The Data Harvesting Rack is used (in conjunction with the DCC Server) to program the lGU-16s. It is also used for offloading the seismic data including QC data. Each DHR has 32 slots. The average downloading speed of each slot is 20 MB/s. There is a monitor on each DHR to view the status of the connected IGU-16s.
65.3×25.6×11.8in / 1660×650×300mm
20MB/sec for each slot
3000CHs @20 days@ 2ms in < 3 25 hours
100-240V AC, 50/60Hz
◎Data Collection and Storage: The Data Harvesting Rack serves as a central hub for collecting, processing, and storing data from multiple SmartSolo sensors deployed in the field. It is equipped with advanced data acquisition capabilities, enabling real-time data reception from SmartSolo nodes.
◎High Data Throughput: With its high-speed data interfaces, the Data Harvesting Rack ensures rapid and seamless data transfer from the SmartSolo sensors to the storage units. This enables efficient handling of vast amounts of seismic data generated during surveys.
◎Robust and Portable Design: The rack is built to withstand harsh environmental conditions typically encountered in fieldwork. Its rugged and compact design makes it easy to transport to remote locations, ensuring reliable data collection even in challenging terrains.
◎Power Management: To optimize power consumption and extend the system's operating time, the Data Harvesting Rack is equipped with intelligent power management features. It regulates power distribution to individual components, maximizing the efficiency of data harvesting operations.
◎Real-Time Monitoring: The system provides real-time monitoring and status updates of SmartSolo sensors, allowing field operators to stay informed about the data acquisition process. This feature is particularly valuable for identifying and resolving any issues promptly.
◎Data Synchronization and Quality Control: The Data Harvesting Rack ensures precise synchronization among SmartSolo nodes, eliminating timing discrepancies that could affect the accuracy of seismic data. It also incorporates quality control mechanisms to identify and discard corrupted or unreliable data.
◎Remote Connectivity: For enhanced accessibility and convenience, the Data Harvesting Rack can be remotely accessed and controlled. This feature enables researchers and operators to manage the system from a distance, reducing the need for physical intervention in the field.
◎Expandable Architecture: The rack is designed with modularity in mind, allowing for easy expansion and integration of additional data acquisition modules or storage units. This scalability makes it adaptable to projects of varying scales and requirements.
In conclusion, the Data Harvesting Rack of SmartSolo plays a pivotal role in enabling efficient and accurate data acquisition for geophysical surveys. Its advanced features, robust design, and remote accessibility make it a versatile tool for researchers and professionals in the field of seismic exploration and geophysical studies.