The document provides an overview of Starlink, a satellite internet constellation developed by SpaceX. It discusses SpaceX's goal of providing global high-speed internet access through a network of low Earth orbit satellites. The document outlines key aspects of Starlink such as the launch of initial satellites in 2019, the satellite design features, how the system works by connecting users to satellites, service plan options, and the Starlink kits used to access the satellite network.
Starlink satellites Report for alls.pptxBloomsTech
Starlink is a satellite internet constellation operated by SpaceX, providing high-speed, low-latency internet access to users around the world. This report details the engineering aspects of Starlink, including its design, deployment, and operation. It also discusses the potential benefits and challenges of Starlink technology.
Starlink is a constellation of thousands of small satellites orbiting Earth in low-Earth orbit (LEO). These satellites provide internet access to users on the ground by relaying signals between the satellites and ground stations. Starlink was founded by Elon Musk in 2015 with the goal of providing internet access to underserved areas of the world.
This document discusses SpaceX's Starlink satellite internet constellation. Starlink aims to provide global high-speed, low-latency broadband internet by deploying thousands of mass-produced small satellites in low Earth orbit. Currently there are over 900 Starlink satellites in orbit. The satellites communicate with ground stations and consumer dishes to transmit internet signals. Starlink promises faster speeds than traditional satellite internet by using a closer LEO orbit. However, critics warn the large constellation risks increasing space debris and interfering with astronomical observations. SpaceX ultimately aims for a constellation of 42,000 satellites to provide continuous global coverage.
This document discusses SpaceX's Starlink satellite internet constellation. Starlink aims to provide global high-speed, low-latency broadband internet by launching thousands of mass-produced small satellites into low Earth orbit. Currently there are over 900 Starlink satellites in orbit. The satellites communicate with ground stations and consumer dishes to transmit internet signals. Starlink promises faster speeds than traditional satellite internet by using a closer LEO orbit. However, critics warn the large constellation risks increasing space debris and interfering with astronomical observations. SpaceX ultimately aims for a constellation of 42,000 satellites to provide continuous global coverage.
This document discusses SpaceX's Starlink satellite internet constellation. Starlink aims to provide global high-speed, low-latency broadband internet by launching thousands of mass-produced small satellites into low Earth orbit. Currently there are over 900 Starlink satellites in orbit. The satellites communicate with ground stations and consumer dishes to transmit internet signals. Starlink promises faster speeds than traditional satellite internet by using a closer LEO orbit. However, critics warn the large constellation risks increasing space debris and interfering with astronomical observations. SpaceX ultimately aims for a constellation of 42,000 satellites to provide continuous global coverage.
Starlink is a satellite internet constellation operated by SpaceX that provides low-latency, high-speed internet access across the globe. It uses a network of hundreds of satellites in low Earth orbit to transmit internet access to users via small ground-based receivers. Each satellite weighs 260kg and uses ion thrusters and solar arrays for propulsion and power. The system autonomously avoids collisions and deorbits defunct satellites safely. Starlink aims to provide global coverage by 2021, targeting speeds over 100Mbps. Early beta testing offers speeds from 50-150Mbps for $499 upfront plus $99/month.
This document provides information about Starlink, a satellite internet constellation project led by SpaceX. It discusses what Starlink is, how it works, its advantages and disadvantages. Key points include: Starlink plans to launch 12,000 satellites to provide global high-speed internet access. It will use low Earth orbit satellites and phased array antennas. Current advantages are high speeds and availability for remote areas, while disadvantages include limited availability currently and potential interference from weather.
The document provides an overview of Starlink, a satellite internet constellation developed by SpaceX. It discusses SpaceX's goal of providing global high-speed internet access through a network of low Earth orbit satellites. The document outlines key aspects of Starlink such as the launch of initial satellites in 2019, the satellite design features, how the system works by connecting users to satellites, service plan options, and the Starlink kits used to access the satellite network.
Starlink satellites Report for alls.pptxBloomsTech
Starlink is a satellite internet constellation operated by SpaceX, providing high-speed, low-latency internet access to users around the world. This report details the engineering aspects of Starlink, including its design, deployment, and operation. It also discusses the potential benefits and challenges of Starlink technology.
