Audiobooks narrated by Marsha Eves

Internet Governance: Policies and Regulation

Internet governance refers to the development and application of rules, policies, and practices that shape the evolution and use of the internet. It involves multiple stakeholders, including governments, private sector entities, civil society organizations, and technical communities. As the internet has grown from an academic experiment to a global infrastructure, the need for effective governance has become increasingly crucial. The way the internet is managed impacts digital rights, economic development, and global security, making governance a central issue in today’s interconnected world. The origins of internet governance can be traced back to the early days of the internet, when management was primarily handled by academic and research institutions. Over time, as commercial interests and governmental involvement increased, governance structures evolved to accommodate new challenges. Organizations like the Internet Corporation for Assigned Names and Numbers (ICANN) and the Internet Governance Forum (IGF) were established to facilitate discussions on technical coordination, policy-making, and regulation. The involvement of international bodies such as the United Nations further highlights the growing importance of internet governance in global affairs. A fundamental aspect of internet governance is the balance between different stakeholder interests. Governments seek to regulate the internet to ensure national security, protect citizens' rights, and maintain economic stability. Meanwhile, private companies advocate for minimal regulation to encourage innovation and market growth. Civil society organizations focus on issues such as privacy, digital rights, and access to information. This multistakeholder model aims to create a collaborative and inclusive approach to governance, but it also presents challenges in reaching consensus on key issues.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

5G Technology: Revolutionizing Connectivity

The evolution of mobile networks has been marked by significant technological advancements, each bringing us closer to a more connected world. From the early days of 1G, which introduced voice communication, to the high-speed data services of 4G, each generation has made its mark. However, 5G technology is set to revolutionize connectivity, offering not just faster speeds but also enabling new capabilities that were previously unimaginable. Understanding 5G is essential, as it holds the potential to transform industries, enhance our daily lives, and shape the future of communication. What sets 5G apart from its predecessors is its sheer speed and low latency. While 4G networks provided impressive data speeds, 5G can offer speeds up to 100 times faster, making it possible to download and stream data almost instantaneously. This leap in speed opens up a wide range of possibilities, from improved mobile broadband services to enhanced user experiences in virtual reality (VR) and augmented reality (AR). Furthermore, 5G is designed to handle more devices simultaneously, addressing the growing demands of the Internet of Things (IoT). With billions of connected devices expected to flood the market, 5G ensures that the infrastructure can support this explosion of smart gadgets and sensors. Low latency, another hallmark of 5G technology, plays a critical role in reducing the time it takes for data to travel between devices and networks. This low-latency characteristic makes 5G particularly valuable for applications that require real-time communication, such as autonomous vehicles, remote surgeries, and live-streamed events. The ability to transmit data with minimal delay opens up a new era of connectivity, where immediate responses are critical to the success of many systems.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

Advanced Cybersecurity: Defending Against Modern Threats

In the digital age, cybersecurity has become one of the most critical aspects of both personal and organizational operations. As technology continues to evolve and more systems become interconnected, the threat landscape has grown increasingly complex. Modern cybersecurity not only addresses the protection of networks and devices but also involves safeguarding the confidentiality, integrity, and availability of data in the face of constantly evolving threats. This chapter provides an overview of what modern cybersecurity entails and the key components that are essential to creating robust defense mechanisms. Cybersecurity today is far more than just installing antivirus software or setting up firewalls. As cybercriminals grow more sophisticated, the need for advanced security frameworks and strategies has never been greater. The introduction of new technologies, like the Internet of Things (IoT), cloud computing, and artificial intelligence (AI), has expanded the attack surface for cybercriminals, creating more opportunities for exploitation. Attacks now can come from anywhere, targeting not just computers but mobile devices, servers, and even connected appliances. At its core, modern cybersecurity is about understanding the various threats and the methods used by attackers. These threats can range from malware, phishing, and ransomware to more advanced persistent threats (APTs) often launched by state-sponsored actors. The motives behind cyberattacks are diverse, from financial gain and intellectual property theft to causing widespread disruption and damage to critical infrastructure. As these threats become more varied and complex, cybersecurity professionals must constantly adapt and stay ahead of emerging risks. This has led to the creation of more advanced cybersecurity practices, including penetration testing, threat intelligence, and security information and event management (SIEM) systems.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

