- Google Fiber is a broadband internet network infrastructure that uses fiber optic communication to provide internet connectivity up to 100 times faster than typical connections.
- It provides connection speeds of up to 1 gigabit per second for both downloads and uploads.
- In addition to high-speed internet, Google Fiber also offers TV service, with programming that can be accessed using a provided set-top box and Nexus tablet as a remote.
The document discusses Google Fiber, a fiber optic internet service provided by Google. It begins with an introduction and history of Google Fiber, launched in 2011. It then compares today's average internet speeds to Google Fiber's speeds of up to 1 Gbps. The document outlines Google Fiber's plans and pricing, how to get access to it, and the advantages of high speeds and content access but the disadvantage that it is only available in limited areas currently. It concludes by stating that Google Fiber provides a new generation of fast internet access.
THis PPT shows the features, working, & uses of GOOGLE FIBER. It was made as per the part of the curriculum syllabus in order to get through the presentation and yep I've scored good.
Suggestion / reviews / queries are welcomed.
Thanks
Google Fiber is Google's fiber optic internet service that provides speeds up to 100 times faster than average broadband. It launched in 2011 in a trial in Palo Alto, California, and its first full city was Kansas City in that same year. Google Fiber provides gigabit internet speeds as well as live TV and DVR services. It offers multiple plan options including TV and internet bundles starting at $120/month. The key advantages are ultra-fast speeds of up to 1 gigabit per second, 1TB of storage, and access to live TV. However, the service is currently only available in limited areas.
Google Fiber provides extremely fast internet speeds of up to 1 Gbps by using fiber optic cables instead of traditional copper wires. It began in 2011 in Kansas City and has since expanded to several other cities. Google Fiber offers internet plans with speeds 100 times faster than average broadband as well as TV plans with over 150 HD channels and 2TB of storage. While very fast and powerful, Google Fiber remains only available in limited areas and can be expensive compared to traditional internet and TV services.
Google is testing ultra-high speed fiber internet networks that provide connection speeds over 100 times faster than the average broadband connection. They plan to offer this 1 gigabit per second fiber-to-the-home connection to at least 50,000 homes across multiple US cities. Google Fiber provides internet speeds of up to 1 gigabit per second for $70 per month or internet and TV for $120 per month. The service includes a 2 terabyte DVR and other equipment. Google's goal is to experiment with new deployment techniques and applications that could be enabled by these ultra-fast speeds.
An aimia presentation looking at the real future for IPTV way back in 2005. It already looks at the battle between walled garden IPTV and the new broadband video kids on the block. It suggests there are a few ways that IPTV (the subscription based closed version) will survive - this includes interoperability between providers and value add services including rich, social network based interactivity.
Netflix has shifted its core strategy from DVD rentals to streaming as online video has grown. It now invests much more heavily in streaming content and licenses content from numerous partners. However, Netflix faces challenges in maintaining these partnerships as competitors emerge and content owners consider their own streaming options. It must also sustain relationships with the many device makers that distribute its streaming service to continue reaching viewers on all platforms.
The document discusses Google Fiber, a fiber optic internet service provided by Google. It begins with an introduction and history of Google Fiber, launched in 2011. It then compares today's average internet speeds to Google Fiber's speeds of up to 1 Gbps. The document outlines Google Fiber's plans and pricing, how to get access to it, and the advantages of high speeds and content access but the disadvantage that it is only available in limited areas currently. It concludes by stating that Google Fiber provides a new generation of fast internet access.
THis PPT shows the features, working, & uses of GOOGLE FIBER. It was made as per the part of the curriculum syllabus in order to get through the presentation and yep I've scored good.
Suggestion / reviews / queries are welcomed.
Thanks
Google Fiber is Google's fiber optic internet service that provides speeds up to 100 times faster than average broadband. It launched in 2011 in a trial in Palo Alto, California, and its first full city was Kansas City in that same year. Google Fiber provides gigabit internet speeds as well as live TV and DVR services. It offers multiple plan options including TV and internet bundles starting at $120/month. The key advantages are ultra-fast speeds of up to 1 gigabit per second, 1TB of storage, and access to live TV. However, the service is currently only available in limited areas.
Google Fiber provides extremely fast internet speeds of up to 1 Gbps by using fiber optic cables instead of traditional copper wires. It began in 2011 in Kansas City and has since expanded to several other cities. Google Fiber offers internet plans with speeds 100 times faster than average broadband as well as TV plans with over 150 HD channels and 2TB of storage. While very fast and powerful, Google Fiber remains only available in limited areas and can be expensive compared to traditional internet and TV services.
Google is testing ultra-high speed fiber internet networks that provide connection speeds over 100 times faster than the average broadband connection. They plan to offer this 1 gigabit per second fiber-to-the-home connection to at least 50,000 homes across multiple US cities. Google Fiber provides internet speeds of up to 1 gigabit per second for $70 per month or internet and TV for $120 per month. The service includes a 2 terabyte DVR and other equipment. Google's goal is to experiment with new deployment techniques and applications that could be enabled by these ultra-fast speeds.
