Microwave –Terrestrial & Satellite
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1. Microwave –Terrestrial & Satellite (Title slide) 2. Microwave: Definition and Types 3. Microwave: Characteristics and Uses 4.Terrestrial Microwave (Title only) 5. What is Terrestrial Microwave 6. Application of Terrestrial Microwave 7. Transmission characteristics of Terrestrial Microwave 8. Satellite Microwave (Title only) 9. Description of Satellite Microwave 10. Categories of Satellite Microwave 11. Satellite transmission process 12. Applications of Satellite Microwave 13. Transmission characteristics of Satellite Microwave 14. Microwave Transmission advantages 15. Microwave Transmission disadvantages 16. Thanks
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Microwave Transmission
Microwave technology can be used for LANs, extended LANs, and mobile computing. It uses either terrestrial (ground-based) links or satellite links. There are three forms of mobile computing: packet-radio networking, cellular networking, and satellite station networking. Terrestrial microwave links employ line-of-sight transmitters and receivers in the low gigahertz range, requiring stations every 30 miles, while satellite links use geosynchronous satellites to relay signals over long distances. Microwave systems offer advantages like no cables and wide bandwidth but have disadvantages like disruption from obstacles and signal absorption.
Presentation on Applications of microwave
This presentation summarizes applications of microwave technology. It discusses how microwaves are used for satellite communication, cellular networks, wireless communication, radar, medical technology, and GPS. Specific applications mentioned include point-to-point communication, satellite communication, cellular access, space sensing and spectroscopy, medical imaging and treatment, defense technologies like radar, navigation and positioning like GPS. The document also provides brief explanations of how microwaves are used within these applications.
Microwaves Applications
The document discusses the basics of microwaves and radar technology. It begins with an introduction to microwaves, including their properties, advantages, disadvantages and applications. It then covers topics such as waveguides, how microwave ovens work, and the basic principles and functions of radar systems. The document provides information on different microwave frequency bands, wave propagation in waveguides, and common uses of radar technology in fields like weather monitoring, air traffic control and law enforcement.
Hf radio
This document provides an introduction to HF (high frequency) radio for new amateur radio operators. It discusses key topics like HF propagation via reflection from ionosphere layers, different types of propagation, radio controls and features, antenna types, and getting started in HF radio with an inexpensive transceiver and simple wire antenna. The goal is to explain the basics of HF radio in an accessible way to spark interest in communicating over long distances using this mode of amateur radio.
Wireless network
Wireless networks allow devices to connect to a network without being physically connected by cables. They work by transmitting radio signals that carry data between wireless devices and access points or base stations. There are different types of wireless networks including WLANs for local areas like campuses, WPANs for personal networks using technologies like Bluetooth, and WMANs for connecting multiple networks over a metropolitan area. Wireless networks offer mobility and flexibility compared to wired networks but have lower bandwidth and speeds. Common applications of wireless networks include mobile access to the internet, extending wired networks wirelessly, and connecting remote areas without wired infrastructure.
Introduction to satellite communication
Satellite communication allows people to communicate across long distances. Arthur C. Clarke first proposed the idea of communication satellites in 1945. The first satellite launched was Sputnik 1 by Russia in 1957, though it did not have communication capabilities. Commercial satellite communication began with the launch of Early Bird in 1965. Satellites can be in low, medium or geostationary orbits and operate in different frequency bands like C-band and Ku-band. They provide advantages like global coverage and reliability over terrestrial networks.
Mobile satellite communication
Mobile satellite communication uses satellites to enable communication between mobile users. There are different types of satellite orbits used - geostationary, medium earth orbit, and low earth orbit. Each orbit has advantages and disadvantages for mobile communication. Mobile satellite services include maritime, land, aeronautical, personal, and broadcast. Signal propagation is impaired by effects like reflection, refraction, shadowing, and different types of noise. Thermal noise places a fundamental limit on communication performance.
