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Sustainable Telecommunication Networks Empowers the GCC’s Digital Transformation

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In the Middle East, the telecommunications industry has undergone a rapid transformation, transitioning from legacy systems to modernized networks to meet the escalating demands of consumers and businesses. Amidst this evolution, network providers find a significant opportunity to enhance their sustainability performance, aligning with the visionary goals of GCC nations like the UAE and KSA. These nations aspire to lead as digital economies, propelled by sustainable practices.

Exemplifying their dedication to sustainability, the UAE’s Green Agenda 2030 and Saudi Arabia’s Vision 2030 underscore the commitment of these nations. The UAE aims to cultivate a knowledge-based, competitive economy while promoting sustainable development, while Saudi Arabia envisions establishing itself as a global technology hub, driven by environmental sustainability. Both visions recognize the vital role of sustainable technologies, particularly in telecommunications, in fostering economic growth and preserving the environment.

Sustainable digital transformation has quickly become an imperative for telecom service providers, as emphasized by the World Economic Forum. Failure to address sustainability concerns could result in a significant economic loss of $12 trillion by 2030. By adopting sustainable technologies, organizations can mitigate environmental impacts, optimize resource usage, and reduce their carbon footprint, all while improving operational efficiency, cost savings, and customer satisfaction.

Many leading telecommunications companies are setting ambitious climate change targets that align with the Paris Agreement. This is now critical as network operations are one of the most energy-intensive parts of a service provider’s footprint, with estimates that total energy use is increasing by approximately 10 percent year over year. For example, United Arab Emirates telecoms operator and technology conglomerate e&, formerly known as Etisalat Group, pledged its commitment to achieving net-zero emissions by 2030 at the COP27 UN climate summit in Egypt.

Networks across the globe have built modern societies – from smart cities to digital healthcare and better education systems. Therefore, it makes sense for operators to use every opportunity to embed sustainability into their network operations to meet growing capacity demands responsibly. There are many touchpoints where providers can reduce the environmental impacts of networks without compromising the connectivity needs of today’s digital economy.

One of the most effective strategies to reduce emissions is through network transformation. Thanks to continuous innovation, it is now possible to increase network capacity while reducing the energy and space required to operate them and minimize the downstream and upstream impacts of materials and waste. At the same time, as data consumption soars, new and innovative designs are creating tremendous power efficiency for the same routing capacity. For instance, decreasing power per bit can help keep energy consumption and emissions in check. Having more capacity with fewer units and smaller forms also results in fewer materials used, less waste, and lower emissions from shipping and packaging.

Even without the latest equipment, advanced software provides opportunities to keep networks humming while cutting emissions. Virtualized services can help operators reduce the need for discrete network devices by taking advantage of Cloud-based Network Functions (CNFs). Intelligent automation and software-defined networking SDN can help customers improve the efficiency of their workforce and their networks to ultimately reduce the amount of network hardware required and associated energy, materials, waste, and emissions.

For instance, Ciena helps telecom service providers modernize their networks by using new platforms that consume lower power, enhance capacity, and ensure efficient data transmission. Its advanced SDN solutions enable organizations to embrace sustainable technologies and contribute to the region’s digital evolution.

As networks across the region rapidly evolve to keep pace with growing demand, they will face a constant drive for more, and better, bandwidth. Equally, there will be more pressure to ensure that networks are run cost-effectively, reliably, and sustainably. This is where network transformation services can help operators identify outdated equipment, eliminate unnecessary network elements and the energy they consume, and ensure the network meets operational and sustainability objectives.

The upcoming COP 28 event is a platform for the GCC region to showcase tangible sustainable practices on a global scale. Discussions at COP 28 will no doubt focus on aligning digital transformations with the UN Sustainable Development Goals (SDGs). But the summit is also an excellent opportunity for deeper and more meaningful discussions around how digital transformation is vital to building sustainable networks.

The transition to clean technologies is even more critical for the GCC as it accelerates its net-zero targets and climate sustainability obligations. Network providers must seize the opportunity to share best practices and collaborate with industry peers today to accelerate their sustainable digital transformation ambitions in the future.