Starlink is a constellation of thousands of small satellites orbiting Earth in low-Earth orbit (LEO). These satellites provide internet access to users on the ground by relaying signals between the satellites and ground stations. Starlink was founded by Elon Musk in 2015 with the goal of providing internet access to underserved areas of the world.
This document discusses SpaceX's Starlink satellite internet constellation. Starlink aims to provide global high-speed, low-latency broadband internet by deploying thousands of mass-produced small satellites in low Earth orbit. Currently there are over 900 Starlink satellites in orbit. The satellites communicate with ground stations and consumer dishes to transmit internet signals. Starlink promises faster speeds than traditional satellite internet by using a closer LEO orbit. However, critics warn the large constellation risks increasing space debris and interfering with astronomical observations. SpaceX ultimately aims for a constellation of 42,000 satellites to provide continuous global coverage.
This document discusses SpaceX's Starlink satellite internet constellation. Starlink aims to provide global high-speed, low-latency broadband internet by launching thousands of mass-produced small satellites into low Earth orbit. Currently there are over 900 Starlink satellites in orbit. The satellites communicate with ground stations and consumer dishes to transmit internet signals. Starlink promises faster speeds than traditional satellite internet by using a closer LEO orbit. However, critics warn the large constellation risks increasing space debris and interfering with astronomical observations. SpaceX ultimately aims for a constellation of 42,000 satellites to provide continuous global coverage.
This document discusses SpaceX's Starlink satellite internet constellation. Starlink aims to provide global high-speed, low-latency broadband internet by launching thousands of mass-produced small satellites into low Earth orbit. Currently there are over 900 Starlink satellites in orbit. The satellites communicate with ground stations and consumer dishes to transmit internet signals. Starlink promises faster speeds than traditional satellite internet by using a closer LEO orbit. However, critics warn the large constellation risks increasing space debris and interfering with astronomical observations. SpaceX ultimately aims for a constellation of 42,000 satellites to provide continuous global coverage.
Starlink is a satellite internet constellation operated by SpaceX that provides low-latency, high-speed internet access across the globe. It uses a network of hundreds of satellites in low Earth orbit to transmit internet access to users via small ground-based receivers. Each satellite weighs 260kg and uses ion thrusters and solar arrays for propulsion and power. The system autonomously avoids collisions and deorbits defunct satellites safely. Starlink aims to provide global coverage by 2021, targeting speeds over 100Mbps. Early beta testing offers speeds from 50-150Mbps for $499 upfront plus $99/month.
This document provides information about Starlink, a satellite internet constellation project led by SpaceX. It discusses what Starlink is, how it works, its advantages and disadvantages. Key points include: Starlink plans to launch 12,000 satellites to provide global high-speed internet access. It will use low Earth orbit satellites and phased array antennas. Current advantages are high speeds and availability for remote areas, while disadvantages include limited availability currently and potential interference from weather.
This document provides an overview of satellite systems, including Iridium, Globalstar, and ICO constellations. It begins with an introduction to satellite systems and their purposes. It then describes the different types of orbits used - geostationary (GEO), medium earth orbit (MEO), and low earth orbit (LEO). The document outlines the Iridium constellation of 66 satellites in 6 orbital planes. It also details the Globalstar system using 48 satellites and its use of LEO orbits. Finally, it compares key aspects of the Iridium, Globalstar, and ICO satellite networks.
This document provides an overview of satellite systems, including their classification into different orbit types (GEO, MEO, LEO). It describes the Iridium and Globalstar satellite constellations and their networking, as well as the ICO satellite concept. Iridium uses 66 satellites in low Earth orbit to provide voice and data coverage worldwide. Globalstar's satellite phones use a constellation of low Earth orbit satellites with two orbital planes. The ICO system planned to use 10 satellites in medium Earth orbit to offer mobile services including voice and data.
Difference between Optical Communication and Satellite CommunicationApoorvaGoel25
Optical communication and satellite communication are two methods for transmitting information over long distances. Optical communication uses light pulses through fiber optic cables, while satellite communication uses artificial satellites orbiting Earth. Both have advantages and disadvantages for different communication needs. Optical communication provides high bandwidth, security, and low power usage, while satellite communication enables global coverage and support for multiple users.
