-
San Diego sheriff: Migrants did not try to forcefully stop school bus - August 31, 2024
-
One stabbed, another injured in altercation on L.A. Metro bus - August 31, 2024
-
Trump Judge Has ‘Two Options’ as Future of Case Unclear: Analyst - August 31, 2024
-
What to Know About Putin’s Planned Visit to Mongolia Amid ICC Arrest Warrant - August 31, 2024
-
Buying sex from a minor could be a felony under bill headed to Newsom - August 31, 2024
-
Democrat Lawmaker Switches Party to Become Republican - August 31, 2024
-
Misdated Mail-In Ballots Should Still Count, Pennsylvania Court Rules - August 31, 2024
-
Cause and manner of death determined for Lucy-Bleu Knight - August 31, 2024
-
NASCAR Craftsman Truck Series Announces Return To Iconic Circuit In 2025 - August 31, 2024
-
At Pennsylvania Rally, Trump Tries to Explain Arlington Cemetery Clash - August 31, 2024
Making sense of sensor data
These aren’t glimpses of a distant future, but realities made possible today by the increasingly digitally instrumented world. Internet of Things (IoT) sensors have been rapidly integrated across industries, and now constantly track and measure properties like temperature, pressure, humidity, motion, light levels, signal strength, speed, weather events, inventory, heart rate and traffic.
The information these devices collect—sensor and machine data—provides insight into the real-time status and trends of these physical parameters. This data can then be used to make informed decisions and take action—capabilities that unlock transformative business opportunities, from streamlined supply chains to futuristic smart cities.
John Rydning, research vice president at IDC, projects that sensor and machine data volumes will soar over the next five years, achieving a greater than 40% compound annual growth rate through 2027. He attributes that not primarily to an increasing number of devices, as IoT devices are already quite prevalent, but rather due to more data being generated by each one as businesses learn to make use of their ability to produce real-time streaming data.
Meanwhile, sensors are growing more interconnected and sophisticated, while the data they generate increasingly includes a location in addition to a timestamp. These spatial and temporal features not only capture data changes over time, but also create intricate maps of how these shifts unfold across locations—facilitating more comprehensive insights and predictions.
But as sensor data grows more complex and voluminous, legacy data infrastructure struggles to keep pace. Continuous readings over time and space captured by sensor devices now require a new set of design patterns to unlock maximum value. While businesses have capitalized on spatial and time-series data independently for over a decade, its true potential is only realized when considered in tandem, in context, and with the capacity for real-time insights.
Download the report.
This content was produced by Insights, the custom content arm of MIT Technology Review. It was not written by MIT Technology Review’s editorial staff.