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Urban lakes play a crucial role in modern cities, contributing to flood control, groundwater recharge, water quality, and urban aesthetics. As urban development intensifies around these lakes, obtaining accurate underwater topographic data becomes vital for engineering design and ecological management.
This case study showcases how Hi-Target’s Android-powered iBoat BS12 USV was deployed to perform an underwater topographic survey of a large urban lake in Bangkok, Thailand. The project highlights the USV’s efficiency, adaptability, and suitability for complex, confined inland waters.
In dense urban settings like Bangkok, traditional underwater topographic surveying methods using manned boats present several limitations:
· Restricted access: Crowded shorelines and narrow water entries make it difficult to launch and maneuver full-sized boats.
· Safety concerns: High pedestrian traffic and busy surroundings increase operational risks.
· Data gaps: Inaccessible or shallow zones near the shorelines may be missed or poorly captured.
Such limitations posed a clear need for a compact, flexible, and intelligent bathymetry solution capable of accessing tight spaces without compromising on data quality.
Figure 1. Survey site overview
The iBoat BS12 is a lightweight, Android-controlled unmanned surface vessel specifically engineered for inland water survey missions. With a sleek hull made of carbon fiber and Kevlar, it combines durability and portability. Its compact size allows it to be transported in a vehicle trunk and launched single-handedly, making it ideal for constrained urban sites.
Figure 2. iBoat BS12: Android-powered Multi-function USV
● Propulsion & Design: CFD-optimized hull; top speed of 6 m/s; stable in rough water.
● Navigation: Integrated GNSS + IMU module ensures sub-meter positioning even with intermittent satellite signals.
● Sensors: Built-in single-beam echo sounder, 360° camera, and millimeter-wave radar for obstacle detection.
● Control System: Operated through the Hi-Survey Boat Android app with manual or fully autonomous modes.
● Mission Continuity: Supports breakpoint resume—ideal for large-scale surveys over multiple sessions.
Figure 3. Working principle
The survey was conducted at a 250,000 m² urban lake located in a high-density commercial and tourism zone in northern Bangkok. This lake plays a vital role in the area’s stormwater regulation and ecological balance. With construction projects developing along its perimeter, obtaining precise underwater topographic data was crucial for both foundation design and environmental impact assessments.
Thanks to its compact design, the iBoat BS12 was deployed directly from the vehicle. Its portability and quick setup made it ideal for busy urban areas with restricted access.
Figure 4. Deployment of the iBoat BS12
Using the integrated mission planning software with Google Maps support, the survey team defined survey lines, spacing intervals, and coverage zones within 5 minutes. The software allows intuitive drawing of lines and areas, with automatic spacing and orientation features to accommodate various survey needs.
Figure 5. Mission planning with Google Maps interface
Once the mission was plotted, the BS12 began fully autonomous navigation, collecting real-time underwater topographic data along its route. No manual intervention was needed—operators simply monitored data collection from the shore.
Figure 6. Autonomous bathymetry in progress
Given the scale of the lake, operations extended beyond a single day. The breakpoint resume function allowed the team to pause the survey at any point and continue from the exact same location the next day—without reconfiguring the setup or data.
Once data collection was completed, information was downloaded from the remote controller and processed using HiMAX, Hi-Target’s proprietary hydrographic data software.
The post-processing workflow included automatic detection and removal of anomalous depth points, one-click generation of contour maps to visualize depth variation, and 3D modeling for detailed visualization of the underwater terrain.
Figure 7. Anomaly removal in HiMAX software
Figure 8. Auto-generated depth contour map
During the survey, we also collected a cross-section to validate the accuracy of the bathymetric data and ensure compliance with required specifications. The validation results proved that 95.12% of all data points fell within the defined confidence interval, confirming the superior precision and reliability of the iBoat BS12’s outputs.
Figure 9. Overlay analysis for accuracy verification
Figure 10. Visualized depth contour
Figure 11. 3D lakebed terrain model
These outputs provided a clear and accurate representation of the lakebed structure, supporting downstream applications such as sediment assessment, construction planning, and ecological studies.
The project successfully delivered a high-resolution underwater topographic map of a complex, built-up urban lake—something that would have been difficult, time-consuming, or even impractical using traditional manned boats.
Key Benefits:
● Rapid deployment and reduced manpower
● Safe and efficient operation in narrow or crowded water environments
● High-accuracy depth data with seamless integration into post-processing workflows
● Breakthrough scalability, especially for large or multi-day survey missions
This case demonstrates how the iBoat BS12 USV redefines inland water bathymetric surveying, offering a smart, compact solution for collecting accurate data in challenging environments. It empowers municipalities, civil engineers, and environmental specialists to make informed decisions, improving waterway management and urban resilience.
Water tasks simplified. Precision redefined.
Learn more about the iBoat BS12 and how it empowers hydrographic professionals in real-world scenarios.
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