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Water Level and Flood Monitoring with AI

Implementing solutions for regional water levels has traditionally been challenging due to the complexity of gathering accurate, real-time data across diverse geographical areas - not to mention the large costs that come with it.
 

We combine advanced technologies to deliver cost-affordable flood risk management solutions by integrating satellite imagery, IoT sensors and opensource datamaps to a single place.

Our Next-Gen Technology

Satellite Imagery using Synthetic Aperture Radar

Synthetic Aperture Radar (SAR) provides high-resolution imagery by emitting microwave signals and measuring their return after bouncing off the Earth's surface. Unlike optical imagery, SAR can penetrate cloud cover, rain, and operate effectively during day or night. 

IoT Water Level Sensors

High-precision water level and flow sensors monitor rivers, streams, and coastal areas in real time. These sensors collect data on water levels, flow rates, tidal movements, and environmental conditions, enabling early detection of potential flood events.

AI Analytics and Flood Risk Prediction

Machine learning algorithms process and analyse data from sensors, SAR satellite imagery, and weather sources to predict flooding scenarios. AI models, integrated into a single user interface or "digital twin," offer reliable early warnings and help optimise resource allocation for emergency responses.

Monitor water levels, flow rates, and tidal movements to detect rising water conditions and issue timely flood warnings.

Supports immediate decision-making and enhances public safety by allowing for swift responses to potential flood events.

Real-Time Flood Monitoring
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Accurate prediction of high tides and king tides is crucial for anticipating coastal flooding risks.

 

Supports the planning and reinforcing of coastal defences, preventing damage to infrastructure and property, and improving community preparedness for tidal events.

High Tide and River Level Alerts
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Integrating real-time rainfall data from gauges and weather stations with historical weather patterns enhances the accuracy of flood prediction models.

 

AI analytics process this combined data to simulate potential flood scenarios, helping with proactive resource planning.

Rainfall and Weather Analysis
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How We Help

Once your specific requirements for compliance and reporting are identified, we work with you to build a customised user interface and alert system.
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Better Prepared

Identify and address risks proactively, namely abnormal high tides and rising river level events.

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Cost Efficiency

Reduce emergency response costs and property damage by using open-source dashboarding as an pilot.

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Regulatory Compliance

Meet safety standards and reporting requirements with scheduled reports formatted to your operational needs.

Our
Cost
Approach

On-Demand Pricing to get Important Data to First Responders Quickly
 

Implementing a flood risk monitoring system does not have to involve substantial upfront costs. An effective way to manage expenses is to initiate a pilot project using open-source technologies and existing resources.

By starting small, you can assess the feasibility and performance of IoT sensors, SAR satellite imagery, and AI analytics in addressing your flood risk management needs. The insights gained from the pilot project can guide you in scaling up the system.

Download our Technical Brochure

Our brochure provides detailed insights into our services, including the use of IoT sensors, high-resolution satellite imagery, SAR imagery, and Digital Twin models tailored for emergency response and management.


Download the brochure for more information on addressing the most challenging emergency situations.

