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  • Writer's pictureVictor Kmita

How IoT Device Management Platform Ensures Life Safety

In this Article:

How IoT Device Management Platform can Ensures Life Safety


Every 93 seconds that you can spend for a coffee break, somewhere in the world, a building fire occurs. What about the people there? Can they evacuate a building effortlessly to save themselves? - Unfortunately, not always. Every 3 hours and 10 minutes someone dies because of it.

That’s why developers have a huge responsibility. Besides building a convenient house and creating attractive infrastructure, they should care for lives. Companies know it and continue to apply technologies as a solution. For instance, the Internet of Things - a core topic of our research today.

IoT management is helping to deal with fires even now. We suggest you discover how exactly and what you should do to create a robust IoT ecosystem for this purpose.

IoT For Fire Protection: To Whom It May Concern

They say digitalization should make life easier. But developers are also increasingly using it to save people from fire. Campuses, government agencies, smart buildings, and large offices. They all need to be equipped with reliable utility control systems, including the fire protection one. Everything that business and society could count on before is primitive smoke detectors and glowing exit signs.

The Internet of Things has changed the paradigm. Today, the technology provides centralized management of smart devices for fire detection. It helps to prevent high mortality rates in case of an emergency.

The IoT ecosystem here looks like countless motion, temperature, and smoke sensors integrated with the platform. Its core value lies in real-time data transferring and the ability to manage the life cycle of connected devices.

This approach is also applied because of:

Saving resources. Maintenance of fire detection devices requires special attention from the staff. Under ordinary circumstances, a company should allocate a budget for employees traveling and monitor the devices’ operation without a unified control center. The IoT platform allows you to regulate the sensors' work from one point, flashing them over the air. As a result, this frees the latter from routine tasks, increases their productivity, and minimizes the risk of errors.

Easy maintenance. Employees inspect and update fire detectors weekly due to the nature of their operation. Permanent on-site procedures make maintenance arduous and time-consuming. The IoT device management platform can simplify it through robust sensor integrations.

Prompt response guarantee. If an emergency arises, what is the chance that all the sensors will work and help out people? In this case, the Internet of Things allows employees to determine the cause of the fire and ensure instant evacuation remotely.

Fraud prevention. Any campus or government agency has premises inaccessible to a wide range of people. One of the widespread methods of unauthorized entry is arson or simulated emergency. A fraudster can bring a lighter to the fire detector, and the devices will immediately go into emergency mode, opening all doors for evacuation. IoT device management platform allows us to discover the reason for a fire in a matter of minutes and take appropriate actions.

Additional sources of income. A company can effortlessly turn convenience into profit. Often, developers equip their facilities with smart devices. IoT platforms are used for their centralized management. By selling the latter as SaaS, enterprises transform their business model and expand their target audience.

How To Create IoT Device Management Platform With Open Source Low Code Platform

The initiative to build an IoT platform is always accompanied by a choice. You can give preference to a ready-made product provided by one of your competitors. It is also possible to create a custom solution. It is where the expertise of engineers or a robust aPaaS can help out. Better to use both options. Let’s try to figure out what steps you should take to design a device management platform for fire protection.

  1. Analysis of business processes and distribution of roles involved in the emergency response process

  2. Selection of a custom device model. This item depends on the desired functionality. When it comes to IoT platform implementation, it goes beyond the elementary. Requirements often involve the creation of custom-made devices or firmware.

  3. Creation of a clear plan of movement and evacuation from facilities. It is necessary to fix the sensors inside the building in the right way.

  4. Manufacturing of devices. It is necessary to conduct an in-depth analysis of device operation. The low code platform can integrate with any sensor to provide any needed relevant information. Devices tied via WiFi or HotSpot. Then they can connect with the prescribed settings inside and get the configuration files. Using such a system, you can send over the air updates that do not require physical contact.

  5. Developing an IoT infrastructure plan. It assumes the creation of platform, web app, and integration points architecture.

  6. Creation of MVPs: web application, IoT platform, and interface.

  7. Building integrations between IoT infrastructure components.

  8. Installing devices. The company does not need to control the correspondence of the located devices to the previously prepared on-site map. After the revitalization process, devices transmit their location data to a central system. So, the installation correctness can be verified remotely.

  9. Testing and fixing flaws.

  10. Production stage.

Do you still have questions? Contact our experts to discover how the action plan of IoT platform development should look like in your particular case.


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