Advancements in 6G, NTN, Quantum-safe and Open Networks – Viavi Solutions announced that it will highlight emerging innovations and demonstrate its advanced network test and optimization solutions at India Mobile Congress, October 8-11, New Delhi.

India’s telecom ecosystem and expanding digital economy is making significant strides. Government’s strategic vision of self-reliance in next-generation communication technologies has created a collaborative platform to strengthen and support local manufacturing. The 5G coverage has been remarkably rapid and the country is at the forefront of 6G research & development. Data centers are intensifying their footprint with scalable, sustainable and AI-first infrastructure and satellite communication is ushering in a new era as global and domestic players are set to begin operations. Transforming the future of connectivity, India Mobile Congress is facilitating collaboration and presents a unique platform for tech innovators, ecosystem players and policymakers to converge and unveil pioneering trends and game-changing solutions.

“After an impressive 5G rollout, India takes lead in 5G-Advanced and 6G. Modernization initiatives and government’s strong push to become self-reliant across several key sectors, including semiconductors, aerospace and defense, and telecommunications is creating favorable conditions for innovation, industry collaboration and deployment of advanced technologies”, said Monojit Samaddar, Country Director, VIAVI.

From AI-based intelligent twin for network optimization to quantum-safe security and advancements in 6G to innovations in critical communications as well as interoperability in open and disparate networks, VIAVI is playing a leading role in enabling next-generation mission-critical networks.

At VIAVI stand A14 the company will showcase a wide array of solutions for advanced networks.

MU-MIMO and O-RAN Lab Test: To meet the unique challenges of radio unit and fronthaul testing for disaggregated O-RAN networks, VIAVI TM500 network tester provides an ideal platform for advanced multi-carrier MU-MIMO testing and validation, with dynamic digital channel modeling and fully integrated UE emulation.

NTN: TM500 network tester to test the performance of 5G NTN, which includes both satellite and High-Altitude Platform Stations (HAPS).

6G: VIAVI’s 6G Forward program is leading the way in 6G innovation. The 6G Forward research is focused on: Energy efficient neuromorphic receivers, AI beam management technology, Semantic communications for Extended Reality (XR), Near-time Ray Tracing for network digital twin, Joint Communications and Sensing (JCAS) and AI Testing AI.

Quantum-Safe: TeraVM security test for Post-Quantum Cryptography (PQC) system validation and MAP-300 Multiple Application Platform for quantum key distribution (QKD) testing.

Fiber and Transport Field Test Solutions: Comprehensive portfolio of field test solutions for fiber construction and remote fiber test and monitoring. INX 660 and INX 760 Probe Microscope, MTS-4000 optical test platform, 400G Transport Module for up to 400Gbps testing and solutions that guarantee and protect DCI, including the FiberComplete PRO, Test Process Automation (TPA) and VIAVI ONMSi solution – FTH-5000 fiber test head.

RF Field Test and Resilience: OneAdvisor 800 wireless platform – an all-in-one cell site tool designed for RAN field testing and service assurance, particularly for 5G and Open RAN deployments and SecurePNT for critical infrastructure and high-speed network applications. CX300 – capable of testing everything from portable radios, to complex infrastructure and broadband networks and CX200 for mission-critical radio infrastructure field testing.

Service Assurance: Geolocation AIOps, based on NITRO Location Intelligence platform that generates subscriber-centric insights for network automation, optimization and monetization.

High-Speed Ethernet Test: ONE LabPro 800G – Ethernet network performance test system that accelerates high-speed Ethernet tests in labs and live test bed environments.

VIAVI experts :

Sameh Yamany, Chief Technology Officer, VIAVI will participate in a panel discussion on “Network Security”. The panel will convene on Thursday, October 9, 15:00 pm – 16:00 pm.

