Transferência de Arquivos via LoRa

Um projeto que venho fazendo há alguns meses e que muitas pessoas estavam interessadas em transmitir imagens e agora será possível, mas claro, respeitando as limitações.

Transferência da arquivos via LoRa é possível assim como qualquer outra modulação, mas existem desafios particulares nessa tarefa que em outras modulações podem ser mais fáceis.  Sobre a modulação LoRa Antes mesmo de partimos para a transferência de arquivos via LoRa, é preciso entender que o LoRa não foi feito para esse tipo de aplicação e sim para dispositivos IoT, mesmo embora tenha uma taxa…

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LoRa Automation to Control Relays

Now there's a cheap path for me to experiment with Halow which is a protocol like LoRa but shorter distance with the upshot that it's better for cities. I'll get this when the latest donations get to my account

Introduction to Internet of Things (IoT) Programming

The Internet of Things (IoT) is revolutionizing the way we interact with devices, allowing everyday objects to connect to the internet and share data. From smart homes and wearables to industrial automation, IoT is reshaping the world. In this post, we'll dive into the basics of IoT programming and how you can start creating your own smart applications.

What is IoT?

IoT refers to a network of physical devices embedded with sensors, software, and other technologies to connect and exchange data with other devices and systems over the internet.

Key Components of IoT Systems

Devices/Sensors: Physical components that collect data (e.g., temperature sensors, motion detectors).

Connectivity: Wi-Fi, Bluetooth, Zigbee, LoRa, or cellular networks to transmit data.

Data Processing: Microcontrollers or cloud services process the incoming data.

User Interface: Web/mobile applications to monitor and control devices.

Popular IoT Hardware Platforms

Arduino: An open-source electronics platform based on simple microcontrollers.

Raspberry Pi: A small, affordable computer ideal for more powerful IoT applications.

ESP8266/ESP32: Low-cost Wi-Fi-enabled microchips widely used in IoT projects.

Languages Used in IoT Programming

C/C++: Commonly used for low-level programming on microcontrollers like Arduino.

Python: Popular for Raspberry Pi and edge computing due to its simplicity.

JavaScript (Node.js): Useful for IoT dashboards and server-side applications.

MicroPython: A lightweight version of Python optimized for microcontrollers.

Example: Blinking an LED with Arduino

void setup() { pinMode(13, OUTPUT); // Set digital pin 13 as output } void loop() { digitalWrite(13, HIGH); // Turn the LED on delay(1000); // Wait for 1 second digitalWrite(13, LOW); // Turn the LED off delay(1000); // Wait for 1 second }

IoT Data Handling and Cloud Integration

Once your devices are collecting data, you'll need to store and analyze it. Here are some common platforms:

ThingSpeak: A simple platform for IoT data logging and visualization.

Firebase: Real-time database ideal for mobile IoT applications.

AWS IoT Core: Scalable cloud service for managing IoT devices.

MQTT Protocol: Lightweight messaging protocol used for IoT device communication.

Popular IoT Projects to Try

Smart door lock controlled by a mobile app

Home temperature monitor with alerts

Motion detection security camera

Plant watering system based on soil moisture levels

Fitness tracker using accelerometers

Best Practices for IoT Programming

Use lightweight protocols and efficient code to conserve resources.

Secure your devices with strong authentication and encryption.

Plan for over-the-air (OTA) updates to patch software bugs.

Reduce power consumption for battery-powered devices.

Test in real-world conditions to ensure reliability.

Conclusion

IoT programming opens the door to endless possibilities for innovation and automation. Whether you're just blinking LEDs or building a smart home system, learning IoT programming will give you the skills to bring physical objects to life through code. Start simple, keep exploring, and gradually build smarter and more connected projects.

