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Hardware | |
| | Processors provide the intelligence behind IoT systems and are often integrated into system-on-a-chip designs. |
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| | Hardware that enables dual directional communication for data collection and control message delivery. Examples include cellular, Ethernet, and Wi-Fi. |
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| | Sensors transform energy into electrical data; they are the eyes and ears of IoT. Actuators transform electrical data into energy; they are the muscle of IoT. |
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| | Technologies that enable legacy devices and other systems to connect to the IoT. They integrate technologies and protocols for networking. |
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| | Hardware products that are used by end users that contain IoT technology. |
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| | Wearables are smart electronic devices that can be incorporated into clothing or worn on the body as implants/accessories |
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Software | |
| | Software that ingests data and visualises it to generate insights to answer specific questions |
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| | Software that can take over complex human operations and operate independently of human intervention. |
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| | Platforms that facilitate and allow application developments for specific use cases and/or client requirements. |
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| | Software that focus on securing devices, machines, and communications between them. |
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| | Providing the infrastructure to store and manage data. |
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Services | |
| | Bringing together software, hardware, middleware, and infrastructure components to build an end-to-end solution based on specific client requirements. |
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| | Developing custom hardware for specific uses and operating environments/needs. |
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| | Developing custom software for specific uses and operating environments/needs. |
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| | Providing network connectivity to allow communication between devices, things, and operators. |
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