SuperSting™ Wi-Fi
The SuperSting™ Wi-Fi is a next-generation electrical resistivity meter and induced polarization (IP), and self-potential (SP) system, used to scan and image the subsurface of the earth and visualize the results in 2D slices or 3D volumes. The fully automated SuperSting™ has been thoroughly field-tested on every extreme environment on earth, utilized in over 700 peer-reviewed journal articles, and provides the highest accuracy and lowest noise levels in the industry. The SuperSting™ line of electrical resistivity tomography equipment is the first in the industry to have multi-channel capability and is continually improved and updated with additional features.
There are five models of the SuperSting™ available (which can be upgraded simply from anywhere in the world by use of a license code)
- R1 (single channel)
- R2 (two channel)
- R4 (four channel)
- R6 (six channel)
- R8 (eight channel)
Use Cases:
The SuperSting™ Wifi is versatile enough to be applied in virtually any resistivity and induced polarization (IP) field situation, including:
- Traditional vertical electrical sounding (VES)
- Mise-a-la-masse measurements
- Multi-electrode electrical tomography (imaging) in 2D, 3D, and 4D
- Groundwater Exploration
- Imaging Dams & Levees
- Marine Dredging
- Borehole Tomography
- Monitoring Landfills
- Mine Leach Piles
- Gold Exploration
- Mineral Exploration
- Borehole-To-Borehole Tomography
- Marine Measurements
- Imaging Tree Trunks
- Imaging Vertical Walls
- Imaging Inside Tunnels
- Imaging Over Pyramids
- Locating Graves
- CO2 Sequestration Time-Lapse Monitoring
Supported Measurement Arrays:
- Dipole-Dipole (8-Channel)
- Bipole-Bipole (8-Channel)
- Pole-Bipole (8-Channel)
- Pole-Pole (8-Channel)
- Gradient (8-Channel)
- StrongGradient™ (8-Channel)
- EdgeGradient™ (8-Channel)
- Radial Dipole-Dipole
- Inverse Schlumberger (4-Channel)
- Mixed Arrays
- Dipole-Dipole-Gradient
- Wenner-Schlumberger
- Schlumberger (Single-Channel Only)
- Schlumberger inverse
- Wenner (Single-Channel Only)
- User Programmable Arrays Of Any Kind
