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Home • Products • GNSS Testing & Simulation • PANACEA Field Test PANACEA Field Test PANACEA Field Test PRODUCT | GNSS TESTING & SIMULATION Optional Hardware Accessories Frequency counter, Pulse Per Second (PPS) relay switch PPS Accuracy Supports measurement of up to 16 receivers simultaneously ANY QUESTIONS? GET QUOTE About PANACEA Field Test (PANACEA FT) is a software tool designed to allow for easy data collection from multiple receivers in a real-world environment where the GNSS receivers are connected to an antenna. All the data is logged, time-stamped, and automatically compared to the configured truth source. Real-Time Visualization By configuring a truth source, position, time, velocity, date, and other error plots and tables can be automatically generated for all receivers. The PANACEA FT GUI plots receiver's position in real time overlaid on open street maps. This allows real-time visualization of how all connected receivers are performing in the environment compared to the truth source Builder and Runner The Builder allows you to configure hardware that is connected to your computer such as GNSS receivers, a frequency counter, PPS switch, Signal Hound or time interval counter. You can also specify LLA coordinates used as truth locations. While PANACEA simultaneously communicates with up to 32 Units Under Test (UUT), the Runner shows real-time UUT information while recording all receiver data in files for post-processing. Instant Visual Analysis PANACEA Field Test is ideal for applications requiring data collection from multiple GPS/GNSS receivers simultaneously while instantly providing visuals for analysis and error calculation. Typically this software is used in field testing environments where the GPS/GNSS receivers and other equipment are configured inside of a mobile vehicle or at a building on the test range. Hardware Accessories Power resources, space, and equipment are often limited which means having efficient tools can be the difference between collecting data from 2 receivers and collecting data on 20 receivers. Having the right equipment is critical. PANACEA FT comes with optional hardware accessories such as a frequency counter and Pulse Per Second (PPS) relay switch, which are integrated into the software suite. Accuracy Made Effortless Measuring a receivers PPS accuracy is easier than ever with PANACEA FT, as it controls the frequency counter and PPS relay switch, supports the measurement of up to 16 receivers simultaneously, and the user never worries about configuring the system. The PPS measurement dwells on each channel for 1 second before jumping to the next channel (e.g. 4 Rx’s = 1 PPS measurement every 4 seconds for each Rx). Putting it All Together Equipment Needed Without Time Measurement Laptop GPS/GNSS receivers GPS/GNSS antenna Data cables to connect the receivers to your computer For multiple UUTS: RF splitter/combiner For multiple UUTS: RF cables to connect receivers Equipment Needed With Time Measurement Everything listed adjacently, plus: Agilent 53230 frequency counter For multiple UUTS: 16-port PPS switch Click to download the PANACEA Field Test data sheets. VIEW DATA SHEET

Home • Products • Inertial Navigation Systems Inertial Navigation Systems Safran Federal Systems is now one of the only companies with a full complement of PNT technologies with the addition of proven inertial navigation solutions. Hemispherical Resonator Gyro (HRG) Crystal™ technology leverages state-of-the-art manufacturing and offers revolutionary performance and reliability over existing technologies, for tactical to strategic applications across all domains. With more than 30,000 HRGs produced and over 15 million operational hours, the technology is proven and tested in military applications worldwide. Land Precision north finding and navigation solutions across land mobile platforms in GNSS denied environments. VIEW DATASHEET VIEW PRODUCTS Naval Navigation integrity with up to 360hrs of operation (1nM drift). VIEW DATASHEET VIEW PRODUCTS Air GNSS denied dominance with DALA certified products for safe, reliable navigation. VIEW DATASHEET VIEW PRODUCTS Space Low cost, ultra-compact navigation system for space launchers VIEW DATASHEET VIEW PRODUCTS IMU Range of IMU solutions meeting your cost and performance needs. VIEW DATASHEET VIEW PRODUCTS Use Cases for Inertial Navigation Systems Visit our PNT Library to learn more about how our INS systems can support the warfighter. VIEW WEBPAGE Land Vehicle Navigation in GNSS-Denied Environments for Defense Applications Equipment Pointing & Radar Directional Capabilities For Defense Applications Surface Vessel Navigation For Defense Applications Land Vehicle Navigation in GNSS-Denied Environments for Defense Applications 1/3

