What Are the Essential Tools and Equipment for a STEM Lab in Rajasthan? 

Introduction: Building a Future-Ready STEM Lab in Rajasthan 

With Rajasthan embracing technology-driven education, setting up a STEM lab in Rajasthan has become essential for schools. A well-equipped STEM lab in Rajasthan provides hands-on learning experiences that prepare students for careers in engineering, robotics, AI, and more. But what tools and equipment are needed to build a high-quality STEM lab in Rajasthan? 

Here’s a complete guide to the essential tools and equipment for a cutting-edge STEM lab in Rajasthan. 

1. Robotics Kits & Coding Tools for a STEM Lab in Rajasthan 

Robotics and coding are integral parts of STEM education. Schools need: 

Arduino & Raspberry Pi Kits – For learning programming, electronics, and automation 

LEGO Mindstorms & VEX Robotics Kits – To build and program robots 

Scratch & Python Coding Platforms – For beginner-friendly coding exercises 

Drones & AI Modules – To introduce students to artificial intelligence and automation 

These tools help students develop logical thinking and computational skills, making them ready for future careers in technology. A STEM lab in Rajasthan equipped with robotics fosters innovation and creativity. 

2. 3D Printers & Prototyping Equipment for a STEM Lab in Rajasthan 

Innovation thrives when students can create prototypes of their ideas. A STEM lab in Rajasthan should include: 

3D Printers (like Creality or Ultimaker) – For designing and printing functional models 

Laser Cutters & CNC Machines – To teach students about precision manufacturing 

3D Modeling Software (Tinkercad, Fusion 360) – To design real-world engineering projects 

By incorporating prototyping tools, students in STEM labs in Rajasthan gain exposure to product development, engineering, and entrepreneurship. 

3. Science & Electronics Experiment Kits in a STEM Lab in Rajasthan 

Hands-on experiments make learning science interactive and engaging. Schools should equip their STEM lab in Rajasthan with: 

Physics Kits (Newton’s Laws, Optics, and Electromagnetism Experiments) 

Chemistry Kits (Safe Lab Chemicals, Beakers, and Reaction Experiments) 

Biology Kits (Microscopes, DNA Extraction, and Ecosystem Models) 

Circuit Boards & Soldering Kits – To learn about electrical engineering and IoT 

With these kits, students in STEM labs in Rajasthan can explore scientific concepts practically, strengthening their understanding and problem-solving skills. 

4. AI & Machine Learning Tools for a STEM Lab in Rajasthan 

With the rise of AI and data science, it’s crucial to introduce students to basic AI concepts. Essential tools for a STEM lab in Rajasthan include: 

AI Development Boards (Jetson Nano, Google Coral) – For experimenting with AI projects 

Machine Learning Platforms (Google Colab, TensorFlow, Teachable Machine) – For building AI models 

Speech & Image Recognition Kits – To introduce students to computer vision and natural language processing 

AI tools allow students in STEM labs in Rajasthan to work on cutting-edge projects, boosting their career opportunities in AI and automation. 

5. IoT & Smart Technology Kits for a STEM Lab in Rajasthan 

IoT is transforming industries, and students must learn how smart devices work. Schools should include in their STEM lab in Rajasthan: 

IoT Development Kits (ESP8266, NodeMCU, Arduino IoT Cloud) 

Sensors (Temperature, Motion, Humidity, RFID) – To build smart home and automation projects 

Wireless Modules (Bluetooth, Wi-Fi, LoRaWAN) – To introduce connected device technology 

With IoT tools, students in STEM labs in Rajasthan can develop real-world smart solutions, preparing them for the future of technology. 

6. Renewable Energy & Environmental Science Kits in a STEM Lab in Rajasthan 

Sustainability is a key focus in Rajasthan, and students should learn about renewable energy sources. A STEM lab in Rajasthan should include: 

Solar Panel Kits – To teach about solar energy and power generation 

Wind Turbine Models – For understanding wind energy 

Water Purification & Conservation Experiments – To promote sustainability projects 

These tools help students in STEM labs in Rajasthan develop eco-friendly solutions for environmental challenges. 

7. Virtual & Augmented Reality (VR/AR) Systems in a STEM Lab in Rajasthan 

Immersive learning through VR and AR makes STEM education more engaging. Schools should invest in: 

VR Headsets (Oculus Quest, HTC Vive) – To explore virtual science labs and simulations 

AR Learning Apps (Google Expeditions, Merge Cube) – For interactive learning experiences 

3D Anatomy & Space Exploration Software – To make subjects like biology and astronomy exciting 

By integrating VR and AR, students in STEM labs in Rajasthan experience interactive, hands-on education, improving conceptual understanding. 

Start Building a STEM Lab in Rajasthan Today! 

Setting up a STEM lab in Rajasthan is an investment in the future. With the right tools, students can: 

Develop critical problem-solving skills 

Engage in hands-on, innovative learning 

Prepare for future careers in science and technology 

Want to equip your school with a high-tech STEM lab in Rajasthan? Contact us today to explore funding options and expert guidance! 