The document discusses different types of orbits used by satellites, including low Earth orbit (LEO), medium Earth orbit (MEO), and geosynchronous orbit (GEO). It then focuses on using LEO satellites to provide affordable, high-speed internet access globally. Several companies are working on large LEO satellite constellations, including SpaceX, OneWeb, Amazon, and Kepler Communications. These companies face hurdles such as meeting service expectations, ensuring satellite reliability, managing space debris, addressing economic uncertainties, and navigating regulation.
Facebook's solar-powered drone 'AQUILA' , is one which will beam internet to remote parts of the world and eventually break the record for longest unmanned aircraft flight.
Low-Earth-Orbit (LEO) satellites operate at altitudes between 500-2000 km, much lower than traditional geosynchronous satellites. They are used for telecommunications, data transmission, and satellite phone services to areas where fiber optic cables are not viable. Several companies, including SpaceX and Amazon, are launching large LEO satellite constellations to provide global high-speed internet access. LEO satellites have lower latency than geosynchronous satellites but shorter lifespans, and their smaller coverage areas require more satellites. While disruptive, LEO systems are currently at the peak of inflated expectations as the technology is still developing.
The Alpha CubeSat project aims to launch a 6U CubeSat into deep space to demonstrate new satellite technologies and conduct experiments. It will travel as far as 4 million km from Earth before entering lunar orbit to study the Moon's surface. The CubeSat aims to win the NASA Cube Quest Challenge by demonstrating advanced operations in deep space using minimal energy trajectories. It will test new satellite instruments and orbital maneuvers. The goal is to establish affordable and regular access to space by taking advantage of launches from the International Space Station and rideshares with other rockets.
The document discusses submarine internet cables. It explains that 99% of international internet data is transmitted through underwater cables. Tim Berners-Lee invented the World Wide Web in 1989. Data is transmitted over cables in packets using the TCP protocol and is rebuilt at its destination. Google's submarine cables connect continents and form the internet backbone. Undersea cables have advantages like low data loss but are difficult and costly to repair when breaks occur.
This document provides an overview of satellite networks. It discusses the different types of satellite orbits including GEO, MEO, and LEO. GEO satellites orbit at 35,786 km above the earth's surface along the equator. MEO satellites orbit between 5,000-15,000 km above the earth. LEO satellites are much closer, ranging from 500-2,000 km. Examples of different satellite systems like GPS, Iridium, and Teledesic are also provided. The advantages of satellite networks include wide coverage area and independent transmission costs. Disadvantages include high launch costs and larger propagation delays.
Today out of 7 billion people only 2.7 billion are accessing internet around the world. In order to survive, they
cannot think that there is no internet because it is inevitable part of their life, where everyone and everything is connected to
the internet. To achieve this goal, Communication is one of the main objectives. They have made continuous efforts
themselves, and now efforts have been made in heaven or address as the number of users accessing the internet continuously.
Internet is growing day by day, and at the same time the Facebook took an initiative called AQUILA as the solar powered
drones. This focuses on the mechanism that drone is to provide the amount of the previous internet services available. The
project is managed by Facebook and internet.org as Aquila (The Solar Powered Drone). The idea is to provide internet
service to areas of the world where people less or no access to the internet. This method of online services through an
extensive drone, which has a wingspan of a Boeing 737 wing with less weight than a car. This will operate at the height of
60,000 to 90,000 ft. in the air, and can run for three months with the internet speeds of 10 gigabits per second.
A Stratellite is a type of satellite that is stationed in the stratosphere at an altitude of about 13 miles, rather than in orbit. It can provide clear communications coverage to an entire metropolitan area as well as rural areas. Stratellites are airships that carry payloads and communication equipment. They can remain stationary in the stratosphere for long periods of time, providing services like broadband internet, cell phone, and television coverage to millions of users simultaneously. Stratellites have advantages over traditional satellites in that they are cheaper to launch and maintain, and can provide continuous coverage from the stratosphere for up to a year at a time.