Orolia Offers the First Software-Defined GNSS Simulator with MNSA, Successfully Delivers First Round of Shipments ROCHESTER, NY, September 29, 2020 Orolia Defense & Security has been granted security approval by SMC Production Corps. for BroadSim MNSA (Modernized Navstar Security Algorithm). BroadSim is the only software-defined GNSS simulator on the market to receive such approval, marking an industry first. Additionally, Orolia delivered their first batch of MNSA M-Code to multiple customers in late August. BroadSim MNSA joins P(Y)-Code and AES M-Code as another GPS encrypted signal that Orolia Defense & Security supports and is shipping today. MNSA M-Code is being rolled out as a required standard across many defense platforms. Engineers and system integrators must consider this in their testing cycles. Orolia has streamlined previously tedious processes and are available with expert support to guide them every step of the way. Tyler Hohman, Director of Products, commented, “Thought, skill, and patience went into developing this solution. Not only have we taken an innovative approach to ensuring the security of this technology, our implementation was designed with ease of use being top-of-mind – from procurement, to delivery, to installation, to testing – so our customers can spend more time supporting their mission and less time making their simulator work.” BroadSim is a proven and trusted solution among government, DoD and military customers with over 100 systems fielded. BroadSim was recently selected by the US military to support diverse testing of military GPS receivers. Compared to traditional FPGA-based simulators, software-defined solutions such as BroadSim, powered by the advanced Skydel Simulation Engine, are inherently more flexible, scalable and cost-effective. BroadSim MNSA users receive a step-by-step guide allowing them to effortlessly set-up and generate MNSA in minutes and quickly downgrade the system on a moment’s notice. This capability is available today as a software upgrade to current BroadSim users or as a purchase alongside Orolia’s BroadSim hardware platform. For more information, contact us at sales@OroliaDS.com . About Orolia Defense & Security Orolia Defense & Security provides Resilient PNT solutions to U.S. Government agencies, defense organizations, and their contractors. Orolia Defense & Security is authorized to work on 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, the world leader in Resilient PNT solutions. www.Orolia.com Contact: Rachael Smith 585-250-1545 rachael.smith@OroliaDS.com VIEW PDF

An Engineer’s Guide to CRPA Testing DOWNLOAD PDF By Tim Erbes DOWNLOAD PDF

BroadSim's Real-Time Terrain Effects DOWNLOAD PDF By Jaemin Powell Intro Establishing realistic terrain effects within a Navigation Warfare (NAVWAR) simulator is becoming a highly sought-after feature when testing Positioning, Navigation, and Timing (PNT) systems for the warfighter. The BroadSim Product Family now provides a real-time Terrain Plug-In solution to create scenarios with terrain attenuated threat signals, i.e., jammers, spoofers, or repeaters. Simply just add the Terrain Plug-In to your threat infested scenario and you will immediately have real-time terrain effects throughout your simulation. At a 50 Hz update rate, the user-interface of the Terrain Plug-In displays: A terrain profile of the vehicle and the threat (selected from the dropdown menu), the position of the threat and UUT on a map, and the attenuation for each signal. Conclusion The Terrain Plug-In allows the user to easily replicate similar situations from real-world events or field tests, such as NAVFEST or PNTAX, without needing to know terms like knife-edge diffraction or smooth earth diffraction. Replicating real-world situations and field tests in the simulation environment saves time, money, and resources by allowing developers and users to test PNT systems at any time of the year. This capability was designed so that manufacturers and end-users can better develop and test cutting edge PNT solutions to protect and enable the warfighter. Don’t let the capabilities of your simulator hold you back from testing your PNT system requirements! For more information on the Terrain Plug-In or any other BroadSim Product Family capabilities, please contact Orolia Defense & Security . DOWNLOAD PDF

