#lorawan architecture
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Helium Network a maior rede de LoRaWAN do mundo
A Helium network é uma rede LoRaWAN descentralizada que utiliza uma estrutura de blockchain de modo que cada gateway atue como um validador e minerador de pacotes transacionados, essa estrutura garante um maior crescimento da rede com alta segurança.
A Helium network é uma rede LoRaWAN descentralizada que utiliza uma estrutura de blockchain de modo que cada gateway atue como um validador e minerador de pacotes transacionados, essa estrutura garante um maior crescimento da rede com alta segurança.
1 O que é Helium network?
Basicamente, a Helium Network é uma rede sem fio descentralizada, código-aberto, que utiliza tecnologias LoRaWAN e 5G –…
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Osprey Hotspot G1 (US, Europe, China)
Osprey Hotspot G1 is for PoC Helium network, mining HNT. It works with the Helium LongFi architecture, which integrates the leading wireless LoRaWAN protocol with the Helium Blockchain technology. All Osprey Hotspot G1 are compatible with LoRaWAN.
LongFi connects the LoRaWAN enabled IoT devices to the network, allowing any LoRaWAN device to send and receive data for the Internet of Things. LongFi provides roaming capabilities and micropayment transactions.
With the Osprey Hotspot G1, you can begin creating coverage for the Internet of things. Anyone can start delivering wireless network coverage over hundreds of square miles within a few minutes.
Complete set-up in minutes using a smartphone or remote dashboard
LongFi™ technology maximizes range and battery life
Low Power – uses as much power as a broadband router (12W)
Easily manage gateways from the mobile app
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Design and enactment of an IoT gateway to build smart environments
Designing and implementing an IoT gateway for creating smart environments involves several crucial steps that ensure seamless integration and efficient data handling. This process is particularly impactful in applications like Smart Fire Monitoring, where real-time data and rapid response are critical.
Design Phase
Requirements Analysis
The first step in designing an IoT gateway is to understand the specific requirements of the smart environment. For Smart Fire Monitoring, this includes identifying the types of sensors (e.g., smoke detectors, temperature sensors, gas sensors) that need to be connected, the data they will generate, and the communication protocols they use (e.g., Zigbee, LoRaWAN, Wi-Fi).
Hardware Selection
Choosing the right hardware is essential for building a reliable Industrial IoT gateway. The gateway must support various communication protocols and have sufficient processing power to handle data aggregation and preliminary analysis. It should also have robust security features to protect data integrity and prevent unauthorized access.
Software Architecture
The software architecture of the IoT gateway must be designed to manage data flow efficiently. This includes implementing middleware that can handle protocol translation, data filtering, and local data storage. The gateway should also be capable of edge computing, allowing it to perform initial data processing and reduce the load on central servers.
Implementation Phase
Sensor Integration
The first step in implementation is integrating the sensors with the IoT gateway. This involves configuring the sensors to communicate with the gateway and ensuring that data from all sensors can be aggregated and processed. For Smart Fire Monitoring, the sensors must be placed strategically to cover all potential fire risk areas.
Data Management
Effective data management is crucial for the IoT gateway. This includes setting up data filtering to remove noise, data compression to save bandwidth, and local storage for temporary data holding. The gateway should be configured to transmit only relevant data to the cloud or central server, optimizing bandwidth usage and ensuring timely responses.
Security Measures
Implementing robust security measures is vital to protect the data being transmitted. This includes encrypting data at rest and in transit, using secure communication protocols, and ensuring that the gateway has built-in firewalls and intrusion detection systems.
Edge Computing
Incorporating edge computing capabilities allows the gateway to perform initial data analysis and make quick decisions without relying on cloud processing. For Smart Fire Monitoring, this means the gateway can trigger alarms or initiate fire suppression systems immediately upon detecting a fire risk, even if the internet connection is down.
Deployment and Testing
Once the IoT gateway is implemented, it needs to be thoroughly tested in a real-world environment. This involves validating that all sensors are accurately reporting data, the data is being processed correctly, and the gateway can handle the expected data load. Smart Fire Monitoring also includes testing the response times and ensuring that the system can reliably trigger alarms and notifications.
#iot gateway#industrial iot gateway devices#IIoT Gateway Devices#Industrial IoT Gateways & Devices#IIOT solution for manufacturing#iot in manufacturing industry
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Osprey Hotspot G1 (US, Europe, China)
Understand how Helium's network uses LoRaWAN technology for IoT connectivity and rewards in cryptocurrency, versus traditional Ethereum mining devices focused on blockchain transactions. Learn about their unique functions, benefits, and how they contribute to the expanding digital landscape. Osprey Hotspot G1 is for PoC Helium network, mining HNT. It works with the Helium LongFi architecture, which integrates the leading wireless LoRaWAN protocol with the Helium Blockchain technology. All Osprey Hotspot G1 are compatible with LoRaWAN.
LongFi connects the LoRaWAN enabled IoT devices to the network, allowing any LoRaWAN device to send and receive data for the Internet of Things. LongFi provides roaming capabilities and micropayment transactions.
