed a software framework to make creating these personalized solutions easier. Wappsto’s Vision Many hands make light work. We want to share the framework that we created with as many as possible because if we help individuals realize their own highly personalized ideas for combining things and services, there’s a lot of work to be done. But we have to work smart. We’ve taken our inspiration from the AppStore because a market is optimal to generate and capture value. All market participants stand to gain value. By employing a proven unified data model, Wappsto can represent any service or device of any producer. Wappsto is democratizing the process of integrating services and IoT devices. The more developers work together; the more powerful the platform will become. As it grows, more creative combinations are possible, and more end-users attract more developers in a positive cycle. So, I think now you guys have some understanding of Wappsto and it's services, now we are moving into a simple project that explains how we can use Wappsto into our IoT solutions?. Step-1 : Setting up Wappsto Cloud Service First you have to set up your Wappsto Cloud acount to use the Wappsto. Just type https://wappsto.com/ in your browser. Now we are in the Cloud Portal of Wappsto. Simply create a new account with your information or email ID, then click on login. After the login, you can see the home page of our dashboard. First we have to add our IoT devices to the Wappstro, and then we can visualize the data by charts and widgets. Wappstro uses certificates in order to communicate with cloud service, also you can use multiple mode of communication example (python, Arduino). We can generate the ce

rtificates by two modes, one is by using python script and another one is using the web certification method. In this demo, I'm going to show you the second way of generating the certification. Navigate to store tab in the Wappsto dashboard, and you can see the IoT certification manager, click on that and install that. Once you installed the certification, click on open, and it will direct to the certification page. Here you can see two types of certification, select the Arduino certification and just click on download. Once you downloaded the certification, click on the WappstoIoT for Arduino. It will redirect you to the GitHub page of Wappsto IoT, This repo includes the Arduino example source codes. Download this entire repo, we have to add this in our Arduino library. Step-2 : Setting up Arduino IDE Next, open up the Arduino IDE then goto Sketch→Include Library→Add Zip and select the downloaded the GitHub repo. Once you added the library, then open the File→example→Library Example. Select the Wappsto, and generic Temperature example. First, we have to add our certificate in this code for that save as this example in another name and location. Add the downloaded certification file into that project folder. Next, close your Arduino IDE and open up again. Now you can see the certification file added into the project. Now change the Wi-Fi SSID and Password in the project file. Then just compile the project. Once compilation successful, then upload to your ESP32 board. In this tutorial we are going to use M5Stick C, it's made upon esp32 core. Select correct board and com port, then click on upload. After upload, open up the serial monitor and see for the results, wait to complete the connection. Step-3 : Setting up Wappsto Cloud Dashboard Next move on to the Wappsto dashboard and navigate to the devices, there you can see our ESP32. Next, add widget, and select for the chart type. Then select the device data variable. Here is Temperature. Next move on to the chart customization and make as per your wish. Now you can see your data in the dashboard. Conclusion: In this tutorial I have shown how to use Wappsto and how to build your first project with Wappsto, Next will show how to build a GPS tracker based on ESP32 and Wappsto.

All About ESP32 Development Board with Wi-fi & Bluetooth and AMICA Node MCU ESP8266 Module

The ESP32 Development Board with Wifi and Bluetooth is a low-footprint, minimal system development board powered by the latest ESP-WROOM-32 module and can be easily inserted into a solderless breadboard.

It includes the ESP-entire WROOM-32's basic support circuitry, including the USB-UART bridge, reset and boot-mode buttons, an LDO regulator, and a micro-USB connector. The developer has access to every important GPIO.

Projects That You Can Do With The ESP32 Development Board With Wifi And Bluetooth:-

Universal low-power IoT sensor hub

Home automation.

Mesh network.

Industrial wireless control.

Sensor networks.

Smart Socket.

Wi-Fi speech recognition device.

AMICA Node MCU ESP8266 Module:-

The AMICA Node MCU is an excellent Wi-Fi chip that can be used in a variety of wireless applications. Arduino-style hardware io that is interactive and programmable. The board's Micro USB slot can be directly connected to a computer or other USB host devices. It is a great way to add internet connectivity to any embedded project.