A Stratellite is a type of satellite that is stationed in the stratosphere at an altitude of about 13 miles, rather than in orbit. It can provide clear communications coverage to an entire metropolitan area as well as rural areas. Stratellites are designed to carry various payloads determined by customer needs and can perform both short and long missions. They provide communication advantages over traditional satellites by reducing transmission times. Stratellites use airship technology, solar power, and electric motors to remain at a fixed coordinate. They have the potential to deliver services like broadband internet, TV, and mobile phone networks to wide areas at low cost compared to other options.
A Stratellite is a type of satellite that is stationed in the stratosphere at an altitude of about 13 miles, rather than in orbit. It can provide clear communications coverage to an entire metropolitan area as well as rural areas. Stratellites are airships that are powered by solar energy and electric motors. They can carry various payloads and communications equipment and remain stationary for long periods of time. Stratellites have advantages over traditional satellites in that they have lower launch costs, reduced transmission times, and can provide high-speed broadband internet, cellular, and video services to wide areas.
The document is an assignment on satellite communications for a student named Reymart Olaño. It provides an introduction to satellite telecommunications and discusses the main components of satellite systems, which include the satellite and ground stations. It then describes different utilities of satellite communication such as traditional telecommunications, cellular networks, television signals, marine communications, spaceborne land mobile services, and satellite messaging for commercial jets. The document also discusses satellite systems like INTELSAT, DOMSAT, and SARSAT. It concludes by explaining Kepler's laws of planetary motion and defining terms related to earth-orbiting satellites.
Internet of Space - Communication Systems for Future Space-bases Internet Ser...Paulo Milheiro Mendes
1) The document discusses the potential for satellite constellations in low Earth orbit (LEO) to enable a space-based internet through providing global connectivity with lower latency than traditional geostationary satellites.
2) Emerging LEO constellations from companies like SpaceX, OneWeb, and Telesat promise speeds close to fiber with nearly full global coverage and latency around 25ms.
3) For the space internet to be realized, challenges around developing low-cost user terminals, multi-tenant cooperation between constellations, and addressing different traffic needs across orbital regimes must be overcome.
This document provides an overview of optical satellite communications, including intersatellite links (ISLs) and global achievements. It discusses how ISLs allow for increased capacity and coverage by connecting satellites in different orbits, such as GEO-LEO and GEO-GEO links. Optical communications provide advantages over radio links, including higher antenna gains due to shorter wavelengths, but require more accurate pointing and tracking. The document outlines examples of optical ISL applications and global satellite networks using interconnected satellites.
This document discusses proposals for airborne internet networks. It describes three main systems - Halo networks using high-altitude planes, Sky Station using high-altitude blimps, and NASA's Helios aircraft. The Halo network would use a plane called Proteus as a hub carrying networking equipment. Sky Station would use blimps stationed at 13 miles above cities to provide internet coverage. NASA's Helios prototype is made of lightweight composite materials and aims to stay airborne for six months. The document outlines the potential benefits of airborne internet for providing connectivity to aircraft and opportunities to access the internet from the sky.
Ivanti’s Patch Tuesday breakdown goes beyond patching your applications and brings you the intelligence and guidance needed to prioritize where to focus your attention first. Catch early analysis on our Ivanti blog, then join industry expert Chris Goettl for the Patch Tuesday Webinar Event. There we’ll do a deep dive into each of the bulletins and give guidance on the risks associated with the newly-identified vulnerabilities.
This document provides an overview of satellite systems, including Iridium, Globalstar, and ICO constellations. It begins with an introduction to satellite systems and their purposes. It then describes the different types of orbits used - geostationary (GEO), medium earth orbit (MEO), and low earth orbit (LEO). The document outlines the Iridium constellation of 66 satellites in 6 orbital planes. It also details the Globalstar system using 48 satellites and its use of LEO orbits. Finally, it compares key aspects of the Iridium, Globalstar, and ICO satellite networks.
This document provides an overview of satellite systems, including their classification into different orbit types (GEO, MEO, LEO). It describes the Iridium and Globalstar satellite constellations and their networking, as well as the ICO satellite concept. Iridium uses 66 satellites in low Earth orbit to provide voice and data coverage worldwide. Globalstar's satellite phones use a constellation of low Earth orbit satellites with two orbital planes. The ICO system planned to use 10 satellites in medium Earth orbit to offer mobile services including voice and data.