An aimia presentation looking at the real future for IPTV way back in 2005. It already looks at the battle between walled garden IPTV and the new broadband video kids on the block. It suggests there are a few ways that IPTV (the subscription based closed version) will survive - this includes interoperability between providers and value add services including rich, social network based interactivity.
Netflix has shifted its core strategy from DVD rentals to streaming as online video has grown. It now invests much more heavily in streaming content and licenses content from numerous partners. However, Netflix faces challenges in maintaining these partnerships as competitors emerge and content owners consider their own streaming options. It must also sustain relationships with the many device makers that distribute its streaming service to continue reaching viewers on all platforms.
Outlines
Introduction
What is Wi-Fi?
Wi-Fi Standards?
Hotspots
How a Wi-Fi Network works
Survey
Factors To Consider When Choosing An Internet Service Provider
Wi-Fi Providers
Limitations of Wi-Fi
Security
Maintenance
Estimated cost
Location
ICTC Requirements
Conclusion
Introduction
Imagine working on your laptop or checking
e-mailfrom anywhere in the department.
Now , imagine
doing all thesethings
easily and quickly,
withoutworrying
about finding a wired
network connection.
That is Wi-Fi !
What is Wi-Fi?
Wi-Fi (Wireless Fidelity) is a generic term that refers to the IEEE 802.11 communications standard for Wireless Local Area Networks (WLANs).
Wireless Technology is an alternative to Wired Technology, which is commonly used, for connecting devices in wireless using radio waves.
Allows you to access the Internet while on the move ; you can remain online while moving from one area to another, without a disconnection or loss in coverage
IEEE 802.11 Standard
In 1997, the Institute of Electrical and Electronic Engineers (IEEE) drafted the 802.11 standard for wireless local area networking.
In 1999, networking hardware companies accepted the standard and began manufacturing products using the 802.11b protocol which operated in the 2.4 GHz range and was capable of transmitting at speeds of 11 Mbps.
The 802.11a protocol was also released in 1999, operating at 5 GHz with transmissions speeds of 54 Mbps, but its cost was high.
What is a Hotspot ?
A Hotspot is any location where Wi-Fi network access is made publicly available.
Hotspots are equipped with a Broadband Internet connection, and one or more Access Points that allow users to access the Internet wirelessly.
Hotspots can be setup in any public location that can support an Internet connection.
How a Wi-Fi network works?
A Wi-Fi connection works
through a transmitting antenna,
which is usually connected to a
DSL or cable Internet connection.
The antenna on the router will
then beam radio signals through
a specific range. Another antenna,
which is on the laptop or personal
computer, receives the signal.
This document discusses the online movie rental business and competition in the video streaming market. It provides details on Netflix's business model and history, including milestones like their billionth DVD delivery. It also outlines competitors in the streaming and rental space like Hulu, Redbox, cable/satellite providers, and premium channels. The document considers factors that could impact Netflix's ability to succeed in this competitive landscape, such as content availability and pricing/bundling approaches from other players.
The common benefits of Fiber optic internet broadband are
Entertainment & connectivity, Smart homes & security, Telecommunication, Distance learning, K-12 education, Access to health care, independent living for aging or disabled, E-Government & civic participation, Public Safety, Economic growth & quality jobs, etc.
This document provides a case study on Netflix that analyzes how Netflix has grown to become the most successful online streaming company through its use of various digital economies. It discusses Netflix's history from a DVD rental service to an online streaming platform. It then analyzes how Netflix leverages the digital, free, attention, subscription, and network economies to drive its business model and sustain ongoing success. Key points include how Netflix adapts to technological changes, uses free trials and data collection, produces original content, offers access through subscriptions over ownership, and leverages its large user network and data.
3G networks have become standard in Australia and provide more affordable and accessible internet connectivity. 3G networks were first introduced in Japan in 1999 and 3G upgrades were intended to be completed across Australia by 2010. 3G networks allow for improved data and voice services for mobile users and broadband speeds of 5-10 MB/second. Mobile broadband provides wireless internet access on the go without cables or installations, allowing users to download music tracks in under 20 seconds.
This document provides an overview of 4G technology, including its objectives and development timeline. 4G aims to provide data rates of 100 Mbps for mobile users and 1 Gbps for stationary users. It will allow for seamless connectivity across networks on a global scale. 4G is expected to launch in 2010 and enable new applications like mobile TV and video chat by delivering high-speed data and multimedia over wireless networks on an "anytime, anywhere" basis.
This document provides an overview of 4G technology, including its objectives and development timeline. 4G aims to provide data rates of 100 Mbps for mobile users and 1 Gbps for stationary users. It will allow for seamless connectivity across networks on a global scale. 4G is expected to launch in 2010 and enable new applications like mobile TV and video chat by delivering high-speed data and multimedia over wireless networks on an "anytime, anywhere" basis.
Gi-Fi or gigabit wireless refers to a wireless communication at a data rate of more than one billion bits (gigabit) per second.