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#crypto hotspot#crypto mining#helium hotspot#helium hotspot miner#hotspot miner helium#lorawan hotspot helium#cryptocurrency mining device#ethereum mining device
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Leading IoT Application Development Companies in Chennai
In the era of digital transformation, the Internet of Things (IoT) has emerged as a game-changing technology that enables the connection and communication of devices and systems to gather, analyze, and act on data in real-time. As businesses seek to leverage the power of IoT to drive innovation, improve efficiency, and enhance customer experiences, partnering with a trusted IoT application development company is essential. If you're searching for top-tier IoT application development companies in Chennai, you've come to the right place. Our company is a leading provider of cutting-edge IoT solutions tailored to meet the diverse needs of businesses in Chennai and beyond. In this guide, we'll explore the key features and benefits of our IoT application development services and how they can help your organization thrive in the digital age.
Key Features of Our IoT Application Development Services:
1. Customized IoT Solutions:
We specialize in developing customizediot application development companies in Chennai designed to address the specific requirements and objectives of our clients. Whether you're looking to build a smart home system, industrial automation platform, healthcare monitoring solution, or connected vehicle application, our expert team of IoT developers can turn your vision into reality with precision and expertise.
2. Expertise in IoT Technologies:
Our team possesses deep expertise in a wide range of IoT technologies, protocols, and platforms, including MQTT, CoAP, Zigbee, LoRaWAN, AWS IoT, Azure IoT, and more. We stay abreast of the latest advancements and best practices in the IoT space, enabling us to leverage the most suitable technologies and tools to deliver robust and scalable IoT solutions.
3. Sensor Integration and Data Analytics:
IoT applications rely on sensor data to gather insights and make informed decisions in real-time. We specialize in sensor integration and data analytics, enabling seamless connectivity and data exchange between devices, systems, and cloud platforms. Our advanced analytics capabilities allow clients to derive actionable insights from IoT data, driving smarter decision-making and business outcomes.
4. Cloud Integration and Edge Computing:
IoT applications often involve complex architectures that span across cloud and edge environments. We have extensive experience in cloud integration and edge computing, enabling seamless communication, data processing, and storage between IoT devices and cloud platforms. Our solutions are designed to optimize performance, minimize latency, and ensure reliability in IoT deployments.
5. Security and Privacy:
Security is a top priority in IoT application development, especially when dealing with sensitive data and mission-critical systems. We adhere to industry best practices and security standards to ensure the confidentiality, integrity, and availability of IoT systems and data. Our solutions incorporate robust authentication, encryption, access control, and monitoring mechanisms to mitigate cybersecurity risks and protect against potential threats.
Benefits of Partnering with Our IoT Application Development Company:
1. Accelerated Time-to-Market:
Our agile development approach and expertise in IoT technologies enable us to deliver high-quality IoT solutions quickly and efficiently, reducing time-to-market and giving clients a competitive advantage.
2. Scalability and Flexibility:
We design IoT solutions with scalability and flexibility in mind, allowing clients to easily scale their deployments as their business grows and adapt to changing market demands and requirements.
3. Improved Operational Efficiency:
IoT applications automate processes, optimize resource utilization, and enable predictive maintenance, leading to improved operational efficiency, cost savings, and productivity gains for businesses.
4. Enhanced Customer Experiences:
By leveraging IoT technology, businesses can create personalized, immersive, and interactive experiences for their customers, driving engagement, loyalty, and satisfaction.
5. Future-Proofing Your Business:
IoT is poised to revolutionize industries and transform business models in the years to come. Partnering with a trusted IoT application development company ensures that your business remains at the forefront of innovation and well-positioned to capitalize on emerging opportunities in the IoT space.
Conclusion:
As a leading IoT application development company in Chennai, we are committed to empowering businesses with innovative IoT solutions that drive growth, efficiency, and digital transformation. Whether you're a startup looking to disrupt the market or an enterprise seeking to optimize operations, our team has the expertise and experience to help you achieve your IoT goals. Partner with us today and embark on a transformative journey towards IoT-enabled success.
For more info. Visit us:
iot application development companies in Chennai
iot hardware development companies in Chennai
product design and development companies in Chennai
#iot application development companies in Chennai#iot hardware development companies in Chennai#product design and development companies in Chennai
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Smart Parking Market Set to Skyrocket with 17.8% CAGR, Surpassing US$ 54.8 Billion by 2033
The smart parking market is projected to grow at a compound annual growth rate (CAGR) of 17.8% from 2023 to 2033. Although the market is estimated to be worth US$ 10.7 billion in 2023, it is expected to reach a market share of US$ 54.8 billion by 2033. A growing number of advanced guided park assist systems are being introduced, and fewer parking spaces are becoming available.
The rising population around the world along with the technological advancements in the automotive industry and its components are fueling the sales of smart parking systems.
The small spaces for designated parking demand a platform that provides the parking information, distance, and other details. Smart cloud integration, IoT integration, and vehicle detection sensors provide services like smart spots and mobile parking.
