Async Activity 1

Three new technologies—RFID, 3D printing, and biometrics—will be showcased over the course of the next three weeks. RFID, a wireless technology, enables automatic item detection and tracking without requiring physical contact between tags and readers. It is widely utilized in many different applications, including supply chain tracking, inventory management, access control, and contactless payment systems. With the use of materials like plastic, metal, or food-grade components, the cutting-edge process of 3D printing turns digital representations of objects into real-world objects. From rapid prototyping in the 1980s, this method has developed into a flexible tool utilized in a variety of disciplines, including manufacturing, medical, art, and others. Biometrics, which is utilized in computer science for identification and access control, is the identification of persons based on their physical or behavioral traits. Fingerprints, facial recognition, iris scans, voice patterns, and DNA are examples of biometric traits. These traits may now be recorded and processed by sensors and algorithms, enabling trustworthy and secure authentication. Security systems, mobile devices, and other applications that demand personal identity employ biometric technology.
The creation of novel tools, methods, and procedures that push the limits of human ingenuity are a part of emerging technology. These technologies frequently start out as nascent concepts and develop into practical applications that have an impact on business and society as a whole. This improvement is defined by continuous study, testing, and refining, which results in increased efficiency, convenience, and new possibilities. The acceleration of invention, interconnectedness, and convergence characterizes the Technological Revolution. Artificial intelligence, biotechnology, and renewable energy have all hastened the development of new goods, services, and solutions, altering whole sectors and driving social transformation. The convergence and interconnection of various technologies, such as computers, telecommunications, and biology, foster innovation by merging the capabilities of several technologies, opening up new channels and unexpected applications.
Software development technologies include a wide range of tools, frameworks, and procedures that make it easier to create, deploy, and maintain software applications. These technologies are always improving in order to improve efficiency, collaboration, and the overall software development process. Python, Scratch, JavaScript, and C/C++ are popular programming languages for resource-intensive applications. AWS provides Infrastructure as a Service (IaaS), Platform as a Service (PaaS), and Software as a Service (SaaS) solutions as part of its comprehensive cloud computing platform. The Apache Hadoop framework, often known as Big Data Hadoop, is an open-source information technology platform. Companies such as HCL, Amazon, and IBM are actively looking for Big Data Hadoop experts. Data Science is a highly sought-after subject in the information technology business, requiring employees with a solid educational foundation and a thorough grasp of key issues. This involves mathematical and statistical talents, as well as programming skills and business knowledge. The latest version of the Angular framework, Angular 2+, facilitates cross-platform web application development. Developers may construct apps for mobile, web, and desktop environments using JavaScript frameworks such as AngularJS and Angular 2+. Acquiring Angular expertise and a solid grasp of JavaScript may assist individuals in progressing from entry-level to advanced web development employment. Many businesses are using Angular for web development projects, emphasizing the importance of learning Angular to keep up with the evolving demands of web development. Node.js is a cross-platform runtime environment primarily intended for networking and server-side applications. It employs an event-driven, non-blocking IO paradigm, which improves speed and lightweights. Overall, software development technologies are always improving to meet the industry's changing demands. Node.js connects to a variety of contexts, including Phyton, Android App Development, Software Testing, ASP.NET MVC, and Vue.js. Python is a popular choice in the IT business since it is a user-friendly, beginner-friendly programming language with object-oriented characteristics. With 50,000 Android applications launched on the Play Store each month, Android app development is a constantly growing issue. Training packages for Android app development walk users through the app development process. ASP.NET MVC is a development framework that, like ASP.NET Web Forms, simplifies development by dividing projects into Model, View, and Controller components. MVC developers have a lot of options with 757,533 active websites and 1,553,653 websites that use ASP.NET MVC. Key Netlify and Netguru team members maintain Vue.js, an open-source JavaScript framework for developing user interfaces and single-page apps.
The lecture covers a variety of fast evolving technologies, with an emphasis on hardware development. Arduino, a microcomputer having internal components such as a CPU, RAM, and IO ports, is one significant technology covered. It is used for data analysis and control. Microchip, Atmel, Intel, and Analog Devices are some of the most well-known microcontroller manufacturers. The lecture covers a wide range of rapidly emerging technologies, with a focus on hardware development. One notable technology discussed is Arduino, a microcontroller with internal components such as a CPU, RAM, and IO ports. It is employed in data analysis and control. Some of the most well-known microcontroller manufacturers are Microchip, Atmel, Intel, and Analog Devices. Because Arduino is open-source, you may modify or create your own boards using the design information.
The lecture emphasizes the rapid speed of innovation in emerging technologies, while conceding the difficulties of covering them all fully. It focuses on hardware creation, emphasizing the importance of Arduino as a microcomputer with internal components such as a CPU, RAM, and IO interfaces. Arduino is used in control and data processing, and it is supported by well-known microcontroller manufacturers.The Arduino Uno, which is based on the ATmega328P microprocessor, is the emphasis. It has digital and analog I/O pins, PWM outputs, a ceramic resonator, a USB connection, a power connector, an ICSP header, and a reset button. The lecture also emphasizes Arduino's function as an open-source electronic prototyping platform, providing accessible hardware and software to facilitate control system creation without the need for sophisticated PCB design.The course also stresses Arduino's open-source nature, which allows users access to its design specifics, allowing for customization or independent board construction. This look at hardware development in the context of developing technologies demonstrates the practical use of such breakthroughs, as well as the importance of open platforms like Arduino in stimulating innovation.

Posted using Honouree