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Category: Technology

  • Advancing Cybersecurity: How AI is Revolutionizing Threat Modeling

    Threat Modeling

    Artificial intelligence (AI) is rapidly reshaping the cybersecurity landscape, bringing unprecedented efficiency and accuracy to threat modeling. Bhooshan Ravikumar Gadkari, an expert in the field, explores how AI-driven techniques are enhancing security strategies by identifying risks faster and more effectively than traditional methods. His insights provide a deep dive into AI’s role in improving cybersecurity preparedness.

    The Evolution of Threat Modeling
    Threat modeling has been fundamental to proactive cybersecurity, enabling organizations to identify and mitigate risks before breaches occur. Traditional methods depend on human expertise to assess systems and define vulnerabilities, but growing digital complexity makes manual approaches insufficient. AI-driven threat modeling revolutionizes this field by automating risk detection, analyzing vast data sets, identifying anomalies, and predicting attack vectors with superior speed and accuracy, enhancing security teams’ effectiveness.

    AI-Powered Tools in Cybersecurity
    The integration of AI into threat modeling has led to the development of advanced tools designed to enhance security protocols. One such innovation is the application of large language models to identify and categorize potential threats efficiently. AI-driven frameworks leverage historical threat data, security logs, and vulnerability databases to continuously refine risk assessments.
    Additionally, AI-powered tools enable the mapping of emerging threats to global cybersecurity frameworks, allowing security teams to preemptively respond to new attack methods. By utilizing machine learning, these systems can provide organizations with real-time updates on evolving threats, improving their ability to prevent cyberattacks.

    Benefits of AI in Threat Modeling
    AI enhances cybersecurity in several ways, primarily by improving efficiency, accuracy, and scalability.

    • Speed and Automation:  Traditional threat modeling requires extensive human effort to analyze risks, but AI systems can process large-scale data in real time, accelerating security assessments.

    • Enhanced Accuracy:  AI algorithms identify patterns that human analysts might overlook, reducing errors and improving the precision of risk assessments.

    • Scalability:  AI-powered tools can be deployed across vast digital ecosystems, ensuring that security measures remain consistent even in complex networks.

    • Up-to-Date Threat Intelligence:  AI continuously learns from new cyber threats, providing organizations with updated insights to mitigate risks more effectively.

    These benefits make AI an indispensable tool in modern cybersecurity frameworks, equipping organizations with a proactive defense mechanism against sophisticated cyber threats.

    Challenges of AI-Driven Security
    While AI-driven threat modeling offers significant benefits, it also presents challenges that organizations must address. Data quality is a major concern, as AI models depend on large datasets, and any bias or inaccuracies can lead to flawed security predictions. Additionally, AI-generated risk assessments often function as “black boxes,” making interpretation difficult and affecting trust. Over-reliance on AI may also diminish the value of human expertise. Balancing AI automation with human oversight is essential for a robust cybersecurity strategy.

    The Future of AI in Cybersecurity
    The future of AI-driven threat modeling is set for major advancements, with technologies like deep learning and reinforcement learning enhancing predictive capabilities, allowing organizations to anticipate cyber threats before they occur. A key development is AI’s integration with anomaly detection systems, enabling real-time identification of deviations from normal network behavior and flagging potential security breaches. These AI models will continuously learn from new attack patterns, improving their ability to detect and prevent threats. Additionally, AI-human collaboration will strengthen, with enhanced explainability features allowing security professionals to interpret AI-generated risk assessments more clearly. This fusion of AI automation and human expertise will create more resilient and effective cybersecurity defenses against evolving digital threats.

    In conclusion, Bhooshan Ravikumar Gadkari emphasizes that AI-driven threat modeling significantly enhances risk identification and mitigation. However, addressing challenges like data quality, interpretability, and automation reliance is crucial. By integrating AI with human expertise, organizations can build resilient security frameworks, ensuring proactive defenses as AI continues to shape the future of cybersecurity strategies worldwide.