Big Data for Business: Strategies and Applications

Big Data has emerged as a cornerstone of modern business strategy, transforming how organizations operate, make decisions, and engage with customers. At its core, Big Data refers to extremely large and complex data sets that traditional data processing software cannot handle efficiently. It is not just the size of the data that matters, but also its variety, velocity, veracity, and value—commonly known as the five Vs of Big Data. These characteristics define the challenges and opportunities that Big Data presents for businesses. The rise of digital technologies, from smartphones to sensors to cloud computing, has dramatically increased the volume of data generated daily. Businesses now have access to data from countless sources including social media platforms, customer transactions, website analytics, mobile apps, and IoT devices. This explosion of data offers unprecedented insight into customer behavior, market trends, and operational performance—if it is captured, managed, and analyzed effectively. Understanding the significance of Big Data in business starts with its ability to enable data-driven decision making. Companies no longer need to rely solely on intuition or historical trends. Instead, they can use real-time analytics to predict outcomes, optimize strategies, and respond quickly to changes in the market. This shift toward data-centric thinking can improve efficiency, reduce costs, and create a competitive advantage.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

Cloud Computing: The Definitive Guide

Cloud computing has revolutionized the way businesses and individuals interact with technology, offering vast opportunities for scalability, flexibility, and cost efficiency. At its core, cloud computing is the delivery of computing services over the internet, encompassing everything from servers and storage to databases and software. The concept has evolved over time, transforming from traditional IT infrastructure to highly dynamic and scalable cloud platforms that allow users to access resources on-demand. The evolution of cloud computing dates back to the 1960s, with the concept of time-sharing and the idea of providing remote computing resources. However, it wasn't until the early 2000s that cloud computing began to take its modern form, largely due to the widespread adoption of broadband internet and advancements in virtualization technologies. Early pioneers like Amazon Web Services (AWS), Microsoft Azure, and Google Cloud laid the foundation for today’s expansive cloud services. Cloud computing is grounded in several key concepts and terminologies that are important to understand for anyone delving into this field. At its simplest, it allows users to access and store data over the internet rather than relying on local servers or personal devices. This shift has been made possible by virtualization, a technology that enables the creation of virtual instances of physical hardware, allowing multiple users to share resources efficiently. Another fundamental concept is elasticity, which refers to the ability to scale computing resources up or down based on demand, a key feature that sets cloud computing apart from traditional IT infrastructure.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

Developing Mobile Apps: From Concept to Launch

The mobile app industry has rapidly evolved over the past decade, shaping how people interact with technology daily. With millions of apps available across various platforms, understanding the mobile app landscape is crucial for anyone looking to develop a successful application. This chapter explores the different types of mobile apps, emerging trends in app development, and the factors to consider when choosing the right platform for your project. Mobile applications generally fall into three main categories: native apps, web apps, and hybrid apps. Native apps are built specifically for a particular operating system, such as iOS or Android, using platform-specific programming languages like Swift or Kotlin. They offer high performance, seamless integration with device features, and a superior user experience. Web apps, on the other hand, run on web browsers and are built using standard web technologies like HTML, CSS, and JavaScript. While they are accessible across devices, they lack the speed and functionality of native apps. Hybrid apps combine elements of both native and web applications, using frameworks like React Native or Flutter to develop cross-platform solutions that work on multiple operating systems with a single codebase. As mobile technology advances, several trends continue to shape the app development industry. Artificial intelligence and machine learning are being integrated into apps to provide personalized user experiences, from virtual assistants to predictive analytics. Augmented reality and virtual reality have also gained traction, particularly in gaming, retail, and education. Another significant trend is the rise of 5G technology, which enables faster data transfer, lower latency, and enhanced app performance.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

