EERIS: Infra Public Profile

GNSS Receiver - GR30

CATALOG NAME: GR30 Baseline, GNSS Reference Receiver

DESCRIPTION: The Leica GR50 and GR30 reference servers are primed for the constantly changing requirements of GNSS technology. Regardless of the application, rest assured all GNSS permanent and semi-permanent network installations are receiving and delivering highly accurate and reliable data 24/7 for many years to come. The GR50 and GR30 reference servers offer more than just a standard reference station receiver. GNSS performance for today and tomorrow For any application, meeting the highest requirements and working in the toughest environment. Designed with performance and the future in mind, the GR50 and GR30 feature the ultimate GNSS engine with 555 channels supporting all global GNSS constellations, such as GPS, GLONASS, Galileo and BeiDou, as well as regional systems, such as QZSS and SBAS. Innovative SmartTrack+ technology ensures superior quality data even under harshest conditions. Smart and reliable The GR50 and GR30 support applications like RTK, static networks, single base stations, field campaigns, structural monitoring, atmospheric and seismic studies and offshore positioning. Reference servers are engineered for reliable operation with simultaneous and multiple interfaces for communication, power supply and data logging. The smart design of the on-board software RefWorx featuring optional apps as well as modular hardware offer highest versatility. This allows tailoring of each system according to individual customer needs, such as multi-session RINEX data logging and FTP services, multiple RTK client connectivity, or a comprehensive Ntrip (Caster, Server, Client) solution. Site Monitor and VADASE Detailed information about movements of man-made and natural structures as well as real-time positioning solutions are provided to scientists, researchers and engineers.

PRODUCER: Leica Geosystems

PRODUCTION YEAR: 2017

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GNSS Receiver - 1200

CATALOG NAME: GRX1200+ GNSS, GNSS Reference Receiver

DESCRIPTION: SmartTrack+ Best GNSS and RTK technology The Leica GRX1200+ Series incorporates an ultra precise GNSS (Global Navigation Satellite System) measurement engine that supports GPS L5, GLONASS, Galileo and Compass. Acquisition within seconds Excellent signal strength Reliable tracking to low elevations Phase and code multipath suppression High precision code and phase measurements up to 20 Hz High reliability and robustness Low power consumption The Leica GRX1200+ Series delivers uncorrelated data of the highest quality under all conditions making them ideal for all reference station applications. Since the GRX1200+ Series is able to track the new multi-frequency signals from modernized GPS (including L5 and L2C), GLONASS and Galileo, your investment is secure. RTK and DGPS output The Leica GRX1200+ Series provides all the information required for precise surveying with all types of RTK and GIS rovers. They output RTK and DGPS data for transmission from the site by radio or GPRS/GSM phone, or for distribution from a control center by radio, phone or Internet. RTCM versions 2.x and 3.x, Leica and Leica 4G (including GPS L5, GLONASS and Galieleo data), CMR and CMR+ formats are supported. The GRX1200+ Series receivers can carry out many operations simultaneously. Data files can be downloaded while the receiver continues to track and log data and while it is streaming raw data and transmitting RTK, DGPS or BINEX data. The GRX1200+ Series are true multi-tasking receivers. Web interface Use a web browser to securely and conveniently monitor and control your GRX1200+ series receiver from any computer connected to the same network or the Internet. Have the receiver push raw data or RINEX files to your FTP site for distribution to users, get notified by the onboard SMTP server in case of important system events or configure data to be streamed to an NTRIP caster. The GRX1200+ web interface provides highest flexibility, yet uses the latest web security tech.

PRODUCER: Leica Geosystems

PRODUCTION YEAR: 2015

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GNSS Receiver - AsteRx2e HDC

CATALOG NAME: SEPTENTRIO ASTERX2E HDC

DESCRIPTION: The Septentrio AsteRx2e HDC receiver is designed for use with GLONASS/GPS signals where there are demanding industrial situations. Its dual-frequency, 136 channel configuration provides multi frequency for many constellations. High quality centimeter positioning is coupled with extensive measurements (including raw data, position velocity, time and RTK) up to 25 Hz. The A Posteriori Multipath Estimator handles short-delay multipath, which enhances measurement and position data received. The Septentrio AsteRx2e HDC includes improved availability and accuracy to overcome signal blocking caused by tall objects (buildings, mountains, trees). The Septentrio AsteRx2e HDC receiver consumes low power. It is housed in a compact and waterproof plastic case. An integrator kit is also available.