Difference between Optical Communication and Satellite CommunicationApoorvaGoel25
Optical communication and satellite communication are two methods for transmitting information over long distances. Optical communication uses light pulses through fiber optic cables, while satellite communication uses artificial satellites orbiting Earth. Both have advantages and disadvantages for different communication needs. Optical communication provides high bandwidth, security, and low power usage, while satellite communication enables global coverage and support for multiple users.
The document discusses different types of orbits used by satellites, including low Earth orbit (LEO), medium Earth orbit (MEO), and geosynchronous orbit (GEO). It then focuses on using LEO satellites to provide affordable, high-speed internet access globally. Several companies are working on large LEO satellite constellations, including SpaceX, OneWeb, Amazon, and Kepler Communications. These companies face hurdles such as meeting service expectations, ensuring satellite reliability, managing space debris, addressing economic uncertainties, and navigating regulation.
Facebook's solar-powered drone 'AQUILA' , is one which will beam internet to remote parts of the world and eventually break the record for longest unmanned aircraft flight.
Low-Earth-Orbit (LEO) satellites operate at altitudes between 500-2000 km, much lower than traditional geosynchronous satellites. They are used for telecommunications, data transmission, and satellite phone services to areas where fiber optic cables are not viable. Several companies, including SpaceX and Amazon, are launching large LEO satellite constellations to provide global high-speed internet access. LEO satellites have lower latency than geosynchronous satellites but shorter lifespans, and their smaller coverage areas require more satellites. While disruptive, LEO systems are currently at the peak of inflated expectations as the technology is still developing.
The Alpha CubeSat project aims to launch a 6U CubeSat into deep space to demonstrate new satellite technologies and conduct experiments. It will travel as far as 4 million km from Earth before entering lunar orbit to study the Moon's surface. The CubeSat aims to win the NASA Cube Quest Challenge by demonstrating advanced operations in deep space using minimal energy trajectories. It will test new satellite instruments and orbital maneuvers. The goal is to establish affordable and regular access to space by taking advantage of launches from the International Space Station and rideshares with other rockets.
The document discusses submarine internet cables. It explains that 99% of international internet data is transmitted through underwater cables. Tim Berners-Lee invented the World Wide Web in 1989. Data is transmitted over cables in packets using the TCP protocol and is rebuilt at its destination. Google's submarine cables connect continents and form the internet backbone. Undersea cables have advantages like low data loss but are difficult and costly to repair when breaks occur.
This document provides an overview of satellite networks. It discusses the different types of satellite orbits including GEO, MEO, and LEO. GEO satellites orbit at 35,786 km above the earth's surface along the equator. MEO satellites orbit between 5,000-15,000 km above the earth. LEO satellites are much closer, ranging from 500-2,000 km. Examples of different satellite systems like GPS, Iridium, and Teledesic are also provided. The advantages of satellite networks include wide coverage area and independent transmission costs. Disadvantages include high launch costs and larger propagation delays.
Today out of 7 billion people only 2.7 billion are accessing internet around the world. In order to survive, they
cannot think that there is no internet because it is inevitable part of their life, where everyone and everything is connected to
the internet. To achieve this goal, Communication is one of the main objectives. They have made continuous efforts
themselves, and now efforts have been made in heaven or address as the number of users accessing the internet continuously.
Internet is growing day by day, and at the same time the Facebook took an initiative called AQUILA as the solar powered
drones. This focuses on the mechanism that drone is to provide the amount of the previous internet services available. The
project is managed by Facebook and internet.org as Aquila (The Solar Powered Drone). The idea is to provide internet
service to areas of the world where people less or no access to the internet. This method of online services through an
extensive drone, which has a wingspan of a Boeing 737 wing with less weight than a car. This will operate at the height of
60,000 to 90,000 ft. in the air, and can run for three months with the internet speeds of 10 gigabits per second.