  • How to upgrade from classroom projectors to interactive whiteboards

    Most K-12 classrooms have transitioned away from traditional projectors, with more than 4.6 million interactive whiteboards and 10.4 million interactive flat panel displays now installed in schools worldwide. This means that as a teacher or an administrator, you probably have interactive whiteboards in the classroom — or will very soon.

    The technology is becoming standardized, as the best interactive whiteboard options now offer enhanced functionality. This serves as a catalyst for collaboration and flexible learning, benefiting both teachers and students.

    Let’s look at the benefits of upgrading from a classroom projector to an interactive display. We’ll also discuss the different types of interactive technology and how to set up and make the most of your interactive whiteboard in the classroom.

    Designing for modern classrooms

    Today’s students are digital natives who have grown up immersed in powerful technologies such as mobile devices, artificial intelligence and connected devices. No matter what type of career they want, students need to build a technology skill set as they progress through grades K-12.

    Blended learning without limits

    Simple, scalable and secure display solutions empower educators to take control of curriculum.
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    Learning to collaborate on digital platforms is an important starting point. And unlike traditional projectors, interactive whiteboards and displays allow students to use technology themselves rather than simply watching the teacher do so. They can cast their own devices, such as a Chromebook or tablet, onto the display wirelessly and share what they’re working on with teachers and classmates in real time. They can approach the display and use a stylus, their finger or even an eraser to work on a math problem, make a presentation or do research.

    Interactive projector vs. interactive displays

    For decades, teaching with a projector was the norm. Interactive projectors leverage sensors, which allow teachers and students to interact with the images projected onto a wall or classroom whiteboard. Conversely, an interactive whiteboard skips the projector entirely. It’s a large TV-like display with a touchscreen with which teachers and students can interact directly. Interactive whiteboards offer several advantages over interactive projectors:

    1. They’re mobile. When mounted on a stand, they can be easily shared between classrooms.
    2. They don’t have to be calibrated. Interactive projectors must be calibrated to ensure the computer accurately picks up the location of the user’s stylus or finger on the board. Interactive display panels do not require calibration.
    3. They don’t have lamps to replace. Like traditional overhead projectors, interactive projectors require periodic bulb replacements — which can be expensive. Interactive whiteboards don’t require this type of upkeep.
    4. They don’t create shadows. If a person or object moves between any kind of projector and its target, shadows can block the projection and interrupt the class. With interactive display panels, you never have to deal with shadows.
    5. They allow for better classroom ergonomics. Whether attached to a stand or mounted on a wall, interactive displays offer more versatility in classroom design because they don’t require the rigidity of a mounted projector.
    6. They deliver a better visual experience. Many interactive whiteboards display higher-resolution images and videos than projectors can deliver.
    7. They’re connected to the internet. Since they can connect to a website or other devices in the classroom, an interactive whiteboard opens myriad possibilities for learning.
    8. They use familiar interfaces. Students are used to Android operating systems and Windows applications, which are readily available on an interactive display such as Samsung’s WAF Interactive Display.

    Setting up an interactive whiteboard

    Unlike a projector, which needs to be calibrated during setup, an interactive whiteboard or display, such as Samsung WAF Interactive Display, is easy to use right out of the box and EDLA-certified. Here’s a quick start guide:

    • Attach it to the wall using a mount or to a stand for portability.
    • Connect the device to your school’s network via Ethernet cable or wirelessly and use the included pen to write, draw or annotate an existing document on the screen. To erase your writing, you can use your palm or finger. You can also connect a keyboard or mouse for fast typing and input.
    • Get plenty of control. The WAF includes front-facing physical controls for quick access to frequently used functions. These intuitive controls allow users to operate the interactive display more efficiently, enhancing the overall user experience.
    • Take notes effortlessly — and save your work. A simple press of the always-visible “Annotation” button lets users take notes anytime, even with other graphics, videos or windows open on the screen. This makes it easier to create lessons and provide take-home offerings to students without slowing down student engagement.