Fewalab Industries' ATmega328-based📶LoRa node is designed as a plug-and-play solution for IoT projects requiring low-power, long-range 📡wireless communication. 🤩👍👏

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Know More - https://tinyurl.com/4zss7nw3

An IoT-based smart lighting and environment monitoring system uses sensors and connected devices to collect and analyze data about the environment and lighting | An IoT-based Smart Environment Monitoring System | Smart Lighting and Internet of Things | IoT Smart Lighting Systems: Future of Energy Efficiency | Environmental monitoring system using IoT project report | Design IoT mesh enabled environment monitoring device | IoT environmental monitoring PPT | IoT in environmental protection | IoT projects for environment | Environmental monitoring project.***********************************************************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. An IoT Based Real-Time Environmental Monitoring System,2. ENVIRONMENTAL MONITORING SYSTEM USING IOT,3. Arduino Environmental Monitoring - Arduino Project Hub,4. Design of an IoT based Real Time Environment Monitoring,5. IOT Based Environmental Monitoring System using Arduino,6. IoT Based Environment Monitoring Robotic with an Arduino,7. IOT based environmental pollution monitoring system – IRJET,8. IOT Based Smart Environmental Monitoring Using Arduino,9. Smart Environmental Monitoring through Internet of Things,10. A Novel Environmental Monitoring System for Real Time using,11. IoT Based Energy Efficient Environmental Monitoring Alerting,12. IoT based Temperature and Humidity Controlling using,13. Advances in Smart Environment Monitoring Systems Using,14. IoT Empowered Real Time Environment Monitoring System,15. An IOT Based Environmental Monitoring System,16. Arduino Environmental Monitoring System using Grove,17. IOT BASED ENVIRONMENTAL WEATHER MONITORING ,18. IoT Based Humidity and Temperature Monitoring Using ,19. An inexpensive environmental monitoring system with IoT,20. IOT based Weather Monitoring System using Arduino,21. LoRa IOT Home Environment Monitoring System : 11 Steps,22. IOT based Greenhouse Monitoring and Control System Project,23. IoT Based Smart Environmental Monitoring Using,- IJAREEIE,24. IOT BASED ENVIRONMENT,- MyGov Innovation,25. IoT Based Pollution Monitoring System for Effective Industrial,26. IoT based patient health monitoring system ppt,27. The Design and Implementation of GPS Controlled,28. IoT-based monitoring of environmental conditions to improve ,29. IOT BASED GARBAGE MONITORING USING ARDUINO By,30. Water Quality Monitoring System Based on IOT – Research,31. Web Based Greenhouse Environment Monitoring and,32. 30 IoT Projects | Awesome IoT Project Ideas for Enthusiasts,33. Smart Environmental Sensing Robotic Vehicle for the,- IJEDR,34. (IOT) Based Weather Monitoring system – IJARCCE,35. An Arduino UNO Based Environment Monitoring System,36. IoT based Pollution Monitoring and Controlling using Arduino,37. Arduino: Make an IoT environment monitor | Udemy,38. WEATHER MONITORING SYSTEM USING IOT AND,- SERSC,39. Design and Implementation of an IDC Environmental,40. IOT Based Air Pollution Monitoring System – IJSER,

The comprehensive guide to the Internet of Things and remote control

The Comprehensive Guide to the Internet of Things and Remote Control

Table of Contents Chapter 1: Introduction to the Internet of Things (IoT) Definition of the Internet of Things. The evolution of the concept of the Internet of Things. How does the Internet of Things work? IoT applications in daily life. Chapter 2: Components of the Internet of Things Smart devices (sensors, actuators, and controllers). Communication and networking in the Internet of Things (Wi-Fi, Bluetooth, LoRa, 5G). Software and cloud platforms (artificial intelligence and data analysis). Protocols used in the Internet of Things (MQTT, CoAP). Chapter 3: Communication technologies in the Internet of Things Overview of communication technologies. The difference between local and wide area networks (LAN vs WAN). Low-power communication networks (LPWAN). Challenges of communication and reliability in the Internet of Things. Chapter 4: Smart home automation using the Internet of Things Definition of the smart home. Smart home appliances (smart lights, smart locks, thermostats). Virtual assistant systems (such as Alexa and Google Assistant). Smart home security and monitoring solutions. Chapter 5: Internet of Things in industrial sectors Smart manufacturing (predictive maintenance, smart robots). Smart agriculture (agricultural sensors, smart irrigation systems). Smart cities (traffic management, smart ecosystems). Smart healthcare (remote monitoring, wearable devices). Chapter 6: Security and privacy in the Internet of Things Potential security risks in the Internet of Things. Privacy and data protection challenges. Security protocols and technologies (encryption, identity management). How to address security threats in smart systems. Chapter 7: Artificial intelligence and the Internet of Things How does artificial intelligence complement the Internet of Things? Predictive analysis and intelligent decision making. Machine learning applications in the Internet of Things. Examples of artificial intelligence in smart systems. Chapter 8: The future of the Internet of Things Future market developments and trends. 5G Internet of Things and its role in supporting developments. Future challenges and new opportunities. How will the Internet of Things change our daily lives? Chapter 9: Examples and Case Studies Practical examples of the use of IoT in various fields. Case studies of the most popular IoT applications (eg: Nest, Tesla, Philips Hue). Utilizing the Internet of Things to improve efficiency and productivity. Chapter 10: How to get started with the Internet of Things? Available tools and platforms for developing IoT solutions (Raspberry Pi, Arduino). Building simple projects using the Internet of Things.