By 2004 some trade press used the term "Gi-Fi" to refer to faster versions of the IEEE 802.11 standards marketed under the trademark Wi-Fi.[1]
In 2008 researchers at the University of Melbourne demonstrated a transceiver integrated on a single integrated circuit (chip) that operated at 60 GHz on the CMOS process.[2] It will allow wireless transfer of audio and video data at up to 5 gigabits per second, ten times the current maximum wireless transfer rate, at one-tenth the cost. Researchers chose the 57–64 GHz unlicensed frequency band since the millimetre-wave range of the spectrum allowed high component on-chip integration as well as the integration of very small high gain arrays. The available 7 GHz of spectrum results in very high data rates, up to 5 gigabits per second to users within an indoor environment, usually within a range of 10 metres.[2] Some press reports called this "GiFi".[3][4] It was developed by Melbourne University-based laboratories of NICTA (National ICT Australia Limited), Australia’s Information and Communications Technology Research Centre of Excellence.[3]
In 2009, the Wireless Gigabit Alliance was formed. It used the term "WiGig" which avoided trademark confusion
Government agencies and big companies uses internet in order to transmit important messages. The improvement in internet communication is brought by the discovery of fibre optic cables that can transmit data, voice and videos easier and faster than the old copper wires.
For more information on click here: http://www.zetta.net.au/services/internet/fibre-optic-internet/
The document discusses 4G technology, which will succeed 3G networks. 4G is expected to provide high-quality streaming video and end-to-end IP services. It will offer data rates between 100 Mbps and 1 Gbps for both indoor and outdoor use. 4G aims to accommodate applications requiring high quality of service, such as multimedia messaging, mobile TV, and video chat. The timeline outlines the development of previous generations, with 1G introducing analog cellular in the 1980s and 2G fielding digital networks later that decade.
This document discusses several topics related to fibre optics and broadband internet technologies, including:
1) Fibre optic cables allow for faster transmission of data, voice, and videos compared to older copper wires. Governments and large companies use this improved communication infrastructure.
2) Fibre optic connections in the UK can currently provide speeds up to 100Mbps, triple the speed of standard ADSL broadband connections.
3) Fibre optic networks have been installed in over 120 countries and are becoming the most popular option for high-speed internet access. However, fibre to the home connections only reach a small percentage of the population currently.
This document discusses fiber to the home (FTTH) technology, which uses optical fiber run directly from a central point to residential premises to provide high-speed internet access. It notes the advantages of FTTH over previous copper-based technologies, including enormous data capacity, easy upgradability, long transmission distances, and lower maintenance costs. The document also compares FTTH and ADSL broadband, noting that FTTH uses fiber optic cables for 10x faster speeds than telephone lines. It discusses India's lower adoption of FTTH compared to other countries and the potential for Reliance Jio's fiber optic network to increase broadband penetration and FTTH adoption in India.
The document provides an overview of the mobile landscape in 2010, discussing the convergence of factors driving growth in mobile internet usage. It summarizes that (1) 3G networks were reaching mainstream adoption levels, enabling increased data usage like video, (2) video was a major driver of growing mobile data traffic, and (3) technologies like VoIP and cloud computing were changing how people used mobile devices. Social networks emerging as platforms also contributed to this shift to increased mobile internet usage.
This document discusses next generation wireless technology called Gi-Fi. It provides an introduction to Gi-Fi, describes its architecture and features, and compares it to other wireless technologies like Bluetooth and Wi-Fi. Gi-Fi uses 60GHz frequency and can achieve data transfer rates up to 5Gbps, which is faster than Bluetooth or Wi-Fi. It transmits multiple signals simultaneously across different frequencies to avoid interference. The document outlines potential applications of Gi-Fi technology in devices, offices, video transfer, vehicle communication systems, and broadcasting in sports stadiums.
This document discusses the key aspects of 4G technology. 4G aims to provide high-speed wireless internet access and streaming multimedia services. It will offer data rates of 100 Mbps for mobile users and 1 Gbps for stationary users. 4G networks launched in 2010 and allow for end-to-end IP services and high quality streaming video. The document outlines the development of wireless technologies from 1G to 4G and highlights some applications and advantages of 4G such as high speeds, security, and global roaming capabilities.
5G is the 5th generation mobile network and new global wireless standard that succeeds 4G networks. It is designed to connect virtually everyone and everything together, including machines, objects and devices. While no single company invented 5G, Qualcomm has played a major role in developing the foundational technologies. 5G promises faster speeds over 1Gbps and latency under 10 milliseconds, improving on 4G's maximum speed of 200Mbps and latency of 20-30 milliseconds.
Gi-Fi is a new wireless technology that operates at 60GHz using a single-chip transceiver. It allows data transfer at up to 5 gigabits per second within 10 meters, 10 times faster than current wireless speeds. The small 5mm chip uses CMOS technology, making it inexpensive to produce and low power. Gi-Fi is expected to revolutionize wireless connectivity between devices in homes and offices by enabling truly wireless transfers of audio and video files.
FORSWAY 5G
Read how Forsway and especially our Chairman, Mats Andersson see 5g from a slightly diffrent but very valid angle! Spent 20-30 min and read this carefully.
