

The Dark Network Operations Centres
The transformation of Network Operations Centres (NOCs) into fully autonomous, AI-driven "Dark NOCs".
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From Launch to Landing
With over 100,000 daily commercial flights worldwide, ensuring safe, efficient, and data-driven airport and defense operations is critical. However, infrastructure growth often lags behind air traffic expansion, necessitating smart, scalable, and automated solutions. For defense applications, modern Command, Control, Communications, Computers, and Intelligence (C4I) systems play a pivotal role in mission-critical decision-making.
These systems must provide real-time situational awareness, secure communication, and comprehensive analytics to ensure operational excellence and airspace security.
Tata Elxsi NEURON reduces TCO by 60% for a leading Telco in APAC
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Here’s How We Can Help You
Unified Integration & Analytics
- TETHER merges IoT, big data, and AI, enabling real-time flight tracking and predictive maintenance.
- Custom dashboards and advanced analytics accelerate data-driven decisions for mission-critical efficiency.
- Seamless protocol integration fosters enhanced connectivity.
Cybersecurity & Compliance
- VAPT across OS, networks, and applications safeguards mission-critical systems from evolving threats.
- Comprehensive privacy and third-party risk assessments ensure unwavering compliance.
- Encrypted channels protect data integrity.
Automated Validation & Scalability
- Full-stack design and automated testing deliver stable, future-ready operations.
- Horizontal and vertical scaling accommodate new protocols and evolving operational demands.
- Continuous monitoring reduces both downtime and risks.
Solution Framework
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Tether IoT
TETHER is Tata Elxsi’s advanced IoT platform that integrates cloud computing, analytics, and secure communication into a single ecosystem. It enables real-time data collection, predictive maintenance, and streamlined surveillance for ground-based aerospace systems. Its scalable, protocol-agnostic architecture ensures seamless upgrades and robust performance as operational demands evolve. This fosters efficiency.
TEDAx
TEDAx is a comprehensive analytics suite leveraging AI and ML to deliver actionable insights for mission-critical aerospace operations. It interprets real-time data for pattern recognition, predictive diagnostics, and anomaly detection. Through intuitive dashboards, it streamlines decision-making, enabling defense and aviation clients to optimize performance, safety, resource allocation, and growth.
Cybersecurity & VAPT
Cybersecurity and VAPT form the backbone of resilient ground-based aerospace systems. Tata Elxsi’s end-to-end approach encompasses vulnerability assessments, penetration testing, and compliance checks to safeguard mission-critical data and infrastructure. By integrating continuous monitoring, encryption, and robust incident response protocols, we ensure uncompromising security and threat mitigation across diverse operational environments.
Why Tata Elxsi?
- End-to-end aerospace solutions under one roof, reducing design execution time.
- Expertise in automation & technology integration, ensuring high-performance systems.
- Exclusive IoT platform (TETHER) for smart ground-based operations.
- AI-powered analytics (TEDAx) for real-time insights & predictive decision-making.
- Robust cybersecurity framework with VAPT & third-party risk assessments.
Information Hub
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How do ground-based systems enhance overall air traffic management efficiency?
By integrating IoT, AI, and data analytics, modern ground-based systems support real-time flight tracking, predictive maintenance, and automated routing. This allows airport operators to optimize resource allocation, reduce delays, and minimize operational costs. Additionally, platforms like TETHER enable seamless communication between multiple stakeholders, enhancing safety and reducing human error. Advanced analytics also helps stakeholders make data-driven decisions, ensuring flights run on time and ground operations remain agile. Ultimately, these insights drive smarter, more efficient, and safer airspace management for both commercial and defense applications.
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What measures ensure cybersecurity for mission-critical aerospace systems?
Robust cybersecurity begins with Vulnerability Assessment and Penetration Testing (VAPT) across OS, networks, and software stacks to identify potential exploits. It continues with privacy and third-party risk assessments to ensure all regulatory standards are met. Encrypted communication channels safeguard data integrity, while continuous monitoring detects anomalies early. Additionally, adopting AI/ML tools allows rapid threat assessment, ensuring real-time incident response. By implementing secure coding practices and automated testing, aerospace organizations can mitigate risks and maintain compliance with stringent industry regulations.
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Can AI/ML in ground-based systems improve decision-making in defense missions?
Yes. With AI/ML capabilities, platforms like TEDAx process large volumes of data for real-time situational awareness, identifying patterns and anomalies that human operators may overlook. This includes monitoring environmental factors, tracking movement of assets, and analyzing potential threats more accurately. By using predictive analytics, decision-makers can proactively address challenges in mission-critical environments. They gain actionable insights faster, which is vital when operating under time constraints. Combined with encrypted communications and secure infrastructure, AI/ML integration delivers enhanced precision, safety, and adaptability across diverse defense scenarios.
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How do scalable frameworks support future airport and ground-based expansion?
A scalable approach ensures that your existing ground-based systems can adapt seamlessly to increased passenger or cargo volumes, new flight routes, and expanded operational requirements. Horizontal and vertical scaling allows adding new modules, devices, and communication protocols without disrupting the core infrastructure. Additionally, cloud-based architectures provide on-demand computing power, letting operators adjust resources as traffic fluctuates. Intelligent automation, along with AI/ML analytics, streamlines everything from maintenance schedules to safety protocols. As air traffic continues to grow, these frameworks deliver cost-effective, flexible, and future-ready solutions.
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What are the key benefits of integrating diverse systems for airport operations and defense command centers?
Integration breaks down silos across IoT, AI, and big data platforms, enabling a unified view of operations. This improves coordination among multiple stakeholders—from air traffic control to ground personnel—and centralizes information for quicker, more informed decisions. Unified systems also reduce redundancy, lower operational expenses, and pave the way for predictive maintenance, enhanced safety checks, and secure communication. Platforms like TETHER streamline data flows, promoting efficiency and agility. By adopting integrated frameworks, airport operators and defense command centers stay ahead of disruptions, maximize resource utilization, and ensure long-term operational excellence.