Projects That You Can Do With The AMICA Node MCU ESP8266 Module:-

Internet Smoked Alarm

VR Tracker

Octopod

Serial Port Monitor

ESP Lamp

Incubator Controller

IoT home automation

Security Alarms

ESP32-S2- WROOM is a generic WiFi MCU module featuring rich peripherals and high performance. The module has 42 pins and 4MB flash, which can perform stable. They are an ideal choice for a wide variety of application scenarios relating to Internet of Things (IoT), wearable electronics and smart home. Buy at best price today https://www.campuscomponent.com/products/esp32-s2-wroom-n4/2208614000002662026

Tutorial Lengkap Membuat Smart Home dengan Arduino

Tutorial Lengkap Membuat Smart Home dengan Arduino

Membuat smart home berbasis arduino dan internet of things (iot) merupakan pilihan yang tepat dengan harga yang sangat terjangkau, artikel ini akan mengupas tuntas tutorial membangun projek smart home dengan arduino, esp8266, esp32, bluetooth dan wifi. Arduino IDE merupakan software open source yang dibangun dengan berbagai macam bahasa pemograman seperti Java, C++, C dan Python. dengan…

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So a EPD with front light still low power? We know well that EPD (Electronic Paper Display) technology is defined as bistable. This means that each e-paper matrix cell may occur in one of two available states and no electrical energy is required to maintain displayed content, e.g. cells in black-and-white display arrange in a way to display black (state ‘0’) or white (state ‘1’) color. Energy is only needed to change the cells position, simplifying - to change the display image. Thanks to this feature, EPD technology is a perfect solution in applications where content is changed relatively rarely (e.g. e-prices, e-timetables, e-readers, smart watches and more).

Actually yes. The trait still remains and why don’t you give a try at it?

What is Esp32

The esp32 is a microcontroller chip by Espressif Systems. They are a Chinese manufacturer of low-cost but high-performance chips and smart devices. The esp32 offers a flash memory of 128KB, an AMSD11A 32-bit ARM Cortex M3 processor at 72MHz, 4MB of RAM, and 16KB of EEPROM. Its programs and downloads with a built-in USB interface can run firmware written in C or JavaScript.

Thanks to its open-source nature, the esp32 is popular with RayMing PCB and Assembly PCB devices. They are creating and developing some incredible projects with it. Using Bluetooth LE and Wi-Fi features, these smart devices have brought automation to homes worldwide. It improves our lives in many ways.

A brief history of the esp32

Espressif Systems is a semiconductor company that focuses on developing low-cost, high-performance chipsets. The computer industry widely adopts it. They produce a wide range of chips and products, including those designed for robotics. The esp32 series is one of several chips released so far. Currently, they have seven features in total, with six of them being variations on the original esp32 series.

In 2016, Espressif Systems announced its first-ever IoT chipset, the ESP32. Manufacturers created this new device to operate in wireless devices and sensors. It uses Bluetooth Low Energy and Wi-Fi features. The ESP32 came into the market in February that year. It soon became available to hobbyists, developers, and manufacturers worldwide.

https://www.kingfordpcb.com/technology-blog/what-is-esp32/

Since E-paper display is a new thing to many people they may ask what exactly it can be used for. Here are just some cases but we super-look forward to seeing YOU to excel and develop this tiny gadet beyond our imagination. ◇ Logistics ◇ Reusable Transit Item ◇ Station Terminal ◇ Smart Card ◇ Smart Identity Tag ◇ Seat Number Tab ◇ Smart Luggage Tag ◇ Smart Coffee Cup ◇ Smart Home Application ◇ Identification & Access ◇ Display the Latest Weather Forecast ◇ Display Your Own Twitter Feed ◇ E-paper room booking system ◇ Bitcoin price ticker ◇ Other IoT (Internet of Things) Devices ◇ 1D/2D Barcode Electronic Shelf Label