Smart parking can be explained as the joint parking strategy of technology and human innovation that saves time, fuel, and space while enhancing the overall parking experience.
The addition of a central server that inputs through sensors, cameras, parking meters, and smart city APIs and delivers output to management, authorities, and third-party solutions. This provides an ease to the end user in finding, purchasing, and locating a parking space for their vehicles.
Traffic and parking authorities across the globe are also promoting smart parking systems as it cuts the hassle and decreases manual inspection and parking allocation.
Vehicles with advanced transmission along with increased awareness around machine-to-machine communication have also limited the market space and have gained value for the smart parking market.
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Key Takeaways
The United States market leads the market in terms of market share. The market is anticipated to cross a value of 11.0 billion by 2033. The regional market is expected to record a CAGR of 12.9% between 2023 and 2033.
The smart parking market in China leads the space in terms of CAGR. It thrives at a CAGR of 28.7% during the forecast period. The market is likely to reach US$ 9.6 billion by 2033. The rapid growth is attributed to the increased population and the introduction of new parking guidelines.
The hardware component is likely to thrive in the component category due to their significant price and one-time application. It is expected to record a CAGR of 15.3% during the forecast period.
The guided park assist systems segment tops the system tally with a CAGR of 16.4% between 2023 and 2033. The growth is attributed to the autonomous parking operations that are auto-enabled in most of the high-tech vehicles.
Competitive Landscape
Providing full support for parking operations for saving time, fuel, and space is the motive of vendors while designing smart parking systems. The prominent players are focused on sensory technology that is also integrated with cloud storage. The companies are also involved in mergers & acquisitions and strategic partnership with other companies to increase the supply chain and distribution channel. The key players in the market include Siemens, Cisco Systems, Huawei Technologies, Delphi Technologies, Intercomp S.p.A.
Recent Development:
Siemens and TASS International (A Siemens business) has collectively introduced UrbanSmartPark. It is a European initiative that is currently going through its test phase on real-world scenarios. It is likely to provide information around accident databases, manually created scenarios.
Cisco Systems launched its IoT Solution with LoRaWAN to enable smart parking operations. While LoRa delivers parking sensors, Cisco delivers the IXM LoRa Gateway for Frankfurt E-parking Architecture.
Ask An Analyst https://www.futuremarketinsights.com/ask-the-analyst/rep-gb-4511
Key Segments
By Component:
Hardware
Sensors
Cameras
Parking Meters
Digital Guidance Signage
Others
Software
Parking Management Platforms
SDK/API
Services
Consulting
Integration & Support Services
Device Management Services
By System Type:
Guided Park Assist Systems
Smart Park Assist Systems
By Sensor Technology:
Ultrasonic Sensors
RFID
Image Sensors
Others
By Application Area:
Commercial
Government
Corporate
By Region:
North America
Latin America
Europe
Asia Pacific (APAC)
The Middle East & Africa (MEA)
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Is HNT (Helium poised to go back to $60 price range? First it has to break above $7 and $20 range.
New Post has been published on https://www.ultragamerz.com/is-hnt-helium-poised-to-go-back-to-60-price-range-first-it-has-to-break-above-7-and-20-range/
Is HNT (Helium poised to go back to $60 price range? First it has to break above $7 and $20 range.
Is HNT (Helium poised to go back to $60 range? First it has to break above $7 and $20 range.
Helium Network: A Decentralized Disruptor with Bullish Potential
The Helium Network, a blockchain-powered infrastructure for the Internet of Things (IoT), is revolutionizing connectivity by enabling a global, low-cost, and energy-efficient network built by everyday people. This groundbreaking technology has the potential to change the way we connect devices and unlock a wave of innovative applications.
Transformative Technology:
1. Decentralization: Helium’s decentralized network eliminates the need for centralized infrastructure, empowering individuals to become network providers and earn rewards. This democratizes connectivity and fosters community ownership.
2. Low-Cost: Helium utilizes low-power, long-range radio waves (LoRaWAN), offering a significantly cheaper alternative to traditional cellular networks, making it ideal for resource-constrained IoT devices.
3. Scalability: Helium’s unique architecture allows for unparalleled scalability, enabling millions of devices to connect seamlessly. This paves the way for a massive expansion of the IoT ecosystem.
Competitive Landscape:
Helium faces competition from established giants like Telcos and emerging blockchain-based solutions like IOTA and Chainlink. However, Helium’s unique combination of features offers distinct advantages:
1. First-mover advantage: Helium has established a significant lead in the LoRaWAN market, boasting an extensive network coverage and a large and active community.
2. Tokenomics: Helium’s native token (HNT) incentivizes network participation by rewarding hotspot owners for providing coverage and validating data. This creates a sustainable economic model that drives network growth.
3. Focus on IoT: Helium is specifically designed for the needs of IoT devices, providing features like low power consumption and long-range communication that are crucial for this sector.
Bullish Potential and Price Outlook:
With the rapidly growing IoT market, Helium is poised for significant expansion. This, coupled with its unique technology and tokenomics, suggests a promising future for HNT in a bull market.