Módulo LoRaWAN da Radioenge Tutorial Completo

O módulo LoRaWAN da Radioenge é homologado pela Anatel e 100% fabricado no Brasil e neste post você aprende tudo sobre ele.

O módulo LoRaWAN da Radioenge é uma placa de fabricação nacional e homologada que pode ser usada com qualquer microcontrolador ou microprocessador através de comandos AT via porta serial. 1 O que é LoRaWAN? O LoRaWAN é um protocolo que desenvolvido para aumentar o alcance da rede LoRa e utiliza nós em estrela para diminuir ao máximo o consumo da bateria, de modo que os ‘end nodes’ fiquem…

Ver no WordPress

The RAK Discover Kit is a complete LoRaWAN gateway solution. It comes pre-assembled, out of the box. You only need to flash the latest Firmware to have a fully functioning Gateway.

IoT Sensors Market Analysis, Revenue, Price, Share, Growth Rate, Forecast 2028

Global IoT Sensors Market: Snapshot

IoT is a system that is implanted with sensors, connectivity to network, gadgets and programming empowering physical items to gather and trade the information. Sensors in IoT play an indispensable role in estimating the physical nature of items and list it into an esteem which is additionally perused by another gadget or client. IoT sensors allude to the sensors utilized in keen applications, which require network, constant analysis, and regular interfacing stage for gathering and breaking down information. It is a processing idea where each physical protest is associated with the web, and every such question can speak with one another.

Get Brochure of the Report @       https://www.tmrresearch.com/sample/sample?flag=B&rep_id=3846

The IoT sensor advertise is flourishing with different kinds of sensors associated with gadgets and individuals, which empowers a two-way correspondence process among man and machine. There are different end-utilize businesses where IoT sensors are sent to encourage this two way correspondence and for social event information. As IoT ascends to predominance, a sensor takes more dependable part, which generally, is intended to quantify a physical quality and list it into an esteem that can be perused by a client or another gadget. Yet, all sensors are not the equivalent and distinctive IoT applications require diverse kinds of sensors. For example, computerized sensors are direct and simple to interface with a microcontroller utilizing Serial Peripheral Interface (SPI) transport. In any case, for simple sensors, either simple to-advanced converter (ADC) or Sigma-Delta modulator is utilized to change over the information into SPI yield.

Developing interest for consumer gadgets, for example, cell phones, shrewd TV, and keen home machines connected with IOT, legislatures of the few developing nations are inflowing into various open and private joint efforts for the extension of its cloud benefits through its information and IoT focus advancements, developing IoT applications in the car and modern markets are a few elements, which are required to push interest for IOT sensors over the coming years.

Global IoT Sensors Market: Overview

The global internet of things (IoT) sensors market is anticipated to see expansion with the growing significance of real-time computing for IoT applications. The advent of internet protocol version 6 (IPv6) and higher demand for wearable and connected devices could push the growth of the market during the course of the forecast period 2018-2028. On the other hand, improved application of sensors in IoT devices due to technological developments, plummeting costs, and reduction in size is predicted to strongly support market growth. Rise in internet penetration and introduction of 3GPP Releases 13 and 14 specifications could also contribute to the market in a positive way.

Global IoT Sensors Market: Trends and Opportunities

There are different types of IoT sensors available on the market, viz. inertial, image, accelerometer, gyroscope, magnetometer, humidity, temperature, and pressure, which exhibit their own rates of demand depending on their requirement. However, amongst these, gyroscopes could show higher growth rate in the coming years. This could be due to the swelling demand for equipment optimized with sensors used in satellite positioning, navigation, and other applications. The demand for gyroscopes could increase on the back of the rising adoption of automation in a number of industries and the massive requirement of remotely operated vehicle guidance.

Amongst network technologies, wireless is expected to gain a whole lot of traction in the global IoT sensors market. There is a strong requirement of more robust internet connection created with the swelling demand for wireless data from smart grids, connected cars, and mobile devices. The adoption of wireless network technology is projected to increase while riding on lower installation and maintenance costs and the rising adoption of cloud platforms.

Global IoT Sensors Market: Market Potential

Leading equipment breakdown and technology insurer, Hartford Steam Boiler (HSB) has announced its next-gen IoT sensors and software to connect facilities and equipment via IoT. The sensors use proprietary algorithms to improve performance and avoid loss and are delivered to commercial customers in a simple kit. The HSB Sensor Systems service provides all the software and hardware required to issue alerts when changes suggest trouble, analyze data, and monitor conditions 24/7. It acts as an early warning system for religious groups, schools, building owners, and other entities.

Low-power wide-area networks wireless technology, LoRaWAN is used in the new set of HSB sensors. It can communicate through building floors and walls and offers extended range to connect dispersed facilities and equipment. Instead of Wi-Fi systems, the technology makes use of cellular systems.