    If you can access multiple displays, scatter them around the classroom and have students work in groups. Each group can share an interactive whiteboard to make notes, draw pictures or show their work via screen mirroring. Samsung WAF Interactive Display Series supports screen mirroring for up to nine devices for maximum student engagement.

    While interactive projectors took schools far beyond the capabilities of traditional overhead projectors, newer displays such as the WAF Series, which offers AI functionality, can provide you and your students with more flexibility, better collaboration and higher-quality viewing experiences. For example, Samsung WAF Series lets users share files from a variety of devices, cast screen content to other displays in the room, and use AI tools like Circle to Search with Google and voice transcription. You can also transform the display into a Windows device using the Open Pluggable Specification (OPS) slot. WAF Series supports screen mirroring for up to nine devices so small groups can work collaboratively, sharing their output. Larger groups have options, too, since up to 40 people can write on the display simultaneously, allowing for collaboration and fun, natural learning.

    Discover how simple, scalable and secure display solutions can empower educators to take control of the curriculum in this free guide. And see how a Samsung Interactive Display WAF Series can serve as an empowering, all-in-one classroom resource.

  • Tenable Research finds that DeepSeek R1 can be tricked into developing malware – CRN

    Tenable Research finds that DeepSeek R1 can be tricked into developing malware – CRN

    Nick Miles, Staff Research Engineer, Tenable

    When new technologies such as generative artificial intelligence (GenAI) emerge, cybercriminals inevitably look for ways to exploit its capabilities for malicious purposes. While most mainstream GenAI models have built-in safeguards to prevent misuse, Tenable Research has found that DeepSeek R1 can be tricked into generating malware, raising concerns about the security risks posed by AI-powered cybercrime.

    To assess the potential threat, Tenable’s security researchers conducted an experiment, evaluating whether DeepSeek R1 could create malicious software under two scenarios: a keylogger and a simple ransomware sample.

    At first, DeepSeek R1 refused to comply, as expected. However, using simple jailbreaking techniques, the researchers found that the AI’s safeguards were easily bypassed.

    “Initially, DeepSeek rejected our request to generate a keylogger,” said Nick Miles, staff research engineer at Tenable. “But by reframing the request as an ‘educational exercise’ and applying common jailbreaking methods, we quickly overcame its restrictions.”

    Once these guardrails were bypassed, DeepSeek was able to:
    1) Generate a keylogger that encrypts logs and stores them discreetly on a device
    2) Produce a ransomware executable capable of encrypting files

    The bigger concern resulting from this research is that GenAI has the potential to scale cybercrime. While DeepSeek’s output still requires manual refinement to function effectively, it lowers the barrier for individuals with little to no coding experience to explore malware development. By generating foundational code and suggesting relevant techniques, AI models like DeepSeek could significantly accelerate the learning curve for novice cybercriminals.

    “Tenable’s research highlights the urgent need for responsible AI development and stronger guardrails to prevent misuse. As AI capabilities evolve, organisations, policymakers, and security experts must work together to ensure that these powerful tools do not become enablers of cybercrime,” said Miles.

  • Innovating IoT Networks: The Rise of Self-Healing Systems

    Internet of Things

    The rapid expansion of the Internet of Things (IoT) has brought immense technological advancements, but it has also presented significant challenges in ensuring network reliability and resilience. In response, Bhushan Gopala Reddy introduces a cutting-edge approach to autonomous fault detection and recovery, harnessing the power of Bluetooth Low Energy (BLE). His research paves the way for self-healing IoT networks, setting a foundation for more robust and adaptive digital infrastructures.