This document discusses the next generation wireless technology called Gi-Fi. Gi-Fi allows wireless transfer of audio and video data at speeds up to 5 gigabits per second, which is 10 times faster than existing technologies like Wi-Fi. Researchers at Melbourne University developed a Gi-Fi chip that can transmit complex 60GHz signals at high speeds while being small enough to fit on a single silicon chip. Compared to Wi-Fi and Bluetooth, Gi-Fi provides higher data transfer rates, longer ranges, lower power consumption, lower costs, better security, and more flexibility without needing complex connections. The document outlines several applications for Gi-Fi in wireless networks, vehicle communication systems, households, and video information transfer.
Gi-Fi is a next generation wireless technology that was developed in Australia to offer faster data transfer rates than existing technologies like Bluetooth and Wi-Fi. Gi-Fi operates at 60GHz and can transfer data at up to 5 gigabits per second, compared to 800Kbps for Bluetooth and 11Mbps for Wi-Fi. It also has lower power consumption than these other technologies. Potential applications of Gi-Fi include wireless transfer of video and audio files, wireless connectivity for devices in smart homes and offices, and inter-vehicle communication systems. Gi-Fi is expected to become the dominant wireless technology within the next 5 years as its integrated transceiver chips become more widely available at lower costs.
Outlines
Introduction
What is Wi-Fi?
Wi-Fi Standards?
Hotspots
How a Wi-Fi Network works
Survey
Factors To Consider When Choosing An Internet Service Provider
Wi-Fi Providers
Limitations of Wi-Fi
Security
Maintenance
Estimated cost
Location
ICTC Requirements
Conclusion
Introduction
Imagine working on your laptop or checking
e-mailfrom anywhere in the department.
Now , imagine
doing all thesethings
easily and quickly,
withoutworrying
about finding a wired
network connection.
That is Wi-Fi !
What is Wi-Fi?
Wi-Fi (Wireless Fidelity) is a generic term that refers to the IEEE 802.11 communications standard for Wireless Local Area Networks (WLANs).
Wireless Technology is an alternative to Wired Technology, which is commonly used, for connecting devices in wireless using radio waves.
Allows you to access the Internet while on the move ; you can remain online while moving from one area to another, without a disconnection or loss in coverage
IEEE 802.11 Standard
In 1997, the Institute of Electrical and Electronic Engineers (IEEE) drafted the 802.11 standard for wireless local area networking.
In 1999, networking hardware companies accepted the standard and began manufacturing products using the 802.11b protocol which operated in the 2.4 GHz range and was capable of transmitting at speeds of 11 Mbps.
The 802.11a protocol was also released in 1999, operating at 5 GHz with transmissions speeds of 54 Mbps, but its cost was high.
What is a Hotspot ?
A Hotspot is any location where Wi-Fi network access is made publicly available.
Hotspots are equipped with a Broadband Internet connection, and one or more Access Points that allow users to access the Internet wirelessly.
Hotspots can be setup in any public location that can support an Internet connection.
How a Wi-Fi network works?
A Wi-Fi connection works
through a transmitting antenna,
which is usually connected to a
DSL or cable Internet connection.
The antenna on the router will
then beam radio signals through
a specific range. Another antenna,
which is on the laptop or personal
computer, receives the signal.
This document discusses the online movie rental business and competition in the video streaming market. It provides details on Netflix's business model and history, including milestones like their billionth DVD delivery. It also outlines competitors in the streaming and rental space like Hulu, Redbox, cable/satellite providers, and premium channels. The document considers factors that could impact Netflix's ability to succeed in this competitive landscape, such as content availability and pricing/bundling approaches from other players.
The common benefits of Fiber optic internet broadband are
Entertainment & connectivity, Smart homes & security, Telecommunication, Distance learning, K-12 education, Access to health care, independent living for aging or disabled, E-Government & civic participation, Public Safety, Economic growth & quality jobs, etc.
This document provides a case study on Netflix that analyzes how Netflix has grown to become the most successful online streaming company through its use of various digital economies. It discusses Netflix's history from a DVD rental service to an online streaming platform. It then analyzes how Netflix leverages the digital, free, attention, subscription, and network economies to drive its business model and sustain ongoing success. Key points include how Netflix adapts to technological changes, uses free trials and data collection, produces original content, offers access through subscriptions over ownership, and leverages its large user network and data.
3G networks have become standard in Australia and provide more affordable and accessible internet connectivity. 3G networks were first introduced in Japan in 1999 and 3G upgrades were intended to be completed across Australia by 2010. 3G networks allow for improved data and voice services for mobile users and broadband speeds of 5-10 MB/second. Mobile broadband provides wireless internet access on the go without cables or installations, allowing users to download music tracks in under 20 seconds.
This document provides an overview of 4G technology, including its objectives and development timeline. 4G aims to provide data rates of 100 Mbps for mobile users and 1 Gbps for stationary users. It will allow for seamless connectivity across networks on a global scale. 4G is expected to launch in 2010 and enable new applications like mobile TV and video chat by delivering high-speed data and multimedia over wireless networks on an "anytime, anywhere" basis.
