From onboarding to impact
A step-by-step and clearly structured implementation of Nebatic
Together with the Nebatic team, the spatial, technical, and organizational starting conditions are systematically analyzed. Existing systems, usage scenarios, priority areas, and health- and operations-relevant requirements are identified and structured. Based on this assessment, the relevant environmental factors, measurement points, and device configurations are defined—forming a transparent foundation for a targeted and impact-oriented implementation of Nebatic.
Based on the defined objectives, the appropriate device configuration with suitable sensor combinations is selected. Nebatic offers different variants that differ in the type and number of sensors, while the core system functions remain identical across all versions. In addition, further software modules can be activated, allowing scope and functionality to be flexibly adapted to technical requirements and user structures.
After activation within the software, the device is integrated into the existing building structure. Both the assignment of the deployment location—such as room, floor, or functional area—and the configuration of roles and access levels can be set up in a clear and structured manner.
The device is positioned in the area where environmental data is to be captured. Care is taken to ensure placement that avoids interference or measurement distortion—for example, maintaining distance from radiators, ventilation outlets, or enclosed niches. This ensures that the measured values accurately represent the actual usage area.
Once connected to the power supply, Nebatic automatically begins continuous measurement of environmental data. The collected values are transmitted wirelessly and stored centrally—forming the basis for real-time views, trend analyses, and subsequent optimization measures.
In addition to Nebatic’s own sensors, existing measurement systems, sensors, or digital building data sources—if already available—can be integrated into the platform. Via standardized interfaces and APIs, these data are evaluated together with Nebatic measurements and made centrally accessible—without parallel data silos or additional operational effort.
Within the user interface, device measurements can be viewed both in real time and over historical trends. In addition, values are analyzed and evaluated with regard to potential health risks and exposure situations. Depending on the usage context, warning levels and alerts can be activated—either using predefined Nebatic modes or individually configurable thresholds.
Based on analysis results, Nebatic supports targeted optimization of environmental factors. If building devices are network-enabled, actions can be executed automatically via connected control systems. Alternatively, adjustments can be performed manually—supported by transparent recommendations and actionable guidance within the software. Integrated interfaces and APIs are available for automated control.
The Nebatic platform centrally combines visualization, analysis, and control in a user-friendly solution. It scales flexibly from single-room applications to full portfolio management and provides the appropriate functional modules for every requirement.