    Transforming IoT with Self-Healing Capabilities
    Traditional centralized network management methods struggle to maintain efficiency in large-scale IoT deployments. Self-healing framework that enables IoT devices to detect and recover from faults independently. By integrating lightweight machine learning algorithms, this approach enhances network resilience while optimizing energy consumption. These innovations are crucial for industrial automation, smart cities, and healthcare monitoring, where real-time network reliability is imperative. The distributed intelligence architecture empowers edge devices to make autonomous decisions, reducing latency and bandwidth requirements. Advanced fault detection mechanisms utilize pattern recognition to identify potential failures before they impact system performance, while adaptive power management algorithms ensure optimal resource allocation across the network.

    Leveraging BLE for Distributed Fault Detection
    The adoption of BLE technology in self-healing networks is a significant step toward smarter and more sustainable IoT environments. BLE 5.3 introduces key improvements such as enhanced connection subrating and periodic advertising enhancements, which facilitate peer-to-peer health monitoring with minimal power consumption. The proposed system employs a hierarchical node structure, categorizing devices based on their processing capabilities to streamline fault detection and response. This novel approach ensures efficient load balancing while extending device lifespans.

    Machine Learning for Anomaly Detection
    One of the most notable aspects of this self-healing IoT framework is its use of resource-efficient machine learning models. The system incorporates lightweight neural networks that efficiently identify network anomalies, ensuring a 91.8% detection accuracy with minimal computational overhead. The adaptive feature processing technique reduces unnecessary data transmission, optimizing bandwidth usage while maintaining high detection precision. Furthermore, a federated learning model allows distributed IoT nodes to improve their performance collaboratively without compromising data privacy.

    Optimizing Recovery with Energy-Efficient Strategies
    Fault recovery in IoT networks often leads to high energy consumption, making sustainable solutions a necessity. This research introduces an adaptive recovery protocol that significantly reduces energy usage while maintaining network stability. By dynamically adjusting device discovery windows and leveraging Q-learning-based load balancing, the system enhances recovery efficiency without overloading network resources.

    Scalability and Performance Gains
    The self-healing framework demonstrates impressive scalability, supporting up to 500 nodes with minimal performance degradation. Experimental results highlight a 99.2% packet delivery ratio under normal conditions and a rapid fault recovery time of under 2.5 seconds for critical network segments.

    A Step Towards Autonomous IoT Systems
    Marks a significant leap forward in the evolution of IoT networks, addressing fundamental challenges in reliability, fault detection, and energy efficiency. By combining BLE technology with machine learning-driven self-healing capabilities, this framework sets a new benchmark for autonomous IoT management. As digital ecosystems continue to expand, these innovations will play a pivotal role in shaping the future of smart and resilient networks. The integration of advanced analytics and predictive maintenance algorithms enables proactive system optimization, reducing downtime and operational costs. These self-optimizing networks leverage real-time data processing to adapt to changing conditions, ensuring consistent performance while maximizing resource utilization. The framework’s scalable architecture supports seamless integration with existing infrastructure, facilitating widespread adoption across diverse IoT applications.

    In conclusion, Bhushan Gopala Reddy‘s work presents a transformative solution to the ongoing challenges in IoT network management. His contributions to self-healing IoT networks open doors for broader applications, ensuring sustainable, secure, and adaptive digital infrastructures for the future.

  • Logitech transforms immersive, integrated workplace solutions with Samsung

    Founded in 1981, Logitech is a Swiss multinational computer peripherals and software manufacturer. The organization is dedicated to creating solutions that work for all people and spaces, but meeting the evolving demands of the modern workplace poses a challenge because the work environment is more diverse than ever.

    Employees need technology that supports them whether they work from home, at the office, or both. Integrated, flexible hybrid work solutions have become a necessity rather than a luxury. Reflecting this shift, 78% of CIOs are increasing their budget for in-office spending to support those changing needs, according to a Morgan Stanley REIT CIO survey.

    “Just a few years ago, technologies for collaboration and flexible work were considered nice to have,” shared Sudeep Trivedi, head of alliances and go-to-market at Logitech. “Now, they’re mission-critical tools for organizations.”

