Orbuculum
Orb Monitor is dedicated to advancing water safety through real-time microbial monitoring solutions. Their innovative sensors, including fluorescence-based probes and AI platform, enable fast, sensitive detection of microbial contamination in water systems. The company's technology offers high-resolution data, early warning capabilities, and operational insights, supporting safer drinking water, water reuse, and industrial applications. Their solutions facilitate proactive water management, regulatory compliance, and can be applied across various industries such as wastewater treatment, food production, and pharmaceuticals.
Industries
Nr. of Employees
small (1-50)
Orbuculum
110 Gloucester Avenue, Primrose Hill Business Centre, London NW1 8HX
Products
In-line fluorescence monitoring probe
Sensor probe designed for installation in pressurized streams to measure autofluorescence signatures of microbial constituents and provide continuous spectral measurements for real-time surveillance.
Cloud-based water intelligence platform
Cloud analytics platform that ingests sensor and cytometry streams, applies predictive models, computes baselines and anomalies, and delivers dashboards and alerts for operational teams.
In-line fluorescence monitoring probe
Sensor probe designed for installation in pressurized streams to measure autofluorescence signatures of microbial constituents and provide continuous spectral measurements for real-time surveillance.
Cloud-based water intelligence platform
Cloud analytics platform that ingests sensor and cytometry streams, applies predictive models, computes baselines and anomalies, and delivers dashboards and alerts for operational teams.
Services
Combined deployment of in-line fluorescence sensors with cloud-hosted analytics to deliver continuous microbial metrics, alerts, and operational insights for water systems.
Design and execution of full-scale pilot studies and controlled perturbation experiments to validate sensor performance, detection limits, and operational utility in real operating conditions.
Processing of high-frequency cytometry datasets including QC, gating, fingerprint generation, beta-diversity analysis, threshold setting, and event detection reporting.
Provision of cloud-hosted analytics including trend detection, automated root-cause analysis, and predictive alerts to support operational decision-making.
Combined deployment of in-line fluorescence sensors with cloud-hosted analytics to deliver continuous microbial metrics, alerts, and operational insights for water systems.
Design and execution of full-scale pilot studies and controlled perturbation experiments to validate sensor performance, detection limits, and operational utility in real operating conditions.
Processing of high-frequency cytometry datasets including QC, gating, fingerprint generation, beta-diversity analysis, threshold setting, and event detection reporting.
Provision of cloud-hosted analytics including trend detection, automated root-cause analysis, and predictive alerts to support operational decision-making.
Expertise Areas
- Fluorescence spectroscopy-based real-time microbial sensing
- Online flow cytometry and cytometric fingerprinting
- Time-series anomaly detection and dynamic baseline methods
- Cloud analytics and AI-driven predictive modeling for water quality
Key Technologies
- UV autofluorescence spectroscopy
- In-line fluorescence probes for real-time monitoring
- Online flow cytometry
- High-frequency data acquisition (sub-second to minute-scale)
News & Updates
Evaluation of online microbial monitoring devices during operational and contamination scenarios in a Belgian water treatment plant.
Assessment of device sensitivity and response to simulated rainwater, groundwater, and wastewater contaminations in a controlled setup.
Scientific comparison of six online microbial monitoring devices in a full-scale drinking water plant, highlighting their response to operational changes and contaminations.
Framework for biostability management in drinking water, emphasizing nutrient control, microbial community dynamics, and online monitoring for safety.
Conducted a comprehensive scientific evaluation of six online microbial monitoring devices in a real drinking water production environment.
Established thresholds and parameters such as Bray-Curtis dissimilarity for real-time detection of microbial community changes.
Evaluation of online microbial monitoring devices during operational and contamination scenarios in a Belgian water treatment plant.
Assessment of device sensitivity and response to simulated rainwater, groundwater, and wastewater contaminations in a controlled setup.
Scientific comparison of six online microbial monitoring devices in a full-scale drinking water plant, highlighting their response to operational changes and contaminations.
Framework for biostability management in drinking water, emphasizing nutrient control, microbial community dynamics, and online monitoring for safety.
Conducted a comprehensive scientific evaluation of six online microbial monitoring devices in a real drinking water production environment.
Established thresholds and parameters such as Bray-Curtis dissimilarity for real-time detection of microbial community changes.