Stephen Hire, Vice President, Solutions and Partnerships, VIAVI will participate in a panel discussion on “Connecting the Unconnected: Exploring the Complementarity of Satellite & Terrestrial Networks on Friday, October 10, 15:00 pm – 16:00 pm.

Micro EV Market – The global mobility industry is going through a period of rapid change. As urban populations continue to rise and issues such as traffic congestion, pollution, and high fuel costs worsen, people are searching for alternative ways to move around cities. In this context, micro electric vehicles (micro EVs) are gaining strong attention. These compact electric vehicles are designed to fit between e-bikes and passenger cars, offering the affordability and agility of two-wheelers alongside some of the comfort and convenience of cars. The question is, can micro EVs truly bridge this gap and become the perfect middle-ground solution for modern cities?

The Rise of Compact Urban Mobility

The need for compact transport has never been greater. Bicycles and e-bikes are widely used for short journeys, but they fall short in terms of weather protection and carrying capacity. Passenger cars, although comfortable and reliable, are expensive, take up more space on the road, and are difficult to park in crowded areas. Micro EVs have emerged to address these challenges by combining the benefits of both worlds. Their small design allows for easy movement in traffic, while their enclosed bodies provide shelter and security that bikes cannot. This rise in compact urban mobility is laying the foundation for the Micro EV Market to flourish in the coming years.

What Defines a Micro EV?

Micro EVs represent a special category of ultra-light electric vehicles. They usually weigh less than 600 kilograms and are specifically designed for short-distance urban travel. Unlike e-bikes, which are open and limited to one or two riders, micro EVs are available in two- to four-seater formats, offering better utility for families or small groups. They are not as large or powerful as passenger cars, but they offer a reasonable balance of speed, affordability, and sustainability. With a typical speed range between 25 and 80 km/h, they are tailored for city environments rather than highways. Their affordability compared to traditional cars also makes them highly attractive for urban middle-class households and small businesses.

Why the Micro EV Market Is Growing

The Micro EV Market is expanding quickly due to a number of important factors. Cities around the world are facing worsening congestion, and several governments are imposing restrictions on the use of large cars in city centers. This has created demand for smaller vehicles that take up less space. Environmental concerns are also pushing governments to encourage cleaner transportation, and micro EVs fit perfectly into those sustainability goals. Cost plays a major role too. Since they are less expensive than both traditional cars and most larger EVs, they appeal to budget-conscious consumers. Additionally, the rise of e-commerce has boosted their importance in last-mile delivery, as small EVs can complete deliveries faster and at lower costs. According to Fairfield Market Research, urbanization and environmental pressures will continue to drive strong demand in this market over the next decade.

Comparing Micro EVs with E-Bikes and Passenger Cars

To understand the value of micro EVs, it is necessary to compare them with e-bikes and cars. Against e-bikes, micro EVs provide safety, weather protection, and greater carrying capacity. They are better suited for families or individuals who need to transport goods and travel slightly longer distances. However, e-bikes still hold the advantage in terms of ultra-low cost and flexibility for very short trips. Compared with passenger cars, micro EVs stand out for being affordable, energy-efficient, and much easier to park. But they cannot match the higher speed, long-range travel, or luxury that cars offer. This comparison shows that micro EVs are not replacements for either category but rather serve as the middle bridge connecting both.

Micro EVs in Last-Mile Delivery

One of the strongest areas where micro EVs are proving their worth is last-mile delivery. With e-commerce expanding rapidly, logistics companies are under pressure to find cost-effective, reliable, and eco-friendly delivery solutions. Micro EVs are ideal for these roles, as they can move efficiently through narrow streets, carry moderate loads, and operate at much lower costs compared to vans. Cities in Asia and Europe are already adopting micro EVs for deliveries, and this segment could accelerate adoption faster than personal commuting. By becoming an essential part of delivery fleets, micro EVs demonstrate their capability to fill not only personal mobility gaps but also business needs.