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Paving the Way for AI Success in Business

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AI in business

By Karim Azar, Regional Vice President – Middle East & Turkey, Cloudera

The digital landscape is evolving at an unprecedented pace, and at the heart of this evolution lies the transformative potential of artificial intelligence (AI). Across industries, AI is not merely a buzzword but a revolutionary force driving innovation, efficiency, and growth. Its impact extends beyond automation, touching every side of business operations and decision-making. It can revolutionize multiple sectors and fundamentally reshape the corporate industry.

Nonetheless, challenges arise with technological evolution, particularly in accessing and overseeing varied datasets across diverse environments. These challenges frequently act as obstacles to achieving successful AI implementation. In response to these challenges, the technology landscape is witnessing significant advancements in open data lakehouse technologies, providing a robust foundation for AI and analytics. Let’s delve into key technological developments and their advantages, focusing on the broader implications rather than specific products.

Unlocking Business Potential

AI has the potential to unleash new opportunities for businesses. McKinsey’s findings reveal that more than 62% of companies in the Gulf Cooperation Council (GCC) region currently utilize Generative AI in some operational aspect. The research underscores the substantial potential of AI to create tangible value in the GCC, with an estimated value of up to $150 billion.

This adoption trend is not without merit; statistics show that 83% of businesses adopting AI report substantial (30%) or moderate (53%) benefits. AI can address various challenges by providing predictive analytics and personalized customer experiences, enabling organizations to make faster and more accurate data-driven decisions.

Despite the obstacles in adopting AI, such as data management complexities and security concerns, offering air-gapped deployment for large language models (LLMs) is still a viable option. This feature boosts security, data privacy, and performance while also lowering customer operational expenses. However, overcoming these challenges requires more than just technological solutions. It demands a comprehensive approach that includes robust data governance frameworks, continuous employee training programs, and collaboration with regulatory bodies to ensure compliance with data protection laws.

AI Across Industries

AI is not a one-size-fits-all solution. It is applied differently across industries and business functions, including healthcare, finance, manufacturing, and retail. The potential uses of AI are vast, from boosting supply chain efficiency to transforming healthcare outcomes and customer service.

For example, in the healthcare industry, AI-powered predictive analytics can help doctors identify patients at high risk of developing certain diseases, allowing for early intervention and personalized treatment plans. AI algorithms can analyze market trends and financial customer behavior to recommend customized investment strategies. In manufacturing, AI-driven predictive maintenance can proactively anticipate equipment failures and schedule maintenance activities, minimizing downtime and reducing costs.

As businesses increasingly adopt AI, they invest in their organization’s future. By promoting innovation and agility, companies can leverage AI to maintain competitiveness in a digital era. Prioritizing data privacy and security helps build trust with customers and stakeholders, ensuring AI technologies’ responsible and ethical use.

AI is a significant transformation in how businesses function and innovate. Embracing AI opens up vast opportunities for organizations to reshape their operations, stimulate growth, and influence the future of business. While the journey may present challenges, the potential benefits are boundless for those willing to embrace the power of AI.

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Smart Cities and the Rise of Intelligent Transportation Systems: Exploring the Benefits and Risks of Vehicle Surveillance

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By: Dr Ryad Soobhany, Associate Professor, School of Mathematical & Computer Sciences, Heriot-Watt University Dubai

Intelligent Transportation Systems (ITS) have emerged as a transformative solution in urban areas, tackling challenges such as high traffic and pollution. These systems, incorporating a network of static and mobile sensors, including cameras on buildings or vehicles/drones, embedded in the smart city infrastructure, are revolutionizing traffic management. By harnessing data from cameras, in-vehicle GPS systems, in-vehicle Near Field Communication (NFC), IoT devices, and Artificial Intelligence (AI), ITS enable the monitoring and tracking of vehicles for Intelligent Traffic Management Systems (ITMS) or Public Transportation Management Systems (PTMS).

While intelligent transportation systems offer significant benefits, it’s crucial to acknowledge the challenges and risks they pose. ITMS provides real-time monitoring of traffic on roads and at junctions, while PTMS focus on managing transportation fleet and passenger information services. Emergency Response Management Systems (ERMS) primarily monitor the emergency responders of the smart city. The use of intelligent vehicle surveillance systems improves traffic management, public safety, and urban planning, but it also raises concerns about the data privacy and security of users and infrastructure, a risk that must be carefully managed.