Also in this weeks GB2RS…

Have you ever tried LoRa? Or Node Red? Have you used the Raspberry Pico for coding or played a Morse game with an Arduino? These are just some of the great activities on the RSGB’s website that are available for National Coding Week which begins this Monday, 16 September. Whether you fancy doing something different […] http://dlvr.it/TDBmvM

Best Electronic Components Suppliers in Delhi - Campus Component

In the ever-evolving world of electronics, finding a reliable and trustworthy source for high-quality electronic components is essential. Campus Component, a leading electronic components distributor in India, stands out as a premier destination for a wide range of components catering to diverse industry needs. With a commitment to excellence, Campus Component has established itself as the go-to partner for engineers, hobbyists, and businesses seeking top-notch electronic components and exceptional customer service.

A Comprehensive Range of Electronic Components

Campus Component boasts an extensive inventory of electronic components, encompassing a vast spectrum of categories, including:

Microcontrollers and Development Boards: Discover a comprehensive selection of microcontrollers and development boards from renowned brands like Arduino, ESPRESSIF, and NUVOTON, empowering you to bring your electronic creations to life.

Sensors: Enhance your projects with a diverse range of sensors, including temperature sensors, proximity sensors, and accelerometers, enabling you to interact with the physical world with precision and accuracy.

Relays: Control and regulate electrical circuits with a broad assortment of relays, including power relays, PCB relays, and solid-state relays, ensuring reliable and efficient power management.

Wireless Modules: Expand the connectivity of your projects with a wide array of wireless modules, including Bluetooth modules, Wi-Fi modules, and LoRa modules, enabling seamless communication and data exchange.

Campus Component: Your Trusted Source for Electronic Components

In a landscape brimming with electronic components distributors, Campus Component distinguishes itself with its unwavering commitment to quality, customer-centric approach, and dedication to innovation. Whether you're seeking a single resistor or a comprehensive suite of components for your next project, Campus Component stands as a reliable partner, ensuring you have access to the high-quality electronic components you need to bring your ideas to life.

Embrace the Power of Electronics with Campus Component

Join Campus Component's growing community of engineers, hobbyists, and businesses and discover the power of high-quality electronic components. With an extensive inventory, unwavering commitment to quality, and customer-centric approach, Campus Component is your one-stop shop for all your electronic components needs.

Trending IoT Based Projects: -

Law Enforcement Agencies (LEAs) and enhances the safety of children: -

The loT-Enabled Auto Kids Recognition System for Vehicle Safety presents an innovative solution to address the critical issue of child safety in vehicles, particularly in situations where children may be inadvertently left unattended or enter vehicles while playing.

The act of the system of being able to detect an accident and rescue an individual is under the influence of IoT: -

The loT Enabled Innovative Accident Detection and Rescue System described in this study integrates various components to enhance road safety and emergency response mechanisms. At its core, an Arduino Uno microcontroller serves as the central processing unit, interfacing with multiple sensors and output devices.