Rochester Democrat And Chronicle Names Safran Federal Systems a Winner of the Rochester Metro Area Top Workplaces 2024 Award ROCHESTER, NY, March 26, 2023 Rochester, New York, April 11, 2024 - Safran Federal Systems has been awarded a Top Workplaces 2024 honor by Rochester Top Workplaces. This list is based solely on employee feedback gathered through a third-party survey administered by employee engagement technology partner Energage LLC. The confidential survey uniquely measures the employee experience and its component themes, including employees feeling Respected & Supported, Enabled to Grow, and Empowered to Execute, to name a few. “Earning a Top Workplaces award is a badge of honor for companies, especially because it comes authentically from their employees,” said Eric Rubino, Energage CEO. “That's something to be proud of. In today's market, leaders must ensure they’re allowing employees to have a voice and be heard. That's paramount. Top Workplaces do this, and it pays dividends.” “We're thrilled that for the second year in a row, Safran Federal Systems has been ranked a Top Workplace in Rochester,” said Holly Cicconi-Eggleston, Safran Federal Systems Vice President of Human Resources. “This wouldn't be possible without our incredible local community and employees, and the culture they have cultivated. It all comes down to their commitment and enthusiasm. Last year was an incredible period of growth and achievement for our company, and we hope to continue on the same path this year, fueled by the momentum from this award.” About Safran Federal Systems Safran Federal Systems provides Assured PNT solutions and custom engineering services to U.S. Government agencies, defense organizations and their contractors. Safran Federal Systems 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. Your Assured PNT Mission Partner, from the Lab to the Field. ™ Safran Federal Systems operates as a proxy-regulated company and wholly owned subsidiary of Safran. Press Contact: Rachael Smith rachael.smith@safranFS.com +1 (614) 736-3736 Awards About Energage Energage is a purpose-driven company that helps organizations turn employee feedback into useful business intelligence and credible employer recognition through Top Workplaces. Built on 18 years of culture research and the results from 27 million employees surveyed across more than 70,000 organizations, Energage delivers the most accurate competitive benchmark available. With access to a unique combination of patented analytic tools and expert guidance, Energage customers lead the competition with an engaged workforce and an opportunity to gain recognition for their people-first approach to culture. For more information or to nominate your organization, visit energage.com or topworkplaces.com . VIEW PDF

BroadSim Flex Power Application Note DOWNLOAD PDF By Jaemin Powell BroadSim has the capabilities... Did you know that all BroadSim users can easily and automatically adjust the signal power of any code type for the satellites in your scenario? This free Flex Power feature can come in handy when creating scenarios for your unit under test. For example, if you want to increase the P-code signal power by 6 dB and decrease the M-Code signal power by 43.5 dB in all GPS Satellites, simply go to the Signal Level tab in the Skydel user-interface then adjust the GPS L1 P and the GPS L1 M signal powers appropriately (see Figure 1 ). OR you can automate this process using our Python API framework with the help of our quick-start automation feature. Figure 1: P Code Signal Power Adjustment Did I mention that no update is needed? Because our simulators share the same Skydel Simulation Engine, the Flex Power feature is available on all BroadSim systems (i.e., BroadSim, BroadSim Solo, BroadSim Wavefront, BroadSim Anechoic). The best part about being in the BroadSim Product Family is that these scenarios can easily transfer to any of our BroadSims! Don’t let the capabilities of your simulator hold you back from testing your applications requirements. For more information on the Flex Power feature and other BroadSim Product Family capabilities, please contact Orolia Defense & Security . DOWNLOAD PDF

Miniature Rb Atomic Clock Improves Military Communications Performance DOWNLOAD PDF By Multiple Contributors David Garigen (Orolia Defense & Security) Alaiya Tuntemeke-Winter (Orolia Defense and Security) Serge Grop, Stavros Melachroinos (Orolia) The mRO-50 is Orolia’s new low SWaP-C miniaturized rubidium oscillator. It is an innovative new atomic clock designed to meet core requirements for military ground and mobile radio communications applications. While maintaining the same volume as a standard oven-controlled crystal oscillator (OCXO), it provides better holdover and higher stability with the lowest power consumption amongst other miniature atomic clocks (MACs) in the market. It can be a drop-in replacement for many applications. The mRO-50 is lower cost than a Chip Scale Atomic Clock (CSAC), and due to its superior performance, small footprint, and low power consumption, it can be applied to many different applications. Namely, in telecommunications systems, it can improve the data throughput performance of networking waveforms, along with many non-networking waveforms. It can do this because its superior holdover and Allan deviation reduce the size of the guard bands, maximizing the volume of information that can be passed between radios. Figure 1: Orolia's mRO-50 The transfer and acquisition of time in DoD and commercial applications from both GNSS