Analysts predict that HNT could potentially break the $7 range in 2023 and even approach the $22 area in early 2024. This optimism is driven by factors like:
1. Ecosystem Growth: Helium’s growing ecosystem with projects like Helium Mobile and IOT applications will increase demand for HNT.
2. Network Expansion: As the network expands and becomes denser, the value of HNT could increase due to its role in securing and validating data.
3. Regulatory Clarity: Clearer regulations surrounding cryptocurrencies could attract more investors and further boost HNT’s value.
Ecosystem Coins:
Helium Mobile (HNTM) is a token designed to incentivize mobile network providers within the Helium ecosystem. As mobile network adoption increases, HNTM could also experience significant price growth.
Helium IOT (HIOT) is another token within the Helium ecosystem, focusing on data credits for device usage and communication. As the number of connected devices grows, HIOT could see substantial demand, increasing its price potential.
Helium Network’s innovative technology, coupled with its strong community and growing ecosystem, positions it as a potentially transformative force in the IoT space. With a potential bull market on the horizon, HNT and other ecosystem tokens like HNTM and HIOT could see substantial price appreciation, offering investors exciting opportunities.
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What is the LoRaWAN? Where is it used, and what is the cost?
Certainly, here's the information presented in different words:
LoRaWAN, which stands for Long Range Wide Area Network, is a wireless communication technology tailor-made for the Internet of Things (IoT). It's renowned for its capacity to transmit data over extensive distances while consuming minimal power, rendering it an excellent fit for diverse IoT applications.
Key points about LoRaWAN:
Technology: LoRaWAN employs LoRa modulation, a technology that enables long-range data transmission. It operates within unlicensed radio frequency bands, often in the sub-GHz range. LoRa's modulation technique ensures excellent signal reach and the ability to penetrate obstacles effectively.
Range: LoRaWAN can achieve impressive communication distances, spanning several kilometers in open environments. This makes it ideal for scenarios where devices must transmit data across substantial distances. However, actual range may fluctuate based on factors like topography and interference.
Power Efficiency: LoRaWAN devices are designed with power efficiency in mind, allowing them to operate on battery power for extended periods—sometimes years—before requiring replacement or recharging.
Network Architecture: LoRaWAN networks typically adopt a star-of-stars topology. IoT devices communicate with gateways, which relay the data to a central network server. This server processes and delivers the data for use in various applications.
Use Cases: LoRaWAN finds application in numerous IoT scenarios, including smart cities (for tasks like smart metering and waste management), agriculture (for monitoring soil conditions and crop health), industrial IoT (for asset tracking and predictive maintenance), and environmental monitoring (for measuring air quality and pollution levels), among others.
Cost: The cost associated with implementing a LoRaWAN network can vary widely, depending on factors such as the number of devices, required range, and the network infrastructure's complexity. Generally, LoRaWAN is seen as a cost-effective solution because it allows for large-scale IoT network deployments without the need for substantial infrastructure investments. The cost of LoRaWAN devices can also vary but is typically designed to be affordable, particularly for applications requiring numerous sensors.
LoRaWAN's popularity stems from its capacity for long-range communication, energy efficiency, and suitability for a diverse range of IoT applications. Its cost-effectiveness and adaptability make it a practical choice for organizations and industries seeking to implement IoT solutions to monitor and manage various aspects of their operations
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Deep Dive into the Core Technology and Applications of the LoRaWAN Gateway
The wireless communication landscape is vast and evolving, and at its forefront is the LoRaWAN Gateway. This key piece of technology acts as the bridge in the entire LoRaWAN network, ensuring that data can move seamlessly between devices, cloud systems, and other essential infrastructure components.
At the heart of the LoRaWAN network's architecture lies the LoRaWAN Gateway. Its primary function is to capture information sent from a multitude of endpoint devices, process it, and then forward it to the network server. This mechanism ensures that data flows coherently and efficiently, minimizing losses and ensuring timely communication. What makes this even more interesting is the kind of devices the gateway interacts with. These devices, which include sensors, actuators, and other IoT components, are typically powered by a LoRaWAN module.
The LoRaWAN module's genius lies in its ability to transmit low-power signals across extensive distances. In a world where energy efficiency is paramount, having such a module aids in reducing overall power consumption, thus contributing to sustainable and long-lasting solutions. The versatility of the LoRaWAN Gateway, combined with its multi-channel capabilities, means that it can simultaneously handle signals from thousands of LoRaWAN modules. This not only boosts the network's scalability but also enhances its overall capacity, making it fit for a broader range of applications.
The rise of the Internet of Things (IoT) has further accelerated the demand for the LoRaWAN Gateway. As more devices come online, the need for reliable, secure, and long-range communication platforms becomes evident. LoRaWAN technology, with its unique blend of long-range transmission capabilities, low power requirements, and robust security features, positions itself as the ideal solution for this growing demand. Recognizing the potential and the requirements of the current market, industry leaders are now focusing more on the development and production of even more efficient and reliable LoRaWAN modules.