This document provides an overview of 4G technology, including its objectives and development timeline. 4G aims to provide data rates of 100 Mbps for mobile users and 1 Gbps for stationary users. It will allow for seamless connectivity across networks on a global scale. 4G is expected to launch in 2010 and enable new applications like mobile TV and video chat by delivering high-speed data and multimedia over wireless networks on an "anytime, anywhere" basis.
Gi-Fi or gigabit wireless refers to a wireless communication at a data rate of more than one billion bits (gigabit) per second.
By 2004 some trade press used the term "Gi-Fi" to refer to faster versions of the IEEE 802.11 standards marketed under the trademark Wi-Fi.[1]
In 2008 researchers at the University of Melbourne demonstrated a transceiver integrated on a single integrated circuit (chip) that operated at 60 GHz on the CMOS process.[2] It will allow wireless transfer of audio and video data at up to 5 gigabits per second, ten times the current maximum wireless transfer rate, at one-tenth the cost. Researchers chose the 57–64 GHz unlicensed frequency band since the millimetre-wave range of the spectrum allowed high component on-chip integration as well as the integration of very small high gain arrays. The available 7 GHz of spectrum results in very high data rates, up to 5 gigabits per second to users within an indoor environment, usually within a range of 10 metres.[2] Some press reports called this "GiFi".[3][4] It was developed by Melbourne University-based laboratories of NICTA (National ICT Australia Limited), Australia’s Information and Communications Technology Research Centre of Excellence.[3]
In 2009, the Wireless Gigabit Alliance was formed. It used the term "WiGig" which avoided trademark confusion
Government agencies and big companies uses internet in order to transmit important messages. The improvement in internet communication is brought by the discovery of fibre optic cables that can transmit data, voice and videos easier and faster than the old copper wires.
For more information on click here: http://www.zetta.net.au/services/internet/fibre-optic-internet/
The document discusses 4G technology, which will succeed 3G networks. 4G is expected to provide high-quality streaming video and end-to-end IP services. It will offer data rates between 100 Mbps and 1 Gbps for both indoor and outdoor use. 4G aims to accommodate applications requiring high quality of service, such as multimedia messaging, mobile TV, and video chat. The timeline outlines the development of previous generations, with 1G introducing analog cellular in the 1980s and 2G fielding digital networks later that decade.
This document discusses several topics related to fibre optics and broadband internet technologies, including:
1) Fibre optic cables allow for faster transmission of data, voice, and videos compared to older copper wires. Governments and large companies use this improved communication infrastructure.
2) Fibre optic connections in the UK can currently provide speeds up to 100Mbps, triple the speed of standard ADSL broadband connections.
3) Fibre optic networks have been installed in over 120 countries and are becoming the most popular option for high-speed internet access. However, fibre to the home connections only reach a small percentage of the population currently.
This document discusses fiber to the home (FTTH) technology, which uses optical fiber run directly from a central point to residential premises to provide high-speed internet access. It notes the advantages of FTTH over previous copper-based technologies, including enormous data capacity, easy upgradability, long transmission distances, and lower maintenance costs. The document also compares FTTH and ADSL broadband, noting that FTTH uses fiber optic cables for 10x faster speeds than telephone lines. It discusses India's lower adoption of FTTH compared to other countries and the potential for Reliance Jio's fiber optic network to increase broadband penetration and FTTH adoption in India.
The document provides an overview of the mobile landscape in 2010, discussing the convergence of factors driving growth in mobile internet usage. It summarizes that (1) 3G networks were reaching mainstream adoption levels, enabling increased data usage like video, (2) video was a major driver of growing mobile data traffic, and (3) technologies like VoIP and cloud computing were changing how people used mobile devices. Social networks emerging as platforms also contributed to this shift to increased mobile internet usage.
This document discusses next generation wireless technology called Gi-Fi. It provides an introduction to Gi-Fi, describes its architecture and features, and compares it to other wireless technologies like Bluetooth and Wi-Fi. Gi-Fi uses 60GHz frequency and can achieve data transfer rates up to 5Gbps, which is faster than Bluetooth or Wi-Fi. It transmits multiple signals simultaneously across different frequencies to avoid interference. The document outlines potential applications of Gi-Fi technology in devices, offices, video transfer, vehicle communication systems, and broadcasting in sports stadiums.
This document discusses the key aspects of 4G technology. 4G aims to provide high-speed wireless internet access and streaming multimedia services. It will offer data rates of 100 Mbps for mobile users and 1 Gbps for stationary users. 4G networks launched in 2010 and allow for end-to-end IP services and high quality streaming video. The document outlines the development of wireless technologies from 1G to 4G and highlights some applications and advantages of 4G such as high speeds, security, and global roaming capabilities.
5G is the 5th generation mobile network and new global wireless standard that succeeds 4G networks. It is designed to connect virtually everyone and everything together, including machines, objects and devices. While no single company invented 5G, Qualcomm has played a major role in developing the foundational technologies. 5G promises faster speeds over 1Gbps and latency under 10 milliseconds, improving on 4G's maximum speed of 200Mbps and latency of 20-30 milliseconds.
