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Six Key Technology Trends Affecting the Security Sector in 2025

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Axis Communications

By Johan Paulsson, CTO, Axis Communications

We’ve once again reached the time of year when we look ahead to some of the technology trends that will affect the security sector over the coming 12 months. The pace of change is as fast as ever.

AI, cybersecurity, privacy, the need for resilience in critical entities… All these (and more) will be the focus of proposed and new regulation. We haven’t highlighted this as a specific trend, but it’s no less a priority and something every organization will need to respond to. 

Hybrid Solutions: The Foundation for Freedom of Choice

The drivers for the choice of architecture will be unique to every organization, taking into account technological, legal, ethical and governance concerns and requirements. The environment is evolving quickly, and therefore freedom of choice is imperative. 

Hybrid solutions give freedom of choice to store video, look at video or manage devices etc. Either by combining edge, cloud, and on-premise technologies to get an optimal total system solution or utilizing its flexibility choose the instance you prefer.

AI Evolution Alongside AI Efficiency

Generative AI models are large and require much compute capacity to execute, which creates a debate in how to balance the cost of AI (both in terms of financial investment, but also in terms of energy use and environmental impact) with its value. A lot of effort is being put into reducing the size of the models while maintaining the quality of results. The increased use of AI technologies only reinforces hybrid architectures as the standard.

Over time there is a big opportunity to dramatically change the efficiency and effectiveness of security operations. Algorithms will be able to understand what is happening in a scene and react to anomalies, based on the analysis on different types of input data, including but not limited to visual information. Input data will come from radar, audio, and numerous other sensors.  This will create solutions that enable increasingly proactive capabilities and generate valuable insights in security scenarios for long term planning. 

Beyond Safety and Security Becomes Real

The application of increasingly advanced computer vision, audio, access control and other connected technologies continues to serve security and safety use cases. Greater accuracy of analytics through the application of AI – particularly in object recognition – means that incidents can be responded to more quickly and effectively than ever before.

Axis Communications

This trend highlights the opportunities for increased collaboration across customer organizations. Technology being sourced or specified for one use case could well be used in another area of a business’s operations. For instance, data being created by video cameras employed principally for security purposes can be analyzed over time to improve customer or employee experience, sustainability, or process efficiency.

The “Rebirth” of Image Quality

The paradigm shifts when we consider that images are now often being initially viewed and analyzed by computers rather than humans, and that images are being viewed continuously, rather than when an incident of interest has taken place. 

Advances in analytics and AI mean that a higher resolution image will inevitably lead to a better result, whatever the use case. Object recognition will be more accurate and more detailed data (and metadata) created. The drive towards even better image quality has been reignited. 

The Long-Term Value in Products Comes Through Software Support

At the higher end of the security sector, the quality of hardware has been improving year-on-year. Today, hardware devices can be of such high-quality – particularly in terms of performance and capabilities – that expectations about their lifetime are greater than ever. 

But while quality hardware can last for many years – as illustrated by the length of warranties – the defining factor in a camera’s functionality, including cybersecurity, and therefore its lifetime value, comes through ongoing software support.

Technology Autonomy to the Customer’s Benefit

Our role, and that of our partner ecosystem, is ultimately to focus on meeting the needs of customers. Technology for technology’s sake serves nobody’s purpose – innovations must be aligned to the priorities of the end user. 

We’re already seeing companies that would have traditionally been seen as software vendors designing their own semiconductors to gain more control over their service delivery – particularly in the area of AI – and we foresee this trend continuing in all sectors. Core technology independence is a trend we’re proud to say we’re some way ahead of, having developed our own system-on-chip, ARTPEC, for the last 25 years. 

Tech Features

THE AI REVOLUTION AND A FUTURE OF FAIRNESS

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by Dr Ekaterina Abramova, Adjunct Assistant Professor of Management Science and Operations at London Business School

The AI revolution is not on the horizon; it is already transforming how we work, solve everyday problems, and interact both with one another and with technology. From generative models to agentic systems capable of disrupting entire industries, artificial intelligence has advanced at a pace that few institutions, businesses, or governments are fully prepared for. What once felt like a distant technological possibility has become a structural force shaping labour markets and economies. As a result, one of the most pressing questions facing societies is no longer whether AI will change the world, but whether it will make it fairer. Increasingly the answer depends not only on the technology itself, but on the choices organisations and governments make about how its benefits are shared.