and non-GNSS sources has become an important topic in recent decades with greater demands for precision. Many atomic clock products have been designed to strike a balance between performance and cost that allow these goals to be met. This paper describes how the use of the mRO-50 addresses problems that can be seen on ground or mobile platforms using the LTE waveforms as example. The importance of oscillator holdover and the benefits of synchronizing radios in the field are also discussed. The SWaP-C of the mRO-50 now opens the door for systems integrators to use atomic clocks in manpack and vehicular radio applications, replacing what has traditionally been a TCXO. Modern radio communication requires that the transmitter and the receiver are tightly synchronized. This is to allow faster frequency hopping as well as the ability to network at high data rates largely due to a reduction in the size of the “guard bands”. A great example of the benefits of time synchronization is LTE, a commercial networking waveform that is focused on high data throughput. The evolution of this waveform is indicative of the evolution of other, similar waveforms. Referencing table 1 below, one can see that the time/phase requirement of LTE is 1.5us, and the time/phase requirement of LTE-A is 500ns. In one generation, the waveform’s synchronization requirement got tighter by a factor of 3. Table 1: LTE and LTE-A Requirements For commercial radios, such as cell phones, a high precision sync can be achieved using commercial GPS.The problem with relying on GNSS signals is that, in military applications especially, they can become unavailable due to jamming and spoofing by adversaries- or by natural effects, such as “urban canyons”, or natural canyons, blocking a direct line of sight to satellites of interest. There are also instances in cities and in the field where devices can enter these areas for extended periods of time. In these GPS denied environments devices can no longer sync using GPS, forcing the device into holdover. When in holdover it is important for radios to maintain a precise clock. Though some waveforms have features to help keep them synced without GPS, these features limit data throughput because they use bandwidth for sending sync pulses instead of data. In many commercial devices the oscillator will quickly drift away from the actual time. Below we can see a comparison of holdover performance of common Oscillators using LTE and LTE-A as reference. Figure 2: mRO, OCXO, and TCXO Comparison When coming out of holdover, if a device is out of sync with its peers, it will need to synchronize before any meaningful communications can be performed. In this situation, many waveforms will need to enter a “cell search” mode or some equivalent form of peer synchronization prior to communicating. A cell search will waste time (it can take minutes for this sync to complete)- and it will force the user to perform multiple transmissions, increasing the opportunity of detection by an adversary. If, on the other hand, an atomic clock is used (such as an mRO-50)- and synchronization is maintained, the user can immediately start communicating- without the need for a cell search. Guard Bands The waveforms used in modern military radios operate by assigning time slots to users to allow them to simultaneously pass information (as observed by the operator). This technique in telecommunications is known as time division multiple access (TDMA). Thus, if there are many users in a group, such as an infantry platoon, then they can all transmit and receive on the same frequency, as the precise transmit and receive times are sliced and allocated amongst the users. Each time slot, however, requires some time at the start and at the end, known as “guard bands”, to prevent the radios from “talking over each other” and destroying the message. If the radios are all perfectly synchronized, then the guard bands can be reduced to zero- and data throughput is maximized. In reality the radios are not well synchronized, and these guard bands can become significant, wasting valuable spectrum that could otherwise be used to pass more data. Thus, by improving the synchronization of the radios, the telecommunications system can maximize the data that can be passed over the air. The mRO-50 improves the timing synchronization, compared to a standard CSAC, by an order of magnitude due to its superior Allan deviation, bringing the system close to the ideal data throughput. Figure 3: Why does sync matter? Low SWaP-C, high precision atomic oscillators such as the mRO-50, also open the possibility for usage in UAV sensor payloads. These payloads often use GNSS to synchronize their clocks with other parts of the system. GPS outages can be problematic for both the UAV’s communications links and its inertial navigation systems (INS). The high stability of the atomic clock as the INS time base