Fiorano MQTT

 

Fiorano MQTT - Architecture


MQTT is a light weight event and message oriented protocol that allows devices/sensors to communicate with remote systems in an efficient and asynchronous fashion; specially designed for resource constrained devices over unreliable networks with low-bandwidth and high-latency issues.

Fiorano MQTT supports the MQTT 3.1.1 (now an OASIS Standard) protocol which runs simultaneously with the JMS Server (FioranoMQ).

MQTT uses the publish/subscribe message pattern enabling one-to-many message distribution and decoupling of applications. The MQTT protocol embedded in the Fiorano MQTT Server uses the same Topic destinations as FioranoMQ and automatically maps MQTT clients and JMS clients, alloying a Topic destination to concurrently host MQTT/JMS Publishers and Subscribers. Each MQTT packet is converted into a JMS BytesMessage for consumption by JMS subscribers, while a JMS message is converted into an MQTT packet for consumption by MQTT subscribers as required.

Fiorano SOA Platform

Fiorano MQTT – Key Features

Fiorano MQTT is running on FioranoMQ server which is proven product for delivering the industry's lowest latency, highest throughput, real-time enterprise messaging.

MQTT – JMS conversion

MQTT messages published from devices/sensors can be received by JMS subscribers also.

Client authentication based on LDAP realm

Fiorano MQTT connection authentication can use LDAP plug-in.

Fault tolerance

Following Fiorano specific mechanisms can be used for fault tolerance.

High Availability(HA)

Shared High-Availability (HA) models with industry-leading performance.

Client-Side Persistence

Client-side persistence for added availability in server-down conditions. This feature is also used to support two-step acknowledgement process for QOS2 level packet. Client Side persistence is used only for QOS 1 and QOS2 level packets.

High connection numbers

Thousands of devices/sensors can be connected simultaneously and send/receive message packets asynchronously.

Fiorano MQTT – Benefits

Cost effective

It saves your devices' resource requirements like power and bandwidth. Thereby increasing the battery life and enhancing remote connection ability of sensors and devices.

Mobile Friendly

Being light weight messaging protocol makes it the preferred protocol for communication among Mobile apps.



Reliable message delivery

The asynchronous nature or publish/subscribe messaging pattern provides greater reliability of message delivery, thus ensuring zero message loss.

Easy Integration

Message agnostic and Standards-based technology makes it easier to integrate different applications, devices and even legacy systems.



Fiorano MQTT – Use Cases

IoT (messaging broker/hub between devices/sensors and back-end applications)


Fiorano MQTT receives data (messages) from thousands of devices/sensors and the delivers them to MQTT and JMS based back-end processing. Fiorano MQTT can then pass this data to different enterprise applications such as ERP, PLM, MES, CRM and/or Big Data processing systems, via Fiorano ESB.

M2M (broker/hub for Machine to Machine messaging and for mediating backend processing)


Fiorano MQTT can be used as broker for machine to machine real-time messaging. A back-end processing system can be positioned (as shown in the figure) for performing the mediation functions like data mapping, data code conversion, encryption/decryption etc.

Local Hub (simple hub for devices/sensors messaging)


Fiorano MQTT can be used as a simple messaging hub between devices/sensors.

Fiorano MQTT – Real world applications


Remote monitoring

There are various places that are inaccessible to humans but still require constant monitoring. From Tsunami buoys reading sea waves to pipelines and railway tracks spread across thousands of miles, all require constant monitoring for their uninterrupted service. Fiorano MQTT is the ideal choice for such applications as it can operate under constrained network and requires less power, drastically reducing the cost of managing a similar always connected network.


Manufacturing

In the current scenario of organizations with scaled up production lines and automated software/ hardware handling the production units, sensors and control units are of paramount importance as they regulate the production. With Fiorano MQTT, it is possible to ensure the reliable and fast message transfer between the different devices and their control units.


Supply Chain Management

The supply chain management primarily involves different parties receiving and sending shipments. The process can be automated using grid applications and devices sending information about delivery/ items received and forwarded etc. The shipment's safety can also be ensured en route by tracking the navigation/accelerometer/proximity sensor etc.


Mobility

The mobile devices are evolving everyday and are no longer considered as a mere communication device any more. Along with communications, these devices support a host of other functions as well. But due to size and weight constraints, they don't have enough power to support all the functions all day long. Another issue is the number of concurrent users which is responsible for low latency of networks. The ability of Fiorano MQTT to work efficiently under these conditions (less availability of power and bandwidth) makes it suitable messaging protocol for mobile apps communication.