    For instance, while many organizations once considered videoconferencing technology optional, it has since become critical for business. Despite this, 90% of meeting rooms globally are not video-enabled, the survey noted. But putting the technology in place is not the only challenge — maintaining it is also a struggle. With the rise of distributed work environments, IT teams must ensure consistent and uninterrupted service, which can be challenging with disparate work locations and IT solutions.

    Office spaces are also evolving, with 60% of CIOs planning to increase hot desking deployment, according to the survey. The concept of a “living office,” which transforms traditional office spaces into dynamic environments that adapt to the diverse needs of modern workers, is also rising in popularity. However, many organizations struggle to support these changes because they lack standardized, global solutions that cater to diverse work environments.

    Recognizing these challenges, Logitech sought a technology partner that could innovate alongside them to stay ahead of marketplace demand and help shape the future of work.

    “It’s always our goal to provide flexible, best-of-breed solutions that adapt to the needs of our customers,” said Trivedi.

    Logitech needed a partner with a broad portfolio that could address its customers’ varying needs. The ideal partner would offer customers a consistent, reliable experience worldwide, helping Logitech realize its goal of providing workplace solutions for all people and spaces.

  • Cohesity enhances data protection and cyber resilience for Red Hat OpenShift virtualisation workloads – CRN

    Cohesity enhances data protection and cyber resilience for Red Hat OpenShift virtualisation workloads – CRN

    Sophos and Pax8 Announce Strategic Partnership to Streamline Security Management
    Sophos and Pax8 Announce Strategic Partnership to Streamline Security Management

    Cohesity announced an expanded collaboration with Red Hat, to provide enhanced support for Red Hat OpenShift Virtualisation, now available on the Cohesity Data Cloud. With this integration, customers can more easily secure and protect data from virtual machines and containers in their Red Hat OpenShift Virtualisation environments with Cohesity DataProtect and NetBackup. The enhancements help simplify users’ backup and recovery operations, enabling more robust data protection and better resilience from cyberattacks like ransomware and other disruptions.

    Cohesity DataProtect and NetBackup customers can now protect and secure even more critical workloads, dramatically increasing their efficiency and scale while simplifying data management. Backup and recovery operations for Red Hat OpenShift Virtualisation-based virtual machines, along with containers, can be managed using the same workflows as existing data sources on the Cohesity Data Cloud.

    The Cohesity platform, running on Red Hat OpenShift and designed with zero-trust principles, offers robust security features, including immutability, strict access controls, and clean room technology, delivering one of the most comprehensive data resilience platforms against sophisticated cyber attacks. Combining simplicity and streamlined operations with industry-leading cyber resilience capabilities, Cohesity provides exceptional value to Red Hat OpenShift Virtualisation customers. Red Hat OpenShift Virtualisation is a feature of Red Hat OpenShift, including Red Hat OpenShift Virtualisation Engine, which focuses primarily on providing functionality for virtual machines and virtualisation use cases.

    Today’s announcement is an extension of the long-standing collaboration between Cohesity and Red Hat, which includes Cohesity adopting Red Hat Enterprise Linux as the foundational operating system for the Cohesity Data Cloud.  Through a shared commitment to supporting customers in safeguarding their data, Red Hat and Cohesity will continue to deliver comprehensive data resilience and management features that support future workloads and advancements to Red Hat OpenShift Virtualisation.

  • Innovative Digital Platforms:Transforming Enterprise Solutions

    enterprise architecture

    In his pioneering work, DilipKumar Deverahosahalli Jayaram examines how adaptive digital platforms are reshaping enterprise architecture. Drawing from his extensive experience in digital transformation, he reveals how modular design principles enable organizations to build more flexible and responsive systems. His work offers valuable insights into the ongoing evolution of platform ecosystems and their impact on modern business operations.

