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INDUSTRY
FOCUS 35 Total Station Monitors Dam for Movement
At the Razisse dam on the Dadou River in southwest France, a Spectra Precision FOCUS 35 robotic total station has completed monitoring the structural movements that occurred during recent major repairs and improvements to the dam. The Razisse is an arch and gravity type dam 30 meters high and 300 meters across built in 1955 to impound water for hydroelectricity. The current engineering project to improve dam performance and ensure downstream safety included raising the dam height by 60 cm, reinforcing existing abutments and adding two new piano key spillways.
Raising the height of the dam was expected to cause the abutments to settle. To ensure that the abutments were settling properly and within expectations, the FOCUS 35 was positioned to measure XY movement. Eight survey points were selected. Four prisms were place on the existing parapet of the right abutment and four prisms on the reaction points of the left abutment. The survey points were measured and recorded at different steps in the project: before deconstruction, after deconstruction and before and after post-tensioning tendons. To ensure accuracy each prism was measured four times and averaged to produce a final result. Measurements were taken at each step, then five days and 10 days following each step. spectraprecison.com
Future evolution of GPS III satellite design
Designed with evolution in mind, Lockheed Martin’s GPS III satellites for the Air Force’s next acquisition will be able to offer on-orbit re-programmability so they can be upgraded in space to add new signals or missions, a first for the GPS constellation. The satellite’s modular design will also allow for low risk, easy insertion of new, future technology into the production line – guaranteeing GPS III remains the gold standard for positioning, navigation and timing. Lockheed Martin will demonstrate the value of its flexible GPS III design over the next 26 months, as part of the Air Force’s GPS III Space Vehicles 11+ Production Readiness Feasibility Assessment. http://lockheedmartin.com/
“Future Proof” GNSS RTK Technology
Septentrio has introduced Altus APS3G RTK receiver, which brings technology only previously available in scientific receivers into the field for professional surveyors.
The new multi-constellation APS3G addresses major concerns about compatibility with new satellite constellations, as well as interference and jamming. Built on Septentrio’s AsteRx4 engine, the APS3G tracks all-in-view GPS, GLONASS, Beidou, IRNSS, SBAS, Galileo and QZSS, including E6/L6, and all other signals known to be available in the medium term. septentrio.com
AFC Mapper App by Trimble
Trimble has released its AFC Mapper App, a free, standalone Web and mobile app that can run on the latest version of the Trimble® Unity software-as-a-service (SaaS) solution for managing critical water utility assets and field operations. It is designed to leverage technologies from Trimble, AMERICAN Flow Control (AFC) 2D barcodes and Esri to automate mapping and asset management of hydrants, valves and related water network assets, using Android- or IOSbased smartphones and tablets or Trimble handhelds. AMERICAN Flow Control, who manufactures the American-Darling and Waterous fire hydrant brands, is one of the largest fire hydrant companies in the utility industry. www.trimble.com
Trimble Introduces Compact, Dual Antenna, High-Accuracy GNSS Module for System Integrators
Trimble has introduced the Trimble® MB-Two GNSS module. The MBTwo delivers highly accurate GNSSbased heading plus pitch or roll in an advanced industry standard form-factor for system integrators. The module’s embedded Z-Blade™ GNSS technology uses all available dual-frequency GNSS signals equally, without any constellation preference, to deliver fast and stable centimeter-accurate position and heading information. The MB-Two is an ideal solution for a wide variety of applications such as unmanned, agriculture, automotive, marine and military systems.
The MB-Two features an enhanced dualcore GNSS engine with 240 channels capable of tracking L1/L2 frequencies from the GPS, GLONASS, Galileo and BeiDou constellations. The GNSS engine supports Trimble RTX™ correction services, including CenterPoint® RTX and RangePoint® RTX, delivered worldwide via L-Band satellite. www.trimble.com
BAE developing new navigation system for submarines
BAE Systems is developing a new undersea navigation system for U.S. Navy submarines and unmanned underwater vessels. The project is part of a program called Positioning System for Deep Ocean Navigation, or POSYDON, and was commissioned by the U.S. Defense Advanced Research Projects Agency.
Current navigational methods that pose a detection risk for undersea vehicles forced to surface periodically to access the spacebased GPS which cannot sufficiently penetrate seawater. Under the program, the company will create a positioning, navigation, and timing system — as well as vessel vehicle instrumentation to capture and process acoustic signals — that allows vessels to remain underwater when navigating by using multiple, integrated, long-range acoustic sources at fixed locations around the oceans. Working with BAE Systems will be the University of Washington, the Massachusetts Institute of Technology, and the University of Texas at Austin. www.upi.com/
IZT Expands its GNSS Support Cooperating with TeleOrbit
To expand its GNSS support, IZT GmbH announced the cooperation with TeleOrbit, the marketing & sales unit of TeleConsult Austria. As a result of this agreement the generation of GNSS signals provided by the GIPSIE® software from TeleOrbit will be integrated into the feature set of the IZT S1000 signal generator. The S1000 signal generator with its broad frequency range and the Virtual Signal Generator (VSG) channels enables the similar generation of various GNSS standards in one device which can be combined with interferers or broadcast signals. In addition, it supports the combination with recorded signals. https://teleorbit.eu/en/
Geode™—A Rugged Sub- Meter GNSS Receiver
Juniper Systems’ Geode is a real-time, submeter GNSS receiver. Its overall focus is the same: high-quality data collection in rugged environments. It is an all-in-one, sub-meter receiver that provides users with real-time, precision GNSS data at an affordable price. Designed with versatility, the Geode features one-button simplicity and can be used with any Juniper Systems rugged handhelds, and a wide range of Windows®, Windows Mobile, and Android® devices – particularly useful for bring-your-own-device workplaces.