Moreover, as industries evolve, there's an increasing emphasis on real-time data collection, analytics, and smart decision-making. The LoRaWAN Gateway, with its enhanced data processing capabilities, becomes a crucial player in this scenario. It not only facilitates the collection of data but also ensures that it is forwarded to the necessary systems for analysis and subsequent actions.
In wrapping up, the role of the LoRaWAN Gateway in today's wireless communication networks is more significant than ever, particularly in the context of IoT applications. As the world becomes more interconnected and reliant on real-time data, investing in understanding, developing, and integrating LoRaWAN Gateways and associated LoRaWAN modules will be the cornerstone for any company or individual aiming for success in the wireless communication domain.
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Raspberry Pi, MQTT and RealVNC
When I got Sensecap S2103 LoRaWAN® CO2, Temperature, and Humidity Sensor, I was thinking to integrate it with commercial Scada HMI system. One of the reasons is because Sensecap S2103 is a set of sensors which are applicable in industrial applications. Later, an idea came to me why not to use Raspberry PI with screen - Human Machine Interface together with RealVNC to make Industrial – grade reusable application.
The best thing in this project Remote Access for your Raspberry Pi from Anywhere in the world via VNC connection, meaning you have Scada HMI system anywhere, on any device.
In this post I am going to show how to integrate Sensecap S2103 sensor and display collected data on Raspberry Pi display.
Since picture is worth a thousand words, block schematics below shows architecture of my project.
I will show data from SenseCap S2103 sensor on Home Assistant which is installed on reTerminal . I will not go step-by-step on configuration/installation of Home Assistant on reTerminal, but you can see great guide on seeedstudio wiki here https://wiki.seeedstudio.com/reTerminal_Home_Assistant/.
I used the guides from link above and Home Assistant Supervised installation/configuration method in order to have data displayed on reTerminal LCD.
Home Assistant acts as a central smart home controller hub by combining different devices and services in a single place and integrating them as entities. That means you can integrate various sensors and variouts services in one single place.
Process of installing Home Assistant Supervised on reTerminal is like following:
I am assuming that you already have installed Raspberry PI OS.
Install RealVNC https://www.realvnc.com/en/
Install docker
Visit Home Assistant OS Agent page, and install Home Assistant Agent V1.3.0. and also Home Assistant-Supervised
Install Portainer Docker management platform
On portainer dashboard make sure that Home Assistant primary containers are up and running
On a web browser, type the following URL homeassistant.local:8123
If everything is installed without problems, you can view Home Assistant Dashboard UI on your web browser and proceed with making your account
RealVNC server should come preinstalled no your SD card with Raspbian OS. If, for any reason this is not case with you, below are informations on how to Install the RealVNC for Raspberry pi.
How to Install the RealVNC on Raspberry Pi
Update the system repositories:
Open the terminal if you have direct access. Or, take an SSH session to the Raspberry Pi CLI.
$ sudo apt-get update && apt-get upgrade
2. Install the RealVNC server:
$ sudo apt-get install realvnc-vnc-server.
3. Enable VNC server:
$ sudo raspi-config
Got to Interfacing options
Select VNC
Answer Yes
Select Finish to quit (or ESC)
Note: VNC runs on port 5900. You should open this port on all the middle devices to work the communication from your PC to the Raspberry Pi.
On PC side, you must install RealVNC Viewer, in ordes to access HMI remotely. Below is how RealVNC viewer loooks after installation.
First big part of the project is finished. Now we are going to configure SenseCAP sensor by using Sensecap MATE Android application. Again, amazing guideline can be followed on Seed's wiki: https://wiki.seeedstudio.com/Cloud_Chain/SenseCAP_Mate_APP/SenseCAP_APP/
The next step is to configure mqtt integration with Home Assistant and subscribe to SenseCAP data.
First, what you need to know is SenseCAP account API ID, Organization ID, and Access API keys. Nice quickstart can be found on sensecap page.
https://sensecap-docs.seeed.cc/data_openstream_quickstart.html
Got to https://sensecap.seeed.cc/portal/#/security, in order to create Access Key and view information about Organization ID.
By clicking on API ID, you can also see API keys information.
So, your important connectivity informations for Home Assistant, which will be important in order to connect to MQTT, are as below:
Host: sensecap-openstream.seeed.cc
User: org-<OrgID> (here you replace OrgID with your Organization id-example for this parameter will be org-428131654987987)
Password: here you insert your Acces Key which is in form XBA6E65464 (a combination of letters and numbers).
Client ID: org-<OrgID>-quickstart (example: org-428131654987987-quickstart)
After this, go to https://www.home-assistant.io/integrations/, which allows integration with a lot of services. You will need, of course MQTT. Enter MQTT in search box, and choose MQTT, as shown below:
In Home Assistant now go to Settings->Devices & Services, Click add integration button and search MQTT. Now you enter the informations from above for MQTT connectivity:
Username= OrgID, password= client ID
Now, in order to test that MQTT connectivity works, click the CONFIGURE button and listen to the topic : device_sensor_data/OrgID/+/+/+/+
(example: device_sensor_data/428131654987987/+/+/+/+).