AI has the potential to unlock unprecedented prosperity. Yet history shows that technological revolutions rarely distribute their rewards evenly. Without deliberate intervention, the benefits of AI risk concentrating in the hands of a small number of large technology firms, highly skilled professionals and capital owners. This pattern has already emerged in earlier waves of digital transformation, where wealth and opportunity accumulated disproportionately in regions best positioned to adapt. For AI to foster equality rather than widen disparity, policymakers must treat inclusion as an ex-ante design principle rather than an ex-post correction.

The first crucial step for achieving fairness is improving the data that AI systems rely upon. Algorithms are only as representative as the information used to train them. When datasets exclude marginalised or underrepresented communities, AI risks reinforcing existing biases. Organisations and governments developing AI algorithms should prioritise collecting data from communities historically overlooked in policy design, such as rural populations, low-income groups, minority communities and those outside the formal labour markets. More inclusive datasets lead to fairer systems, more effective public services and policy decisions that better reflect the realities of entire populations, rather than just their most visible segments.

Another equally important aspect is how governments distribute the productivity gains and wealth generated by AI into broader societal benefits. Different regions are experimenting with alternative approaches. In parts of the Middle East, including the United Arab Emirates, economic gains from technological advancement are often channelled through state-led investment strategies rather than relying solely on traditional taxation and redistribution mechanisms. While VAT and other taxes exist, governments often reinvest a significant share of national income derived from natural resources and state-owned enterprises directly into infrastructure, public services, education and economic diversification. This approach builds long-term national capability by funding human capital development, strengthening digital infrastructure and fostering new sectors that create employment and opportunity.

Such strategies highlight an important principle: AI benefits do not need to be redistributed after inequality has emerged. They can be embedded in development strategies from the outset. By investing in education, digital skills and access to technology, governments expand the number of people able to participate in the AI ecosystem rather than merely compensate those left behind. China, for example, has made substantial investments in AI education and research capacity, recognising human capital as central to technological leadership. Every year 100,000 selected teenagers are funnelled into elite science talent streams across top high schools. These “genius classes” systematically train students to excel in international maths, physics, chemistry, biology and computer science competitions.

The pace of the AI revolution makes this challenge more urgent than previous technological transitions. Earlier industrial transformations unfolded over decades, allowing societies time to adapt institutions and labour markets. AI development in recent years has gained pace. Breakthroughs that once took years are now emerging within months, with new capabilities rapidly spreading across sectors from healthcare diagnostics and financial analysis to logistics and defence industries. This acceleration has been further intensified by the present-day AI race to achieve Artificial General Intelligence (AGI), amid a widespread belief that the first government to reach this milestone will gain a decisive strategic advantage. Organisations at the forefront of AI development are reluctant to slow for fear of falling behind geopolitical or commercial rivals. Meanwhile, many governments are hesitant to introduce AI regulation, concerned that premature constraints could hinder innovation and weaken their competitiveness in the pursuit of AI leadership.

However, the path forward requires a global perspective. While governments should encourage innovation, they must also recognise that AI technology will diffuse across borders. Hence governments worldwide should collaborate towards a global AI governing body, or at the very least, agree on minimum safety and fairness standards for AI deployment. The EU AI Act provides an important foundation by identifying unacceptably high-risk AI applications that should be prohibited. When forming such regulatory frameworks, governments should seek guidance from leading AI scientists to ensure they fully understand where the principal risks originate. Indeed, many prominent experts in the field argue that regulation is failing to keep pace with AI innovation.

Allowing AI technology to evolve without placing guardrails in place early risks embedding structural inequalities, particularly in labour markets, education access and capital distribution. Ultimately, the debate about AI and inequality is not primarily about algorithms; it is about governance. Technology reflects the priorities of the societies that deploy it. If policymakers treat AI purely as an engine of leadership and economic growth, its benefits will likely accrue to those already best positioned to capture them. But if AI development is guided by a clear commitment to inclusion through better data, wider access and sustained investment in human capital, it has the potential to expand opportunity on a global scale. As AI reshapes labour markets, workers will need opportunities to develop capabilities that complement intelligent systems rather than compete directly with them. Access to AI infrastructure, computing resources, data and digital connectivity must not be confined to a small group of corporations or wealthy regions.