    The Shift to Modular Architectures
    The transition from monolithic to modular architectures has revolutionized enterprise platforms. Traditional systems often struggle with maintenance and scalability, leading to inefficiencies in integration and dependency management. By embracing modular structures, enterprises can now deploy independent, scalable components that significantly enhance operational agility and reduce time-to-market for new features.

    Core Attributes of Adaptive Platforms
    Adaptive platforms thrive on principles such as loose coupling and high cohesion. These characteristics enable enterprises to streamline deployment, reduce integration complexities, and enhance system resilience. A well-designed platform architecture supports rapid transformation while ensuring the integrity of core functionalities. Through modular design patterns and standardized interfaces, these platforms facilitate seamless component updates and modifications without disrupting the entire system. This architectural approach promotes scalability, enables faster time-to-market for new features, and provides the flexibility needed to respond to changing business requirements while maintaining operational stability and security.

    Automation and Intelligent Workflows
    Modern digital platforms leverage automation to optimize enterprise workflows. Intelligent automation frameworks enhance operational efficiency by integrating AI-driven decision-making with routine business processes. This fusion of AI and automation accelerates task execution, minimizes manual errors, and drives consistent performance across diverse industry verticals.

    Seamless Integration for Scalable Growth
    Integration frameworks play a crucial role in enabling platform interoperability. Sophisticated enterprise integration patterns, including service-oriented architectures and asynchronous messaging protocols, facilitate seamless communication between diverse digital components. These frameworks empower businesses to handle high-volume transactions and complex operational workflows efficiently.

    Microservices: The Backbone of Modern Platforms
    Microservices architecture has emerged as a cornerstone of adaptive digital platforms. By decomposing large applications into smaller, independently deployable services, organizations gain enhanced scalability and maintainability. This approach also enables enterprises to implement updates and new features without disrupting the entire system. Each microservice operates as a self-contained unit with its own data management and business logic, communicating through well-defined APIs. This architectural pattern promotes team autonomy, allows for technology diversity across services, and supports continuous delivery practices. The granular nature of microservices also facilitates more efficient resource allocation and better fault isolation, making systems more resilient and easier to troubleshoot.

    Ensuring Performance and Scalability
    Scalability and performance optimization are critical to maintaining an enterprise-grade platform. Elastic scaling mechanisms dynamically allocate resources based on real-time demands, ensuring optimal system performance under varying workloads. Additionally, runtime adaptation strategies leverage AI to predict and manage resource allocation efficiently. Advanced monitoring and predictive analytics enhance operational excellence.

    Extensibility and Customization for Business Needs
    Enterprises demand flexible platforms that can be tailored to specific business requirements. Modern frameworks provide extensibility options that allow organizations to develop custom components without compromising platform stability. This adaptability ensures that platforms remain future-proof and capable of evolving alongside business needs.

    Strategic Evolution of Enterprise Platforms
    The sustainability of digital platforms depends on structured evolution strategies. Organizations adopting incremental modernization approaches experience reduced technical debt and improved system adaptability. Feature management techniques, such as controlled deployment and rollback mechanisms, further enhance platform reliability.

    In Conclusion The innovations discussed by DilipKumar Deverahosahalli Jayaram highlight the transformative impact of modular and adaptive digital platforms in enterprise environments. By integrating automation, intelligent workflows, and scalable architectures, organizations can enhance operational efficiency and foster continuous innovation. As enterprises navigate the complexities of digital transformation, these principles serve as a blueprint for building resilient, future-ready platforms.

  • 5 benefits of a cloud digital signage system

    The content customers see on your digital signage displays doesn’t just offer valuable information or sell a product — it reflects your brand and business. In fact, it could decide whether potential clients and customers walk through the door.

    While the quality, type and number of digital displays are key to their success, the content management system (CMS) behind them is equally important — if not more. It should provide the tools to create, broadcast and manage dynamic content, along with ample flexibility to react quickly to opportunities and challenges. In addition, the stronger the CMS, the more it frees staff to focus on other strategic areas and essential tasks.

