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Home Editor's Desk Tech Article

Addressing Vulnerabilities in Positioning, Navigation and Timing (PNT) Services

By: Said Jackson | VP and GM - PNT | VIAVI

Editorial by Editorial
August 1, 2025
in Tech Article
Reading Time: 4 mins read
Addressing Vulnerabilities in Positioning, Navigation and Timing (PNT) Services
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The need for precision in networks, particularly those that support critical infrastructure, has never been more acute. Positioning, Navigation, and Timing (PNT) services have become indispensable, enabling precise synchronization and coordination across various sectors such as telecommunication, transportation, energy and finance. At its core, PNT relies on signals from global navigation satellite systems (GNSS) like GPS, Galileo, and GLONASS to provide accurate location and timing information. These signals are essential for a wide range of applications, from guiding aircraft and ships to synchronizing financial transactions and power grid operations. However, the widespread dependence on GNSS signals also exposes critical infrastructure to vulnerabilities and risks, making it susceptible to disruptions caused by signal jamming, “spoofing” and other forms of interference.

These vulnerabilities stem from their reliance on radio frequency transmissions, which can be easily disrupted or manipulated by malicious actors. For example, GPS jamming involves the transmission of interference signals that overpower legitimate GNSS signals, causing receivers to lose lock and fail to provide accurate positioning and timing information. Similarly, GPS spoofing involves the transmission of false signals that mimic legitimate GNSS signals, leading receivers to calculate incorrect positions or timestamps. These vulnerabilities pose significant risks to critical infrastructure, as they can disrupt essential services, compromise safety and even facilitate cyber-attacks targeting sensitive systems. As such, enhancing the resilience of PNT services has become a top priority for governments, industry stakeholders and cybersecurity experts alike, necessitating the development of robust solutions capable of mitigating these risks and ensuring the integrity of critical infrastructure operations.

Why Addressing PNT Vulnerabilities is Now Critical

The National Business Aviation Association (NBAA) has reported an uptick in incidents of GPS disruption. Pilots are reporting navigation errors, flight deviations and compromised safety during critical phases of flight, all due to spoofing and jamming. The implications also extend beyond individual flights to broader airspace management and traffic control systems, where accurate and reliable PNT services are indispensable for ensuring the safe and efficient flow of air traffic.

Aviation is not the only sector where GPS jamming and spoofing is a concern. Maritime vessels rely heavily on GPS and other PNT systems for navigation, route planning and collision avoidance. GPS-based timing and synchronization are also integral to the operation of transportation networks, including railways, highways and public transit systems. The internet and telecommunications networks, including cellular networks and satellite communications systems also rely on precise timing and synchronization for seamless connectivity and data transmission. The technology also underpins the synchronization of power grids, smart meters and other critical components in the energy sector.

Put simply, the risks inherent to PNT vulnerabilities are profound and far-reaching.

Emerging Industry Standards

Understanding the criticality of PNT resilience, governments are now taking action and introducing several mandates and frameworks to ensure higher standards of reliability and security.

Supporting these mandates, several frameworks and standards have been established to guide organizations in enhancing their PNT systems. The NIST 8323.1 Cybersecurity Framework for PNT Profile, developed by the National Institute of Standards and Technology, offers a comprehensive approach to assessing and mitigating cybersecurity risks specific to PNT services. It outlines a set of cybersecurity activities, desired outcomes and informative references tailored to the unique characteristics and requirements of PNT operations.

Similarly, the IEEE Resilient PNT P1952 Standard focuses on establishing resilience requirements for PNT systems. Developed by the Institute of Electrical and Electronics Engineers, this standard defines a framework for assessing the resilience of PNT services against a range of threats and hazards. It addresses key aspects such as system architecture, redundancy and interoperability, ensuring that PNT solutions can continue to operate effectively in challenging environments.

Solutions for Assured PNT

SecurePNT with SecureTime Services represents a major advancement in safeguarding critical infrastructure against the vulnerabilities inherent in traditional GPS and GNSS systems. By integrating Fugro AtomiChron atomic clock technology, VIAVI provides a highly accurate and stable timing reference for PNT synchronization, ensuring resilience against external threats such as signal jamming, spoofing and interference. This solution offers a comprehensive approach to enhancing the integrity and reliability of PNT services, addressing the evolving security challenges faced by telecommunications, transportation, energy, public safety and defense sectors.

Included in the portfolio is the CLAW GPS Simulator, which provides a synthetic GPS signal during the staging phase of network deployments. In this phase, RAN and Core equipment may be placed indoors for testing without access to an external GPS antenna. The CLAW GPS Simulator offers a temporary solution, ensuring that the RAN operates seamlessly and allows for uninterrupted testing and validation of PNT services.

It also includes the PNT-6200 Series, which comprises a range of time and frequency reference solutions designed to enhance the resilience and reliability of PNT services in telecommunications networks. This offers precise timing synchronization, frequency stability and signal distribution capabilities, ensuring that critical network infrastructure remains synchronized even in challenging environments. By leveraging the PNT-6200, operators can deploy resilient PNT infrastructure that meets the stringent requirements of modern networks, supporting the seamless operation of critical services and applications. Recent events, such as geopolitical conflicts, along with the modernization of network infrastructure and the precision it requires, have made PNT resilience an agenda-topping issue. SecurePNT, now enhanced with Fugro AtomiChron SecureTime technology, offers a way to meet this challenge head-on, allowing networks to be deployed with uninterrupted connectivity while safeguarding critical infrastructure against emerging threats. 

Tags: energyGNSSPNTTelecommunicationTransportation
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