The direction of the AI revolution is not predetermined. The question is not whether AI will transform our world, but whether governments and institutions will act quickly and thoughtfully enough to ensure that its benefits are broadly shared. In the race to build increasingly powerful systems, equal attention must be given to building the social and economic frameworks that will ensure the future is genuinely fair.

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Tech Features

THE REALITY OF AI DEPLOYMENT ACROSS THE WORKFORCE IN THE REGION

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By Alfred Manasseh, COO & Co-Founder of Shaffra

Across the GCC, AI is becoming more operational. The conversation has moved beyond whether organisations are testing AI and toward how deeply these systems are being embedded into daily work. McKinsey’s finding that 84% of GCC organisations have adopted AI in at least one business function shows the region’s strong momentum, but the more important shift is where this technology is now creating measurable value.

AI is beginning to operate inside real enterprise workflows, where productivity, cost, speed, service quality, and governance can be measured. This practical shift means AI is being judged less by novelty and more by whether it can reduce manual work, improve response times, and support better execution across organisations.

Where AI is being deployed

AI deployment is gaining traction in structured, high-volume functions where it can remove this coordination burden and give employees more capacity for skilled output. Asana’s research has found that around 60% of time is spent on “work about work,” such as chasing updates, attending unnecessary meetings, and switching between tools.

Customer service teams are using AI for automated query handling, routing, escalation management, and multilingual support. Operations teams are applying AI to order processing, workflow coordination, and SLA monitoring.

In HR, AI is supporting CV screening, interview scheduling, and onboarding orchestration. In finance, it is being used for invoice processing, reconciliation, and anomaly detection. Sales teams are also applying AI to lead qualification, follow-ups, CRM hygiene, and pipeline updates.

Regional governments are also preparing the workforce for this reality. Digital Dubai recently launched the AI Workforce Transformation Program, known as AI+, to help train 50,000 government employees for an AI-ready workforce.

Three phases of AI workforce evolution

AI use across the workforce can be understood in three phases. First, AI acts as an assistant through copilots, chat interfaces, summarisation, drafting, search, and advisory tools that improve individual productivity. Second, AI becomes an operator, completing defined tasks across CRM, HR, finance, customer service, and operations systems within controlled boundaries. Third, AI develops into a workforce layer, where systems are assigned roles, KPIs, access rights, escalation pathways, and governance controls. At this stage, Autonomous AI Teams operate as governed digital employees, helping structure, assign, monitor, and improve work.

How mature AI deployments operate

AI is not replacing entire jobs. It is restructuring work by taking over repetitive tasks within roles. Human teams are shifting toward oversight, exception handling, decision-making, escalation management, and quality control.

Autonomous AI Teams operate as coordinated systems rather than standalone models. They support humans through role-based actions with defined responsibilities, structured access to enterprise systems, clear decision boundaries, controlled autonomy levels, human escalation pathways, performance metrics, auditability, and governance.

From tools to workforce infrastructure

Before scaling autonomous AI systems, executives need clear visibility into decision-making, accountability, risk controls, and human intervention points. Trust grows when productivity gains are measurable and governance is visible. IBM research shows that 77% of UAE senior leaders have already seen significant productivity gains from AI, which reflects growing confidence in its operational value.

Across Shaffra deployments, Autonomous AI Teams have contributed to more than 2 million manual work hours saved monthly across operational workflows. Organisations have reported up to 80% reductions in operational costs, customer service teams can manage up to five times more queries, and HR recruitment cycles that previously took weeks can be reduced to hours.

The future workforce layer

The GCC has a strong appetite for AI adoption, but many organisations still need to redesign workflows and overcome fragmented legacy systems before AI teams can function as part of daily operations. Research showing that 94% of UAE data leaders lack complete visibility into AI decision-making processes reinforces why explainability, governance, and workflow design must develop alongside deployment.

The next phase of AI is about building a governed workforce layer where humans and Autonomous AI Teams execute together with clarity, accountability, and valuable impact.