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Microwave Transmission
Microwave technology can be used for LANs, extended LANs, and mobile computing. It uses either terrestrial (ground-based) links or satellite links. There are three forms of mobile computing: packet-radio networking, cellular networking, and satellite station networking. Terrestrial microwave links employ line-of-sight transmitters and receivers in the low gigahertz range, requiring stations every 30 miles, while satellite links use geosynchronous satellites to relay signals over long distances. Microwave systems offer advantages like no cables and wide bandwidth but have disadvantages like disruption from obstacles and signal absorption.
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This presentation summarizes applications of microwave technology. It discusses how microwaves are used for satellite communication, cellular networks, wireless communication, radar, medical technology, and GPS. Specific applications mentioned include point-to-point communication, satellite communication, cellular access, space sensing and spectroscopy, medical imaging and treatment, defense technologies like radar, navigation and positioning like GPS. The document also provides brief explanations of how microwaves are used within these applications.
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The document discusses the basics of microwaves and radar technology. It begins with an introduction to microwaves, including their properties, advantages, disadvantages and applications. It then covers topics such as waveguides, how microwave ovens work, and the basic principles and functions of radar systems. The document provides information on different microwave frequency bands, wave propagation in waveguides, and common uses of radar technology in fields like weather monitoring, air traffic control and law enforcement.
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Wireless network
Wireless networks allow devices to connect to a network without being physically connected by cables. They work by transmitting radio signals that carry data between wireless devices and access points or base stations. There are different types of wireless networks including WLANs for local areas like campuses, WPANs for personal networks using technologies like Bluetooth, and WMANs for connecting multiple networks over a metropolitan area. Wireless networks offer mobility and flexibility compared to wired networks but have lower bandwidth and speeds. Common applications of wireless networks include mobile access to the internet, extending wired networks wirelessly, and connecting remote areas without wired infrastructure.
Introduction to satellite communication
Satellite communication allows people to communicate across long distances. Arthur C. Clarke first proposed the idea of communication satellites in 1945. The first satellite launched was Sputnik 1 by Russia in 1957, though it did not have communication capabilities. Commercial satellite communication began with the launch of Early Bird in 1965. Satellites can be in low, medium or geostationary orbits and operate in different frequency bands like C-band and Ku-band. They provide advantages like global coverage and reliability over terrestrial networks.
Mobile satellite communication
Mobile satellite communication uses satellites to enable communication between mobile users. There are different types of satellite orbits used - geostationary, medium earth orbit, and low earth orbit. Each orbit has advantages and disadvantages for mobile communication. Mobile satellite services include maritime, land, aeronautical, personal, and broadcast. Signal propagation is impaired by effects like reflection, refraction, shadowing, and different types of noise. Thermal noise places a fundamental limit on communication performance.
Unguided media
Unguided media uses electromagnetic waves to transmit signals without physical conductors. This is known as wireless communication. Signals can travel through ground propagation, sky propagation, or line-of-sight propagation. The electromagnetic spectrum used for wireless communication ranges from 3 kHz to 900 THz. Unguided signals include radio waves, microwaves, and infrared waves, which propagate differently and have different applications.
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What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
Introduction of Cybersecurity with OSS at Code Europe 2024
I develop the Ruby programming language, RubyGems, and Bundler, which are package managers for Ruby. Today, I will introduce how to enhance the security of your application using open-source software (OSS) examples from Ruby and RubyGems.
The first topic is CVE (Common Vulnerabilities and Exposures). I have published CVEs many times. But what exactly is a CVE? I'll provide a basic understanding of CVEs and explain how to detect and handle vulnerabilities in OSS.
Next, let's discuss package managers. Package managers play a critical role in the OSS ecosystem. I'll explain how to manage library dependencies in your application.
I'll share insights into how the Ruby and RubyGems core team works to keep our ecosystem safe. By the end of this talk, you'll have a better understanding of how to safeguard your code.