Artificial Intelligence-Based Smart and Automated Kitchens on Internet of Things (IoT): -

The growing concern over water quality and the need for monitoring in remote or challenging environments have driven the development of advanced monitoring systems. This project presents the design and performance analysis of a loT-Based Water Quality Monitoring System utilizing Long-Range (LoRa) technology.

Bio Shed an IoT Proposal for Agricultural Endeavors: -

The advent of the Internet of Things (lot) has paved the way for innovative solutions in agriculture, significantly improving crop management and resource utilization. This project introduces a lot-Based Agricultural Automation System designed to enhance agricultural practices by efficiently utilizing resources and responding to changing weather conditions.

An IOT based Bio Shed on Agricultural Purposes with the pastoral operations: -

The integration of Internet of Things (loT) technology and machine learning holds immense potential for revolutionizing weather monitoring systems. This paper presents an lot Framework for Weather Monitoring that leverages machine learning techniques.

Why Takeoff Edu Group?

Hands-on learning: Our IoT based projects are designed to be hands-on and practical, allowing you to put your skills to the test.

Wide range of topics: We cover a variety of IoT topics, from smart homes to wearable devices, ensuring that there's something for everyone.

Affordable pricing: Our projects are affordably priced, making it possible for students to gain hands-on experience with IoT without breaking the bank.

At Takeoff Edu Group, we're committed to helping students achieve their goals and get ahead in the world of IoT based projects. So why wait? Get started on your IoT journey today and take the first step towards a bright future in technology! More Information Visit Us: - https://takeoffprojects.com/iot-based-projects

GPIOs do LoRaMesh da Radioenge: Portas digitais

Aprenda como usar as GPIOs do módulo LoRaMesh da Radioenge

As GPIOs do LoRaMesh da Radioenge possibilita que possamos fazer aplicações de automação com um uso reduzido de hardware, dedicando apenas ao circuito de chaveamento (se necessário) e de alimentação. No total temos no LoRaMesh 8 GPIOs sendo todas configuráveis como entrada ou saída digital e duas como leitura analógica. Porém neste post vamos apenas abordar as portas digitais. Por qual motivo…

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Here are the capabilities so far of our Inhouse design of the Rocket Flight Computer. This flight computer is designed for rockets 38mm in diameter or greater and will fit inside a 38mm tube coupler. Dimensions are 4.0in x 1.25in x 0.5in, not including the antenna more or less Flight-ready for supersonic flights to over 24K feet and Mach 2.0. For large or high-power projects, a commercially available backup computer is strongly recommended. --------FEATURES---------- Full-featured dual deploy/multi-stage/air start rocket flight computer capable of 100,000ft or more Tilt-sensing lockout for ignition of second stages and/or air starts Live telemetry over fil NRF24L01+PA+LNA compatibles with Arduino – 2 Mbit/s – 1100 metres And Bluetooth BLE 6 high-current pyro outputs with continuity checks Advanced MEMS sensor package: GNSS, accelerometers, gyroscope, magnetometer, barometer, and LoRa radio High Data-Capture rate: approximately 50,000 samples per second recorded to SD card --1000Hz 3-axis digital 24G and 100G accelerometer data logging --1000Hz 3-axis digital 2000dps gyroscope data logging --1000Hz of flight events & continuity data logging --1000Hz of sensor-fuzed speed & altitude --100Hz of pitch, yaw, roll rotation --40Hz of of magnetic data logging and magnetic roll --30Hz-100Hz of digital barometric data logging (Altitude, pressure, temperature) --30Hz of main battery voltage (1400Hz during pyro events) --5Hz-25Hz of GNSS data logging (chip-dependent data rates & constellations) --Separate data file for each flight up to 100 flights Simple, easy-to-use configuration interface through the SD card --User Selectable Flight Mode: Single-Stage, Two-Stage, Air start, or Booster --Configurable Apogee delay --Optional Audible Battery Voltage report at startup --Optional Magnetic Switch Startup & Shut-down --Pre-flight audible reporting options: Perfect flight or Marsa --User selectable telemetry frequency & power settings --8 configurable servo outputs (8 powered) +4 Multy prepose --User-selectable inflight brownout recovery Mach immune, sensor-fusion-based apogee event Barometric-based main deploy event Audible pre-flight continuity report Audible Post-flight max altitude & speed report Mount in any orientation, automatic orientation detection with built-in self-calibration mode Bench-test mode activated w/ tactile button, user configurable status messages over USB Serial A report in SI or Metric units Compatible with Teensy 4.1 --Connect any sensor to any available I2C or SPI bus --Create your own custom setup with configurable pins for continuity, firing, and servos --Connect UBLOX GPS unit to any available HW Serial port From OpenAI: Incorrect API key provided.

