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IoT Protocols

This article provides an IoT protocols list. There are several IoT protocols that are widely used in IoT connectivity with different features. This article wants to be a guide describing the most important IoT protocols, that enable to exchange data between different IoT devices and between IoT devices and IoT cloud platforms.

IoT protocols can be grouped into two different categories:

  • IoT data protocols
  • IoT network protocols

IoT protocols List – IoT data protocols

In this IoT protocols guide, you will find a list to the most “important” IoT data protocols used in IoT ecosystem:

  • MQTT
  • COAP
  • AMQP
  • Rest
  • XMPP
  • Stomp

MQTT

It stands for Message Queuing Telemetry Trasport. Now it is an open standard maintained by OASIS group. MQTT is a machine-to-machine (M2M)/”Internet of Things” connectivity protocol. It was designed as an extremely lightweight publish/subscribe messaging transport and useful for connections with remote locations where a small code footprint is required and/or network bandwidth is at a premium. For example, it has been used in sensors communicating to a broker via satellite link, over occasional dial-up connections with healthcare providers, and in a range of home automation and small device scenarios.

MQTT protocol runs on top of the TCP/IP networking stack. When clients connect and publish/subscribe, MQTT has different message types that help with the handshaking of that process. The MQTT header is two bytes and first byte is constant. In the first byte, you specify the type of message being sent as well as the QoS level, retain, and DUP (duplication) flags. The second byte is the remaining length field.

Features of MQTT?

  • Distribute information more efficiently
  • Increase scalability
  • Reduce network bandwidth consumption dramatically
  • Reduce update rates to seconds
  • Very well-suited for remote sensing and control
  • Maximize available bandwidth
  • Extremely lightweight overhead
  • Very secure with permission-based security
  • Used by the oil-and-gas industry, Amazon, Facebook, and other major businesses
  • Saves development time
  • Collects more data with less bandwidth compared to polling protocols

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COAP

The CoAP protocol is specified in RFC 7252. The Constrained Application Protocol (CoAP) is a specialized web transfer protocol for use with constrained nodes and constrained networks in the Internet of Things.
Coap is designed for machine-to-machine (M2M) applications such as smart energy and building automation. The protocol is targetted for Internet of Things (IoT) devices having less memory and less power specifications.

On top of CoAP, the Open Mobile Alliance (OMA) has defined “Lightweight M2M” as a simple, low-cost remote management and service enablement mechanism.

Following are the features of CoAP Protocol:
• It is very efficient RESTful protocol.
• Easy to proxy to/from HTTP.
• Open IETF standard
• Embedded web transfer protocol (coap://)
• It uses asynchronous transaction model.
• UDP is binding with reliability and multicast support.
• GET, POST, PUT and DELETE methods are used.
• URI is supported.
• It uses small and simple 4 byte header.
• Supports binding to UDP, SMS and TCP.
• DTLS based PSK, RPK and certificate security is used.
• uses subset of MIME types and HTTP response codes.
• Uses built in discovery mechanism.


Read more about CoAP: CoAP Protocol- Constrained Application Protocol


AMQP

The AMQP – IoT protocols consist of a hard and fast of components that route and save messages within a broker carrier, with a set of policies for wiring the components together. The AMQP protocol enables patron programs to talk to the dealer and engage with the AMQP model. AMQP has the following three additives, which might link into processing chains in the server to create the favored capability. It is maintained by OASIS as MQTT.

  • Exchange: Receives messages from publisher primarily based programs and routes them to ‘message queues’.
  • Message Queue: Stores messages until they may thoroughly process via the eating client software.
  • Binding: States the connection between the message queue and the change.

REST

Rest stands for (Representational state transfer). This protocol, used as IoT protocol, is exploited to exchange data between applications and to integrate applications belonging to different domains. Moreover, it uses HTTP as based protocol. Rest uses client/server paradigm. Rest is widely used not only in IoT ecosystem.

XMPP

XMPP 

(Extensible Messaging and Presence Protocol) is an open standard for presence and messaging. This protocol uses XML messages The XMPP-IoT is designed specifically for IoT environment. Basically, this protocol enables users to send real-time messages and handles the user presence (Online, Offline, Busy). The IoT version enables users to send and receive messages from machines. Moreover,  it is eXtensbile easily.

Stomp

STOMP provides an interoperable wire format so that STOMP clients can communicate with any supported message broker to provide easy and widespread messaging interoperability among many languages, platforms and brokers.