Global IoT Sensors Market: Regional Analysis

On the geographical front, the global IoT sensors market is foreseen to witness the rise of North America in the foreseeable future. In 2018, the region held a stronger share of the market. The growth of the regional market could stem from the increasing adoption of wireless sensors in consumer electronics, oil and gas, healthcare, automotive and transportation, and industrial sectors and industries.

North America could be overtaken by Asia Pacific by the end of the forecast tenure while growing at a higher CAGR. Factors such as enhanced IT infrastructure, improving disposable income, wide consumer base, and increasing internet penetration in residential as well as commercial spaces are envisaged to support the growth of the market in Asia Pacific.

Global IoT Sensors Market: Companies Mentioned

The global IoT sensors market marks the presence of top players such as STMicroelectronics, NXP Semiconductors, Broadcom, TE Connectivity, and Texas Instruments.

Global IoT Sensors Market: Sensor

Temperature Sensors

Pressure Sensors

Humidity Sensors

Flow Sensors

Accelerometers

Magnetometers

Gyroscopes

Inertial Sensors

Image Sensors

Touch Sensors

Proximity Sensors

Acoustic Sensors

Motion Sensors

Occupancy Sensors

Co2 Sensors

Light Sensors and Radar Sensors

Image Processing Occupancy Sensors (IPOS)

Intelligent Occupancy Sensors (IOS)

To get Incredible Discounts on this Premium Report, Click Here @  https://www.tmrresearch.com/sample/sample?flag=D&rep_id=3846

Global IoT Sensors Market: Network Technology

Wired

Wireless

KNX

LonWorks

Ethernet

Modbus

Digital Addressable Lighting Interface (DALI)

Wi-Fi

Bluetooth

Zigbee

Z-Wave

NFC

RFID

EnOcean

Thread

6LoWPAN

WirelessHART

Process Field Bus (PROFIBUS)

DECT ULE

ANT+, ISA100, GPS, Sub-Gig, and Cellular

Bluetooth Smart

Wi-Fi/Bluetooth Smart

Bluetooth Smart/Ant+

Bluetooth 5

Global IoT Sensors Market: Vertical

Consumer

Commercial

Industrial

Home Automation

Smart City

Wearable Electronics

Consumer Devices

Consumer Appliances

Smart TVs

Smart Locks

Smoke Detectors

Home Theater Projectors

Next-Gen Gaming Consoles

Set-Top Boxes

Smart Washing Machines

Smart Dryers

Smart Refrigerators

Smart Ovens

Smart Cooktops

Smart Cookers

Smart Deep Freezers

Smart Dishwashers

Smart Coffee Makers

Smart Kettles

Traffic Management

Water Management

Waste Management

Smart Parking

Smart Lighting

Consumer Application

Healthcare Application

Industrial Application

Retail

Aerospace and Defense

Logistics and Supply Chain

Entertainment

Financial Institutes

Corporate Offices

Advertising and Marketing

Digital Signage

Energy Optimization

Intelligent Payment Solution

Real-time/Streaming Analytics

Resource Management

Safety and Security

Smart Shelf and Smart Doors

Smart Vending Machine

Drones/Unmanned Aerial Vehicle (UAV)

Predictive Maintenance

Energy

Industrial Automation

Transportation

Modes of Transportation

Types of Transportation Application

Healthcare

Smart Agriculture

Roadways

Railways

Airways

Maritime

Predictive Analysis

Telematics

Infotainment

Advanced Driver Assistance System (ADAS)

In-Vehicle (In-V)

Vehicle-To-Vehicle (V2V)

Vehicle-To-Infrastructure (V2I)

Telemedicine

Clinical Operations and Workflow Management

Connected Imaging

Inpatient Monitoring

Medication Management

Precision Farming

Livestock Monitoring

Fish Farming

Smart Greenhouse

Global IoT Sensors Market: Region

North America

Europe

Asia Pacific (APAC)

Rest of the World

U.S.

Canada

Mexico

Germany

U.K.

France

Italy

Spain

Rest of Europe

China

Japan

South Korea

India

Australia

Rest of APAC

Middle East and Africa

South America

Request TOC of the Report @https://www.tmrresearch.com/sample/sample?flag=T&rep_id=3846

About TMR Research:

TMR Research is a premier provider of customized market research and consulting services to business entities keen on succeeding in today’s supercharged economic climate. Armed with an experienced, dedicated, and dynamic team of analysts, we are redefining the way our clients’ conduct business by providing them with authoritative and trusted research studies in tune with the latest methodologies and market trends.

Hardware solutions for Eclipse IOT Challenge: Exploring LoRa/LoRaWAN

The Eclipse IOT challenge lead me to research more in depth different technologies both from the hardware and the software aspect. As part of product development and delivery one has to come up with the solution for a problem. In this case the problem is parking in urban areas, or the lack of smarter parking solutions. Such implementation would not only allow end users to have a better parking experience while saving time in finding an adequate spots but also provides the city with valuable data to be used for city planning and city improvement projects.

