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Home • Products • GNSS Testing & Simulation • BroadSim Wavefront BroadSim Wavefront Software-Defined CRPA Test System BroadSim Wavefront PRODUCT | GNSS TESTING & SIMULATION Scalable 4-16 elements at 600+ signals per element Iteration Rate 1,000 Hz Phase-Coherent 1° 1σ Real-Time Automated phase calibration NAVWAR Built-in jamming and spoofing ANY QUESTIONS? GET QUOTE About Protecting your GNSS systems from jamming and spoofing is more critical now than ever before. BroadSim Wavefront was designed to enable easier and more affordable CRPA receiver testing, leveraging proven software-defined architecture. Applications – Test CRPA electronics/multi-element antennas Features – IQ generated in GPU not FPGA ​ – PXE (pixie) system architecture - single computer operation ​ – Unlimited number of in-band and out-of-band jamming signals with no additional hardware ​ – Create dynamic transmitters and user-defined waveforms ​ – Simultaneously simulate multiple threats including jamming, spoofing, and repeating ​ – Single pane view of all system nodes and their signal simulations Why Develop a New Wavefront Simulator? – High-end PNT systems are using AJAS - very few Wavefront simulators exist – Wavefront simulators are expensive - standard configurations can cost millions – Jamming/spoofing is often not a part of the solution - the user must integrate additional hardware – Scenario creation is complicated and limited - requiring trained, expert PNT engineers The Status Quo Difficult calibration routine Physically large and not scalable Custom one-off solutions Limited or no API control Limited spoofing/repeating capabilities BroadSim Wavefront Scalable and affordable Commercially available Easy to use and calibrate Robust API: C++, C#, and Python Jamming, spoofing, and repeating RESOURCES On-Demand Webinar Button Watch The Next Generation of CRPA Testing Reimagined for the User and uncover the methods and solutions for testing CRPA. Technology Demonstration Button Watch Generating Threats with BroadSim Wavefront and see a unit under test tracking signals and their angles of arrival for yourself An Engineer's Guide To CRPA Testing Button Learn about applications and use cases for CRPAs, how they work and the methods for testing them, plus what solutions are available today. Click to download the BroadSim Wavefront data sheet. VIEW DATA SHEET

Home • Applications • Electronic Warfare Electronic Warfare There are many forms of electronic warfare in today's modern battlefield. One of the more common arenas is within the Position, Navigation, and Timing (PNT) realm - or what our industry refers to as NAVWAR (Navigation Warfare). With expertise that goes back 30+ years, this is where Safran Federal Systems thrives. ​ NAVWAR and EW • Testing Capabilities • Field Solutions • Offensive Capabilities How does NAVWAR differ from other forms of Electronic Warfare (EW)? NAVWAR is a subset of Electronic Warfare that targets GPS and other PNT signals or sensors in which the warfighter depends upon. Typically, people think of GPS in the way that most people use it today – on a screen on their phone or in their car, getting you from point A to point B. But what people don’t realize is how just how many mission-critical systems rely on GPS to function, and how vulnerable it is to attack. For example, a warfighter's precise location is needed for rescue. If their systems are attacked electronically and they lose their GPS position, it can have devastating consequences. NAVWAR and EW Addressing today's challenges in Electronic Warfare From the lab to the field, Safran’s Electronic Warfare solutions back the warfighter at many crucial stages: Test, Detect, and Defeat. Safran’s proven expertise in GPS jamming & spoofing simulation and protection has enabled them with the ultimate toolkit for EW capability. Your mission can start taking advantage today by inquiring about our capabilities. INQUIRE TODAY Why is NAVWAR testing important? Protecting your systems in the field starts in the lab. How do you give warfighters the confidence that their systems will continue to perform in a theatre abundant with NAVWAR attacks? This is where Testing & Simulation are extremely important. You want to know before you go to the field, how your systems are going to react to all types of threats. Testing Capabilities Testing with BroadSim Safran offers a range of simulator solutions that support applications from underwater to outer space. This is all achieved through BroadSim, our flagship line of software-defined simulators. Our team of experts will work closely with you to understand your needs Choose or customize the solution that gives you the tools required to achieve mission success Powerful GPU-driven platform Easily scaled to support signal capacity and high dynamics Skydel software/interface is shared across all BroadSim simulators Going from the lab to the field Situational awareness in the field is another important aspect of protecting your systems that Safran address through two of its solutions, BroadShield and BroadSense. Both give situational awareness to the warfighter by detecting GPS Jamming and Spoofing signals in the environment in real-time, based on the same patented algorithms which have been proven to be successful in the field for close to 15 years, and are continuously updated and improved to address the latest emerging threats. An embedded software solution Easy integration into a user’s system Detects malfunctions/anormalities Quickly verifies if it's NAVWAR attack Can be programmed to send alerts or switch to a backup source so there’s no interruptions in service. BroadShield LEARN MORE BroadSense Nano A handheld sensor device Low-cost, size, weight, and power Used for on-the-go situational awareness Is easily carried or mounted Screen displaying critical information Jamming, spoofing, and J/S Integrated or external antenna options LEARN MORE Field Solutions Going on the offense Safran's proven expertise and experience in testing and simulation, along with defensive measures like detection, has allowed them to be extremely proficient in channeling that technology for fielded systems. Inquire today about Safran's capabilities to learn about the success they’ve already been able to demonstrate and how it’s being used to aid the warfighter. INQUIRE TODAY Offensive EW Capabilities