Consumer Lifestyle Appeal

Consumer behavior is also shifting in favor of micro EVs. Younger generations, particularly millennials and Gen Z, are more willing to embrace compact, eco-friendly lifestyles. Many urban dwellers do not see the need for large vehicles and instead prefer affordable, sustainable, and practical solutions. Micro EVs are fitting well into this lifestyle by offering zero emissions, easy maneuverability in crowded neighborhoods, and significantly lower ownership costs. They also represent a modern, minimalist choice, appealing to consumers who want to balance convenience and environmental responsibility.

Challenges to Mainstream Adoption

Despite these benefits, micro EVs face several hurdles that need to be addressed. Their range is currently limited, with most models offering only 80 to 120 kilometers per charge, which restricts them to city use. Safety is another concern, as micro EVs do not provide the same level of crash protection as larger cars. Regulatory frameworks also pose challenges, as some countries do not have clear rules for micro EVs, making it difficult to promote or subsidize them. In addition, charging infrastructure is not yet developed for such small vehicles in many regions, which may discourage users. Overcoming these challenges will be crucial for the market to reach its full potential.

Global Trends Driving Growth

The adoption of micro EVs varies by region. Europe is at the forefront due to strict emission standards and initiatives to create car-free city zones. Asia-Pacific, led by China, India, and Japan, is investing heavily in micro EV technology to deal with high urban density and pollution. In North America, adoption is slower, but campuses, resorts, and delivery companies are beginning to adopt these vehicles for niche applications. This regional momentum suggests that micro EVs will continue to gain ground, especially in areas where congestion and sustainability are high priorities.

The future looks promising for micro EVs. They may not fully replace passenger cars or e-bikes, but they have the potential to act as a powerful bridge between them. Advances in battery technology will improve their range and reliability, while declining production costs will make them even more affordable. Experts from Fairfield Market Research highlight that as cities implement smart mobility plans, micro EVs will likely play a central role in shaping sustainable transport. Their contribution to reducing congestion, lowering emissions, and offering practical solutions positions them as more than just a niche—rather, as a mainstream component of future urban mobility.

Micro EVs are carving out a distinct space in the evolving transportation market. They are not designed to replace e-bikes or passenger cars but to fill the middle ground that both categories leave open. By offering affordability, safety, and practicality, they bring together the strengths of two-wheelers and cars in one solution. The Micro EV Market is expanding quickly, and as technology improves and infrastructure develops, micro EVs will become a common sight in cities worldwide. Their ability to bridge the gap between personal convenience and urban sustainability makes them one of the most exciting mobility innovations of the decade.

All-in-one Handheld Testers – VIAVI Solutions has expanded its family of rugged and reliable portable devices for last-mile fiber service turn-up and activation with two new all-in-one handheld testers for multi-gig power and service testing at data rates up to 10 Gbps. The new testers will be on display for the first time at VIAVI’s booth J1285 at the SCTE Tech Expo from September 29 – October 1 in Washington D.C.

Verifying multi-gig throughput and learning new technologies may present challenges for technicians. By supporting validation and troubleshooting of fiber, Ethernet, WiFi 7 and DOCSIS™ connections with speeds up to 10 Gbps in under one minute, the OneExpert Fiber and OneExpert HFC all-in-one handheld testers reduce learning time for technicians, helping speed up and simplify PON service deployment and maintenance.

OneExpert Fiber (ONX-700) validates Ethernet, Fiber and WiFi 7 connections, and the OneExpert HFC (ONX-720/ONX-730) provides additional support for DOCSIS service delivery and is ideal for cable operators looking to upgrade their existing OneExpert CATV to support PON / FTTx.

“These new versatile, rugged and integrated tools further reinforce VIAVI’s leadership in the fiber testing and service activation space,” said Kevin Oliver, Vice President and General Manager, Fiber and Access Solutions, VIAVI.  “By simplifying FTTx and DOCSIS service activation and maintenance, the OneExpert all-in-one instruments make testing up to 10 Gbps easier than ever before. We are thrilled to offer these go-to tools for fast, reliable multi-gig service activation, ensuring that last-mile installation is done right the first time and dramatically reducing time spent identifying and fixing problems in the field.”