Once the issue is identified, it was important to find a technical solution that would align with our needs. For city implementations, given the broad area that needs to be covered, we would need a type of communication that is long range and low cost, both in cost of sending data and power consumption. I first tackled the hardware needs once the design was evaluated. The prototype for a smart city solution needs to also be scalable while adding the least overhead in cost and infrastructure needed.

In this article I will go more in depth on the research done to identify one of the key components of the project. I will share a summary of my findings in hopes of helping others that are also exploring similar solutions.

Evaluating communication solutions:

I evaluated BLE, bluetooth, cellular, satellite, Wi-Fi, SigFox, Zigbee and Lora. Bluetooth and Wi-Fi, given its range limitation and cost were not considered for this prototype. Cellular communications have a higher cost as well, and at even steeper price comes satellite communication; both this options were also discarded. SigFox and LoRa/LoraWAN were the runner up candidates. I came across a comprehensive post on the comparison of SigFox and LoRa that is worth the read https://www.link-labs.com/blog/sigfox-vs-lora . The winner was LoRa.

Why Lora?

As explained by Libelium on http://www.libelium.com/development/waspmote/documentation/lora-vs-lorawan/ LoRa contains only the link layer protocol and is perfect to be used in P2P communications between nodes. LoRa modules are a little cheaper that the LoRaWAN ones.. LoRaWAN includes the network layer too so it is possible to send the information to any Base Station already connected to a Cloud platform. LoRaWAN modules may work in different frequencies by just connecting the right antenna to its socket..

LoRa which stands for long range wireless operates at a low bandwidth, meaning that its best application is for sending smaller pieces of data such as sensor data. LoRaWAN is known for its good penetration and long coverage which has been recorded to reach over 10 KM distance. LoRaWAN operates on unlicensed bands, so in most countries is legal to have you own LoRaWAN gateway cutting down the cost given that you will not have to pay a carrier or third party to supply you with the service.

Additionally a selling point for me personally was the wide accessibility to various developer platforms and hardware solutions such as DIY LoRa kits, libraries and Arduino compatible LoRa modules. The Things Network offers a strong platform with access to resources, documentation and a great community of IOT LoRa enthusiast.

Gateway

Lets take a look at one of the hardware pieces now. “Gateways form the bridge between devices and The Things Network. Devices use low power networks like LoRaWAN to connect to the Gateway, while the Gateway uses high bandwidth networks like WiFi, Ethernet or Cellular to connect to The Things Network. Gateways are routers equipped with a LoRa concentrator, allowing them to receive LoRa packets”(see more at https://www.thethingsnetwork.org/docs/gateways/). Below is a list of some gateways that were evaluated for this project. I spent time looking at their platform flexibility, the documentation and support provided and what would be the most cost effective solution for a minimum viable product (MVP).

Lorixone

https://lorixone.io/

LORIX One is the first low cost gateway designed and assembled in Switzerland. Its technical specifications include Runx Linux Yocto 4.X SX1301 gateway chip SPI based 8 channels, 49 demodulators @ 868MHz

Lorixone counts with great documentation accessible at https://www.thethingsnetwork.org/labs/story/install-awesome-lorix-one-gateway

Kerlink

Details at https://www.kerlink.com/iot-solutions-services/IoT%20LoRaWan%20Solutions/

Wirnet iBTS is a range of modular and upgradeable gateways designed for IoT public operators. It can be upgraded up to 64 LoRa™ channels to offer an answer to massive messages supporting. I was unable to identify the price point for this gateway.

The Things Gateway

Details at https://www.thethingsnetwork.org/docs/gateways/gateway/

Retails: € 300.00 € 280.00 (ex VAT)

Originally started as a Kikstarter campaign viewable at https://www.kickstarter.com/projects/419277966/the-things-network it provides 10 km / 6 miles radius of network coverage, it can server thousands of nodes and its an straight forward to set up. It counts with ample documentation and a strong community.

Technical specifications:

Fastest way to get started with LoRaWAN (Long Range WAN)

Set up your own LoRaWAN network in as little as 5 minutes

Connects easily to your WiFi or Ethernet connection

Wireless range of up to 10 km (6 miles)

Engage with a global community of IoT developers

Easy cloud integration with popular IoT platforms

Based on open source hardware and software standards

Devices can freely communicate over all gateways connected to The Things Network

XBEE slot for future connectivity protocols or homebrew add-ons.

Security through the https connection and embedded in the LoRaWAN protocol

Can serve thousands of nodes (depending on traffic)

Laird — RG1xx

Details at: https://www.lairdtech.com/products/rg1xx-lora-gateway

Retail 400+ US dollars

This gateway counts with a dual-band Wi-Fi, BT v4.0 (BLE and Classic) and wired Ethernet; LoRa range up to 10 miles and pre-loaded LoRa Packet Forwarder software

Technical specifications:

Full Linux operating system — Kernel v4.x running on Atmel A5 Core @ 536 MHz

Multiple interfaces such as LoRaWAN, 802.11a/b/g/n, Bluetooth v4.0, and Ethernet

8-Channel LoRaWAN support with up to +27dBM max transmit power

Comprehensive Certifications for FCC / IC (RG191) and CE (RG186) (all pending)