reduces the time integration error drift during extended GNSS outages, along with the telecommunications benefits already discussed. When the GNSS signal is disrupted, the UAV switches to the stable time base provided by the mRO-50 and can “coast” without a signal to maintain operations. The superior holdover time, offered by a mRO-50, allows the user to coast for a very long time. In fact, even when compared to a standard CSAC, the mRO-50 holdover time is more than 5x better in one day. New possibilities for telecommunications systems and UAV sensor payloads have been realized with the advent of low SWaP-C atomic clocks, such as the mRO-50. Early adaptations of these advanced technologies keep our warfighters equipped with the best technologies and provide them with the tactical edge on the battlefield. Conclusion The importance of precision in the acquisition of timing from GNSS and non-GNSS sources has increased in recent decades. Many atomic clock products have been designed to strike a balance between performance and cost that allow this new degree of accuracy to be met. The mRO-50 is Orolia’s new low SWaP-C Miniaturized Rubidium Atomic Clock, specifically designed to meet core requirements foreground, and mobile radio communications applications in terms of weight, size, and performance. It will enable more advanced telecommunications systems and the resilience of UAVs and other GNSS dependent technologies. This technology can be a drop-in replacement for a simple upgrade, yielding superior performance in various applications. DOWNLOAD PDF

U.S. Army Selects Orolia Defense & Security as a Top-5 Winner in XTech Plugfest Competition ROCHESTER, NY, December 14, 2021 Prevails in Military’s Pursuit of Future CMOSS PNT Solutions Recognized for its outstanding technology achievements and the potential for impact to the United States Army and Department of Defense, Orolia Defense & Security, the leading U.S. Resilient Positioning, Navigation and Timing Mission Partner™, was selected by a panel of judges as a finalist during the 2021 xTech Plugfest competition. Hosted by PEO IEW&S, PM-PNT, the event, which allowed industry participants to demonstrate C5ISR/EW Modular Open Suite of Standards (CMOSS) capabilities via PNT cards, switch cards, and chassis, was held at the Open Innovation Laboratory (OIL) on Aberdeen Proving Grounds, Maryland November 8-19. CMOSS prescribes criteria for integrators that reduce the size, weight, and power (SWaP) of C5ISR and EW systems while increasing their flexibility and adaptability by enabling the sharing of hardware and software components. Orolia submitted a CMOSS timing card and was formally recognized as a top-5 winner at OIL’s open house (totaling 200+ attendees) for demonstrating their capabilities and commitment to supporting the US Army and DoD in pursuit of future CMOSS PNT solutions. “I am extremely proud of our team for their efforts and sharp-wittedness in developing and presenting this technology at an accelerated level,” said Conrad Meyer, director of business development at Orolia Defense & Security. “We are honored to have taken part in this event and to be distinguished among many contenders.” Orolia’s prototype has a plug and play architecture powered by its FlexFusion engine®, with additional capability for jamming and spoofing detection via its patented BroadShield software and is designed for easy in-field-upgradability. Orolia plans to release a commercially available, fully compliant CMOSS/SOSA PNT card product for use in military air and ground mounted systems in 2022. From essential timing & synchronization, to all-in-one PNT, Orolia Defense & Security offers modular solutions based on open standards, made to be secure and rugged, providing resiliency, high performance, and continuous operation in the field. Learn more at www.OroliaDS.com/resilient-pnt . 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

Orolia Defense & Security Awarded $1.7M U.S. Military Contract ROCHESTER, NY, June 18, 2020 In a recently awarded contract, the U.S. military selected Orolia Defense and Security to supply multiple BroadSim™ advanced GPS simulator systems, a contract valued at $1.7 million (USD), in an effort to upgrade testing facilities and field test assets. These new simulator systems will enable better testing of widely deployed military GPS receivers, which are integrated into air and ground-based Positioning, Navigation and Timing (PNT) systems. BroadSim will be leveraged with Orolia’s PANACEA™ test suite, currently utilized by the U.S. military to conduct automated testing and analysis for PNT system performance, vulnerabilities, and more. BroadSim will bring versatility to the testing process by supporting diverse test methods and environments such as a laboratory setting, or an Over-The-Air (OTA) field test event. BroadSim was selected based on its flexibility to support the