How do you handle water meter reading using Lora (Raspberry Pi, Arduino, Lorawan, IoT)?

Install a LoRaWAN Gateway: Begin by setting up a LoRaWAN gateway. This gateway acts as a receiver for data transmitted by LoRaWAN devices and forwards it to the network server. It connects to the internet and communicates with LoRaWAN devices within its coverage area.

Attach LoRaWAN Modules to Water Meters: Next, equip your water meters with LoRaWAN modules or sensors. These modules are responsible for gathering important data, such as water consumption readings, from the meters.

Develop Firmware/Software: Program your Raspberry Pi or Arduino device to collect data from the water meters through the LoRaWAN modules. This programming may involve utilizing the LoRaWAN library or SDK provided by the module manufacturer.

Set Up a LoRaWAN Network Server: Install and configure a LoRaWAN network server. This server will receive and handle data from the water meters. Its functions include managing device registrations, routing messages, and storing data.

Ensure Secure Data Transmission and Encryption: Utilize LoRaWAN protocols to securely transmit the water meter readings from your Raspberry Pi or Arduino to the network server. LoRaWAN uses AES encryption to safeguard data privacy during transmission.

Data Processing and Storage: Once the network server receives the data, process it as needed. Extract the relevant water consumption readings and conduct any necessary calculations or validations. Store the data in a database or another suitable storage system.

Integration and Visualization: To make sense of the data, integrate it with your chosen IoT platform or application. This integration allows for further analysis and visualization. Consider creating a web-based dashboard or a mobile app to present the water consumption data in a user-friendly and informative manner.

It's important to keep in mind that the specific steps and details of implementation may vary based on the hardware and software components you select and any unique requirements associated with your water meter system. Adapt the above steps as necessary to align with your specific setup and development environment.

Industrial IoT Devices | Programmable Ethernet IoT Device | Industrial ESP32 | NORVI

Ready for the Future - NORVI IIOT

Programmable IoT Devices - Our Arduino based PLC    s make it easy to automate processes, connect sensors, and create sophisticated automation systems. Get the most out of your IoT projects with programmable ESP32 Ethernet device. Our MQTT end device is designed to be easy to setup, while providing powerful performance. 

Industrial Arduino Mega - Get reliable, secure, and customizable control of your industrial processes with Arduino Mega PLCs. Get the best out of your system. Industrial Arduino for Automation Applications which control industrial processes with Arduino based hardware and software. Programmable with Arduino IDE.

Modbus MQTT Device - NORVI Agent Industrial IoT Node. Ready to use IoT Node. Ready for industrial applications. WiFi LoRa NB-IoT. Wall mount IoT node is designed for industrial applications and boasts a range of features including WiFi, GSM, LTE and LoRa connectivity.  Battery Powered IoT node with WiFi GSM LTE LoRa connectivity for industrial applications. Our programmable nodes are designed for powering your IoT solutions.

ModBus RTU ESP32 - MODBUS Communication on ESP32 NORVI IIOT via RS-485. ModBus RTU with ESP32 based industrial controller. MQTT over Ethernet devices - Norvi offers programmable MQTT devices come with a variety of features that make them suitable for industrial automation and IoT solutions. As a leading industrial IoT device manufacturer, NORVI Offers Industrial Controllers for IoT applications, ESP32 based Industrial Controllers, Industrial IoT Devices. Changing IOT One Device At A Time (4 - 20mA, 0 - 10V DC Analog inputs and Outputs). Programmable controllers with flexibility and open source software. 