Home • Products • GPS Jamming & Spoofing • 8230 AJ 8230 AJ GPS/GNSS Anti-Jam Antenna 8230 AJ PRODUCT | GPS JAMMING & SPOOFING Receivable Signals GPS L1, GLONASS L1, BeiDou B1, Galileo E1, QZSS L1 Size 100mm dia. (3.9") 101.5mm H (4") base to top 127.2mm H (5") including "N" connector Compliance IP67 and RoHS ANY QUESTIONS? GET QUOTE About The 8230AJ anti-jam antenna is a high gain (40 dB) GNSS outdoor antenna with a unique conical antenna pattern that rejects interference from the horizon. The antenna rejects signals at lower elevation angles – where most of the interference comes from – and only receives signals from higher elevation angles where the true satellites are. This way, you get all the performance and timing accuracy you would with a standard antenna plus 20 dB or more of interference rejection. ​ ​ It uses a three-stage low noise amplifier, a mid- section SAW, and a tight pre-filter to protect against saturation by high level sub-harmonics and L-band signals. The antenna covers GPS L1, GLONASS L1, BeiDou B1, Galileo E1, and QZSS L1. Designed for harsh environments The 8230AJ Antenna is ideal for applications with high interference. Its weather-proof housing is IP67 compliant offering a high degree of protection against dust and water. Its cylindrical radome is made of high impact UV stabilized polycarbonate to protect against rain, ice, snow and salt spray. Click to download the 8230 AJ data sheet. VIEW DATA SHEET

RESOURCES ❯ JNC 2022 Thank you for visiting Orolia Defense & Security at JNC 2022 Hover over the product images below and click for more information! Don't see what you're looking for? Ask one of our representatives on the floor or email sales@oroliads.com To function properly, be sure your zoom is set to 100% Contact for More Info Say Hello If You See Us Hironori Sasaki President Tyler Hohman Director of Products Tim Erbes Technical Director David Garigen Director of Engineering Conrad Meyer Director, Business Development Michael Messina Sr. Key Account Manager Trevor Dougherty Key Account Manager Chuck Stoffer Senior Sales Manager Chris Kiedrowicz Sales Manager Don't Miss These Presentions SESSION D 1 APPLICATIONS OF ATOMIC STANDARDS IN DoD TIME TRANSFER AND DISSEMINATION Miniature Rubidium Atomic Clock based Highly Accurate Real-time Clock (HARTC) Brent Abbott, Joshua Willson, and Paul Myers, Orolia Defense & Security Date/Time: Monday, Jun. 6, 2:50 p.m. Location: Ballroom D LEARN MORE → SESSION B 6 APPLICATION/IMPACT OF PNT TECHNOLOGIES IN THE HOMELAND CRITICAL INFRASTRUCTURE Anti Spoofing/Denied GNSS Redundant Multiple Oscillator System (MEODS) Joshua Willson, Orolia Defense & Security Date/Time: Wednesday, Jun. 8, 9:35 a.m. Location: Ballroom B LEARN MORE → SESSION C 9 OPERATIONAL SYSTEM DEMONSTRATIONS Real-Time Simulation of Terrain Effects on Threat Signals for High Fidelity NAVWAR Testing Jaemin Powell, Orolia Defense & Security Date/Time: Thursday, Jun. 9, 11:15 a.m. Location: Ballroom C LEARN MORE → SESSION A 10 COMPLEMENTARY PNT: NAVIGATION BY CELESTIAL OBJECTS 2 Celestial Navigation Aided by Artificial Stars Paul E. Myers, Orolia Defense & Security Date/Time: Thursday, Jun. 9, 3:05 p.m. Location: Ballroom A LEARN MORE → SESSION B 10 MULTI-GNSS RECEIVERS FOR MILITARY APPLICATIONS Leveraging Multiple GNSS Receivers to Identify and Mitigate Threats Nicholas Newhart, Orolia Defense & Security Date/Time: Thursday, Jun. 9, 3:45 p.m. Location: Ballroom B LEARN MORE → SESSION C 10 MODELING AND SIMULATION 3 Reducing Development Time and Cost of Inertial Navigation Systems (INS) through Sensor Modeling Aquil Sheikh, Orolia Defense & Security Date/Time: Thursday, Jun. 9, 3:45 p.m. Location: Ballroom C LEARN MORE →

