The Geosense IPX In-Place Extensometer is a high-precision displacement monitoring instrument designed for long-term measurement of ground movement, structural deformation, and subsurface displacement. Built for reliability in challenging geotechnical environments, the IPX system delivers continuous, real-time data that engineers can depend on for critical decision-making.
The instrument consists of a series of displacement sensor modules installed along a durable support rod, allowing it to measure differential movement at multiple depths within a borehole. This configuration provides a detailed subsurface deformation profile, making it ideal for applications such as landslide monitoring, embankment stability assessment, tunneling projects, deep excavation support, and settlement monitoring.
Its modular architecture enables flexible system design, allowing engineers to choose the number of sensors, measurement intervals, and installation depth based on site requirements. Combined with its rugged construction, the IPX ensures stability and accuracy in harsh field conditions—including areas with vibration, groundwater presence, or varying soil densities.
The system integrates seamlessly with Geosense data loggers and remote monitoring platforms, enabling automated data acquisition and continuous real-time reporting. These capabilities make the IPX a powerful component of modern geotechnical monitoring strategies, supporting early warning systems and performance-based risk mitigation.
With its combination of precision, durability, and data connectivity, the Geosense IPX In-Place Extensometer stands as a versatile and reliable solution for monitoring displacement in complex geotechnical and structural environments. Engineers across mining, civil, and infrastructure sectors depend on this instrument to provide clear, actionable insights into ground behavior and long-term deformation trends.
Key Features
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Multi-point displacement measurement system
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High-accuracy sensor modules with stable long-term performance
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Modular design for customizable installation depth and sensor spacing
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Rugged construction suitable for harsh geotechnical environments
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Continuous, real-time monitoring capability
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Seamless integration with Geosense dataloggers and telemetry systems
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Low-maintenance architecture optimized for long-term deployment
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Compatible with various casing types and installation configurations
Advantages
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Provides detailed subsurface deformation profiles
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Supports early-warning and risk mitigation systems
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Reliable measurements even in challenging soil and groundwater conditions
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Reduces site visits through automated remote data collection
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Enhances safety by enabling proactive monitoring strategies
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Cost-effective for long-term geotechnical monitoring programs
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Scalable system design for small or large monitoring networks