PRODUCER: Septentrio

PRODUCTION YEAR: 2012

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GNSS Antenna - AR10

CATALOG NAME: AR10, GNSS Reference Station Antenna

DESCRIPTION: Integrated radome Thanks to the integrated radome, the Leica AR10 prevents build up of snow which could otherwise degrade signal quality.The non-spherical radome is designed for optimal signal quality and has the added benefit of discouraging birds from perching on the antenna, a common source of signal attenuation with rounded radomes. The aerodynamic shape of the antenna reduces wind loading and together with the light weight ensures that the Leica AR10 can be used with a variety of antenna masts or as a field or campaign base on a tripod. Constructed using a robust and UV resistant enclosure the Leica AR10 is made to withstand extreme temperature, humidity, dust, salt, solar radiation, pollution, shock and vibration. Superior performance Designed from the ground up for wideband tracking, the new wideband antenna technology introduced in the Leica AR10 provides superior low elevation tracking, multipath suppression and antenna phase centre accuracy across all frequency bands. An all new low noise amplifier (LNA) is used to provide exceptional low measurement noise for superior measurement quality. The new LNA technology also has excellent out of band rejection, helping to significantly reduce potential interference due to jamming. The Leica AR10 is suitable for use with antenna cable lengths up to 70 m without the need for an in-line amplifier. Future proof With emerging satellite systems close on the horizon, such as the European Galileo system and the Chinese Compass (Beidou 2) system, it is more important than ever before to have a true GNSS antenna. In line with Leica Geosystems “future proof” philosophy, the Leica AR10 has been designed for all existing and currently planned signals of the GPS, GLONASS, Galileo and Compass global navigation satellite systems and the SBAS, QZSS, Gagan, OmniSTAR and other L-band augmentation systems.

PRODUCER: Leica Geosystems

PRODUCTION YEAR: 2012

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GNSS Antenna - AT504

CATALOG NAME: AT504 GG, GPS/GLONASS Choke-ring Antenna

DESCRIPTION: This International GNSS Service (IGS) Choke Ring Antenna designed by NASA/JPL and machined to Leica Geosystems' exacting standards, features superior multipath rejection with uncompromised phase center stability (<1mm) and is resistant to RF jamming. The Choke Ring is the required standard for permanent GNSS networks around the world. Available with Leica Geosystems radome for weather protection. The antenna is available as AT504 GG (GPS/GLONASS) version. The AT504 (GPS-only) is no longer available.

PRODUCER: Leica Geosystems

PRODUCTION YEAR: 2001

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GNSS Antenna - PolaNt-x MF

CATALOG NAME: SEPTENTRIO POLANT-X MF

DESCRIPTION: PolaNt-x MF is a lightweight, high precision antenna for geodetic, survey and machine control applications. This high-gain antenna incorporates low-noise amplifiers, enables multi-frequency GPS, GLONASS, Galileo, Compass and L-band signal reception. The antenna is built into a rugged and environmentally sealed housing. requency 1525MHz - 1610MHz L1 (GPS, GLONASS, GALILEO, COMPASS), L-band 1160MHz - 1252MHz L2 (GPS, GLONASS), L3 (GLONASS), L5/E5 (GPS,GALILEO, COMPASS) Polarization RHCP Axial Ratio 3dB max

PRODUCER: Septentrio

PRODUCTION YEAR: 2012

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GNSS Software - Spider

CATALOG NAME: GNSS Spider Basic License

DESCRIPTION: GNSS Spider is an integrated software suite for centrally controlling and operating GNSS reference stations and networks. GNSS Spider is modular and scalable and can be tailored to suit various GNSS surveying, seismic and structural monitoring applications. Build to your needs now – Be ready for the future With GNSS Spider you only invest in what is necessary for your current needs. As requirements change and demand grows, it is easy to add stations extending your network coverage or add extra capabilities enhancing your scope of services. Efficient – Easy to Setup & Configure Use the setup wizard or simple drag & drop to create new sites and configure networks. With just a few clicks you can create products and services for RINEX logging with quality control and FTP distribution. Reliable – Continuous & Automatic All services run automatically once configured. It is autonomously integrated within the operating system – fail-safe for highest reliability. Data for post processing is continuously archived, monitored and distributed. Rovers connect to various Network RTK or DGNSS services for real time positioning using a variety of flexible methods, automatically receiving the best available solution. Secure – Control & Audit No additional tools needed to monitor and control your system locally or from a remote location. Control and view online who accesses your services. Receive automatic event email and messaging on system status anytime and anywhere. Your Benefits Efficient & secure, allowing you to focus on your strengths Convenient to use local or remote Reduces infrastructure and maintenance costs Upgradeable and expandable solution to protect initial investment GNSS Future Proof

PRODUCER: Leica Geosystems

PRODUCTION YEAR: 2012

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GNSS Software - Spider QC

CATALOG NAME: Leica SpiderQC GNSS Data Analysis Software

DESCRIPTION: 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, BeiDou 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, GR25 and GMX series 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.