Gi-Fi is a new wireless technology that operates at 60GHz using a single-chip transceiver. It allows data transfer at up to 5 gigabits per second within 10 meters, 10 times faster than current wireless speeds. The small 5mm chip uses CMOS technology, making it inexpensive to produce and low power. Gi-Fi is expected to revolutionize wireless connectivity between devices in homes and offices by enabling truly wireless transfers of audio and video files.
FORSWAY 5G
Read how Forsway and especially our Chairman, Mats Andersson see 5g from a slightly diffrent but very valid angle! Spent 20-30 min and read this carefully.
This document discusses the next generation wireless technology called Gi-Fi. Gi-Fi allows wireless transfer of audio and video data at speeds up to 5 gigabits per second, which is 10 times faster than existing technologies like Wi-Fi. Researchers at Melbourne University developed a Gi-Fi chip that can transmit complex 60GHz signals at high speeds while being small enough to fit on a single silicon chip. Compared to Wi-Fi and Bluetooth, Gi-Fi provides higher data transfer rates, longer ranges, lower power consumption, lower costs, better security, and more flexibility without needing complex connections. The document outlines several applications for Gi-Fi in wireless networks, vehicle communication systems, households, and video information transfer.
Gi-Fi is a next generation wireless technology that was developed in Australia to offer faster data transfer rates than existing technologies like Bluetooth and Wi-Fi. Gi-Fi operates at 60GHz and can transfer data at up to 5 gigabits per second, compared to 800Kbps for Bluetooth and 11Mbps for Wi-Fi. It also has lower power consumption than these other technologies. Potential applications of Gi-Fi include wireless transfer of video and audio files, wireless connectivity for devices in smart homes and offices, and inter-vehicle communication systems. Gi-Fi is expected to become the dominant wireless technology within the next 5 years as its integrated transceiver chips become more widely available at lower costs.
Gi-Fi (Gigabit Wireless) is a new wireless technology that can transfer data at up to 5 gigabits per second, which is 10 times faster than current wireless technologies. It uses 60GHz frequency and can transfer large files like HD videos within a 10 meter range. Gi-Fi aims to provide higher data transfer rates than Bluetooth and Wi-Fi at lower power consumption. It uses small antennas and works best with line of sight. Applications include wireless connectivity between devices in homes and offices for applications like streaming HD content, high-speed inter-vehicle communication, and more. Gi-Fi is expected to become the dominant wireless technology for networking within five years.
Redes FTTH en la Actualidad para e diseñokevin perez
The document discusses Fiber to the Home (FTTH) networks, which deliver high-speed internet directly to residences using fiber-optic cables. This provides faster and more reliable internet access, enabling seamless streaming, gaming, and remote work. FTTH offers benefits like blazing internet speeds and improved bandwidth for multiple devices. The infrastructure includes a network of fiber-optic cables connecting to individual homes. While initial deployment costs present challenges, solutions like public-private partnerships are making FTTH more accessible. As demand for high-speed internet grows, FTTH is positioned to play a key role in advancing digital connectivity.
Gi-Fi is a next generation wireless technology that was developed in Australia to allow for faster wireless data transfer speeds of up to 5 gigabits per second, around 10 times faster than existing Wi-Fi technologies. It uses 60GHz frequency and has advantages over Bluetooth and Wi-Fi such as lower power consumption and cost. The core components include an IEEE 802.15.3c standard-based transceiver chip that can simultaneously transmit multiple signals to avoid interference and allows for high-speed, high-security data transmission. Companies are looking to integrate Gi-Fi technology into appliances, devices, and systems to enable the wireless home and office networks of the future.
GraphRAG for Life Science to increase LLM accuracyTomaz Bratanic
GraphRAG for life science domain, where you retriever information from biomedical knowledge graphs using LLMs to increase the accuracy and performance of generated answers
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
How to Interpret Trends in the Kalyan Rajdhani Mix Chart.pdfChart Kalyan
A Mix Chart displays historical data of numbers in a graphical or tabular form. The Kalyan Rajdhani Mix Chart specifically shows the results of a sequence of numbers over different periods.
Introduction of Cybersecurity with OSS at Code Europe 2024Hiroshi SHIBATA
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.
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.
Skybuffer SAM4U tool for SAP license adoptionTatiana Kojar
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.
Programming Foundation Models with DSPy - Meetup SlidesZilliz
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.
Webinar: Designing a schema for a Data WarehouseFederico Razzoli
Are you new to data warehouses (DWH)? Do you need to check whether your data warehouse follows the best practices for a good design? In both cases, this webinar is for you.
A data warehouse is a central relational database that contains all measurements about a business or an organisation. This data comes from a variety of heterogeneous data sources, which includes databases of any type that back the applications used by the company, data files exported by some applications, or APIs provided by internal or external services.
But designing a data warehouse correctly is a hard task, which requires gathering information about the business processes that need to be analysed in the first place. These processes must be translated into so-called star schemas, which means, denormalised databases where each table represents a dimension or facts.
We will discuss these topics:
- How to gather information about a business;
- Understanding dictionaries and how to identify business entities;
- Dimensions and facts;
- Setting a table granularity;
- Types of facts;
- Types of dimensions;
- Snowflakes and how to avoid them;
- Expanding existing dimensions and facts.
