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Azure IoT Suite brings the Internet of your things to life. Connect your devices, analyze previously-untapped data, and integrate business systems—and transform your company when you uncover new business models and revenue streams.
Azure IoT Suite enables the following features:
- Get started in time: Use pre-configured solutions. And accelerate your IoT projects to jump ahead of the competition.
- Connect any device: Using an open and flexible solution, connect a broad range of exisitng and device types and operating systems.
- Predict the future: Use advanced analytics and machine learning to capture insights from data that weren't possible before.
- Automate to transform: Integrate with your existing business systems and make the best use of the data and processes you already have.

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  • SUPPLIER
  • Microsoft Azure (Microsoft)
    Microsoft Azure is a cloud computing platform and infrastructure created by Microsoft for building, deploying, and managing applications and services through a global network of Microsoft-managed data centers. It provides both PaaS and IaaS services and supports many different programming languages, tools and frameworks, including both Microsoft-specific and third-party software and systems. Azure was announced in October 2008 and released on 1 February 2010 as Windows Azure, before being renamed to Microsoft Azure on 25 March 2014.
  • SNAPSHOT
  • Platform as a Service
    Open website
    Open website
  • Application Industries
  • Automotive
    Equipment & Machinery
    Heavy Vehicle
  • Application Functions
  • Maintenance
    Quality Assurance
  • USE CASES
  • Structural Health Monitoring
    Structural health monitoring solutions ensure the safety and soundness of engineering structures such as a buildings and bridges. Structural health monitoring uses an assortment of sensors to collect and analyze data pertaining to any damage or deterioration that a structure may receive over the course of its life. The data that structural health monitoring systems acquire can help its users avoid structural failures and changes to the material and/or geometric properties of a structural system, including changes to the boundary conditions and system connectivity, which adversely affect the system's performance. The structural health monitoring process involves the observation of a system over time using periodically sampled response measurements from an array of sensors (often inertial accelerometers), the extraction of damage-sensitive features from these measurements, and the statistical analysis of these features to determine the current state of system health. For long term solutions, the output of this process is periodically updated information regarding the ability of the structure to perform its intended function in light of the inevitable aging and degradation resulting from operational environments. After extreme events, such as earthquakes or blast loading, health monitoring is used for rapid condition screening and aims to provide, in near real time, reliable information regarding the integrity of the structure.
    Asset Health Management (AHM)
    Asset Health Management refers to the process of analyzing the health of an asset as determined by operational requirements. The health of an asset in itself relates to the asset's utility, its need to be replaced, and its need for maintenance. It can be broken down into three key components: 1) Monitoring: Tracking the current operating status of the asset. 2) Diagnostic Analysis: Comparing real-time data to historical data in order to detect anomalies. 3) Prognostic Analysis: Identifying and prioritizing specific actions to maximize the remaining useful life of the asset based on analysis of real-time and historical data.
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