The new, intuitive tools turn any technician into an expert for the end-to-end connectivity and performance testing of PON networks by providing access to pre-configured and customized test profiles, and incorporating automatic pass/fail notification functionality. OneCheck single-button testing can be used to validate wired service delivery from the Gateway or ONT, provide pre-delivery speed validation of the PON or P2P Fiber network, verify that customers are getting the WiFi signal strength and the speed they need, and validate DOCSIS service delivery over Coax or Ethernet.

The new IP54-rated tools are weatherproof, drop-tested to 1 m and built to perform reliably for many years. Modular design provides future-proof capabilities and reduces cost of ownership by allowing technicians to keep up with evolving technologies such as 25G and 50G service testing. Compatibility with VIAVI TPA (Test Process Automation) ensures technician process compliance by guiding workflows and standardizing test procedures. It also allows field personnel to operate at maximum efficiency by notifying them of firmware upgrades and additional instrument options as they become available.

Cybersecurity Market – The global digital ecosystem is undergoing rapid transformation as technologies such as the Internet of Things (IoT) and 5G networks become integral to industries, governments, and consumers alike. While these advancements enable unprecedented connectivity, speed, and efficiency, they also introduce a wide range of vulnerabilities that threaten data security and system integrity. This raises a crucial question for business leaders, regulators, and technology providers: Is the Cybersecurity Market adequately prepared to handle the emerging challenges of IoT and 5G? The answer lies in how quickly security frameworks, policies, and solutions evolve to keep pace with this new wave of digital innovation.

IoT Expansion: A Double-Edged Sword

The IoT revolution has led to billions of devices—ranging from wearable health monitors and connected cars to industrial sensors and smart home appliances—coming online. This massive ecosystem has created both opportunities and risks. Each IoT device can act as an entry point for cybercriminals, especially if it lacks strong encryption or regular software updates. Attackers exploit these weak spots to launch botnet-driven distributed denial-of-service (DDoS) attacks, steal sensitive data, or infiltrate larger networks.

Moreover, the diversity of IoT devices makes standardization difficult, with many manufacturers prioritizing low cost and fast time-to-market over robust security features. This situation has amplified demand within the Cybersecurity Market for solutions that specialize in endpoint security, IoT threat detection, and device authentication. Vendors are investing heavily in AI-driven monitoring systems to detect anomalies across interconnected devices, ensuring that businesses can continue to benefit from IoT without falling victim to cyber intrusions.

5G Networks: Speed with Complex Security Layers

The rollout of 5G networks is another defining factor shaping global security strategies. With ultra-low latency and lightning-fast speeds, 5G enables innovations like autonomous vehicles, remote surgery, and advanced industrial automation. Yet the very architecture of 5G introduces complexity into the cybersecurity landscape. Unlike previous generations, 5G is highly software-defined, meaning that vulnerabilities in virtualized functions can have far-reaching consequences.

Additionally, 5G significantly increases the number of connected endpoints, multiplying the attack surface. Hackers can exploit signaling protocols, intercept communications, or target mobile edge computing nodes to disrupt operations. To address these challenges, telecom providers and enterprises are prioritizing network slicing security, advanced encryption standards, and identity management solutions. The Cybersecurity Market is responding with scalable, cloud-native security frameworks that align with 5G’s decentralized infrastructure.

Rising Threats: From Nation-State Attacks to Ransomware

The convergence of IoT and 5G expands opportunities for malicious actors. Nation-states view critical infrastructure, including smart grids, transportation systems, and healthcare networks, as prime targets for cyber warfare. At the same time, ransomware groups are weaponizing these technologies to launch targeted attacks with devastating financial consequences. For instance, connected medical devices or autonomous logistics systems, if hijacked, could lead to not just data breaches but potentially life-threatening outcomes.