Benefits

There are several benefits from the implementation of vehicle surveillance systems in urban areas and the most obvious one is a better vehicle traffic flow by using ITMS. Cameras placed strategically across the city monitor traffic to identify congested areas and road traffic incidents (e.g. accidents). Implementing dynamic traffic lights systems at junctions and temporary speed limits can improve traffic flow. Using AI, predictive traffic routing forecasts traffic bottlenecks and suggests alternative routing.  The use of PTMS leads to enhanced scheduling of public transportation; for example, the arrival/departure of trains/metro at the station is synchronized to feeder buses or taxis being stationed outside the station. There is an improvement in customer satisfaction and journey planning with real-time updates for public transport. Traffic flow is also improved by monitoring of cycle and pedestrian lanes, where safer cycle lanes will encourage road users to adopt cycling in certain urban areas adapted for cycling.

There is an overall improvement in public safety by better traffic management, with better response time to emergency situations by the ERMS, such as ambulances. LPR/ANPR (Licence Plate Recognition/Automatic Number Plate Recognition systems and GPS tracking systems in cars allow the monitoring of vehicles while they are located withing the bounds of the smart city. Stolen or wanted vehicles can be detected and followed through the city. The use of surveillance cameras, LPR/ANPR systems and GPS tracking can improve identification of criminal activities, which should enhance the response of law enforcement. Under-Vehicle Surveillance Systems (UVSS), which are cameras placed at strategic places on roads in the city take pictures or videos of the underside of vehicles to check the chassis for stolen cars. UVSS can also be used to detect contraband at ports or entry/exit points in smart cities.

The use of LPR/ANPR systems ease the management of Low Emission zones, which are areas where low emission vehicles (e.g. electric or hybrid vehicles) can circulate without charges and vehicles with higher emission rates have to pay an hourly or daily charge. The implementation of Low Emission zones can bring environmental benefits. The improved traffic flow in the urban areas can also lead to environmental benefits with less emissions in traffic jams and long traffic queues at junctions. Apart from environmental benefits, there are economic benefits linked to better health and overall happiness of citizens and visitors.

Risks

Several risks are associated with the amount of data collected from the vehicle surveillance systems. The main concern is the privacy of the smart city’s car drivers and car owners. Vehicles and their drivers are tracked everywhere they travel around the city and the speed they travel. This can lead to tracking drivers and without proper legal frameworks, the data collected can be used to encroach on the users’ privacy. The large amount of collected and stored data can be quite attractive to cyber criminals and might lead to cyber-attacks. Any data breach from these attacks might expose the personal information of drivers and their vehicles. Cyber-criminals can target the surveillance systems, for example hacking the intelligent dynamic traffic speed system and changing the traffic speed around the city.

Having video surveillance around the urban areas recording the public can lead to ethical issues. Most of the time, drivers might not have provided informed consent to participate in the vehicle surveillance systems. The lack of consent from users can lead to non-compliance with regulatory bodies and can result in legal challenges from user groups. Users need to be made aware that they are entering a vehicle surveillance zone and their data might be recorded. Vehicle surveillance systems can be used to discriminate against certain sections of the community, for example, young drivers might be unfairly targeted by the vehicle surveillance systems because they allegedly drive fast and dangerously, which allegedly cause accidents. Any cyber security attack or data intrusion can lead to users losing trust in the vehicle surveillance system.

The use of vehicle surveillance systems can benefit smart cities and enhance the quality of life of residents and visitors, but the authorities must respect the personal privacy of the public by ensuring that data are collected and processed ethically and guarded against any cyber-attack. Security policies and mitigation plans are primordial for vehicle surveillance systems.

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Enabling MEA eGovernment Entities to Enhance Experiences while Cutting Costs

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WSO2

By Uday Shankar Kizhepat, Vice President and General Manager- Middle East and Africa Region, WSO2

We live digitally. Much of our professional work is digital, as is much of our leisure time. Our commercial activity – shopping, service subscription, banking, and more – is digital. And our government is digital. No doubt governance itself requires the wisdom of individuals. But the transactional part – filing, requesting, registering, licensing, and so on – is digital. Governments in the Middle East and Africa (MEA) know they have an opportunity, with today’s technologies, to streamline transactional government functions while cutting costs.