After few seconds, you will have response: vaule and timestamp in JSON format.
Since we want to show values of temperature, CO2 and humidity, we need to add multiple entities to store aquired sensor data, by editing the Home Assistant configuration file.
Go to the settings, click to Add-ons,search for File Editor, modify the YAML file /config/configuration.yaml by entering:
mqtt:
sensor:
- name: "Air Temperature"
state_topic: "/device_sensor_data/<orgID>/<DeviceEUI>/1/+/4097"
unit_of_measurement: "℃"
value_template: "{{ value_json.value }}"
- name: "Air Humidity"
state_topic: "/device_sensor_data/<orgID>/<DeviceEUI>/1/+/4098"
unit_of_measurement: "%RH"
value_template: "{{ value_json.value }}"
- name: "Air CO2"
state_topic: "/device_sensor_data/<orgID>/<DeviceEUI>/1/+/4100"
unit_of_measurement: "ppm"
value_template: "{{ value_json.value }}"
DeviceEUI is Unique identification of device eg. 2CF7F12000000001, and it can be found on the sensor itself.
Now the last step is create dashboard.
go to overview and find the "Edit Dashboard"
You can add cards as much as you want. I have added Gauge card, and subscribed to entities (temperature, CO2 and humidity).
Finally, the IoT dashboard is shown on your reTerminal Home assistant main screen.
Here below are few pictures for you to see how it looks like:
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LoRaWAN Market: Industry Potential, Trends and forecast to 2032
As per a recent research report, LoRaWAN Market to surpass USD 60 Bn by 2032.
LoRaWAN Market is poised to depict strong growth during 2023-2032 owing to several benefits offered by the technology for supply chain management, such as the ability to track and monitor expensive goods in real-time and provide real-time data for effective inventory management. In addition, the technology can also be used for tracking the efficiency of industrial machinery, enabling predictive maintenance, minimizing downtime, and increasing process efficiency and cost savings.
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Based on the component, the service segment is anticipated to generate over USD 10 billion in revenue. LoRaWAN defines the communication protocol and system architecture for the network. Besides, multiple LoRaWAN-based IoT services can be implemented in an office building to control air conditioners and heating systems, lighting, security, and IoT applications.
Considering the deployment model, the private deployment segment will depict over 40% CAGR through 2032. The segmental growth can be credited to the rising demand for a high degree of control over IoT networks, which assists organizations in customizing network infrastructure as per specific business requirements. This model is specifically relevant for organizations that need high data privacy.
By application, the asset tracking segment is poised to grow in the coming years. Constantly rising demand for LoRaWAN technology in assets tracking applications, given its ability to assist in tracking valuable assets will support the segment expansion. Assets tracking software also improves operational efficiency, lowers the risk of theft or loss, and offers a better customer experience.
In terms of end-use, the government and public sector segment will be valued at over USD 8 billion by 2032. LoRaWAN has been proven to be the best technology, enabling smart cities that combine ICT & IoT for smooth operations & services. In addition, increasing deployment of LoRaWAN technology by the various government organizations and public sector companies will positively favor the segment expansion.
For example, in September 2022, Semtech Corporation announced that Nexity Group and Intent Technologies had integrated Semtech's LoRa® devices and the LoRaWAN® standard into its Intent Platform. This would help improve quality of service, optimize performance, and reduce the carbon footprint in residential as well as commercial properties.
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Regionally, the Asia Pacific LoRaWAN industry is estimated to grow at 40% CAGR during 2023-2032. Increasing focus on reducing the overall cost of IT infrastructure by enterprises experiencing sustained growth due to stable economic growth in major economies, including Japan, China, and India, will positively stimulate the regional market growth.
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Basic Understanding of LoRaWAN Protocol
LoRaWAN Protocol
Hi everyone! In this blog post, I’m going to share with you some basics of LoRaWAN protocol, a low-power wide-area network technology that enables long-range wireless communication for IoT devices. LoRaWAN stands for Long Range Wide Area Network, and it is based on LoRa, a modulation technique that uses chirp spread spectrum to achieve high sensitivity and robustness against interference. LoRaWAN defines the network architecture and the communication protocols between the end devices, the gateways and the network servers. LoRaWAN supports different classes of devices, different frequency bands and different data rates, depending on the application requirements and the network conditions. LoRaWAN also provides security features such as encryption and authentication to protect the data and the network. LoRaWAN is an open standard that is maintained by the LoRa Alliance, a global association of companies and organizations that promote the adoption of LoRaWAN technology.
If you are interested to understand more about the LoRaWAN Protocol, then you can go through the PiEmbSysTech LoRaWAN Protocol 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.
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What Is Lora Module And What Are The Uses Of Lora Module?
A company based named Semtech created LoRa technology, a new wireless protocol specially created for long-range, low-power communications. Long Range Radio, or LoRa, is directed at M2M and IoT networks.