ever-changing military tasks at hand. It can be easily configured to support laboratory testing one day, and field testing the next with its four independent RF outputs, removable drives, and software-defined architecture. “Equipping our actively deployed warfighters with state-of-the-art technology is of utmost importance and can mean the difference between mission success and failure. To help achieve that goal, Orolia’s GPS testing and simulation solutions ensure that these systems are battlefield ready,” said Tyler Hohman, Orolia Defense and Security’s Director of Products. Now more than ever, strong relationships between government and industry are vital to drive innovation and maximize the impact of available resources. The U.S. military and other federal agencies such as DHS host several test events per year where industry partners are invited to participate, such as GPS Testing for Critical Infrastructure (GET-CI) . Orolia will host a webinar on this topic on Thursday, July 16 at 2:00 PM EDT, titled “PNT Vulnerability Testing for Critical Infrastructure - Lessons Learned from Defense.” The federal government considers PNT to be a critical aspect of mission success, as outlined in this recent C4ISRNET Whitepaper “Protecting the U.S. Military PNT Advantage from GPS Jamming and Spoofing” and defined in the PNT Executive Order . For the 2021 federal fiscal year, the U.S. Army alone budgeted over $275 million towards Assured PNT Research, Development, Test & Evaluation (RDT&E), as published in the 2021 Defense Budget. For more information about Orolia Defense & Security, visit www.OroliaDS.com . About Orolia Defense & Security Orolia Defense & Security provides Resilient PNT solutions and custom engineering services to U.S. Government agencies, U.S. defense organizations, and their contractors. Orolia Defense & Security is approved to work on the full spectrum of U.S. Government classified and unclassified projects and is positioned to support strategic partnerships in the development of key PNT technologies for the defense market. About Orolia Orolia is the world leader in Resilient PNT solutions that improve the reliability, performance and safety of critical, remote or high-risk operations, even in GPS denied environments. With a presence in more than 100 countries, Orolia provides virtually fail-safe GPS/GNSS and PNT solutions for military and commercial applications worldwide. www.Orolia.com Contact: Rachael Smith 614-736-3736 rachael.smith@oroliaDS.com VIEW PDF

Home • Support • BroadSim Onboarding Getting Started with BroadSim Learn how to use the Skydel Simulation Engine with our BroadSim line of products, from the moment you receive your package to setting up your first scenario. Onboarding and Tutorials Our onboarding series will help you learn more about your BroadSim device. BroadSim Onboarding: Getting Started Play Video Play Video 04:20 BroadSim Unboxing Tutorial Orolia Defense & Security Applications Engineer, Alaiya Tuntemeke-Winter, takes you through the process of unboxing your BroadSim. Learn more about BroadSim: 🔗https://www.oroliads.com/broadsim User Manual: 🔗https://owncloud.talen-x.com Play Video Play Video 06:22 BroadSim Setup Tutorial Follow along with Orolia Defense & Security applications engineer, Alaiya Tuntemeke-Winter, as she takes you through the process of setting up your new BroadSim. Learn more about BroadSim: 🔗https://www.oroliads.com/broadsim User Manual: 🔗https://owncloud.talen-x.com Play Video Play Video 07:36 BroadSim Operating System Overview Follow along with Orolia Defense & Security applications engineer, Joshua Prentice, as he takes you through our third onboarding video, which now covers our custom BroadSim operating system. Learn more about BroadSim: 🔗https://www.oroliads.com/broadsim User Manual: 🔗https://owncloud.talen-x.com Play Video Play Video 02:12 Skydel Automation This video gives an overview on Skydel's innovative automation panel. The Automation panel makes automating GNSS simulation an easy task by automatically recording everything that happens in the Skydel UI, and any commands issued through the API. These commands can then be edited, saved, and played back as a sequence, much like a macro.These commands can also be exported as a python script which you can modified instead of starting with a blank page for your automated tests. These features are designed to save time so you can spend more time on your own product development. Learn More: https://safran-navigation-timing.com/solution/skydel-advanced-gnss-simulation/ Play Video Play Video 06:08 Skydel Real-Time Performance Tutorial A tutorial on using the Real-Time Performance feature of the Skydel Simulation Engine. Learn more at https://www.orolia.com/solution/skydel-advanced-gnss-simulation/ BroadSim Onboarding: Advanced Territory Play Video Play Video 14:18 Advanced GNSS Spoofing Simulation Tutorial Contact us today to