In this environment, cybersecurity vendors are deploying threat intelligence platforms, behavioral analytics, and machine learning algorithms to preempt attacks. Real-time monitoring is no longer optional—it is essential for resilience. According to insights from Fairfield Market Research, organizations that adopt proactive defense strategies significantly reduce both downtime and financial losses during cyber incidents, reinforcing the importance of investing in advanced security frameworks.

Regulatory Push and Compliance Frameworks

Governments and regulatory bodies across the world are tightening cybersecurity compliance standards to address IoT and 5G vulnerabilities. The European Union’s Cybersecurity Act, the U.S. National Institute of Standards and Technology (NIST) guidelines, and various regional frameworks in Asia-Pacific are pushing companies to adopt secure-by-design approaches. These frameworks emphasize device-level security, data privacy, and incident response readiness.

Such mandates are accelerating growth in the Cybersecurity Market as businesses seek solutions that not only defend against attacks but also ensure regulatory compliance. Vendors are tailoring their offerings to industry-specific needs, whether in healthcare, finance, or manufacturing, ensuring that enterprises can meet strict audit requirements while safeguarding their networks.

The Role of Artificial Intelligence and Automation

One of the most promising developments in the cybersecurity landscape is the integration of artificial intelligence (AI) and automation. With IoT and 5G generating massive volumes of data, manual threat detection is no longer feasible. AI-driven platforms can analyze network traffic patterns, flag anomalies, and respond to threats in real time, thereby minimizing damage.

Automation also plays a crucial role in scaling defenses across large, distributed networks. Security orchestration, automation, and response (SOAR) platforms are becoming essential tools for enterprises managing complex ecosystems. These innovations not only improve detection accuracy but also address the cybersecurity talent shortage by reducing reliance on manual intervention.

Industry Collaboration and Public-Private Partnerships

The magnitude of IoT and 5G threats makes collaboration a necessity. Technology companies, governments, and cybersecurity vendors are increasingly engaging in partnerships to develop unified frameworks for securing connected ecosystems. Industry alliances are working on device certification programs, best practices for 5G deployment, and global threat intelligence sharing.

Fairfield Market Research highlights that cross-industry initiatives are particularly critical in sectors like transportation and healthcare, where interconnected systems directly impact public safety. By pooling expertise and resources, stakeholders can strengthen collective defense mechanisms and accelerate innovation in security solutions.

Opportunities for Businesses and Investors

While challenges are significant, the emerging risks of IoT and 5G also present immense opportunities. The Cybersecurity Market is witnessing rising investments in niche areas such as edge security, IoT device monitoring, and secure 5G infrastructure. Startups focusing on blockchain-based authentication, quantum-safe encryption, and AI-driven intrusion detection are attracting investor interest.

For enterprises, this means a broader range of security tools and services tailored to specific risks. Proactive businesses can not only mitigate threats but also gain a competitive edge by demonstrating strong cyber resilience to customers and regulators alike. Investors, meanwhile, are positioning themselves to benefit from the long-term expansion of the cybersecurity ecosystem.

Preparing for a Connected Future

The question of whether the Cybersecurity Market is ready to tackle IoT and 5G risks does not have a simple yes or no answer. The truth lies in the progress already being made and the continuous innovation required to stay ahead of evolving threats. As IoT devices proliferate and 5G networks expand, the stakes will only get higher. Businesses, governments, and consumers must all recognize that cybersecurity is not an afterthought but a foundational element of digital transformation.

With AI-driven defenses, stronger regulations, and collaborative industry efforts, the path forward looks promising. Yet preparedness will ultimately depend on how quickly enterprises embrace advanced security frameworks and foster a culture of resilience. In an era defined by hyper-connectivity, safeguarding digital trust will remain the ultimate priority.