It provides the system architecture and software communication protocol. The open, non-profit LoRa Alliance, of which SemTech is a founding member, is responsible for overseeing the continuous development of the LoRaWAN protocol.
Lora Module is a spread platform long-distance wireless transmission system. To meet the demands for low power consumption, it uses the direct sequence spread spectrum technology, which has strong anti-interference and high receiving sensitivity. The LPWAN (Low Power Wide Area Network) communication technology includes LoRa as a key component.
Lora has a high sensitivity and can receive a signal even if it is weak, greatly expanding the communication range. Low-power scenarios are widely used in long-distance IoT applications.
The LoRa module found in each terminal device is essential to the creation of it for Internet of Things applications. The module plays a crucial role in the Internet of Things business and is a crucial component of the current Internet of Things. The performance of LoRa is reflected in the module's operational status. After knowing about the LoRa module, it will be easier to comprehend why LoRa can be utilized widely in the Internet of Things.
USES OF LORA MODULE-
1. Industrial water leak detection: aids in locating and stopping water leaks in residences and commercial structures.
2. Gas Leak Prevention: detecting natural gas (methane) leaks with extreme selectivity, enabling automatic response of any catastrophic gas leak for action and possibly saving lives.
3. Smart flood sensors: aid in creating communities that are safer and more resilient.
4. Water System Monitoring: To more effectively address shortages, floods, and environmental restrictions, LoRa-based sensors remotely measure, monitor, and analyze wastewater and groundwater systems.
You can visit our official website -millenniumsemi.com for complete information.
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Why Choose LoRaWAN over other networks?
The majority part of the "Internet of Things" comprises actuators and wireless sensors only. They tend to perform a few simple tasks that require an operational lifespan compared to data bandwidth requirements. Today, high-density energy-saving networks with a wide range are much in demand. And LoRawan is one of those preferred systems.
What is LoRaWAN?
LoRaWAN stands for a "low power wide area network." Its specifications are primarily intended for the battery-operated (wireless battery) things in a national, regional, or global network. It targets all the primary requirements of "IoT" or the "internet of things." It includes mobility, secured bi-directional communication, and other services like localization.
Moreover, it has unique specifications that can provide us with perfectly coherent and consistent interoperability among smart things. It does not even require complex local installations and can simply enable all the IoT applications.
LoRaWAN Network Architecture
If we talk about the LoRaWAN network architecture, we will check how the network server is connected with the gateways. Basically, LoRaWAN gateway is a kind of box that connects end devices such as wireless sensors to a local network or the Internet. In simple words, it acts as a WiFi router that is used to connect all the WiFi compatible devices to the Internet.
LoRaWAN Gateways Deployment
The LoRaWAN gateways are deployed by the solution provider or by the end-users. These are, in fact, mostly used in remote areas, which are the areas that do not have any coverage. LoRaWAN system comprises software, which further manages the communication and connectivity part. This network server resides in the cloud or on the physical gateway.
If the LoRaWAN network server is in cloud along with the managed services like machine Comcast, then the gateway is switched to the packet forwarding mode. In this mode, the information packages or raw LoRa packets are passed in the air towards the network server. Further, it gets back to the air.
All the activities, managing the device connectivity, and like decoding the packets, all reside in the cloud. It helps in the management of the server and upgrades very quickly and easily.
Why use LoRaWAN instead of WiFi, Bluetooth, Zigbee?
Most of the people with technical knowledge are aware of the fact that Zigbee, WiFi, and Bluetooth(2.4GHz)protocols are not that compatible choice for wireless sensors. The primary reason is that this spectrum range has a very poor range. It does not propagate well through objects like floors and walls.
You can take a real-time example - try placing the WiFi router in the basement, and you won't be receiving the signal on the second floor of your house, especially if there is any obstruction in its way.
Even if you notice the home automation system, they find trouble in connectivity if they use the protocol like Zigbee. On the contrary, LoRaWAN devices can propagate even through the obstacles, buildings, or any other types of equipment in the way. In short, it can travel miles of distance in an obstacle-free environment. And does not degrade communication with obstacles.
Buy LoRaWAN Sensors
If you also want to buy this effective LoRaWAN wireless sensor, you can head towards Radio Bridge. We are allowed to get connected with a network server or any other standard LoRaWAN gateway.
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WHAT IS LPWAN- LOW POWER WIDE AREA NETWORK?
LPWAN is a communication method between linked devices that was founded and developed by Sigfox. The fundamental advantage of LPWAN is that it permits low-bit-rate communication among devices dispersed across a large geographical area.
LPWAN refers to a set of communication technologies (Sub 1GHz, NB-IoT, LTE CAT M, ZIGBEE) used to link devices, sensors, actuators, controllers, and so on. The goal of creating a low power wide area network is to create a communication channel for the Internet of Things network that uses less power and has a lower data rate.
LPWAN TYPES
RF SUB-1 GHZ
Sub-1 GHz RF, as the name implies, operates at low-frequency ranges less than 1 GHz. It operates in the ISM band, which has a frequency range of less than one gigahertz. This technology is mostly relevant for RF IoT applications. Some of its advantages are as follows:
Sub-1 GHz RF has a greater range while using the same output power. Because of its vast range, it can go more than 100 kilometres.