TrustArc Webinar - 2024 Global Privacy Survey
How does your privacy program stack up against your peers? What challenges are privacy teams tackling and prioritizing in 2024?
In the fifth annual Global Privacy Benchmarks Survey, we asked over 1,800 global privacy professionals and business executives to share their perspectives on the current state of privacy inside and outside of their organizations. This year’s report focused on emerging areas of importance for privacy and compliance professionals, including considerations and implications of Artificial Intelligence (AI) technologies, building brand trust, and different approaches for achieving higher privacy competence scores.
See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
Taking AI to the Next Level in Manufacturing.pdf
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
A Comprehensive Guide to DeFi Development Services in 2024
DeFi represents a paradigm shift in the financial industry. Instead of relying on traditional, centralized institutions like banks, DeFi leverages blockchain technology to create a decentralized network of financial services. This means that financial transactions can occur directly between parties, without intermediaries, using smart contracts on platforms like Ethereum.
In 2024, we are witnessing an explosion of new DeFi projects and protocols, each pushing the boundaries of what’s possible in finance.
In summary, DeFi in 2024 is not just a trend; it’s a revolution that democratizes finance, enhances security and transparency, and fosters continuous innovation. As we proceed through this presentation, we'll explore the various components and services of DeFi in detail, shedding light on how they are transforming the financial landscape.
At Intelisync, we specialize in providing comprehensive DeFi development services tailored to meet the unique needs of our clients. From smart contract development to dApp creation and security audits, we ensure that your DeFi project is built with innovation, security, and scalability in mind. Trust Intelisync to guide you through the intricate landscape of decentralized finance and unlock the full potential of blockchain technology.
Ready to take your DeFi project to the next level? Partner with Intelisync for expert DeFi development services today!
Programming Foundation Models with DSPy - Meetup Slides
Prompting language models is hard, while programming language models is easy. In this talk, I will discuss the state-of-the-art framework DSPy for programming foundation models with its powerful optimizers and runtime constraint system.
Operating System Used by Users in day-to-day life.pptx
Dive into the realm of operating systems (OS) with Pravash Chandra Das, a seasoned Digital Forensic Analyst, as your guide. 🚀 This comprehensive presentation illuminates the core concepts, types, and evolution of OS, essential for understanding modern computing landscapes.
Beginning with the foundational definition, Das clarifies the pivotal role of OS as system software orchestrating hardware resources, software applications, and user interactions. Through succinct descriptions, he delineates the diverse types of OS, from single-user, single-task environments like early MS-DOS iterations, to multi-user, multi-tasking systems exemplified by modern Linux distributions.
Crucial components like the kernel and shell are dissected, highlighting their indispensable functions in resource management and user interface interaction. Das elucidates how the kernel acts as the central nervous system, orchestrating process scheduling, memory allocation, and device management. Meanwhile, the shell serves as the gateway for user commands, bridging the gap between human input and machine execution. 💻
The narrative then shifts to a captivating exploration of prominent desktop OSs, Windows, macOS, and Linux. Windows, with its globally ubiquitous presence and user-friendly interface, emerges as a cornerstone in personal computing history. macOS, lauded for its sleek design and seamless integration with Apple's ecosystem, stands as a beacon of stability and creativity. Linux, an open-source marvel, offers unparalleled flexibility and security, revolutionizing the computing landscape. 🖥️
Moving to the realm of mobile devices, Das unravels the dominance of Android and iOS. Android's open-source ethos fosters a vibrant ecosystem of customization and innovation, while iOS boasts a seamless user experience and robust security infrastructure. Meanwhile, discontinued platforms like Symbian and Palm OS evoke nostalgia for their pioneering roles in the smartphone revolution.