A Stratellite is a type of satellite that is stationed in the stratosphere at an altitude of about 13 miles, rather than in orbit. It can provide clear communications coverage to an entire metropolitan area as well as rural areas. Stratellites are airships that carry payloads and communication equipment. They can remain stationary in the stratosphere for long periods of time, providing services like broadband internet, cell phone, and television coverage to millions of users simultaneously. Stratellites have advantages over traditional satellites in that they are cheaper to launch and maintain, and can provide continuous coverage from the stratosphere for up to a year at a time.
A Stratellite is a type of satellite that is stationed in the stratosphere at an altitude of about 13 miles, rather than in orbit. It can provide clear communications coverage to an entire metropolitan area as well as rural areas. Stratellites are designed to carry various payloads determined by customer needs and can perform both short and long missions. They provide communication advantages over traditional satellites by reducing transmission times. Stratellites use airship technology, solar power, and electric motors to remain at a fixed coordinate. They have the potential to deliver services like broadband internet, TV, and mobile phone networks to wide areas at low cost compared to other options.
A Stratellite is a type of satellite that is stationed in the stratosphere at an altitude of about 13 miles, rather than in orbit. It can provide clear communications coverage to an entire metropolitan area as well as rural areas. Stratellites are airships that are powered by solar energy and electric motors. They can carry various payloads and communications equipment and remain stationary for long periods of time. Stratellites have advantages over traditional satellites in that they have lower launch costs, reduced transmission times, and can provide high-speed broadband internet, cellular, and video services to wide areas.
The document is an assignment on satellite communications for a student named Reymart Olaño. It provides an introduction to satellite telecommunications and discusses the main components of satellite systems, which include the satellite and ground stations. It then describes different utilities of satellite communication such as traditional telecommunications, cellular networks, television signals, marine communications, spaceborne land mobile services, and satellite messaging for commercial jets. The document also discusses satellite systems like INTELSAT, DOMSAT, and SARSAT. It concludes by explaining Kepler's laws of planetary motion and defining terms related to earth-orbiting satellites.
Internet of Space - Communication Systems for Future Space-bases Internet Ser...Paulo Milheiro Mendes
1) The document discusses the potential for satellite constellations in low Earth orbit (LEO) to enable a space-based internet through providing global connectivity with lower latency than traditional geostationary satellites.
2) Emerging LEO constellations from companies like SpaceX, OneWeb, and Telesat promise speeds close to fiber with nearly full global coverage and latency around 25ms.
3) For the space internet to be realized, challenges around developing low-cost user terminals, multi-tenant cooperation between constellations, and addressing different traffic needs across orbital regimes must be overcome.
This document provides an overview of optical satellite communications, including intersatellite links (ISLs) and global achievements. It discusses how ISLs allow for increased capacity and coverage by connecting satellites in different orbits, such as GEO-LEO and GEO-GEO links. Optical communications provide advantages over radio links, including higher antenna gains due to shorter wavelengths, but require more accurate pointing and tracking. The document outlines examples of optical ISL applications and global satellite networks using interconnected satellites.
This document discusses proposals for airborne internet networks. It describes three main systems - Halo networks using high-altitude planes, Sky Station using high-altitude blimps, and NASA's Helios aircraft. The Halo network would use a plane called Proteus as a hub carrying networking equipment. Sky Station would use blimps stationed at 13 miles above cities to provide internet coverage. NASA's Helios prototype is made of lightweight composite materials and aims to stay airborne for six months. The document outlines the potential benefits of airborne internet for providing connectivity to aircraft and opportunities to access the internet from the sky.
Ivanti’s Patch Tuesday breakdown goes beyond patching your applications and brings you the intelligence and guidance needed to prioritize where to focus your attention first. Catch early analysis on our Ivanti blog, then join industry expert Chris Goettl for the Patch Tuesday Webinar Event. There we’ll do a deep dive into each of the bulletins and give guidance on the risks associated with the newly-identified vulnerabilities.
This presentation provides valuable insights into effective cost-saving techniques on AWS. Learn how to optimize your AWS resources by rightsizing, increasing elasticity, picking the right storage class, and choosing the best pricing model. Additionally, discover essential governance mechanisms to ensure continuous cost efficiency. Whether you are new to AWS or an experienced user, this presentation provides clear and practical tips to help you reduce your cloud costs and get the most out of your budget.