PRODUCER: Leica Geosystems

PRODUCTION YEAR: 2012

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GNSS Software - Gipsy Oasis

CATALOG NAME: GNSS-Inferred Positioning System and Orbit Analysis Simulation Software

DESCRIPTION: GIPSY-OASIS, or GIPSY, is the GNSS-Inferred Positioning System and Orbit Analysis Simulation Software package. GIPSY is developed by the Jet Propulsion Laboratory (JPL), and maintained by the Near Earth Tracking Applications and Systems groups. Features: Analysis of data from Global Navigation and Satellite Systems (GNSS): Global Positioning System (GPS) Russian GLONASS French DORIS Satellite Laser Ranging (SLR) system Precise centimeter-level GNSS-based positioning and timing: Space platforms, including low-Earth orbiters and GNSS constellations Airplanes Terrestrial (ground) stations, static or moving Time transfer Single high-level user interface supports majority of precise positioning applications Single-receiver ambiguity resolution using JPL's GPS orbit and clock products Documentation accompanying software modules, and online help Training at annual GIPSY user group classes, and online Hundreds of research and educational users in more than 20 countries Builds on more than 25 years of JPL experience with GPS data analysis Applications: Terrestrial positioning for geophysical research: Earth deformation, plate tectonics GNSS Networks (e.g. PBO and SCIGN) Ice flow Climate studies through observation of troposphere and ionosphere Reference frame (geocenter and scale) and Earth rotation parameters Airplane positioning Precise orbit determination Low-Earth orbiters: Topex/Poseidon, Jason-1, Jason-2/OSTM, GRACE, Champ, SAC-C, COSMIC, Space Shuttle (e.g. SRTM), Commercial Satellites GNSS constellations including GPS and GLONASS

PRODUCER: Jet Propulsion Laboratory (JPL)

PRODUCTION YEAR: 2014

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GNSS Software - Bernese

CATALOG NAME: Bernese GNSS Software

DESCRIPTION: The Bernese GNSS Software, Version 5.2, continues in the tradition of its predecessors as a high performance, high accuracy, and highly flexible reference GPS/GLONASS (GNSS) post-processing package. Some of the key characteristics of the Bernese GNSS Software are: State-of-the-art modeling Detailed control over all relevant processing options Powerful tools for automatization (Bernese Processing Engine, BPE) Adherence to up-to-date, internationally adopted standards Great flexibility stemming from a highly modular design Features and Highlights Available on Unix/Linux, Mac and Windows platforms User-friendly GUI with a built-in HTML-based help system Multi-session parallel processing for reprocessing activities Ready-to-use BPE examples for different applications: PPP (basic and advanced versions) RINEX-to-SINEX (double-difference network processing) Clock determination (zero-difference network processing) LEO precise orbit determination based on GPS-data SLR validation of GNSS or LEO orbits All examples are designed for combined GPS/GLONASS processing. Some of them are prepared for an hourly processing scheme. Program for automated coordinate time series analysis (FODITS) Ambiguity resolution for GPS and GLONASS Flexible parameter handling on normal equation level Modern troposphere models (e.g., VMF1, GMF/GPT) Ionosphere modelling including higher order ionosphere corrections IGS and IERS 2010 conventions compliance Combination of different receiver and antenna types Galileo processing capability Typical applications Rapid processing of small-size single and dual frequency surveys Automatic processing of permanent networks Any type of post-processing from near-real time to reprocessing years of GNSS data Processing of data from a large number of receivers Combined processing of GPS and GLONASS observations Analysis of real kinematic receivers (even on airplanes) Ionosphere and troposphere monitoring Clock estimation and time

PRODUCER: Astronomical Institute University of Bern

PRODUCTION YEAR: 2014

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PRICE RANGE (at the time of purchase)

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Variometric approach array for real-time high-rate GNSS seismology

CATALOG NAME:

DESCRIPTION: "Variometric approach array for real-time high-rate GNSS seismology" it is a new test system, designed to record velocities in real-time at high-rate frequencies (10 - 20 Hz) for five GNSS permanent reference stations (single to triple frequencies and multi constellations). The use of Global Navigation Satellite Systems (GNSS) in kinematic positioning dramatically increased over the last decade for many navigational applications. The required accuracy depends on the specific application and ranges from few meters to few centimeters. This approach derives from the original VADASE algorithm (Colosimo, 2013) to address positioning and navigation of kinematic objects. The main advantage of the approach with respect to the other techniques is the total autonomy of the GNSS receiver (Stand-Alone mode, no need for other data sources). The variometeric approach is based on time single differences of carrier phase observations (Hofmann-Wellenhof et al., 2008) continuously collected using a standalone GPS receiver on standard GPS broadcast products (orbits and clocks) available in real-time. This array is therefore motivated by two main goals: to validate the model implemented in the VADASE software of the variometric approach and to assess its achievable accuracy with single and double frequency observations for GNSS seismology studies.

PRODUCER: Leica Geosystems

PRODUCTION YEAR: 2017

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