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by Ivo Pure, Lead Architect at Nortal
Unmanned ground systems are the backbone of modern defence
As defence technologies evolve, Unmanned Ground Systems (UGS) are becoming indispensable tools in modern warfare and beyond. However, the increasing reliance on UGS brings its own set of challenges. How can UGS operate effectively in contested environments while addressing complexities like cybersecurity, electronic warfare, and ethics? Understanding what constitutes a UGS, their challenges, and how to mitigate them is crucial to unlocking their full potential and ensuring their role as reliable, secure, and adaptable tools in various operations.
What is an Unmanned Ground System?
An Unmanned Ground System (UGS) is a robotic platform engineered to perform tasks independently, eliminating the need for onboard human intervention. Leveraging advanced algorithms, sensors, and actuators, UGS are designed to execute various missions, including surveillance, logistics, and combat operations. These systems operate in three primary modes, each suited to specific operational needs:
- Controlled mode: UGS are remotely operated by human controllers through secure communication channels, allowing real-time precision and adaptability.
- Autonomous mode: Onboard artificial intelligence enables UGS to make decisions, navigate complex environments, and complete tasks without direct human input.
- Swarm mode: Multiple UGS units work together, sharing data and coordinating actions to achieve collective objectives efficiently.
This range of operational capabilities positions UGS as an indispensable tool in modern defence strategies, offering adaptability and precision to address diverse mission requirements while minimising risk to human personnel.
Use cases and benefits of UGS
Unmanned Ground Systems (UGS) are transforming operational capabilities across various scenarios, offering unmatched versatility and efficiency.
In reconnaissance missions, UGS use autonomous navigation and advanced sensors to gather critical intelligence in hostile or high-risk environments, minimising exposure for human personnel. Their ability to operate independently makes them invaluable in areas where conventional surveillance methods are limited or unsafe.
In logistics and supply operations, UGS excel at delivering essential resources to frontline units or disaster-stricken areas. Navigating high-risk zones without endangering human lives ensures uninterrupted support even in the most challenging conditions.
In combat operations, UGS demonstrate remarkable adaptability, particularly in swarm configurations where multiple units coordinate their actions to execute complex military strategies with precision and efficiency. These swarms can adjust to mission requirements dynamically, enhancing their effectiveness in diverse tactical scenarios.
By integrating these capabilities, UGS not only enhance mission efficiency but also significantly reduces the risks faced by human operators, making them indispensable tools in modern operational environments. Furthermore, this reduces human error in stressful situations. Their flexibility and adaptability underscore their role as transformative assets in defence and disaster relief operations.
Challenges in autonomous situations
While UGS deliver substantial operational advantages, their deployment in autonomous roles introduces several complex challenges. Autonomous systems must navigate and make decisions in unpredictable environments, often balancing efficiency with safety. These scenarios demand sophisticated algorithms capable of managing uncertainty while maintaining mission objectives.
The legal and ethical implications of UGS deployment, particularly those equipped with self-controlled weapon systems, further complicate their use. Questions around accountability, compliance with international humanitarian laws, and the ethical boundaries of autonomy remain pivotal concerns.
AI and ML, though integral to UGS autonomy, come with their own set of limitations. While these technologies enhance mission efficiency through real-time threat detection and autonomous responses, they often struggle with edge-case scenarios, adversarial inputs, and reliance on high-quality training data. Cybersecurity risks compound these challenges, as UGS are vulnerable to data breaches, GNSS spoofing, jamming, and malware, potentially undermining mission integrity.
Environmental constraints, including harsh terrains, signal disruptions, and extreme weather, add another layer of operational difficulty. Addressing these challenges is essential to realising the full potential of UGS, ensuring their performance is reliable, their deployment is ethical, and their security is robust in diverse and unpredictable conditions.
Security and safety risks
The increasing reliance on UGS in defence operations introduces a wide range of security and safety risks from their growing technological complexity. Cybersecurity vulnerabilities are among the most pressing concerns, as adversaries can exploit communication links, software, or hardware weaknesses to gain unauthorised access, disrupt operations, or manipulate mission-critical systems. Additionally, electronic warfare threats, such as GNSS jamming and spoofing, pose significant risks to navigation and situational awareness, potentially derailing missions in contested environments.
Physical security is another critical area, as tampering or unauthorised access to UGS components or payloads could compromise operational effectiveness. Compounding these risks is the issue of cyber supply chain security. Vulnerabilities introduced during the manufacture, integration, or deployment of hardware and software components can lead to critical system breaches, jeopardising the platform’s integrity and mission readiness.
Mitigating these risks requires a multi-layered approach encompassing robust cybersecurity frameworks, physical safeguards, and stringent supply chain validation processes. Ensuring consistent security across these domains is paramount to maintaining mission integrity and operational superiority in an ever-evolving threat landscape.
The Nortal Defence advantage
At Nortal, we deliver comprehensive solutions to address the complex challenges of emerging defence technologies.
Our Autonomous Detection and Response Suite leverages cutting-edge AI and ML capabilities to identify and counter threats in real-time across multiple domains. Underpinned by our robust Cyber Resilience Framework—aligned with NIST and ISO 27001 standards—we ensure the security of critical defence systems from communications infrastructure to operational platforms. Our sophisticated risk modelling and predictive analytics enable proactive threat mitigation, maintaining operational readiness in increasingly contested environments.
As defence technologies continue to evolve, we partner with organisations to build smarter, more secure, and resilient capabilities. We’d be glad to share our experience with you and explore how we can support your mission—get in touch.