Power usage is quite low.
Ability to deal with interference more effectively.
NB-IOT
NBIoT, or Narrowband IoT LTE, is a self-contained LPWAN technology. It enables the mass deployment of IoT devices. NB-IoT is often used to transport data at a low frequency. When a message is sent via NB-IoT, it consumes very little bandwidth. Among the advantages of NB-IoT are:
It uses less energy.
Cost-efficient.
It is safe to use.
Devices can be deployed in bulk.
Excellent choice for embedded sensors.
CAT-M1 OR LTE-M?
CAT M is another LPWAN technology that operates on 1.4 MHz of bandwidth. It enables higher total data rates, more location accuracy, and shorter latency. It allows voice calls and mobility mode. CAT M has the following advantages:
The maximum data rate is 375kbps.
VoLTE functionality is supported.
There is complete mobility assistance provided.
LTE in-band mode of operation
ZIGBEE
The IEEE 802.15.4 standard is used to operate ZIGBEE networks. It’s appropriate for high-level communication protocols. It is primarily intended for small-scale IoT projects for personal use, such as home automation, where wireless communication is required. ZIGBEE has the following advantages:
It supports several network topologies.
Battery life is extended.
Spectrum of direct sequence spread
Latency is low.
LORAWAN
LoRaWAN is a well-known worldwide standard for LPWAN networks based on LoRa technology. The LoRaWAN standard for low-power wireless networks was created to link devices that run on batteries. LoRaWAN allows for highly seamless information transfer over the internet between smart devices without the need for complicated installations. Some of the advantages of LoRaWAN include:
The device linked to the LoRaWAN network may send data from a distance of 1 km to 10 km.
Because AES128 is used between network servers and end nodes, it enables high-security data encryption.
A single Lora Gateway may connect thousands of devices.
Because of the adjustable data rates, it consumes less bandwidth.
LoRaWAN’s basic architecture makes it simple to deploy.
LPWAN BENEFITS
The following are the advantages of LPWAN technology:
Less power consumption: LPWAN operates at extremely low power consumption.
Long-distance transmission: LPWAN permits device connectivity across distances of up to 20 kilometres.
Long battery life: Because LPWAN requires less power, the gadget battery may last for more than ten years.
Reduced Gateways: Because LPWAN permits device connectivity over greater distances, fewer gateways are needed for communication.
CONCLUSION
LPWAN technology is a remarkable technology that is revolutionising the way IoT devices communicate. If you have a project that requires LPWAN technology, PsiBorg an IoT solutions development company can assist you. We are a group of skilled developers with extensive expertise integrating multiple LPWAN technologies. Please contact us immediately for further information.
This article was originally published here: LPWAN- LOW POWER WIDE AREA NETWORK
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What is the LoraWAN? Where is it used, and what is the cost?
Certainly, here's the information presented in different words:
LoRaWAN, which stands for Long Range Wide Area Network, is a wireless communication technology tailor-made for the Internet of Things (IoT). It's renowned for its capacity to transmit data over extensive distances while consuming minimal power, rendering it an excellent fit for diverse IoT applications.
Key points about LoRaWAN:
Technology: LoRaWAN employs LoRa modulation, a technology that enables long-range data transmission. It operates within unlicensed radio frequency bands, often in the sub-GHz range. LoRa's modulation technique ensures excellent signal reach and the ability to penetrate obstacles effectively.
Range: LoRaWAN can achieve impressive communication distances, spanning several kilometers in open environments. This makes it ideal for scenarios where devices must transmit data across substantial distances. However, actual range may fluctuate based on factors like topography and interference.
Power Efficiency: LoRaWAN devices are designed with power efficiency in mind, allowing them to operate on battery power for extended periods—sometimes years—before requiring replacement or recharging.
Network Architecture: LoRaWAN networks typically adopt a star-of-stars topology. IoT devices communicate with gateways, which relay the data to a central network server. This server processes and delivers the data for use in various applications.
Use Cases: LoRaWAN finds application in numerous IoT scenarios, including smart cities (for tasks like smart metering and waste management), agriculture (for monitoring soil conditions and crop health), industrial IoT (for asset tracking and predictive maintenance), and environmental monitoring (for measuring air quality and pollution levels), among others.
Cost: The cost associated with implementing a LoRaWAN network can vary widely, depending on factors such as the number of devices, required range, and the network infrastructure's complexity. Generally, LoRaWAN is seen as a cost-effective solution because it allows for large-scale IoT network deployments without the need for substantial infrastructure investments. The cost of LoRaWAN devices can also vary but is typically designed to be affordable, particularly for applications requiring numerous sensors.
LoRaWAN's popularity stems from its capacity for long-range communication, energy efficiency, and suitability for a diverse range of IoT applications. Its cost-effectiveness and adaptability make it a practical choice for organizations and industries seeking to implement IoT solutions to monitor and manage various aspects of their operations.
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