Home • Support • Warranty Information Warranty Information If you are considering a purchase, it's important to be aware of our warranty details. View Data Outputs ✔ Average # of SVs Used ✔ Average # of SVs Locked ✔ Average Position Error ✔ Average Velocity Error ✔ Average Pulse Error ✔ Average Date ✔ Percent Frames Received ✔ Percent < Threshold ✔ Percent of Time Fixed ✔ Percent of Frames Fixed ✔ Time of First Fix ✔ Time of First Loss ✔ Time of Last Fix

Orolia Defense & Security Adds New Simulator to BroadSim Product Line ROCHESTER, NY, August 25, 2021 BroadSim Solo Brings Advanced GNSS Scenario Creation to Every Engineer’s Desk Orolia Defense & Security, the leader in M-Code solutions for Resilient PNT, has released the latest addition to its GNSS simulator family, BroadSim Solo , today at the Institute of Navigation’s Joint Navigation Conference being held in Covington, Ky. The Solo joins the BroadSim line of Skydel-powered GNSS simulators, which includes models suited for Hardware-In-The-Loop and Multi-Element Antenna/CRPA testing. See the BroadSim Solo Demo LIVE at #JNC2021: BroadSim Solo will be demonstrated in the JNC Exhibit Hall at Orolia Defense & Security booth No. 117 today through Aug. 26. BroadSim Solo shares the same Skydel Simulation Engine that runs on a standard BroadSim, BroadSim Anechoic and BroadSim Wavefront. It supports advanced scenario creation features and the benefits provided by a software-defined architecture such as high-dynamics, 1000Hz iteration update rate and ultra-low latency of 5ms. Nearly all civilian GNSS signals can be generated through its single RF output (one frequency band at a time), along with GPS AES M-Code, jamming or spoofing signals. BroadSim Solo’s compact form factor is designed to do away with bulk, fitting nicely at a typical desk or workstation without taking it over. But it’s more than just convenience – the Solo addresses the permanent challenge that engineers face with laboratory capacity and availability. “Creating complex test scenarios can be a tedious process, especially when emulating challenged environments,” said Tim Erbes, director of engineering for Orolia Defense & Security. “Having the ability to create scripts at your desk significantly frees up lab time and space for running these important simulations. Also, scenario creation is no longer limited to one person fixed to one system. Imagine a team of engineers, each with a BroadSim Solo, simultaneously building tests. Having a whole fleet of BroadSim Solos? It’s game-changing.” BroadSim Solo with the Skydel Simulation Engine offers an intuitive user interface, comprehensive API (supporting Python, C++ and C#), automation tools and custom plug-ins that will speed up development cycles, increase performance and ultimately drive innovation. What’s even better is the BroadSim Solo’s remarkably affordable price-point. “In an effort to enhance the customer experience and expand the reach of advanced GNSS simulators, we wanted to offer an affordable solution with all of the same core features as our most advanced BroadSim systems,” said Tyler Hohman, director of products for Orolia Defense & Security. “This gives our customers the opportunity to place more simulators in the hands of engineers and scientists without sacrificing capabilities. Our hope is that customers will find value in having a simulation ecosystem that is scalable based on their requirements.” Harness the power of BroadSim Solo’s efficiency and affordability. For more information, visit www.oroliads.com/broadsim-solo . About Orolia Defense & Security Orolia Defense & Security provides Resilient PNT solutions and custom engineering services to U.S. Government agencies, defense organizations and their contractors. Orolia Defense & Security is authorized to work on the full spectrum of U.S. Government classified and unclassified projects, in addition to supporting strategic partnerships for key defense PNT technologies. www.OroliaDS.com Orolia Defense & Security operates as a proxy-regulated company and wholly-owned subsidiary of Orolia. Contact: Rachael Smith 614-736-3736 rachael.smith@oroliaDS.com VIEW PDF

