IoT
We implement IoT systems for continuous noise monitoring in industrial facilities, enabling characterization of sound emissions from production processes and assessment of their evolution over time. These solutions facilitate regulatory compliance, operational noise management, and early identification of conditions that may generate environmental impacts.
Noise control
We develop acoustic engineering solutions based on a methodological approach that integrates advanced measurements, numerical sound propagation modeling, signal processing, and detailed analysis of emitting sources. This approach enables precise understanding of the acoustic dynamics of complex industrial systems, identification of dominant noise generation and transmission mechanisms, and evaluation of operating scenarios through predictive simulations. Based on this technical analysis, we design acoustic optimization strategies aligned with operational requirements, regulatory compliance, and intervention efficiency.
View projectsEtiquetado acústico
We apply advanced audio processing techniques to identify and classify different noise sources in industrial environments. Using acoustic labeling algorithms, we can isolate the actual contribution of production processes and distinguish it from external sources, generating more accurate diagnostics for acoustic impact management.
View projectsNoise modeling
We run high-resolution acoustic simulations that represent noise propagation in complex industrial environments. These models integrate topographic information, 3D infrastructure, and source characteristics to evaluate operating scenarios, verify regulatory compliance, and design noise control strategies based on technical evidence.
View projectsAcoustic holography
We use acoustic holography and sound intensity techniques to identify, with high precision, the areas of highest noise emission in industrial machinery and infrastructure. This methodology helps locate dominant noise sources and optimize the design of control solutions focused on the truly critical components of the system.
View projectsVibration measurement
We perform vibration measurements using specialized instrumentation under internationally accepted standards to characterize the dynamic behavior of industrial equipment and structures. These studies facilitate mechanical issue detection, structural transmission evaluation, and prevention of infrastructure damage or operational impacts.
View projectsNoise modeling underwater
We develop acoustic propagation models in aquatic environments using specialized algorithms that consider bathymetry, water properties, and source characteristics. These studies assess the extent of acoustic impact and help design mitigation strategies for maritime and port projects.
View projectsUnderwater noise measurement
We conduct underwater noise measurement campaigns using hydrophones to characterize the acoustic impact of maritime, port, or offshore infrastructure activities. Our analyses follow international criteria and enable assessment of acoustic exposure in sensitive aquatic ecosystems.
View projectsGeospatial analytics
We apply geospatial analytics and advanced data analysis to support brand positioning, communication strategies, and campaigns with a strong territorial component. We integrate information from social networks, open-data scraping processes, digital metrics, and sociodemographic variables to identify behavior patterns, conversation trends, and influence dynamics across territories. This approach enables audience segmentation, real-time effectiveness assessment, and strategic intelligence for decision-making in political campaigns, institutional positioning, and digital reputation management.
View projectsPhotogrammetry
We perform drone-based photogrammetric surveys to generate 3D infrastructure models and digital terrain/surface models. These products enable the creation of digital twins for industrial facilities, improve the accuracy of technical analyses, and support engineering, simulation, and planning processes.
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