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Leica SpiderQC

Leica SpiderQC

 
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Leica SpiderQC is the first choice in quality monitoring software to complement Leica GNSS Spider or any other reference station software. It can analyze various GNSS raw and derived data in a range of formats such as RINEX, SINEX, IONEX and NMEA.

Multi Purpose
Leica SpiderQC is a multi-purpose GNSS data analysis tool that can be used for:

  • Site Assessment and Quality Control
  • Network RTK Performance Monitoring
  • Reference Station Integrity Monitoring
  • Deformation Monitoring
  • RINEX data management (concatenation, decimation)

Suitable For All GNSS Reference Networks
Leica SpiderQC processes GPS (including L2C and l5), GLONASS and Galileo (including AltBOC) data in the standard RINEX format that is supported by all leading reference station software. Leica SpiderQC is the perfect companion for all reference station networks. It allows the network operator to monitor the quality of the network in an efficient manner. Paired with the superior performance and flexibility of GNSS Spider reference station software and the GR10, GRX1200+ and GMX902 receivers, Leica Geosystems is setting new standards for GNSS Reference Stations.

Site Assessment

 

Leica SpiderQC helps you to select the best location for your reference station. Use it to evaluate code and phase multipath, check for RF interference and signal attenuation, measure data quality and completeness and much more. Use the Quality Check feature for verification of the quantity (tracking information, data gaps), quality (cycle slips, multipath, SNR) and the format (compliance to the RINEX standard) of your GNSS data.

 


Automated Analysis of GNSS Reference Station Data
Reference station networks generate vast amounts of data. To make a detailed analysis of this data is not possible without sophisticated analysis and reporting tools. Leica SpiderQC offers a comprehensive suite of tools tailored to the inspection, alarming, display and distribution of quality data relating to the raw data products of a reference network. Status information is available at a glance using traffic light symbols and other graphics. For more detailed investigations a range of HTML based reports, web pages and graphs can be generated. 

Network RTK Performance Monitoring

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The Network Online Visualisation of Accuracy (NOVA) feature of Leica SpiderQC enables you to visualize the spatial and temporal quality of single base and network RTK positioning over your network. Real time maps show the distribution of residual ionosphere and troposphere/orbit error enabling you to monitor the network status and identify problem areas in the network. The innovative NOVA maps display the estimated level of residual error for both RTK rover users

receiving network corrections and single reference station (nearest site) corrections. The NOVA maps allow network operators to get a measure of the benefit that network corrections bring to their users and allow them to identify potential ‘hot spots’. Network users can view the maps over the web to get assurance on the quality of the corrections provided by the network and to decide between using nearest site and network RTK corrections for the specific location of their survey.


Reference Station Integrity Monitoring

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Using Leica GNSS Spider RT Positioning or a fixed rover in your network, Leica SpiderQC can monitor the quality and availability of corrections from the network. Statistics such as accuracy, precision, availability, reliability and more can be used to quantify the integrity of the service and warn if thresholds are exceeded so corrective action can be taken.

 


Deformation Monitoring

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Use Leica SpiderQC to detect and visualise movements of your reference stations or other critical infrastructure. Leica SpiderQC integrates with a variety of high speed real time and post processing positioning engines including Leica GNSS Spider and Bernese and any other software supporting standard NMEA and SINEX formats. The software combine to provide a flexible monitoring system for reference stations, bridges, dams, landslides and more. High precision tilt measurements from Leica Nivel200 inclination sensors can be used to complement

the GNSS derived data. Longitudinal, transverse, easting, northing, height, 2D and 3D displacements and more are computed in real time and can be displayed on screen and on the web as time series, scatter plots and vector maps. Data filtering and archiving features are also available.


Coordinate Computation Service
The coordinate computation service delivers postprocessed and adjusted coordinates in WGS84 and local datum by email. The static or kinematic GNSS measurement data uploaded by the user is processed relative to multiple manually or automatically selected reference stations. For static data the integrated blunder detection and coordinate adjustment ensure best reliability. 

Limit Checks and Messaging
Three levels of absolute limit checks for each of the longitudinal, transverse, height, 2D and 3D displacements, 2D accuracy, height accuracy, availability, x-tilt and y-tilt may be defined separately for each monitored site. A flexible messaging system allows for configuration of email, SMS and command line actions to be linked to each limit check and system message. The current connection and traffic light status of each site/sensor/solution is shown.

Industry Standard Data Formats
Leica SpiderQC works with standard data formats including RINEX (2.1/2.11/2.12/3.0), SINEX, IONEX and NMEA GGA, GNS, GGQ and LLQ in addition to proprietary Leica formats. TCP/IP, serial and SQL database communication links are supported. A direct link between Leica SpiderQC and Leica GNSS Spider and Leica SpiderWeb makes configuration of the system quick and easy.

License Free Version
Leica SpiderQC can be downloaded and used for free. No registration or software protection keys are required. The free license includes the following functionality:

  • Manual Quality Check of RINEX data (via GUI and command line)
  • RINEX data management tools (concatenate/decimate)
  • Further RINEX data analysis (with provided sample data set only)
  • IONEX plotting tool
  • Logging of data from Nivel200 series high precision inclination sensors 

 

 
 
 
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