Home • Products • Inertial Navigation Systems • VersaPNT + Geo nyx ™ VersaPNT + Geonyx™ Highly Accurate PNT for GPS Challenged Environments VersaPNT + Geonyx ™ PRODUCT | INERTIAL NAVIGATION SYSTEMS Pitch & Roll (RMS) 1 mils to 0.20 mils Size 6 L Weight resonator gyro GNSS-denied survival Unlimited Reliability (MTBF) > 100,000 ANY QUESTIONS? GET QUOTE About Many solutions in the market claim to operate in GNSS denied environments – Versa-GEONYX is purpose designed for operation in GNSS denied environments – it does not just operate in these environments, it excels. The Versa-GEONYX brings together the precise timing capabilities of the VersaPNT and the high performance navigation and pointing HRG technology of the GEONYX to provide a best- inclass, highly reliable, ruggedized navigation and timing solution. The Versa-GEONYX performs in even the harshest propagation environments. Key Features HRG Crystal™ technology Operate in a GNSS denied environment Pointing accuracy < 0.5 mils SAASM/M-Code Alternative Navigation Multi-GNSS synchronization GPS Jamming & Spoofing detection Mini Rubidium Oscillator Optimized SWAP MIL-STD-801, MIL-STD-461 PSPT - Portable Survivable Precision Time Clock VersaPNT Geonyx ™ PNT Resilience GNSS spoofing/jamming detection ​ Flexible GNSS master clock and NTP/PTP time server ​ Robust signal strength M-Code & Alternative Navigation Available ​ Compact and ruggedized Low SWaP, Tested to MIL-STD-810G CH1 Operational Efficiency High precision navigation & pointing ​ PNT Resilience Autonomous alignment without GNSS ​ Robustness and reliability Optimized SWaP - MIL-STD-810 Click to download the Versa-Geonyx data sheet. VIEW DATA SHEET

Automating The Advanced GNSS Spoofing Simulation Tutorial DOWNLOAD PDF By Jaemin Powell DOWNLOAD PDF