Download
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More Information Understanding Flood Risk Management Challenges Flooding presents significant risks to communities, infrastructure, and the environment in New Zealand. Challenges include unpredictable weather patterns, the effects of climate change such as increased storm intensity and sea-level rise, and limited resources for monitoring and response efforts. Coastal regions are particularly vulnerable to high tides and king tides, which can cause flooding even without storm conditions. Riverine flooding from heavy rainfall can also occur rapidly, impacting both urban and rural areas. Traditional flood monitoring methods may not provide the timely and accurate data needed for effective decision-making, especially during adverse weather conditions when visibility is limited. There is a critical need for reliable, real-time information to enable proactive management and ensure public safety. IoT Sensors for Flood Monitoring Internet of Things (IoT) sensors play a vital role in monitoring water levels and environmental conditions. These sensors measure various parameters indicating flood risk, including: Water Level and Flow: Sensors installed along rivers, streams, and flood-prone areas detect changes in water levels and flow rates, providing real-time data on rising water conditions. Tidal Measurements: Coastal sensors monitor high tide and king tide events, capturing data on tidal movements that can lead to coastal flooding. Rainfall Measurement: Rain gauges collect data on precipitation intensity and duration, essential for understanding potential flood scenarios. Environmental Conditions: Sensors measure soil moisture, temperature, and humidity, which influence flooding dynamics. Technical Specifications of Our Sensors Accuracy: High-precision measurements ensure reliable data for analysis. Durability: Sensors are designed to withstand harsh environmental conditions typical of coastal and riverine settings. Power Supply: Options include long battery life and solar power for remote locations, ensuring continuous operation. Communication Protocols: Utilising LoRaWAN, LTE-M, and other reliable protocols for data transmission, even in areas with limited connectivity. Synthetic Aperture Radar (SAR) Satellite Imagery Synthetic Aperture Radar (SAR) is a radar-based technology that creates detailed images of the Earth's surface by emitting microwave signals and recording the reflected echoes. Unlike optical sensors, SAR operates effectively in all weather conditions and can penetrate cloud cover, rain, and darkness. This makes it an invaluable tool for flood monitoring, especially during adverse weather when optical imagery is limited. Advantages of SAR in Flood Monitoring All-Weather Capability: SAR provides consistent data collection regardless of weather conditions, overcoming limitations faced by optical satellites during cloudy or rainy periods common in flood situations. Day and Night Operation: Since SAR doesn't rely on sunlight, it can operate continuously, providing data during night-time when flooding can still occur. Surface Water Detection: Water surfaces reflect radar signals differently than land, allowing for accurate detection of flooded areas and changes in water bodies. Applications of SAR in Flood Risk Management Flood Extent Mapping: Identifying and mapping flooded regions in near real-time to assess the impact and coordinate response efforts. River Monitoring: Observing changes in river widths and flow patterns to detect potential overflow risks. Coastal Surveillance: Monitoring sea-level changes, tidal movements, and coastal erosion that contribute to flooding. AI Analytics and Digital Twin Integration Artificial Intelligence (AI) enhances flood risk management by analysing data from IoT sensors, SAR satellite imagery, and weather sources to identify patterns and forecast potential flood events. Machine learning algorithms process vast amounts of data to detect trends and anomalies that may indicate increasing flood risks. The integration of AI analytics into a Digital Twin—a virtual representation of the physical environment—provides a comprehensive platform for monitoring and analysis. The digital twin serves as a single user interface where all data is consolidated, enabling real-time visualisation and simulation of flood scenarios. Benefits of AI and Digital Twin Integration Real-Time Monitoring: The digital twin is continuously updated with live data from sensors and satellites, offering an up-to-date picture of flood risks. Predictive Modelling: AI models forecast flood events based on combined data, including tidal cycles, river level trends, and weather patterns. Scenario Simulation: The platform allows users to simulate "what-if" scenarios to assess potential flood impacts under different conditions. Improved Decision-Making: Centralising data and analytics in one platform enhances collaboration among stakeholders and supports informed decision-making. Technical Infrastructure and Integration Our solutions are designed to integrate seamlessly with existing systems. Key aspects of the technical infrastructure include: Data Integration: Utilising APIs and standard data formats (e.g., GeoJSON, CSV) to ensure compatibility with third-party tools and systems. Custom Dashboards: Creating tailored interfaces that display SAR imagery, sensor data, and predictive analytics specific to regional requirements. Cloud-Based Infrastructure: Secure data storage and accessibility are provided through cloud services, ensuring that information is available when needed. Edge Computing: Local data processing capabilities allow for real-time analysis in remote areas where connectivity may be limited. Benefits of Advanced Flood Risk Management Technologies Implementing advanced technologies in flood risk management offers numerous benefits: Enhanced Preparedness: Early detection of flood risks enables proactive measures to prevent or mitigate impacts from high tides, king tides, and rising river levels. Proactive Risk Management: Addressing potential issues before they escalate helps protect communities and infrastructure. Improved Response Times: Real-time data and predictive analytics empower stakeholders to act quickly and efficiently during flood events. Cost Savings: Reducing emergency response costs and minimising property damage by acting promptly on accurate data. Regulatory Compliance: Meeting legal and safety standards with robust monitoring and reporting tools ensures adherence to regional and national guidelines. Case Studies and Success Stories Flood Monitoring in Coastal Regions A regional council implemented our flood risk management solution to monitor coastal flooding due to high tides and storm surges. By deploying IoT sensors along the coastline and utilising SAR satellite imagery, they achieved continuous monitoring of tidal movements and sea-level changes. The AI analytics provided accurate predictions of king tide events, allowing the council to issue timely warnings and coordinate effective responses. This proactive approach significantly reduced the impact on coastal communities and infrastructure. Riverine Flood Management in Rural Areas In a rural district prone to river flooding during heavy rainfall, our integrated solution was used to monitor river levels and predict flood events. IoT sensors were installed along key points of the river, and SAR imagery was used to observe changes in river width and flow patterns. The digital twin platform enabled real-time visualisation of the river system, and AI models accurately forecasted flood risks. The early warnings allowed farmers and residents to take protective measures, minimising damage to properties and agricultural lands. Implementation Strategy We understand that resources can be limited, so we offer a cost-effective approach: Pilot Projects: Begin with a small-scale pilot using open-source technologies to evaluate the effectiveness of the monitoring solutions in your specific environment. Scalable Solutions: Based on the pilot results, expand the system incrementally, adding more sensors and integrating advanced features as needed. Customisation: Develop a tailored interface and dashboard that meet your specific requirements, incorporating advanced analytics and real-time alerts. Ongoing Support: We provide training and support to ensure successful implementation and operation of the system. Frequently Asked Questions How does SAR technology improve flood monitoring? SAR technology provides high-resolution imagery regardless of weather conditions or time of day. This ensures continuous monitoring during floods when cloud cover and darkness may hinder other imaging methods. SAR's ability to penetrate cloud cover allows for accurate detection of flooded areas even during heavy rainfall. Can SAR detect flooding under vegetation? While dense vegetation can affect SAR signals, certain wavelengths (such as L-band) can penetrate vegetation to some extent, allowing for detection of underlying water in some cases. However, effectiveness may vary depending on the vegetation density and type. How are IoT sensors installed and maintained? Sensors are installed at strategic locations such as riverbanks and coastal areas. They are designed for durability and low maintenance, with options for solar power and long-life batteries. Our team provides support for installation, calibration, and maintenance as needed. Is the system scalable and customisable? Yes, our solutions are designed to be scalable and customisable. You can start with a pilot project and expand the system as needed. The interface and analytics can be tailored to meet the specific requirements of your region.

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