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
Salesforce Integration for Bonterra Impact Management (fka Social Solutions A...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on integration of Salesforce with Bonterra Impact Management.
Interested in deploying an integration with Salesforce for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
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.
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
Your One-Stop Shop for Python Success: Top 10 US Python Development Providersakankshawande
Simplify your search for a reliable Python development partner! This list presents the top 10 trusted US providers offering comprehensive Python development services, ensuring your project's success from conception to completion.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptxSitimaJohn
Ocean Lotus cyber threat actors represent a sophisticated, persistent, and politically motivated group that poses a significant risk to organizations and individuals in the Southeast Asian region. Their continuous evolution and adaptability underscore the need for robust cybersecurity measures and international cooperation to identify and mitigate the threats posed by such advanced persistent threat groups.
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. 🌟
Trusted Execution Environment for Decentralized Process MiningLucaBarbaro3
Presentation of the paper "Trusted Execution Environment for Decentralized Process Mining" given during the CAiSE 2024 Conference in Cyprus on June 7, 2024.
2. Wireless Internet
Internet access provided through
communication satellites
Latency: The distance between the
satellite and the user's location can
cause latency
A reliable option for those living in rural
or remote areas.
Weather conditions can interfere with
the signal, causing disruptions in the
internet connection.
what is space
what is space
what is space
internet?
internet?
internet?
also known as satellite internet, refers to
the use of satellites in orbit around the
Earth to provide internet access to
individuals and organizations.
3. Why sPACE
Why sPACE
Why sPACE
INERNET?
INERNET?
INERNET?
INTERNET
A part of humanity’s basic infrastructure
ACCESSIBILITY
About 4 billion people do not have access to
reliable internet networks.
THE TRADITIONAL WAYS
It is not feasible or viable to set up cables or
mobile towers in remote/Terrain areas
4. 35,786 KM
35,786 KM
35,786 KM
Systems use satellites
in geostationary orbit
638ms
638ms
638ms
Average Latency
256 kbit/s
256 kbit/s
256 kbit/s
Average uplink rate
Maximum: 1000 Mbit/s
1 Mbit/s
1 Mbit/s
1 Mbit/s
Average downlink rate
Maximum: 1000 Gbit/s
features
features
features
6. There are 3124 Satellites currently
orbiting
Here is a link to Observer the live
Starlink satellites around the Globe
A network of satellites that provides
internet
Signals are sent to Setillite then are sent
to earth creating wi-fi
Built by SpaceX
First Starlink mission was launched on
May 24, 2019 (60 satellites)
STARLINK
STARLINK
STARLINK
7. We're really
We're really
We're really
talking about
talking about
talking about
something which
something which
something which
is, in the long
is, in the long
is, in the long
term, like
term, like
term, like
rebuilding the
rebuilding the
rebuilding the
internet in
internet in
internet in
space,"
space,"
space,"
8. Why starlink?
Why starlink?
Why starlink?
Starlink is a constellation of thousands of
satellites that orbit the planet much closer
to Earth, at about 550km, and cover the
entire globe.
LOW LATENCY
Starlink's latency is significantly low
around 20 ms vs 600+ ms
LESS MASS, MORE COMPACT
Each satellite features a compact, flat-panel
design that minimizes volume, Using resuable
SpaceX's Falcon 9 rocket.
AUTONOMOUS COLLISION AVOIDANCE
It autonomously maneuver to avoid collisions
with orbital debris and other spacecraft. This
capability reduces human error and make
them more reliable
9. 550km
550km
550km
Starlink uses LEO
satellites
20 ms
20 ms
20 ms
Average Latency
10mbit/s
10mbit/s
10mbit/s
Average uplink rate
Maximum: 20Mbit/s
50 Mbit/s
50 Mbit/s
50 Mbit/s
Average downlink rate
Maximum: 200Mbit/s
features
features
features
10. 42000 Setellites
42000 Setellites
42000 Setellites
A Starlink satellite hopes to have as many as 42,000 satellites in
comming years - "megaconstellation"
FUTURE PLAN