Home • Applications • M-Code M-Code Timing & Sync • BroadSim MNSA • Customer Testimonial Credit: Lisa Perdue, Orolia What's The Deal? M-Code – it is here. Public Law 111-383, Section 913 requires all military GPS user equipment purchased after FY 2017 to be M-Code capable, unless a waiver is issued by the Secretary of Defense. With Military GPS User Equipment (MGUE), or M-Code receivers, becoming available to vendors, now is the time to start getting serious about the integration and performance testing of MGUE and systems that rely on it. ​ Currently there are two GPS security architectures – and both are available only to authorized users. The first, Selective Availability Anti-Spoofing Module (SAASM), has been required for all newly fielded DoD GPS systems as of October 2006. It uses the GPS Precise Position Service, which is provided using encrypted signals (P(Y) Code) on two frequencies – L1 (1575.42MHz) and L2(1227.6MHz). ​ MGUE is the second one, utilizing the M-Code signals. As one aspect of the GPS modernization program, M-Code is also an encrypted signal provided on L1 and L2 frequencies. What is MNSA? M-Code includes new cryptography: Modernized Navstar Security Algorithm (MNSA), to ensure the system is secure. The key management has been designed to make the system easier to use and manage by the end users. The encrypted details are kept very restricted and are only available to qualified persons. MNSA M-Code is currently being transmitted on 19 satellites today, and MGUE is available from several providers, so let’s get started! 1 Advanced Encryption Standard 2 Simulator Data Set 3 Modernized Navstar Security Algorithm 4 Military Navigation M-Code Testing Methods Before today, other test methods were necessary to allow users to integrate the MGUE without access to MNSA information. AES M-Code – Rather than using the MNSA encryption, it is possible to use a known AES encryption method for testing purposes only. This method is useful to test integration, performance and specific user scenarios in an unclassified setting. M-Code SDS – Simulator Data Sets are signals created with MNSA for replay in authorized simulators. The simulator vendor does not need to know the MNSA methods to incorporate the SDS into their simulators. This method is useful for testing the security algorithms and is a replay of already created data, so no user inputs are specified. MNSA M-Code – Full testing of both the performance and the security features of the MGUE are possible. The user has full control over scenario settings with the real encryption used on the M-Code signal. This method is developed by simulator manufacturers with cooperation of the SMC Production Corps. It is only available to authorized users. Why M-Code? M-Code offers several operational benefits over the previous P(Y) code signals. ​ Jamming Resistance – Using spot beams from the GPS III satellites, M-Code will be delivered to specific regions through a high gain antenna, improving the power level available to the receivers on the ground within those regions. Blue Force Electronic Attack Compatibility – Due to the modulation type of the M-Code signal, it is possible to purposely jam the commercial GPS L1 C/A signal while continuing to receive and use the M-Code signal. M-Code can also be acquired without the use of C/A code, so there is no reliance on non-military signals. Anti-Spoof – Not only is the M-Code signal encrypted, MGUE is also able to detect and reject false signals. M-Code Enabled Timing & Sync Solutions Flexible, Resilient PNT for Every Environment ​ • M-Code capabilities for SecureSync® DISA appro ved time server • Versa mobile PNT platform for rugged, small SWaP-C requirements • Improved resistance to jamming and interference • Advanced security features • More accurate performance Orolia offers an easy, cost-effective upgrade from SAASM to M-Code. The Versa Platform supports M-Code for mobile military missions. Read the Press Release > SECURESYNC M-CODE DATA SHEET VERSAPNT M-CODE DATA SHEET VERSASYNC M-CODE DATA SHEET TIMING & SYNC The Real-Deal for Simulation Available Now, Shipping Today BroadSim MNSA is a fully flexible implementation of the Modernized NavStar Security Algorithm. Any aspect of your scenario can be changed, such as time, date, location, constellation, downlink data, signal configuration, and visible satellites. BroadSim MNSA is compatible with all of the existing capabilities that the Skydel simulation engine supports – including jamming, spoofing, and more. No additional hardware is required. Approved by the SMC Production Corps. Read the Press Release > BroadSim MNSA What Our Customers Think " Competition among companies has long spurred the invention of newer/better products while companies often race to be the first to market a new technology. Meanwhile on the sidelines, the customers sit and wait, often ‘pre-ordering’ a product in hopes that it will eventually be delivered before we retire. With that being said... The wait for a MNSA M-Code simulator is over! Orolia Defense & Security stepped up big time and they are actively shipping MNSA M-Code for their BroadSim simulators. " — Edgar Gomez, PNT Engineer at Centauri INQUIRE TODAY What Our Customers Think