Ethical Hacking: Techniques and Practices

Ethical hacking, often referred to as 'white-hat hacking,' involves the practice of intentionally probing computer systems, networks, or web applications to find and fix vulnerabilities. Unlike malicious hackers who exploit weaknesses for personal gain, ethical hackers use their skills to identify security flaws and improve an organization’s overall cybersecurity posture. The role of an ethical hacker is not only about finding vulnerabilities but also about preventing potential breaches and reducing the impact of future cyberattacks. At its core, ethical hacking aims to protect the confidentiality, integrity, and availability of information. With the increasing frequency of cyberattacks, ethical hackers play a critical role in the digital world, offering services to both private and public organizations. These hackers use the same techniques as cybercriminals, but their work is sanctioned and aimed at improving security rather than causing harm. One of the key differences between ethical hackers and malicious hackers is the legal framework under which they operate. Ethical hackers must obtain permission from the system owners before conducting tests, ensuring that their actions are lawful. This distinguishes them from cybercriminals who may breach systems without authorization, which is illegal and punishable under law. The act of hacking without consent is a criminal offense, but ethical hackers work within a legal and controlled environment to reduce risks and vulnerabilities.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

Tech for Good: Leveraging Technology for Social Impact

Technology has always played a pivotal role in shaping human progress, but in recent decades, its influence on social change has grown exponentially. From transforming communication to increasing access to essential services, technology is now at the core of how societies evolve and address global challenges. It empowers individuals, communities, and organizations to reimagine solutions to complex problems, bridging gaps that once seemed insurmountable. At its core, technology offers new tools and platforms that can amplify voices, mobilize movements, and bring about systemic change. Social media, for instance, has given marginalized groups a global stage to share their experiences and demand justice. Hashtags like #MeToo and #BlackLivesMatter are powerful examples of how digital platforms can ignite social movements, encourage dialogue, and influence policy at a global scale. These platforms break down traditional barriers, enabling people from different backgrounds to unite around shared causes and take collective action. Beyond communication, technology is transforming how we approach issues like poverty, education, and health. Innovative applications such as mobile banking have given millions of people in underserved regions access to financial services for the first time. Similarly, online learning platforms are helping bridge educational gaps, allowing students in remote areas to gain knowledge and skills that would otherwise be out of reach. These advancements not only improve individual lives but also contribute to the development of more equitable and inclusive societies.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

The Ethics of Technology: Moral Challengers

In an age where technology permeates nearly every aspect of our lives, understanding the ethical foundations behind its development and use has never been more critical. Tech ethics, at its core, explores the moral principles that guide our decisions regarding the design, implementation, and impact of technology. As digital tools become increasingly powerful and integrated into society, they bring with them profound questions about responsibility, fairness, and the human consequences of innovation. The roots of technology ethics can be traced back to classical moral philosophy. Thinkers like Aristotle, Kant, and Mill laid the groundwork for how we approach right and wrong, justice, and duty. These age-old theories—virtue ethics, deontology, and utilitarianism—are still highly relevant in today's tech-driven world. For instance, when we ask whether a self-driving car should prioritize the life of a passenger over a pedestrian, we are invoking these very moral frameworks to guide the decision-making process. In this way, ethical theory provides a lens through which we can evaluate the choices we make as developers, users, and regulators of technology. Modern concerns surrounding tech ethics often revolve around issues that were unimaginable even a few decades ago. Digital privacy, algorithmic bias, and autonomous systems challenge us to reinterpret traditional moral values in new contexts. This requires a dynamic understanding of ethics—one that can evolve alongside technological change. Unlike in the past, where tools were relatively neutral and required human operation, today's technologies often act with a degree of independence, raising the stakes of their ethical implications. Machines that learn, adapt, and decide are not just tools; they become agents of action whose behavior must be morally accountable.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