learn more or to add this capability to your BroadSim: sales@OroliaDS.com Discover the endless possibilities of spoofing testing. Advanced Spoofing is a powerful, intuitive tool that allows users to quickly create and automate a multitude of dynamic spoofing scenarios. This feature is available now with BroadSim, powered by the Skydel Simulation Engine. https://www.oroliads.com/broadsim #PNT #GNSS #GPS #Spoofing #BroadSim #Orolia --- Music: https://icons8.com/music/author/moroza-knozova Play Video Play Video 04:06 IQ File Scenario In our latest Support Tutorial, we walk you through the process, use cases, and benefits of using IQ Files within our Skydel Simulation Engine. For more information, visit https://www.orolia.com/skydel-onboarding/ Play Video Play Video 01:57 Terrain Modeling with BroadSim powered by Skydel Orolia Defense & Security Applications Engineer Supervisor, Jaemin Powell, gives a behind-the-scenes view of the new terrain modeling feature supported across our BroadSim platform. The example Jaemin gives directly correlates to a real-world scenario that can be completed in any type of field test as a more cost-effective alternative. Learn more about BroadSim: 🔗https://www.oroliads.com/broadsim Play Video Play Video 06:27 Wavefront Calibration Tutorial Thanks to the Skydel Simulation Engine, Skydel’s Wavefront Systems have eliminated the calibration inefficiencies by autonomously time, phase and power aligning the signals for you. Using real-time monitoring the CRPA signals are assured to be synchronized within 1° for the duration of the simulation. This continuous calibration is imperative to keep your signals aligned through temperature fluctuations on the wavefront system. Now you can focus on the more important tasks of testing, verifying, and validating your CRPA navigation system’s performance without calibration concerns. Check out this video to learn more about Skydel’s Wavefront Systems capabilities! The Next Generation of CRPA Testing Reimagined for the User: https://www.youtube.com/watch?v=ae3tzko3vac&list=PLIPe8ACXJUl3OPp_bCgEU_zxD9244Fkdl For more information, visit https://www.oroliads.com/ Skydel Resources What you need to get started, served up below. About Skydel Button Advanced Simulation with Modern, Software-based Flexibility. Fundamentals Course Button GNSS concepts, basic simulations, requirements, settings, outputs, and more. Advanced Certification Button Build your test engineering skills or level up your career with our free Skydel Certification courses. Learn the ins and outs of these tools and features through convenient video tutorials Button Advanced Spoofing Button Automation Button Real-Time Performance Button IQ File Other Resources Button PNT Library Learn more about PNT and GNSS applications Button Button Software Releases Button

U.S. Army’s Sentinel A4 Radar Program Receives Orolia M-Code Solution ROCHESTER, NY, July 27, 2021 DISTRIBUTION A: Approved for public release; distribution unlimited In September 2019, Lockheed Martin was awarded a contract to develop the U.S. Army’s Sentinel A4 system, an air and missile defense radar that will provide improved capability against dynamic threats. The following November, Orolia Defense & Security announced the availability of M-Code Military GPS receivers in its flagship SecureSync® – the first Defense Information Systems Agency (DISA) approved time server. In May 2021, Orolia delivered a shipment of M-Code enabled SecureSync mission timing and synchronization units to Lockheed Martin, marking another key milestone for the Army program. SecureSync with M-Code provides enhanced resilient positioning, navigation, and timing (PNT) capabilities and improved resistance to existing and emerging GPS threats, such as jamming and spoofing. Lockheed Martin selected Orolia’s SecureSync M-Code as the system’s resilient time and frequency reference solution in part due to its modular, open architecture – the same characteristics that are the cornerstone of the radar’s design – making integration a simple process and ensuring future upgrades. “As a trusted Lockheed Martin partner, Orolia is proud to support the development of the Sentinel A4, which will be a key asset to our warfighters for decades to come,” said Hironori Sasaki, President of Orolia Defense & Security. “Making M-Code available now in a readily configurable and scalable form factor is a critical step in advancing our forces out in the field, whether in the air or on the ground,” Sasaki added. The next-generation of US military systems are fortified with M-Code, and Orolia leads the industry in M-Code solutions for Navigation Warfare (NAVWAR) environments. 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, the world leader in Resilient PNT solutions for military and commercial applications worldwide. www.Orolia.com Contact: Rachael Smith 614-736-3736 rachael.smith@oroliaDS.com VIEW PDF