Home • Products • GNSS Testing & Simulation • Panorama Panorama Visual Analysis Tool for GNSS Receiver Data Panorama PRODUCT | GNSS TESTING & SIMULATION Data Sources Designed for log files generated by PANACEA and RxStudio View Data Generates plots for receivers, scenarios, and sum ANY QUESTIONS? GET QUOTE About Panorama is the flagship tool when it comes to analyzing receiver data. When engineers use Panorama they spend more time looking at plots and making decisions, instead of making plots and writing reports. Panorama takes receiver data (.csv files) from PANACEA and RxStudio (other ODS products) and turns it into over 60 engineering plots ready to view at the click of your mouse. These plots give engineers and analysts the ability to view summary level data, head to head comparisons, receiver specific results, and 3D LLA replays using STK. ​ ​ PANACEA and Panorama provide a cohesive data collection and reporting capability that enables testers to show the data in real-time providing after action reporting near instantly. Data Sources Panorama is a tool that is used to view and analyze GNSS receiver output data. Panorama was designed specifically to take the log files that PANACEA and RxStudio generate and turn them into engineering plots. Panorama allows users to place receiver data anywhere on their machine. Easily input multiple data sources from various locations on your machine. Panorama will automatically populate using the default file directories. Automatically Generate Reports Panorama supports automatic report generation for scenarios and specific receivers. With 1 click of the mouse, you can generate hundreds of reports that provide detailed descriptions of the scenario and corresponding plots. When you click to automatically generate scenario reports, two reports for each scenario will be generated: Scenario Description Report and Scenario Plot Report. Scenario Description Report Scenario Description Report The scenario description report provides the actual data entries for paramaters such as: Scenario name, notes, duration, truth source, timelines, motion profile, LLA, GPS constellation, constellation (almanac, ephemeris, time, code), jamming, events and more. This report can be used as an example to show others how to create this exact scenario and how to configure and test the UUT’s in the same configuration. Scenario Plot Report The scenario plot report provides the plots (not numbers) within the PDF for the following: # SVs used, # SVs locked, position error, velocity error, pulse error, absolute pulse error, ET position error, 3D LLA, log map, slope of date/time, and fix statistics. These plot reports are excellent for decision making and for analyzing how the receiver performed in different scenarios. PLOT INFO Summary Plots The summary plots tab allows users to view parameters such as average number of SVs used, average position error, time to first fix and many more at a test plan level (where scenario data is aggregated together). While viewing the summary plots tab, users can easily flip views to look at specific receivers, scenarios, test plans or even suites. ✔ Average # of SVs Used ✔ Average # of SVs Locked ✔ Average Position Error ✔ Average Velocity Error ✔ Average Pulse Error ✔ Average Date ✔ Percent Frames Received ✔ Percent under Threshold ✔ Percent of Time Fixed ✔ Percent of Frames Fixed ✔ Time of First Fix ✔ Time of First Loss ✔ Time of Last Fix Scenario Plots The scenario plots tab goes one step deeper to view receivers under test for a specific scenario. Scenario plots provide side by side comparisons for all of the units under test both in performance and vulnerabilities. Data outputs include fix statistics, 3D LLA, frame time error and much more. ✔ Number of SVs Used ✔ Number of SVs Locked ✔ Position Error ✔ Velocity Error ✔ Pulse Error ✔ Absolute Pulse Error ✔ ET Position Error ✔ 3D LLA ✔ Log Map ✔ Map ✔ Fix Statistics ✔ Date ✔ Slope of GPS Time ✔ Slope of UTC Time ✔ Frame Time Error Receiver Plots The receiver plots tab allows for the deepest dive where engineers can analyze one specific receiver for a specific scenario. Plots of DOP, C/No used, SV elevation and various others can be seen under the receiver plots tab. ✔ Number Used/Locked ✔ Position Error ✔ Velocity Error ✔ Position Error Estimate ✔ Pulse Error ✔ Absolute Pulse Error ✔ ET Position Error ✔ DOP ✔ C/No Used ✔ C/No All ✔ Track State Used ✔ Track State All ✔ Code Type Used ✔ Code Type All ✔ Frequency Used ✔ Frequency All ✔ Range Residuals - Line ✔ Range Residuals - Heat ✔ Sky Plot ✔ SV Elevation ✔ SV Azimuth ✔ Date ✔ UTC/GPS Time Comparison Click to download the Panorama data sheet. VIEW DATA SHEET

Home • Products • Inertial Navigation Systems • Epsilon ™ Epsilon™ Land platform inertial navigation unit Epsilon ™ PRODUCT | INERTIAL NAVIGATION SYSTEMS Azimuth accuracy < 1° Size 4.3 x 4.3 x 3.3 in Technology resonator gyro Alignment Time 15 scd Reliability (MTBF) > 100,000 h ANY QUESTIONS? GET QUOTE About Versatile, Epsilon™ family provides advanced applications, even in GNSS denied environment: navigation (position & heading), aiming aid, driving aid. It covers all tactical applications from logistic to infantry fighting vehicles, as well as main battle tank. Can be integrated with small artillery caliber to provide precision pointing Connectable to any Battle Management system Immune to magnetic disturbances Autonomy and reliability in any circumstances Thanks to their advanced resonator gyros, Epsilon™ One and Epsilon™ 10 systems provide advanced navigation capabilities without being GNSS dependent. Epsilon family integration into vehicles is easier than legacy systems based on magnetic sensors. Tailored to your needs Versatile, Epsilon™ family integrates with all land platforms, from artillery to logistics. Its Epsilon™ One and Epsilon™ 10 units cover navigation, aiming and driving needs by guaranteeing optimal performance: ​ Heading : < 0.85° H. Position: 1% DT Pitch & Roll: 0.3° Size: 1 L Click to download the Epsilon ™ data sheet. VIEW DATA SHEET

Home • Policies Policies We take our site's user experience seriously. It's important to know our policies, so take a look! View Data Outputs ✔ Average # of SVs Used ✔ Average # of SVs Locked ✔ Average Position Error ✔ Average Velocity Error ✔ Average Pulse Error ✔ Average Date ✔ Percent Frames Received ✔ Percent < Threshold ✔ Percent of Time Fixed ✔ Percent of Frames Fixed ✔ Time of First Fix ✔ Time of First Loss ✔ Time of Last Fix