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Complex IOT systems can aggregate multiple sensors of multiple types into a comprehensive information gathering and endpoint control/decision capability. Some sensors are collection sensors used to detect an actionable event, while others are control sensors used to request the subject take a desired action. IOT/OT systems are ubiquitous in the tactical edge (endpoint sensors and endpoint data aggregators); critical infrastructure (SCADA, intermediate network transport), levels of event-action translation (to enable human or automation to make decisions on what action to take), and in longer-term event data storage.
Complex IOT systems can aggregate multiple sensors of multiple types into a comprehensive information gathering and endpoint control/decision capability. Some sensors are collection sensors used to detect an actionable event, while others are control sensors used to request the subject take a desired action. IOT/OT systems are ubiquitous in the tactical edge (endpoint sensors and endpoint data aggregators); critical infrastructure (SCADA, intermediate network transport), levels of event-action translation (to enable human or automation to make decisions on what action to take), and in longer-term event data storage.
Complex IOT systems can aggregate multiple sensors of multiple types into a comprehensive information gathering and endpoint control/decision capability. Some sensors are collection sensors used to detect an actionable event, while others are control sensors used to request the subject take a desired action. IOT/OT systems are ubiquitous in the tactical edge (endpoint sensors and endpoint data aggregators); critical infrastructure (SCADA, intermediate network transport), levels of event-action translation (to enable human or automation to make decisions on what action to take), and in longer-term event data storage.
Complex IOT systems can aggregate multiple sensors of multiple types into a comprehensive information gathering and endpoint control/decision capability. Some sensors are collection sensors used to detect an actionable event, while others are control sensors used to request the subject take a desired action. IOT/OT systems are ubiquitous in the tactical edge (endpoint sensors and endpoint data aggregators); critical infrastructure (SCADA, intermediate network transport), levels of event-action translation (to enable human or automation to make decisions on what action to take), and in longer-term event data storage.
Complex IOT systems can aggregate multiple sensors of multiple types into a comprehensive information gathering and endpoint control/decision capability. Some sensors are collection sensors used to detect an actionable event, while others are control sensors used to request the subject take a desired action. IOT/OT systems are ubiquitous in the tactical edge (endpoint sensors and endpoint data aggregators); critical infrastructure (SCADA, intermediate network transport), levels of event-action translation (to enable human or automation to make decisions on what action to take), and in longer-term event data storage.
Complex IOT systems can aggregate multiple sensors of multiple types into a comprehensive information gathering and endpoint control/decision capability. Some sensors are collection sensors used to detect an actionable event, while others are control sensors used to request the subject take a desired action. IOT/OT systems are ubiquitous in the tactical edge (endpoint sensors and endpoint data aggregators); critical infrastructure (SCADA, intermediate network transport), levels of event-action translation (to enable human or automation to make decisions on what action to take), and in longer-term event data storage.
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