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!
UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
Throughout the session, participants will discover how this synergy empowers testers to automate repetitive tasks, enhance testing accuracy, and expedite the software testing life cycle. Topics covered include the seamless integration process, practical use cases, and the benefits of harnessing AI-driven automation for UiPath testing initiatives. By attending this webinar, testers, and automation professionals can gain valuable insights into harnessing the power of AI to optimize their test automation workflows within the UiPath ecosystem, ultimately driving efficiency and quality in software development processes.
What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
Topics covered:
What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Building Production Ready Search Pipelines with Spark and MilvusZilliz
Spark is the widely used ETL tool for processing, indexing and ingesting data to serving stack for search. Milvus is the production-ready open-source vector database. In this talk we will show how to use Spark to process unstructured data to extract vector representations, and push the vectors to Milvus vector database for search serving.
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
3. Google Fiber is a broadband internet networkGoogle Fiber is a broadband internet network
infrastructure which uses fiber opticinfrastructure which uses fiber optic
communication to provide 100 times bettercommunication to provide 100 times better
internet connectivity.internet connectivity.
The service will provide a 1-gigabit-per-The service will provide a 1-gigabit-per-
second connection.second connection.
Google, world leader in search engine nowGoogle, world leader in search engine now
turned into a TV and internet serviceturned into a TV and internet service
provider(ISP).provider(ISP).
Its Is providing both the internet service andIts Is providing both the internet service and
the television service where Nexu7 tablet willthe television service where Nexu7 tablet will
act a remote control for the system.act a remote control for the system.
INTODUCTIONINTODUCTION
4. Google Fiber is a project to build an experimental broadband internetGoogle Fiber is a project to build an experimental broadband internet
network infrastructure using fiber-optic communication in Kansasnetwork infrastructure using fiber-optic communication in Kansas
City.City.
In 2011, Google launched a trial in a residential community of PaloIn 2011, Google launched a trial in a residential community of Palo
Alto, California.Alto, California.
Google Fiber starting with theGoogle Fiber starting with the
Kansas city in July 24, 2012.Kansas city in July 24, 2012.
Google has plans to go for the globalGoogle has plans to go for the global
expansion of the fiber.expansion of the fiber.
HISTORYHISTORY
5. Google fiber is a broadbandGoogle fiber is a broadband
internet networkinternet network
infrastructure.infrastructure.
Google Fiber is a service byGoogle Fiber is a service by
Google that allows for fastGoogle that allows for fast
broadband connections andbroadband connections and
access to a wide array ofaccess to a wide array of
digital media.digital media.
Introduced in July 2012,Introduced in July 2012,
Google Fiber accommodatesGoogle Fiber accommodates
broadband of over 1,000broadband of over 1,000
MBPS.MBPS.
Which is many dozens ofWhich is many dozens of
times faster than the averagetimes faster than the average
American broadbandAmerican broadband
connection.connection.
DEFINITIONDEFINITION
7. No longer would one have to wait onNo longer would one have to wait on
things buffering; everything will bethings buffering; everything will be
ready to go when one is.ready to go when one is.
Whether one is video chatting,Whether one is video chatting,
uploading family videos, or plating hisuploading family videos, or plating his
favorite online games, all one needs tofavorite online games, all one needs to
do is click and he's there.do is click and he's there.
An Internet connection speed of one gigabit per second forAn Internet connection speed of one gigabit per second for
both download and upload.both download and upload.
No longer would one have to wait onNo longer would one have to wait on
things buffering; everything will bethings buffering; everything will be
ready to go when one is.ready to go when one is.
Whether one is video chatting,Whether one is video chatting,
uploading family videos, or plating hisuploading family videos, or plating his
favorite online games, all one needs tofavorite online games, all one needs to
do is click and he's there.do is click and he's there.
An Internet connection speed of one gigabit per second forAn Internet connection speed of one gigabit per second for
both download and upload.both download and upload.
Need For TechnologyNeed For Technology
9. Where is it?Where is it?
Kansas City were the first markets selected forKansas City were the first markets selected for
Google Fiber in implementation in 2010, chosen fromGoogle Fiber in implementation in 2010, chosen from
nearly 1,100 community and 2,00,000 individualnearly 1,100 community and 2,00,000 individual
applicants.applicants.
Since then, Google has begun work on launchingSince then, Google has begun work on launching
networks in Provo, Utah, Austin and Texas.networks in Provo, Utah, Austin and Texas.
10. FUNCTIONALITYFUNCTIONALITY
Google fiber uses Fiber Optic communication to provide 100 times betterGoogle fiber uses Fiber Optic communication to provide 100 times better
internet connectivity.internet connectivity.
Optical fiber is the newest fromOptical fiber is the newest from
bounded media. The fiber optic cablebounded media. The fiber optic cable
transmits light signals rather thantransmits light signals rather than
electrical signals.electrical signals.
A fiber optic cable consists of aA fiber optic cable consists of a
bundle of glass threads, each ofbundle of glass threads, each of
which is capable of transmittingwhich is capable of transmitting
messages modulated onto lightmessages modulated onto light
waves.waves.