The journey concludes with a reflection on the ever-evolving landscape of OS, underscored by the emergence of real-time operating systems (RTOS) and the persistent quest for innovation and efficiency. As technology continues to shape our world, understanding the foundations and evolution of operating systems remains paramount. Join Pravash Chandra Das on this illuminating journey through the heart of computing. 🌟
Best 20 SEO Techniques To Improve Website Visibility In SERP
Boost your website's visibility with proven SEO techniques! Our latest blog dives into essential strategies to enhance your online presence, increase traffic, and rank higher on search engines. From keyword optimization to quality content creation, learn how to make your site stand out in the crowded digital landscape. Discover actionable tips and expert insights to elevate your SEO game.
Fueling AI with Great Data with Airbyte Webinar
This talk will focus on how to collect data from a variety of sources, leveraging this data for RAG and other GenAI use cases, and finally charting your course to productionalization.
System Design Case Study: Building a Scalable E-Commerce Platform - Hiike
This case study explores designing a scalable e-commerce platform, covering key requirements, system components, and best practices.
Monitoring and Managing Anomaly Detection on OpenShift.pdf
Monitoring and Managing Anomaly Detection on OpenShift
Overview
Dive into the world of anomaly detection on edge devices with our comprehensive hands-on tutorial. This SlideShare presentation will guide you through the entire process, from data collection and model training to edge deployment and real-time monitoring. Perfect for those looking to implement robust anomaly detection systems on resource-constrained IoT/edge devices.
Key Topics Covered
1. Introduction to Anomaly Detection
- Understand the fundamentals of anomaly detection and its importance in identifying unusual behavior or failures in systems.
2. Understanding Edge (IoT)
- Learn about edge computing and IoT, and how they enable real-time data processing and decision-making at the source.
3. What is ArgoCD?
- Discover ArgoCD, a declarative, GitOps continuous delivery tool for Kubernetes, and its role in deploying applications on edge devices.
4. Deployment Using ArgoCD for Edge Devices
- Step-by-step guide on deploying anomaly detection models on edge devices using ArgoCD.
5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
- Learn how to view and analyze Kafka messages stored in a data lake for better insights.
7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
Azure API Management to expose backend services securely
How to use Azure API Management to expose backend service securely
Skybuffer SAM4U tool for SAP license adoption
Manage and optimize your license adoption and consumption with SAM4U, an SAP free customer software asset management tool.
SAM4U, an SAP complimentary software asset management tool for customers, delivers a detailed and well-structured overview of license inventory and usage with a user-friendly interface. We offer a hosted, cost-effective, and performance-optimized SAM4U setup in the Skybuffer Cloud environment. You retain ownership of the system and data, while we manage the ABAP 7.58 infrastructure, ensuring fixed Total Cost of Ownership (TCO) and exceptional services through the SAP Fiori interface.
Artificial Intelligence for XMLDevelopment
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
leewayhertz.com-AI in predictive maintenance Use cases technologies benefits ...
Predictive maintenance is a proactive approach that anticipates equipment failures before they happen. At the forefront of this innovative strategy is Artificial Intelligence (AI), which brings unprecedented precision and efficiency. AI in predictive maintenance is transforming industries by reducing downtime, minimizing costs, and enhancing productivity.
Nunit vs XUnit vs MSTest Differences Between These Unit Testing Frameworks.pdf
When it comes to unit testing in the .NET ecosystem, developers have a wide range of options available. Among the most popular choices are NUnit, XUnit, and MSTest. These unit testing frameworks provide essential tools and features to help ensure the quality and reliability of code. However, understanding the differences between these frameworks is crucial for selecting the most suitable one for your projects.
Trusted Execution Environment for Decentralized Process Mining
Presentation of the paper "Trusted Execution Environment for Decentralized Process Mining" given during the CAiSE 2024 Conference in Cyprus on June 7, 2024.