It is the only one of these three protocols to be text-based, making it more analogous to HTTP in terms of how it looks under the covers. Like AMQP, STOMP provides a message (or frame) header with properties, and a frame body. The design principles here were to create something simple, and widely-interoperable. For example, it’s possible to connect to a STOMP broker using something as simple as a telnet client.

It does not, however, deal in queues and topics—it uses a SEND semantic with a “destination” string. The broker must map onto something that it understands internally such as a topic, queue, or exchange. Consumers then SUBSCRIBE to those destinations. Since those destinations are not mandated in the specification, different brokers may support different flavours of destination. So, it’s not always straightforward to port code between brokers.

However, It is simple and lightweight (although somewhat verbose on the wire), with a wide range of language bindings. It also provides some transactional semantics. One of the most interesting examples is with RabbitMQ Web Stomp which allows you to expose messaging in a browser through websockets. This opens up some interesting possibilities—like updating a browser, mobile app, or machine in real-time with all types of information.

Know more about Stomp : STOMP – Simple/Streaming Text Oriented Messaging Protocol


Know more about IoT Data Protocol read this : IoT Data Protocols


IoT protocols List -IoT Network Protocols

While IoT data protocols enable IoT devices to exchange information, IoT network protocols work at a lower level connecting IoT devices each other and with IoT cloud platforms. There are several IoT network protocols that work in a short or wide range. This IoT protocols guide will name the most important.

Bluetooth

Bluetooth is a global 2.4 GHz personal area network for short-range wireless communication WPAN (Wireless Personal Area Network). It plays an important role among IoT wireless network protocols. Device-to-device file transfers, wireless speakers, and wireless headsets are often enabled with Bluetooth. It used in connecting wearable devices. The BLE (Bluetooth Low Energy) is a low-energy version of the Bluetooth protocol that reduces the power consumption and plays an important role in connecting IoT devices.

Zigbee

Another IoT network protocol is Zigbee widely used in WPAN. It is a standard maintained by Zigbee Alliance. Zigbee works at RF area, and it is commonly used in home automation and in the smart energy area. It is built to reduce power consumption and for low rate data transfer. The ZigBee protocol uses the 802.15.4 standard and operates in the 2.4 GHz frequency range with 250 kbps. The maximum number of nodes in the network is 1024 with a range up to 200 meter. ZigBee can use 128 bit AES encrypti

Sigfox

Sigfox uses free ISM band to transmit data over the very narrow spectrum. It is a low power consumption protocol that operates using Ultra Narrow Band modulation (around 200KHz). Sigfox was developed with the main target to transmit small messages without the need to keep the network connection. It is used in M2M data exchange. Sigfox is designed to handle low data-transfer speeds of 10 to 1,000 bps using an Ultra Narrow Band (UNB) technology. Sigfox overcomes the problem of Wi-Fi and cellular in many applications that has short Wi-Fi range, where cellular cost is high and consumes more power.
SIGFOX is a French company that builds wireless networks, which is founded in 2009 by Ludovic Le Moan and Christophe Fourtet. Typically, it is an internet of things device that needs to transmit continuously in small amount data. Best use cases for Sigfox are electricity meters, smart watches, and washing machines.

LoRaWan

LoRaWAN is a WAN (Wide Area Network) protocol maintained by LoRa Alliance. LoRaWAN is a media access control (MAC) layer protocol designed for large-scale public networks with a single operator. It is built using Semtech’s LoRa modulation as the underlying PHY, but it is important to note that LoRa and LoRaWAN are two seperate things that are often (mistakenly) conflated. It is a low power protocol. It supports a secure bi-direction communication between IoT devices in M2M, smart cities and Industrial applications. Communications between IoT devices and gateway happen at a different frequency and data rates.

Read this :Symphony Link – Best Alternative of LoRaWAN


Know more about IoT network protocol Read this : Wireless IoT Network Protocols


Harshvardhan Mishra

Hi, I'm Harshvardhan Mishra. Tech enthusiast and IT professional with a B.Tech in IT, PG Diploma in IoT from CDAC, and 6 years of industry experience. Founder of HVM Smart Solutions, blending technology for real-world solutions. As a passionate technical author, I simplify complex concepts for diverse audiences. Let's connect and explore the tech world together! If you want to help support me on my journey, consider sharing my articles, or Buy me a Coffee! Thank you for reading my blog! Happy learning! Linkedin

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