An IoT platform is a set of components that enable developers to distribute applications, collect data, secure connections and perform sensor management. Device Management Platform is a platform that provides user connectivity services, hardware, software and data on the device.
Protocol adapters and services can be deployed at the IoT edge to enable compatibility with industrial and other SCADA-like hardware, device management and data management platform components.
The key features of an IoT platform include management, analysis, application development, device management and security. An IoT platform facilitates communication, data flow and device management between applications.
An IoT platform is a set of cloud-based or on-premises software components that facilitate data transfer between IoT devices and IoT applications and enable people to interact with IoT systems on the application level. An IoT platform, connects hardware with application-level software, providing efficient solutions for device management and configuration, data acquisition and analysis and enabling applications connection to cloud sites and servers.
As a kind of middleware, an IoT platform sits on the level between the devices of the Internet of Things (IoT) and their data access on the one hand and the applications it can build on the platform, the so-called Application Enablement Platforms (AEPs). For example, Amazon and Microsoft offer software platform layers for IoT services and hardware infrastructure layers for public cloud applications.
They play an important role as developers of smart devices and startups as they use IoT platforms to enable their products with remote access, real-time reporting, customizable notifications and notifications, cloud services and simple integration with devices and smartphones. IoT Platforms of Microsoft, AWS, Google and other providers provide secure, resilient and flexible connections between endpoints and devices and have a broad set of management features that simplify and streamline IoT deployment. These platforms provide the various capacities needed to manage large IoT ecosystems, freeing developers from the need to build their management capabilities.
An IoT platform facilitates data acquisition and transmission, device management and application development for IoT systems. HPE Universal IoT Platform is a scalable, modular and versatile software platform for managing mobile IoT solutions and delivering added value by monetizing the enormous amount of data generated by connected devices. Everyware IoT is an integrated platform for the Internet of Things, providing a gateway to vertical industries, an open-edge framework, and a modular cloud infrastructure for connecting field devices, business analytics, and enterprise applications.
There are many benefits of using third-party infrastructure to transfer data between IoT devices and IoT cloud platforms, including dedicated bandwidth, strict connectivity SLAs and additional security. If you are billed to multiple carriers, IoT connectivity platforms provide a single interface for deploying, monitoring and managing your devices from anywhere in the world. Your job is to manage the connection between your devices and your cloud platform for many mobile operators and other specialized carriers such as Sigfox.
Other industries that benefit from the use of IoT platforms include remote monitoring of their vehicles, field devices, maintenance and notification of devices, automated acquisition of sensor data in real-time, product analysis, security procedures used, cargo delivery and tracking, among others. Its key features and capabilities are found at all levels: network management, device management, data acquisition, process analysis and visualization, application support, integration and storage.
The Microsoft Azure IoT platform consists of a set of services that allow users to interact and receive data from their IoT devices and perform various operations on the data such as multi-dimensional analysis, transformation, aggregation and visualization of the data in a way that suits the platform. Devices, objects and built-in sensors are connected to the Internet of Things platform to integrate data from various devices, perform analysis and exchange valuable information with applications tailored to specific needs.
The IoT platform is the glue that gathers information from sensors, devices, networks and software and works together to unlock valuable and actionable data. Platform components are designed to provide an application logic that coordinates the handling of IoT device data, creates chains of conditional statements and enables the execution of intelligent actions using sequence-matching algorithms.
Specialized software is provided by IoT cloud platform companies in the form of SDK and software development kits. KAA is a production-ready, flexible and versatile middleware platform that establishes an end-to-end IoT solution for networked applications and smart devices.
Analytics refers to the ability of administrators and operators to monitor historical and real-time observations gathered by connected IoT devices to the platform. In previous articles on IoT network connectivity providers and platforms, we mentioned IDC for the evaluation of IoT device management and IoT network connectivity platforms. In this scenario, the data does not flow from the IoT devices to the Internet or the cloud platform.