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A Comprehensive Guide to DeFi Development Services in 2024
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Operating System Used by Users in day-to-day life.pptx
Operating System Used by Users in day-to-day life.pptx
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Microwave –Terrestrial & Satellite
- 2. Microwave transmission uses very-high frequency signals Frequency range:300MHz-300Ghz Wavelengths range in air:100cm-1mm The two types of microwave transmission Microwaves are electromagnetic waves Microwave Terrestrial Satellite 1 2
- 3. • Unidirectional • Propagation is line-of sight. • Repeaters are needed for long distance communication. • Very high frequency microwaves cannot penetrate walls. • Wave band is relatively wide almost 299GHZ → a high data rate • Use of certain portion of the band requires permission from authorities. Microwave Microwaves are used for unicast communication such as cellular telephones, satellite networks, and wireless LANs.
- 5. • Terrestrial microwave transmissions are sent between two microwave stations on the earth (earth station). • It is the most common form of long-distance communication. • Terrestrial microwave systems operate in the low- gigahertz range • Use a parabolic dish to focus a narrow beam onto a receiver antenna Terrestrial Microwave
- 6. Used for long-distance telephone service Parabolic dish transmitter, mounted high Used for both voice and TV transmission Used by common carriers as well as private networks Terrestrial Microwave cont. Applications
- 7. fewer repeaters but requires line of sight transmission Higher frequencies give higher data rates • common frequencies used for transmission are in the range 1 to 40GHz. main source of loss is attenuation caused mostly by distance, rainfall and interference Terrestrial Microwave cont. Transmission characteristics
- 9. A communication satellite is a microwave relay station Used to link two or more ground stations Receives on one frequency (uplink), amplifies or repeats signal and transmits on another frequency (downlink) eg. uplink 5.925-6.425 GHz & downlink 3.7-4.2 GHz frequency bands are called transponder channels Requires geo-stationary orbit rotation match occurs at a height of 35,863 km at the equator need to be spaced at least 3° - 4° apart to avoid interfering with each other spacing limits the number of possible satellites Satellite Microwave
- 10. Satellite Microwave cont. Most communications satellites are placed into orbit 22,300 miles above the earth's surface. The earth's gravity keeps the satellite in orbit at the same rate as the earth (geosynchronous orbit). Such satellites are called geosynchronous orbiting satellites (GEOS). Low earth orbiting satellites (LEOS) orbit the earth at a height of 325-1,000 miles and they orbit around the poles (not in a fixed position relative to the earth). Medium earth orbiting satellites (MEOS) are similar to LEOS but are positioned at 6,000-10,000 miles above the earth. Because microwaves use line-of-sight, the satellite signal can only reach a part of the earth. This area is called a footprint. At a glance, categories of satellites
- 11. dish dish uplink station downlink station satellite transponder 22,300 miles Satellite Transmission Process
- 12. Satellite Microwave cont. Private business networks satellite providers can divide capacity into channels to lease to individual business users Television distribution programs are transmitted to the satellite then broadcast down to a number of stations which then distributes the programs to individual viewers Direct Broadcast Satellite (DBS) transmits video signals directly to the home user Long-distance telephone transmission high-usage international trunks Global positioning Navstar Global Positioning System (GPS) Applications
- 13. Satellite Microwave cont. the optimum frequency range for satellite transmission is 1 to 10 GHz lower has significant noise from natural sources higher is attenuated by atmospheric absorption and precipitation satellites use a frequency bandwidth range of 5.925 to 6.425 GHz from earth to satellite (uplink) and a range of 3.7 to 4.2 GHz from satellite to earth (downlink) this is referred to as the 4/6-GHz band because of saturation the 12/14-GHz band has been developed (uplink: 14 - 14.5 GHz; downlink: 11.7 - 12.2 GHz Transmission characteristics
- 14. Microwave Transmission advantages No cables needed Multiple channels available Wide bandwidth
- 15. Microwave Transmission Disadvantages line of sight requirement They require no obstacle is present in the transmission path expensive towers and repeaters subject to interference such as passing airplanes and rain
- 16. a presentation by- Farhana Mishu fp.mishu@gmail.com Thank you