Robotics and Automation: Shaping the Future of Work

Robotics and automation have rapidly evolved from niche technological concepts to central pillars of modern industry and society. What once belonged to the realm of science fiction is now an integral part of how we produce, communicate, transport, and even care for one another. Understanding the foundations of these technologies is essential to grasp how they are reshaping the future of work. The journey of robotics dates back to ancient times with early mechanical inventions, but it wasn’t until the 20th century that programmable machines began to take shape. The term 'robot' gained popularity in the early 1920s, yet the real development of industrial robotics didn’t gain momentum until the 1960s, when the first robotic arms were introduced into assembly lines. Since then, robotics has grown exponentially, encompassing everything from humanoid robots to autonomous drones and AI-driven service machines. Automation, often linked closely with robotics, refers to the use of technology to perform tasks with minimal human intervention. While automation began with simple mechanical devices, today it incorporates advanced software, machine learning algorithms, and sensor networks. Modern automation extends beyond factories and is now seen in financial services, healthcare, logistics, agriculture, and even our homes. From smart thermostats to self-checkout systems, the influence of automation is becoming ever more visible in daily life.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

The Future of Robotics: Trends and Innovations

The story of robotics begins long before the first programmable machines. Ancient myths and early mechanical inventions hinted at humanity’s fascination with artificial beings. However, the real journey started during the Industrial Revolution, when mechanized tools began to change how humans worked. These early systems weren’t true robots, but they laid the groundwork for what would come. As electricity, computing, and engineering advanced in the 20th century, robotics emerged as a distinct and rapidly growing field. The first generation of robots were largely industrial machines—mechanical arms programmed to perform repetitive tasks in factories. Introduced in the 1950s and 60s, these robots revolutionized manufacturing. They worked tirelessly on assembly lines, improving productivity and safety. Though not intelligent by today’s standards, they marked a turning point by taking on tasks traditionally done by human hands. This era showcased the robot as a tool—precise, consistent, and dependable in controlled environments. The late 20th and early 21st centuries saw major breakthroughs that transformed robotics from rigid machines into adaptive systems. The rise of microprocessors, sensors, and more sophisticated programming enabled robots to interact with their environment. No longer confined to factory floors, they began to appear in fields like space exploration, surgery, and even homes. The introduction of AI brought a fundamental shift. Robots could now learn from data, recognize patterns, and make decisions. This leap allowed them to handle complex, dynamic tasks—like navigating unknown terrain or assisting in delicate operations.

Craig Dames (Author), Marsha Eves (Narrator)

Audiobook

Tech Giants: The Companies Shaping the Future

In just a few decades, a handful of tech companies have grown from humble beginnings into the most powerful corporations in the world. These tech giants—such as Apple, Google, Amazon, Microsoft, and Meta—didn’t just ride the wave of technological advancement; they created it. Their influence now extends far beyond the digital world, reshaping industries, economies, and even the way we live our everyday lives. The journey began in garages and dorm rooms, where innovative minds dreamed big. Apple started in a California garage, Google in a Stanford dorm, and Amazon as an online bookstore. What these companies shared was a willingness to challenge existing norms and reimagine how technology could serve people. Their founders—visionaries like Steve Jobs, Larry Page, Jeff Bezos, Bill Gates, and Mark Zuckerberg—helped pioneer bold ideas and new ways of thinking that forever changed the tech landscape. Key moments in tech history marked pivotal shifts. The launch of the iPhone in 2007 revolutionized the way we interact with technology, putting the power of computing into our pockets. Google’s search engine transformed the internet into an organized, navigable space. Amazon redefined convenience with fast, efficient online shopping and then changed the game again with Amazon Web Services (AWS), a leader in cloud computing. Microsoft, once synonymous with desktop computing, adapted to lead in software, enterprise services, and gaming. Meta, originally Facebook, reshaped how we connect and share online.

Craig Dames (Author), Marsha Eves (Narrator)

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Audiobooks Narrated by Marsha Eves