Industrial temperature range (-30º to 70º C)

Advanced deployment tools including intuitive web-based configuration, integrated LoRa packet forwarder, and default settings for multiple LoRaWAN Network Server vendors

Enterprise-grade security built on Laird’s years of experience in wireless

Industry-leading support works directly with Laird engineers to help deploy your design

LoRa Network Server pre-sets — The Things Network, Loriot, Stream and Senet

Multitech

Developer resource http://www.multitech.net/developer/products/multiconnect-conduit-platform/

Retail 675–685 US dollars

Breakdown: base gateway MTCDT-H5–210L-US-EU-GB https://www.digikey.com/product-detail/en/multi-tech-systems-inc/MTCDT-H5-210L-US-EU-GB/881-1236-ND/5246365() $490, antenna (https://www.digikey.com/product-detail/en/multi-tech-systems-inc/AN868-915A-10HRA/881-1242-ND/5246371) $13, LoRa module MTAC-LORA-915 (https://www.digikey.com/product-detail/en/multi-tech-systems-inc/MTAC-LORA-915/881-1239-ND/5246368) $180

The MultiConnect® Conduit™ is a configurable, scalable cellular communications gateway for industrial IoT applications. Conduit allows users to plug in two MultiConnect mCard™ accessory cards supporting wired or wireless interfaces. It counts with open source Linux development, wwo mcard slots, Lora 8 channel receiver, Spred spectrum frequency hopping that is ued to Up to 10 miles line of sight. MultiConnect has done a great job with its documentation and it counts with its own platform that can be used as well.

Lorrier LR2

Details at: https://lorrier.com/#introducing-lr2

Developer resource: https://github.com/lorriercom

Retail €615.00 €755.00

Based on LoRaWAN™ protocol. This is a fully outdoor device intended to establish a wide coverage network by telecommunications operators and local network by individuals or IoT connectivity service providers. The whole solution, including both HW and SW parts, follows the Lorrier culture, and it is shared as an Open Source.

The gateway is based on iC880a LoRaWAN™ concentrator by IMST which uses Semtech SX1301 base band processor designed for use with LoRa® networks. BeagleBone Green with 1GHz (2000 MIPS) processor and fully operational on fast SPI bus was chosen as a powerful control unit.

LoRa/LoRaWAN Gateway — 915MHz for Raspberry Pi 3

Details at https://www.seeedstudio.com/LoRa%2FLoRaWAN-Gateway-915MHz-for-Raspberry-Pi-3-p-2821.html

Retails 289.00 US dollars

If you want to build you own LoRa network, there are 3 things that you should prepare to get started: a Gateway, at least one Node and a local server where you can monitor all your devices. This kit provides a gateway & local server that allows you to collect and transfer data among all your LoRa nodes. By connecting the gateway with Seeeduino LoRaWAN and Grove modules, you can build your IOT prototype within minutes.

Regarding the gateway module RHF0M301, it is a 10 channel(8 x Multi-SF + 1 x Standard LoRa + 1 x FSK) LoRaWan gateway moduel with a 24pin DIP port on board, users can easily connect the RHF0M301 with PRI 2 bridge RHF4T002, adapter for Raspberry Pi 3 and RHF0M301.

RisingHF gateway

Details at http://www.risinghf.com/product/rhf0m301/?lang=en

I have seen this solution mentioned and used across the LoRaWAN community. Its technical specs are RHF0M301 is a 10 channels (8 x Multi-SF + 1 x Standard LoRa + 1 x FSK) LoRa/LoRaWAN gateway or concentrator module. The module is integrated one 24 pins DIP hearder, with this header user could connect RHF0M301 with his own embedded platform to build a customized gateway easily.

LG01 LoRa OpenWrt IoT Gateway by Dragino Tech

Details at https://www.tindie.com/products/edwin/lg01-lora-openwrt-iot-gateway/?pt=ac_prod_search

Retails 56.00 US dollars

This gateway is a long distance wireless 433/868/915Mhz, OpenWrt, LoRa IoT Gateway

The LG01 is an open source single channel LoRa Gateway. It lets you bridge LoRa wireless network to an IP network via WiFi, Ethernet, 3G or 4G cellular.

DYI options:

There are various posts on DYI options based both from Raspberry Pi and Arduino boards. Below are a few:

Build your own gateway

https://www.thethingsnetwork.org/docs/gateways/start/build.html

Building a Raspberry Pi Powered LoRaWAN Gateway

https://www.rs-online.com/designspark/building-a-raspberry-pi-powered-lorawan-gateway

Hardware IMST iC880A LoRaWAN “concentrator” board and Raspberry Pi

The iC880A — LoRaWAN https://wireless-solutions.de/products/long-range-radio/ic880a iC880A is able to receive packets of different end devices send with different spreading factors on up to 8 channels in parallel. In combination with an embedded Linux board like Raspberry Pi, Beagle Bone, Banana Pi and the HAL software from https://github.com/Lora-net a complete LoRaWAN® gateway can be setup easily.