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Tech Features

FROM CODING TO INTENT: HOW GENERATIVE AI IS REWRITING THE RULES OF PROFESSIONAL CREATIVITY

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Contributed by Jeff Jacob, Regional Business Team Lead – ISBG at ASUS Middle East & Africa

AI Creative Ecosystems Are Transforming Professional Workflows from Technical Execution to Intent-Driven Innovation

For decades, professional creativity was defined by a precise, hard-earned technical mastery. To be a digital creator involved understanding the underlying mechanics of software: knowing which shortcut keys to press, how to modify complicated codes, and how to adjust render engines frame by frame manually. Designers studied sophisticated software interfaces. Editors memorised keyboard shortcuts. Architects explored multiple layers of modelling systems. Filmmakers designed workflows around rendering pipelines. But the limits of the digital interface restricted creativity. The creator’s thoughts generated an idea, but their hands spent hours, days, or weeks converting that vision into a language that the computer was able to understand.

Today, that equation is fundamentally changing. Generative AI is ushering in a new era in which the focus shifts from execution to intention. It is changing the laws of professional creativity, propelling us from manual digital workflows to the era of intent-driven innovation.

When an efficient AI model can create complex codes, display hyper-realistic settings from a text prompt, or isolate audio frequencies in seconds, technical project execution becomes commoditised. The fundamental value of the human creator centres on intent, the ability to direct, curate, refine, and orchestrate complicated visions. The world is transitioning from one in which creators are valued for how they code or compile to one in which they are appreciated for what they aim to build and why it is important.

This shift represents a significant challenge for conventional hardware philosophy. For years, the computing industry saw professional machines through a strictly quantitative lens. Traditional parameters for evaluating creative laptops and workstations included processing power, graphics performance, display accuracy, storage capacity, and the most aggressive thermal cooling. These factors remain important, but in an intent-driven environment, passive hardware is no longer enough. If the creative process is to become an ongoing, fluid interaction between human intent and artificial intelligence, the technology must evolve. It must grow into an intelligent partner rather than a mere productivity tool.

This is precisely where the concept of technological design must pivot, a shift that many brands anticipated with the expansion of their AI art ecosystems. Rather than seeing AI integration as a superficial software tool, when it is developed as an intelligent, creative collaborator, it bridges the gap between raw computing capacity and human intuition.

A single campaign today may involve long-form video, short-form social assets, AI-generated photography, interactive experiences, 3D content, spatial design, and linguistic adaptations all at the same time. This requires a whole new level of physical and digital collaboration. The modern hardware anticipates the creator’s next action by using dedicated Neural Processing Units, tailored AI workflows, and fully connected software ecosystems. It optimises system resources based not only on raw CPU load, but also on the cognitive needs of an AI-powered pipeline. Physical control interfaces are no longer just shortcuts for legacy software sliders; they are physical extensions of intent, allowing creators to dynamically scrub through AI-generated iterations, manipulate parameters in real time, and maintain a tactile connection to an increasingly non-linear process.

Furthermore, this evolution alters the perspective on the mobility of professional talent. Intent-driven creativity thrives on cross-disciplinary exploration. A filmmaker may need to create architectural backgrounds on set, or a designer may need to run localised, big language models during a client pitch to iterate on branding concepts in real time. By compressing massive AI computing capabilities into extremely sophisticated, colour-accurate, and portable forms, the modern ecosystem assures that the studio is no longer confined to a single desk.

Yet, despite the excitement around AI, a major misconception must also be addressed. Generative AI does not replace creativity. It reframes where human value fits into the creative process. Historically, technical expertise has been a barrier to entrance. Having the ability to master complex structures determined who could participate in creative industries. AI lowers those barriers, but it also emphasises the importance of distinctively human skills such as judgment, taste, narrative, emotional intelligence, cultural understanding, and strategic thinking.

This is why the discussion on AI-powered creativity must extend beyond software. Infrastructure matters. Devices matter. Ecosystems matter. Professionals driving the future of creative industries will require technology that can enable sophisticated AI-native tasks while maintaining reliability, portability, security, and precision. The brands that recognise creativity as a human experience enhanced by intelligent technology will be the ones to succeed in the next phase. Every technology leader must now face the same question: in a future where AI can generate practically anything, how can we empower humans to create something meaningful?

The change of professional creativity is a story of structural emancipation rather than human replacement. As generative AI continues to demystify the technical aspects of execution, the primary focus returns to where it always belonged: the depth of human insight and the precision of artistic vision. The future of professional creation belongs to those who can master the art of intent.

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