One way to do this is to introduce digital identities. By allowing each citizen to be recognized by their “bytes essence,” public authorities open the door to transformative programs that use these trusted online personas to get things done reliably and rapidly. Many regional nations are acknowledging the potential of digital ID systems and have cultivated track records for themselves in areas such as boosted citizen engagement and enhanced accuracy of outcomes.

Digital IDs offer a practical means to ensure useability when new e-government services come online. Identity verification, service accessibility, and data protection are three major, long-standing challenges encountered by regional governments on their digital transformation journeys. The digital ID solves all of them. It offers an elegant solution to the verification issue, obviously, but its simplicity enhances accessibility, and its security features protect data. 

The ’guarantee’

The digital identity may look straightforward, but its elegance is built on a toolbox of advanced technologies such as biometrics, encryption, and blockchain. These building blocks come together to give a guarantee of authenticity when an individual presents their credentials to an online gatekeeper. And we should not use the word “guarantee” lightly. It lies at the core of the viability of any authentication system offered by a government. When waved through the door, verified users can access tax history and health records. They can pay bills or register with a government agency. If verification is erroneous, a host of problems can arise.

The digital ID is a holistic, citizen-centric approach that strikes a balance between security and performance and yet does not compromise either. It eliminates bureaucratic bottlenecks and elevates the citizen experience without the public-sector agency ever relinquishing control of any part of the process. But how? How do digital IDs allow government services to operate at peak efficiency and grant seamless access to every citizen while not faltering when it comes to risk management? How do responsive, always-on services guarantee privacy and security? Well, the answer comes full circle, back to digital transformation. 

Governments in the Arab Gulf region mention digital transformation frequently in published guidelines that map the way to economic diversification. These same guidelines apply to the government itself, which must set about transforming systems, processes, and functions to prepare for digital IDs and the world they promise – one in which a digital service provider can offer both seamless access and security. Complexities come from the scale and interconnectedness of operations, and the need for every shred of data, every machine-to-machine process, and every user session to be secure. Regulatory obligations must be juggled with budgetary constraints while technology leaders play intermediary to vying stakeholder factions within the organisation. It is easy to see how challenging it might be to maintain interoperability and data-sharing in such a fraught environment.

Of course, none of this will deter government organisations in the MEA region. They know what the hurdles are, but they also know what is to be gained – smoother services that cost less to provide while engendering greater citizen trust and in fact are leading the way in some of these digital initiatives. Remember, regional governments also know that the expectations of their citizens have, in a very real sense, undergone a digital transformation of their own.

Success stories

If we cast our eyes around the region, we can see digital ID-centric transformation in action already. Some government organisations in the Middle East have introduced biometric facial recognition as part of digital identity phase-ins and are using the system for secure digital document storage. Also in current use are systems that allow single, mobile-based logins. In these countries, the government’s identity access management (IAM) system undergoes a sweeping overhaul that allows the unification of credentials data to provide secure digital identity.

In the Asian subcontinent, we find a government that directed its telecoms ministry to build a national information exchange layer using an API. Strict identity management was rolled out as part of this ambitious project. With digital identity in place, the government can enable slicker collaboration between its departments and enhanced efficiency in outputs. It can do all this while optimising data access and consumption, which empowers analysts to deliver more actionable insights to stakeholders across agencies and ministries.

In Africa, one country showed its peers how an integrated identity and access management solution can be used for risk-based authentication, single sign-on, multi factor authentication, and user self-service. The solution was designed to minimise the risk of identity theft, but it was also (through single sign-on) able to reduce complexity when onboarding and offboarding users.

Conflict resolved

If digital solutions are the future of government, then digital identity is the future of public-sector cybersecurity and risk management. Governments in the region have been trying for years now to transform service delivery and engender citizen trust and engagement, but security has always been in conflict with agility. Having leveraged digital identity, authorities rid themselves of the downsides and reap rewards such as those described here. These regional successes underscore not only the profound impact digital transformation can have on society, but the indispensable role digital identity will play in delivering those efficiencies in a way that promotes trust.

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