From zero to LoRaWAN in a weekend

https://github.com/ttn-zh/ic880a-gateway/wiki

Based iC880a concentrator board and a Raspberry Pi 2.

A DIY low-cost LoRa gateway

http://cpham.perso.univ-pau.fr/LORA/RPIgateway.html

The gateway is based on a Raspberry PI. RPI 1B+/2B/3B can be used. The LoRa modules comes from (a) Libelium LoRa radio module, (b) HopeRF RFM92W/HopeRF RFM95W (or RFM96W for 433MHz), © Modtronix inAir9/inAir9B (or inAir4 for 433MHz), (d) NiceRF LoRa1276. Libelium LoRa and RFM92W use the Semtech SX1272 chip while RFM95W, inAir9/9B and NiceRF LoRa1276 use the SX1276 which is actually more versatile.

Note: The LoRa module and the LoRaWAN module are not compatible because the protocols are different. The LoRa module implements a simple link protocol, created by Libelium. However, the LoRaWAN module runs the LoRaWAN protocol, a much richer and more advanced protocol, created by the LoRa Alliance.

Check out their Github page with detailed documentation https://github.com/CongducPham/LowCostLoRaGw

Conclusion on gateways:

The gateway is a key portion of this solution given that the sensors will need to send the information “somewhere” where it can either be analyzed on the edge or sent to the cloud. After considering price ranges on both the parts needed for a DIY solution or a full blown gateway I considered those solutions that would be cost effective and which I was most familiar with. The “LG01 LoRa OpenWrt IoT Gateway by Dragino Tech” seemed the best approach. The developer kit counts with an Arduino developer node and a Developer gateway. Note that this solution only counts with ONE channel, in comparison with other solutions that allow 8+ channels. This was a compromise that was evaluated and given that this will be a prototype the one channel option seemed sufficient.

In the following articles I will showcase both the remaining hardware parts and the software portion along with updates on how the project is coming along.

LoRa/ LoRaWAN Gateway Developer Kit with Raspberry Pi https://ift.tt/2MkwzbS

CAT หนุน TESA จัดแข่งพัฒนาสมองกลฝังตัวบน LoRaWAN

CAT นำโครงข่าย LoRaWAN และระบบ CLOUD Computing ร่วมสนับสนุน TESA จัดแข่งขัน TESA Top Gun Rally 2019 หนุนสร้างนักพัฒนาระบบสมองกลฝังตัวเพื่ออนุรักษ์โบราณสถานแห่งชาติ ด��.ณัฎฐวิทย์ สุฤทธิกุล ผู้ช่วยกรรมการผู้จัดการใหญ่ กลุ่มขายและผลิตภัณฑ์สื่อสารไร้สาย บริษัท กสท โทรคมนาคม จำกัด (มหาชน) หรือ CAT เปิดเผยว่า CAT ได้ร่วมสนับสนุนการจัดประชันทักษะสมองกลฝังตัวชิงแชมป์ประเทศไทย ครั้งที่ 13 (TESA Top Gun Rally 2019) ซึ่งจัดโดยสมาคมสมองกลฝังตัวไทย (TESA) ร่วมกับกรมศิลปากร มหาวิทยาลัยศิลปากร วิทยาเขตพระราชวังสนามจันทร์ และหน่วยงานต่าง ๆ ณ คณะวิทยาศาสตร์ มหาวิทยาลัยศิลปากร วิทยาเขตพระราชวังสนามจันทร์ จังหวัดนครปฐม การแข่งขัน TESA Top Gun Rally 2019 ในครั้งนี้กำหนดจัดขึ้นภายใต้หัวข้อ ‘ระบบการจัดการโบราณสถานแห่งชาติ 4.0’ (Smart National Historic Site 4.0 : Art & Cultural Conservation & Tourism Information System) ระหว่างวันที่ 6 - 12 มกราคม 2562 ในบริเวณพื้นที่พระราชวังสนามจันทร์และใกล้เคียงในจังหวัดนครปฐม เพื่อพัฒนาบุคลากรของประเทศให้มีความรู้ความสามารถในการสร้างสรรค์นวัตกรรมด้วยการผสานความรู้ด้านสมองกลฝังตัวเข้ากับเทคโนโลยีดิจิทัลสำหรับช่วยอนุรักษ์มรดกทางวัฒนธรรมของประเทศได้อย่างมีประสิทธิภาพ โดยในปีนี้มีนิสิต นักศึกษา นักเรียน และคณาจารย์ในวงการ Embeded System and IoT ของประเทศไทยกว่า 300 คนจากสถาบันการศึกษาและหน่วยงานต่างๆ ทั่วประเทศกว่า 30 แห่งเข้ามารวมตัวกันสร้างสรรค์และพัฒนาระบบการจัดการโบราณสถานแห่งชาติ 4.0

