An advanced measurement system is a collection of devices and technologies allowing acquisition of measurement data with high precision and reliability. These systems find application across various sectors, including industry, scientific research, and environmental monitoring. An advanced measurement system includes high-quality sensors, data acquisition systems, data processing and analysis software, and data visualization tools.
The operation of an advanced measurement system involves sensors detecting the measured quantity, converting the physical signal into an electrical one. This signal is then acquired by data acquisition devices, which transform it into digital data. The data processing and analysis software processes the data, applying algorithms and mathematical formulas to derive meaningful insights. Finally, the results are presented through graphs, tables, or reports, providing a clear and understandable representation of the measured data.
For over three decades, SIDeA has been designing and developing advanced measurement systems, enabling customers to attain accurate and detailed data, optimizing processes and performance.
An advanced measurement system is a collection of devices and technologies allowing acquisition of measurement data with high precision and reliability. These systems find application across various sectors, including industry, scientific research, and environmental monitoring. An advanced measurement system includes high-quality sensors, data acquisition systems, data processing and analysis software, and data visualization tools.
The operation of an advanced measurement system involves sensors detecting the measured quantity, converting the physical signal into an electrical one. This signal is then acquired by data acquisition devices, which transform it into digital data. The data processing and analysis software processes the data, applying algorithms and mathematical formulas to derive meaningful insights. Finally, the results are presented through graphs, tables, or reports, providing a clear and understandable representation of the measured data.
For over three decades, SIDeA has been designing and developing advanced measurement systems, enabling customers to attain accurate and detailed data, optimizing processes and performance.
Online data acquisition and analysis systems
Online data acquisition and analysis systems are platforms that enable the collection, processing, and real-time analysis of data through Internet connectivity.
These systems find application in various sectors, including industry, energy, healthcare, scientific research, and environmental. In the industrial context, online systems monitor and optimize production processes, prevent failures, and enhance efficiency. In the energy sector, they facilitate the monitoring and optimization of energy production and distribution. In healthcare, they enable continuous patient monitoring and accurate diagnosis.
Online data acquisition and analysis systems also play a crucial role in scientific research and environmental monitoring. They are employed to analyze data from diverse sources, facilitating research activities.
SIDeA designs and develops efficient and comprehensive online data acquisition and analysis systems, including all necessary technical elements:
Synchronized datalogger
A synchronized datalogger consists of one or more systems that simultaneously and synchronously acquire and record data from sensors. This tool comprises sensors to detect physical quantities, an input interface to connect the sensors, internal memory for storing recorded data, an internal clock for precise temporal synchronization, a communication interface for transferring data to a computer or external device, and data management software.
The use of a synchronized datalogger allows for the concurrent monitoring of multiple parameters, providing a comprehensive and detailed view of the monitored system or environment. This device finds widespread application in sectors such as scientific research, industry, agriculture, and environmental monitoring.
Analyzing the collected data enables the identification of correlations, trends, or significant events, providing insights to make informed decisions and optimize operations.
Synchronized datalogger
A synchronized datalogger consists of one or more systems that simultaneously and synchronously acquire and record data from sensors. This tool comprises sensors to detect physical quantities, an input interface to connect the sensors, internal memory for storing recorded data, an internal clock for precise temporal synchronization, a communication interface for transferring data to a computer or external device, and data management software.
The use of a synchronized datalogger allows for the concurrent monitoring of multiple parameters, providing a comprehensive and detailed view of the monitored system or environment. This device finds widespread application in sectors such as scientific research, industry, agriculture, and environmental monitoring.
Analyzing the collected data enables the identification of correlations, trends, or significant events, providing insights to make informed decisions and optimize operations.