Mayflower receives small GPS user equipment contract
Mayflower Communications Company, Inc., has been awarded a Phase III SGUE (small GPS user equipment) contract with the United States Air Force Research Laboratory (AFRL), sponsored by the Space and Missile Systems Center/GPS Directorate (SMC/GPSD), to develop a small SWaP (size, weight, and power) security certifiable Common GPS Module (CGM) for the Air Force’s Modernized GPS User Equipment (MGUE) Program.
Mayflower’s SGUE program is aimed at the development of advanced GPS receiver technology to support future military GPS requirements. The goal of the program is to develop a NAVWAR (Navigation Warfare)–compatible CGM form factor that will support SWaP-constrained military users.
CHC launches high-end GNSS receiver for science, surveying
CHC has launched its new N72 GNSS series, a high-end sensor designed for GNSS applications including offshore surveys and machine control, national geodetic networks, crustal deformation monitoring and bathymetry
The N72 GNSS series is designed to offer all necessary technical features, making it one of the most complete and reliable GNSS receivers for scientific and surveying industries professionals.
“To meet the market requirements from geodetic survey and demanding applications such as CORS, on-board machine control and disaster monitoring, CHC research and development has designed one of the most feature-rich GNSS receivers available on the market. The N72 GNSS went through extensive validation and stringent quality process to achieve high performance and reliability,” said George Zhao, CEO of CHC.
Eos Positioning teams with SST Software for precision agriculture
SST Software and Eos Positioning Systems have announced a technology partnership to deliver in-field mobility solutions to precision agricultural service providers. The offering is now available to Sirrus for iPad users.
The new pairing allows agronomists and service providers to have reliable geospatial tools when and where they need it. Instead of relying on iOS location updates, Sirrus for iPad users can purchase one of Eos’ Arrow series GNSS products to stay connected anytime, anywhere.
CMD gets nod to pair FreeFlight GNSS with TDR-94
CMD Flight Solutions has received an approved model list supplemental type certificate (AML STC) of its ADS-B OUT solution for Part 25 airplanes. The STC covers installation of FreeFlight’s 1203C SBAS/GNSS GPS position sensor with Rockwell Collins TDR-94/94D transponders. According to FreeFlight, “The pairing is a cost-effective way to help aircraft owners meet the ADS -B mandate.” In addition to being used for ADS-B OUT compliance—due Jan. 1, 2020 in the U.S.—the 1203C, a 15-channel GPS sensor, is also an approved position source for NextGen applications such as CPDLC, TAWS/FMS, RNP and others. www.ainonline.com
Datalink Radio for GNSS Positioning by Harxon
Harxon Corporation has launched the HX-DU1603D, a high-speed, Bluetooth-enabled, wireless data link designed for GNSS/RTK surveying and precise positioning. It is a lightweight, ruggedized UHF receiver designed for digital radio communications between 410 and 470 MHz in the radio frequency spectrum using either 12.5- or 25-kilohertz channels. The HX-DU1603D has a 1.9-inch display screen with which to configure system parameters such as frequency, protocols, power display, serial port baud rate, and air baud rate.
Tallysman adds triple-band GNSS antennas + L-band
Tallysman has added two tripleband GNSS antennas to its multi-band antenna line.
The TW3970 is a pole mount, or through-hole mount antenna, which is also available in an embeddable form as the TW3965. Both employ Tallysman’s Accutenna technology and are capable of receiving GPS L1/L2/ L5, GLONASS G1/G2/G5, BeiDou B1/B2, Galileo E1/E5a+b plus L-band correction services (1164MHz to 1254MHz + 1525MHz to 1606MHz).
u-blox 8 Module
u-blox has released its 8 module series that addresses user needs for powersensitive operation. A derivative of the u-blox 8 GPS/GLONASS receiver platform launched in January, the module is related to the u-blox M8 platform that targets applications where navigation performance and high accuracy are paramount.
Leica releases ‘self-learning’ GNSS receiver for survey
Leica Geosystems has announced the Leica Viva GS16 survey receiver, along with updated Leica Captivate and SmartWorx Viva software.
The GS16 is a “self-learning GNSS receiver,” the company said, able to automatically select the optimal combination of GNSS signals and stay connected with or without reference links.
The addition of self-learning GNSS is accompanied by increased lock-on capability in the multistation and various upgrades to the immersive Captivate software.
The new receiver is empowered by RTKplus to access all known and current signals, while intelligently distinguishing which ones are the optimal combination to lock onto for accurate positioning adapting to any environmental conditions. The GS16 also has capacity for future signals, such as the full deployment of BeiDou and the expected progress of Galileo and QZSS.
Teledyne Optech introduces lowcost, automated airborne surveying
Teledyne Optechs latest airborne systems is Optech Eclipse. As the world’s first autonomous airborne collection system for active and passive data, the Eclipse is a great step forward for low-cost and flexible surveying. The system’s highly simplified operation workflow and innovative sensor motion detection system let pilots manage surveys on their own, eliminating the need for an in-aircraft operator and drastically reducing survey costs. To minimize maintenance costs and down time, the Eclipse lidar system uses a rugged polygon scanner, and an integrated camera with a fully electronic shutter. Combined with a relatively low purchase price, these features make the Eclipse an affordable way for many groups to start collecting high-accuracy spatial data and camera imagery remotely for small-area and corridor surveys.
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