ดร.ณัฎฐวิทย์ สุฤทธิกุล ผู้ช่วยกรรมการผู้จัดการใหญ่ กลุ่มขายและผลิตภัณฑ์สื่อสารไร้สาย บริษัท กสท โทรคมนาคม จำกัด (มหาชน) หรือ CAT ในการแข่งขันครั้งนี้ นิสิต นักศึกษา และนักเรียนที่เข้าร่วมจะได้เรียนรู้องค์ความรู้และเทคโนโลยีของระบบสมองกลฝังตัวจากผู้เชี่ยวชาญในสาขาต่างๆ อาทิ ได้รับความรู้เกี่ยวกับการอนุรักษ์และการจัดการโบราณสถาน การบริหารโครงการ การสร้างระบบฮาร์ดแวร์ ความรู้เกี่ยวกับระบบโครงข่าย LoRaWAN และระบบ CLOUD Computing ประสบการณ์เกี่ยวกับการพัฒนา แก้ไขปัญหาตามโจทย์ที่กำหนดขึ้นในแต่ละวันบนหลักการของ Problem-Based Learning สำหรับรูปแบบของการดำเนินแข่งขันในโครงการจะจัดต่อเนื่องเป็นระยะเวลา 1 สัปดาห์ ซึ่งในระหว่างการแข่งขันจะมีคณะกรรมการประเมินคะแนนสะสมตามหัวข้อและเกณฑ์ที่กำหนด โดยทีมที่มีคะแนนสะสมสูงสุด 4 ลำดับ��รกจะได้รับรางวัลเงินสดรวมมูลค่ากว่า 100,000 บาทพร้อมโล่รางวัล “CAT เข้าร่วมสนับสนุนโครงการนี้ในฐานะที่เป็นหน่วยงานของรัฐที่ให้บริการด้านดิจิทัลและระบบสื่อสารโทรคมนาคมของประเทศ โดยได้ติดตั้งโครงข่ายสื่อสาร LoRaWAN หรือ Long Range Wide Area Network ซึ่งเป็นโครงข่ายที่มีคุณสมบัติสำคัญคือสามารถรับส่งสัญญาณได้ในระยะไกล ใช้พลังงานต่ำ เหมาะกับการรับส่งข้อมูลเพื่อตรวจวัดค่าต่าง ๆ และสนับสนุนอุปกรณ์ LoRa Developer Kit สำหรับการแข่งขัน พร้อมทั้งระบบ IRIS ClOUD สำหรับการเก็บและประมวลผลข้อมูล รวมถึงการโปรแกรมระบบเซิร์ฟเวอร์ต่างๆ เพื่อให้ผู้เข้าร่วมแข่งขันได้สัมผัส เรียนรู้ และทดลองใช้งานจริงตามโจทย์ของการแข่งขัน และยังเป็นการเปิดโอกาสและเสริมสร้างองค์ความรู้เกี่ยวกับเทคโนโลยีใหม่ ๆ ในด้านดิจิทัลให้กับนิสิต นักศึกษา และนักเรียนที่เข้าร่วมแข่งขัน” ดร.ณัฏฐวิทย์ กล่าวในที่สุด ลิงค์ที่เกี่ยวข้อง CAT LoRaWAN Read the full article

Kit for smart buildings LoRa deployments

Kit for smart buildings LoRa deployments

Kit for smart buildings LoRa deployments – Semtech has produced a  Smart Building Reference Kit, a collection of tools designed to accelerate the development of smart building solutions based on LoRa devices and the LoRaWAN protocol, and facilitate a portable demonstration of these solutions. The kit allows users to monitor doors and windows, desk and room presence, environmental conditions, and…

View On WordPress

LoRa Gateway Developer Kit, RAK831 LoRa/LoRaWan Module with Raspberry Pi3 and MAX-7Q GPS Module, base on SX1301, 433/868/915MHz, Glass Fiber Antenna Gain 6dbm Transmission range is further, LoRa Gateway Antenna with 433/470/868/915MHz, RAK831 Pilot Gateway SX1301+Raspberry Pi3+GPS with complete enclosure for professional demonstration set up and many others are top rated products of RAK Wireless.

RaspberryPi 4 Basic Kit is Now Available

The Raspberry Pi 4 Kit is now available Spread the good news or refer it to your friend using our Affiliate Program and get a 5% commission on each kit sold.

Here are the Raspberry Pi 4 Kits we have in store for all of you:

We have three variants and three different options available:

RAK Raspberry Pi 4 Kit is the latest addition to the popular Raspberry Pi series. It offers an excellent increase in processor speed, multimedia performance, memory, and connectivity over the previous generation Raspberry Pi 3 Model B+, while maintaining backward compatibility and similar power consumption.

Build your developer gateway for LoRaWAN® with the RAK Raspberry Pi 4 Kit for LoRaWAN®. It includes a Pi 4 (4 GB), a ready-to-use microSD card with Raspbian OS pre-loaded, a case, a power supply, a RAK2287 concentrator, a PiHAT for the concentrator, and a LoRa® antenna.

The Raspberry Pi 4 Model B (4 GB) is the best single-board computer for developing your IoT project and launching your first LoRaWAN® gateway.