    Some digital signage systems are entirely in-house, which can fit certain organizations and businesses well. But many are shifting to cloud-based systems, thanks to their enhanced flexibility, scalability and efficiency — not to mention additional security and real-time updates. Also, a cloud digital signage system offers a model where your content doesn’t have to be hosted on your own servers.

    Here are five benefits of a cloud digital signage system.

    1. Advanced planning and flexibility for making changes

    The best cloud digital signage systems allow businesses and organizations to easily schedule the right content for the right time, place and situation. That’s particularly important when they know what specials and events they’ll be running, as it ensures they get robust and timely promotion. These systems, like Samsung VXT content management system, also allow for diversification and flexibility. While there can be occasions when you want everyone to see the same message, sometimes, some screens may need to feature different information. Samsung VXT solves that by offering the Takeover Sync Play feature, which will pause what’s running on every screen to show a special announcement or other real-time content updates, then resume the previously scheduled content afterward.

    Digital signage content management made easy

    Get your complete guide to configuring and tailoring real-time messaging using an integrated CMS.
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    A cloud-based digital signage system also enhances flexibility in the long term with scalability. As businesses and organizations grow, so does the need for a more robust CMS to develop and display content. If content management is handled in-house, a new system may be required. But Samsung VXT can scale up seamlessly at the same level of expansion.

    2. Creative assistance to produce and promote content

    It’s one thing to conceive a vision of what you want to show customers; it’s another to pull it off. That’s because design is always a challenge, be it the technical know-how or investment of time and financial resources. That’s where VXT Canvas comes in, which closes the gap by providing generative AI capabilities to create images with text and a sizable library of templates and graphics to draw from.

    In other cases, you might know what content fits your audience best and can produce it, but presenting and broadcasting may be the greater challenge. Here again, Samsung VXT provides support, with widgets to set up an RSS feed, link social media accounts or produce a QR code that will take customers to a specific landing page.

    3. Streamlined operations through multi-user access

    As a business or organization grows, updating and managing digital signage becomes a team sport. This means empowering a number of different employees or team members to keep content compelling, current and accurate.

    Instead of being limited to an owner and admin, leading CMSs like Samsung VXT allow multi-user access, with permissions most appropriate to their role, such as a manager or IT staff member. This significantly streamlines operations, allowing teams to work more cohesively without introducing any unnecessary risks. Samsung VXT is also easy to learn, minimizing training time and maximizing reaction time to whatever opportunities arise.

    4. One interface to rule them all

    When operating in multiple locations — or, in some cases, hundreds of locations — it’s essential to have clear visibility and centralized management of the entire portfolio of digital signage displays. It’s almost equally important that this management be intuitive, with easy-to-understand and user-friendly navigation and implementation.

    Samsung VXT’s Early Warning is a great example. It lets you manage all displays from one location and see how each performs. In addition, it generates a daily report that includes early warnings for any signage with errors or issues. That makes resolving problems quickly and keeping your displays functioning as they should much easier.

    5. Seamless integration with existing platforms

    Any cloud digital signage system must cross all platforms in the existing tech stack. Otherwise, IT and other team members have to troubleshoot systems that won’t connect and “talk” to each other. With Samsung VXT, this isn’t a problem, as it works with Android and Windows operating systems. This is on top of any device using Samsung-branded Tizen 6.5 operating system.

    These cross-platform abilities further enhance content and broadcasting possibilities with digital signage displays, while lessening headaches for IT staff, managers and other team members. It also enhances cost-efficiency by avoiding a major investment in a single-platform system to align all software and hardware.

    A cloud-based CMS for digital signage streamlines content management, offering flexibility and scalability. It allows organizations to manage dynamic content, adapt to changes and free up resources for strategic initiatives. With real-time updates and enhanced efficiency, a cloud system is a smart choice for businesses looking to optimize their digital signage.