ESP32 Data Logger - NORVI can build a WiFi Data Logger using SD card, Combining few libraries of Arduino you can access or view the Temperature & Humidity via WiFi. NORVI's Analog Input ESP32 is designed for industrial applications, allowing you to measure and monitor 0-10V or 4-20mA signals using an ESP32 controller.

NORVI Controllers

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ESP32 Ethernet Device

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ESP32 Modbus device

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Battery Powered Programmable Sensor node

4 - 20mA ESP32

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WiFi Datalogger

4 - 20mA Arduino device

Industrial IoT Devices

Modbus MQTT gateway

Arduino based Industrial Controller

Camera for IoT gateway

#Feedback

This PCB is a simple carrier board for the popular ESP32-CAM we use with our gateway devices (xSense) to connect LoRa sensors (xNode) to the cloud. Boards are then enclosed into a Go-Pro-like case and wired to the xSense to take pictures of the crops at regular interval and publish them in the user account.

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- Learn more: https://bit.ly/3cTKW0r

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Sensor's Based Real-Time Environmental Monitoring System Using IoT and Cloud Service GSM/GPRS Modem | IoT and Cloud Based Environment Monitoring System Using Arduino | Sensors Data Monitoring on website through Arduino GPRS | An IoT Based Real-Time Environmental Monitoring System Using Arduino and Cloud Service | IOT CLOUD BASED ENVIRONMENT MONITORING SYSTEM USING ARDUINO | Environmental Monitoring System Using IoT and Cloud Service at Real-Time | IoT Based Environmental Monitoring System for Real Time Using Arduino | Development of IoT Cloud based Environment Control and Monitoring System using Raspberry Pi | IoT-Based Smart Environment Monitoring System for Air Pollutant Detection.***********************************************************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. An IoT Based Real-Time Environmental Monitoring System,2. ENVIRONMENTAL MONITORING SYSTEM USING IOT,3. Arduino Environmental Monitoring - Arduino Project Hub,4. Design of an IoT based Real Time Environment Monitoring,5. IOT Based Environmental Monitoring System using Arduino,6. IoT Based Environment Monitoring Robotic with an Arduino,7. IOT based environmental pollution monitoring system – IRJET,8. IOT Based Smart Environmental Monitoring Using Arduino,9. Smart Environmental Monitoring through Internet of Things,10. A Novel Environmental Monitoring System for Real Time using,11. IoT Based Energy Efficient Environmental Monitoring Alerting,12. IoT based Temperature and Humidity Controlling using,13. Advances in Smart Environment Monitoring Systems Using,14. IoT Empowered Real Time Environment Monitoring System,15. An IOT Based Environmental Monitoring System,16. Arduino Environmental Monitoring System using Grove,17. IOT BASED ENVIRONMENTAL WEATHER MONITORING ,18. IoT Based Humidity and Temperature Monitoring Using ,19. An inexpensive environmental monitoring system with IoT,20. IOT based Weather Monitoring System using Arduino,21. LoRa IOT Home Environment Monitoring System,22. IOT based Greenhouse Monitoring and Control System Project,23. IoT Based Smart Environmental Monitoring Using,- IJAREEIE,24. IOT BASED ENVIRONMENT,- MyGov Innovation,25. IoT Based Pollution Monitoring System for Effective Industrial,26. IoT based patient health monitoring system ppt,27. The Design and Implementation of GPS Controlled,28. IoT-based monitoring of environmental conditions to improve ,29. IOT BASED GARBAGE MONITORING USING ARDUINO By,30. Water Quality Monitoring System Based on IOT – Research,31. Web Based Greenhouse Environment Monitoring and,32. 30 IoT Projects | Awesome IoT Project Ideas for Enthusiasts,33. Smart Environmental Sensing Robotic Vehicle for the,34. (IOT) Based Weather Monitoring system,35. An Arduino UNO Based Environment Monitoring System,36. IoT based Pollution Monitoring and Controlling using Arduino,37. Arduino: Make an IoT environment monitor | Udemy,38. WEATHER MONITORING SYSTEM USING IOT AND,- SERSC,39. Design and Implementation of an IDC Environmental,40. IOT Based Air Pollution Monitoring System,