Become a RAKwireless Affiliate and get your own Raspberry Pi 4 Basic Kit here: https://store.rakwireless.com/collections/raspberry-pi

Libelium presenta nuevas soluciones IoT para aplicaciones medioambientales en ciudades verdes, prevención de inundaciones, seguridad y campos de golf

La compañía española de IoT impulsa la interoperabilidad del mercado ofreciendo nuevos servicios de soporte en su Programa para “Cloud Partners”. Las plataformas cloud de Arrow, Haibu y Labeeb se integran en el ecosistema de Libelium que suma ya una red de 83 partners en todo el mundo. Barcelona (España), 27 de febrero 2017 Libelium presenta en Mobile World Congress en Barcelona nuevas soluciones medioambientales de Internet de las cosas que permiten desarrollar proyectos inteligentes para ciudades verdes, prevención de inundaciones, seguridad y campos de golf. Con el objetivo de extender la interoperabilidad que Libelium ofrece actualmente a través de una red de 36 cloud partners certificados, la compañía española ha lanzado un nuevo programa que proporciona oportunidades de negocio, herramientas de marketing y servicios de soporte técnico a los clouds. Este nuevo programa ofrece a los partners la posibilidad de integrar sus plataformas cloud con el gateway IoT Meshlium para construir servicios en la nube y mejorar su posicionamiento de mercado. “La mejor forma de acelerar la adopción del IoT es ofrecer a nuestros partners servicios especiales y beneficios que nos permitan desarrollar conjuntamente nuevas oportunidades de negocio para ganar visibilidad y presencia en un mercado muy fragmentado. Con este completo programa estamos adaptándonos a las necesidades de nuestros partners”, afirma Alicia Asín, Consejera Delegada de Libelium. Además, el ecosistema IoT de Libelium crece con tres nuevos cloud partners que se han integrado con Meshlium para implementar nuevos proyectos basados en sus plataformas Cloud: Haibu (de Latinoamérica), Arrow (EE.UU), y Labeeb IoT (Qatar) Soluciones medioambientales paquetizadas en The IoT Marketplace Libelium ha paquetizado nuevas soluciones listas para ser instaladas en forma de kits que están disponibles la tienda online The IoT Marketplace. Estos kits dan respuesta directa a las necesidades demandadas por el mercado y son el resultado de la apuesta de la compañía por seguir aumentando su ecosistema. Con estas nuevas aplicaciones, The IoT Marketplace -inaugurado hace exactamente un año- crece y ofrece 50 productos finales para acelerar la adopción del IoT: • Smartis ha diseñado con Libelium el kit para c iudades verdes que incluye el sensor de ruido y el de partículas de polvo (PM1 / PM2.5 / PM10). Este kit responde a la necesidad que tienen las ciudades de cumplir con las normativas medio ambientales relacionadas con la medición de niveles de contaminación acústica y aérea. • EnsuraC&C ha lanzado tres nuevas soluciones IoT. El kit para p revención de inundaciones permite monitorizar flujos de agua y ofrecer un sistema de alerta temprana para prevenir inundaciones u otros desastres naturales. El k i t de seguridad facilita a las fuerzas de seguridad o defensa gestionar situaciones en tiempo real de manera más eficaz. La compañía también ha trabajado en un IoT Development Kit para programar cualquier solución basada en la plataforma Cloud de EnsuraC&C. • BaseN ha trabajado en un k i t para c ampos de golf que permite gestionar el mantenimiento de estas instalaciones, medir el volumen de jugadores o proveer servicios de información para los usuarios sobre el tiempo y otras condiciones ambientales. • Hirisens ha lanzado un kit para parking con tecnología Sigfox que ya ha sido instalado durante los últimos meses en diferentes localidades del País Vasco dentro de un proyecto con más de 70 nodos. • Kerlink Development Kit cuenta con el software integrado de LoRa SPN y permite programar una solución IoT con LoRaWan sin costes asociados. • Labeeb IoT Development Kit ofrece la oportunidad desarrollar soluciones en la plataforma Labeeb IoT.

Match Your LoRaWAN Needs to these WisBlock Kit

Into weather monitoring? ☁️ Or location tracking? 🛰️ Maybe even indoor air quality sensing? Whatever the case, we’ve got various WisBlock kits to fit your requirements. Start building your IoT applications to your taste and send your sensor data through the included WisGate Developer gateway to any LoRaWAN® server.

Get it here: https://www.rakwireless.com/en-us/jan-new-wisblock-2022

Buy now LoRa Gateway Developer Kit

Buy now Lora concentrator module on Rakwireless at very affordable price. RAK831 LoRa/LoRaWan Module with Raspberry Pi3 and MAX-7Q GPS Module, base on SX1301, 433/868/915MHz

Kit 6 Inclusions

RAK831

Converter Board

LoRa Antenna

GPS Antenna

Kit 7 Inclusions

RAK831

Raspberry Pi 3B+

Converter Board

(Raspberry) Casing

TF Card