    Learn more about designing a standout retail experience with Samsung VXT. Also see how Samsung displays and VXT software helped elevate retailer Good American in this case study.

  • CommScope unveils propel XFrame solution to streamline high-density data centers – CRN

    CommScope unveils propel XFrame solution to streamline high-density data centers – CRN

    Equinix Partners with CleanMax to Develop 33 MW Captive Renewable Power Projects to Decarbonize its Data Centers in India
    Equinix Partners with CleanMax to Develop 33 MW Captive Renewable Power Projects to Decarbonize its Data Centers in India

    New Delhi, India, March 13, 2025 – CommScope (NASDAQ: COMM), a global leader in network connectivity, has announced the launch of its Propel XFrame™ solution, the latest addition to its Propel™ portfolio of high-performance data center solutions. Designed as a floor-mounted fiber frame, Propel XFrame is engineered to support evolving data center demands and high-performance computing environments.

    As data centers increasingly adapt to accommodate artificial intelligence (AI) deployments and high-density fiber mesh architectures, there is an urgent need for scalable, space-efficient, and cost-effective infrastructure solutions. The Propel XFrame solution directly addresses these needs by offering a flexible modular design that enables quick and seamless network reconfigurations.

    According to Erik Gronvall, VP of Data Center Strategy and Technology at CommScope, the Propel XFrame solution is designed to meet the most pressing challenges faced by data center customers. With the rapid evolution of data center infrastructure, the demand for solutions that maximize available space, minimize deployment time, and remain within budget is more crucial than ever. This latest innovation is tailored to deliver flexibility and efficiency while supporting the expanding needs of modern data centers.

    The Propel XFrame solution optimizes space utilization with its low-profile design, making it adaptable to various deployment configurations. By integrating seamlessly with Propel components and panels, it offers enhanced data center management while supporting multiple standardized connector types. Its front-accessible panel design helps reduce labor costs, while the built-in horizontal and vertical cable management ensures neat and efficient organization. These features make network modifications, expansions, and maintenance faster and more accurate.

    With the ability to be installed against a wall, placed back-to-back, or used as a freestanding frame, Propel XFrame provides unmatched deployment agility. The solution is specifically designed to simplify high-density fiber cross-connects, supporting single-length patch cords, preterminated breakout assemblies, and splicing, further enhancing operational efficiency.

    Set to be available globally by the end of Q2 2025, the Propel XFrame solution offers a cutting-edge approach to fiber management, helping data centers optimize their infrastructure for the future.

  • Record ₹1,50,000 crore in mobile exports in January FY25

    India’s mobile phone exports surged past ₹25,000 crore in January 2025 and crossed ₹1,50,000 crore in FY 2024-25 compared to the total exports of ₹22,868 crore reported in FY 2020-21, said India Cellular and Electronics Association (ICEA) on Tuesday.

    Production doubled

    Attributing the performance to the Production Linked Incentive (PLI) scheme, ICEA said mobile phone production in India has doubled from ₹2,20,000 crore in FY23-24 to ₹4,22,000 crore. It estimated production to reach an estimated ₹5,10,000 crore in FY24-25, further cementing India’s emergence as a global manufacturing powerhouse.

    Further, ICEA estimated mobile phone exports to exceed approximately ₹1,80,000 crore in FY24-25. This represents an approximate 40 per cent growth over the previous fiscal year, crossing ₹1,29,000 crore and an estimated over 680 per cent growth since the inception of the PLI scheme in FY 2020-21.

    Pankaj Mohindroo, Chairman of ICEA, said, “Moving forward, we will focus on nurturing competitiveness, expanding scale, and strengthening our supply chain. The next phase will involve aggressive integration with the value chain to boost domestic value addition, driving us toward achieving India’s ambitious $500 billion electronics manufacturing target and our vision of becoming the largest exporter of smartphones globally.”

    ICEA stated that smartphones could become India’s top export commodity for the first time this year, with the PLI scheme driving exports, and creating jobs.