11. Fiber optics has several advantages over traditional metalFiber optics has several advantages over traditional metal
communications lines:communications lines:
• Fiber optic cables have a muchFiber optic cables have a much
greater bandwidth than metalgreater bandwidth than metal
cables. This means that theycables. This means that they
can carry more data.can carry more data.
• Fiber optic cables are lessFiber optic cables are less
susceptible than metal cablessusceptible than metal cables
to interference.to interference.
• Fiber optic cables are muchFiber optic cables are much
thinner and lighter than metalthinner and lighter than metal
wires.wires.
• Data can be transmittedData can be transmitted
digitally (the natural form fordigitally (the natural form for
computer data) rather thancomputer data) rather than
analogically.analogically.
12. • Google Fiber is a different kind of Internet and TV.Google Fiber is a different kind of Internet and TV.
• Google Fiber providesGoogle Fiber provides
TV BoxTV Box
Network BoxNetwork Box
Storage BoxStorage Box
Cloud StorageCloud Storage
Requirement of TechnologyRequirement of Technology
13. TV BOXTV BOX
Get access to live TV, on-demand shows, andGet access to live TV, on-demand shows, and
Internet content.Internet content.
Every TV Box is HD-ready, so there are no extraEvery TV Box is HD-ready, so there are no extra
monthly fees to watch HD.monthly fees to watch HD.
14. Network BoxNetwork Box
Access Google Fiber all over your home byAccess Google Fiber all over your home by
directly connecting to one of thedirectly connecting to one of the four 1 Gbpsfour 1 Gbps
Ethernet portsEthernet ports, or by accessing the high speed Wi-, or by accessing the high speed Wi-
Fi. And stay safe with the gigabit firewall.Fi. And stay safe with the gigabit firewall.
15. Storage BoxStorage Box
WithWith 2 terabytes2 terabytes of storage, you can record all yourof storage, you can record all your
favorite TV shows without ever worrying about havingfavorite TV shows without ever worrying about having
enough space.enough space.
Add your own photos, videos, and music and accessAdd your own photos, videos, and music and access
them from any device in your home.them from any device in your home.
16. Cloud StorageCloud Storage
Cloud storage means "the storage of data online inCloud storage means "the storage of data online in
the cloud,"the cloud,"
Google Fiber customersGoogle Fiber customers
are also provided with 1TBare also provided with 1TB
of cloud storage via Googleof cloud storage via Google
Drive.Drive.
Cloud storage can provideCloud storage can provide
the benefits of greaterthe benefits of greater
accessibility and reliability;accessibility and reliability;
rapid deployment; strongrapid deployment; strong
protection for data backup.protection for data backup.
17. Nexus 7 TabletNexus 7 Tablet
Get Google's new AndroidGet Google's new Android
tablet, the Nexus 7, freetablet, the Nexus 7, free
with this package. Gowith this package. Go
beyond your standardbeyond your standard
remote's search andremote's search and
discovery experience.discovery experience.
Seamlessly watch on yourSeamlessly watch on your
tablet in other rooms oftablet in other rooms of
your house.your house.
18. Today's InternetToday's Internet Google fiberGoogle fiber
Average internetAverage internet
speed is 5.8 Mbpsspeed is 5.8 Mbps
Using Copper WiresUsing Copper Wires
Speed up to 1GbpsSpeed up to 1Gbps
Using Fiber OpticUsing Fiber Optic
CablesCables
19. Internet connection speed 100 times faster thanInternet connection speed 100 times faster than
today's average broadband.today's average broadband.
Using fiber optic cables.Using fiber optic cables.
Network speed up to 1Gb per second.Network speed up to 1Gb per second.
1TB/2TB data storage capacity.1TB/2TB data storage capacity.
You have access to a wide range of channels.You have access to a wide range of channels.
Get access to live TV.Get access to live TV.
Supporting HD TV channelsSupporting HD TV channels
ADVANTAGESADVANTAGES
20. Now only available at Kansas City andNow only available at Kansas City and
Missouri.Missouri.
Very expansive.Very expansive.
DISADVANTAGESDISADVANTAGES
21. Now, it is India's turn to get this speed.Now, it is India's turn to get this speed.
Kerala -based Startup Village, the India’sKerala -based Startup Village, the India’s
first telecom incubator, now has a newly-first telecom incubator, now has a newly-
laid 1 Gbps (gigabits per second)laid 1 Gbps (gigabits per second)
connectivity.connectivity.
You can download a two-hour highYou can download a two-hour high
definition movie in 30 seconds or view adefinition movie in 30 seconds or view a
video in YouTube at this lightning speed!video in YouTube at this lightning speed!
Startup Village of Kochi has become theStartup Village of Kochi has become the
second place in the world, after Kansassecond place in the world, after Kansas
City of United States, to experience thisCity of United States, to experience this
ultra-fast connectivity, that is all set toultra-fast connectivity, that is all set to
revolutionise the internet experience ofrevolutionise the internet experience of
the citizens in the coming days.the citizens in the coming days.
FUTUREFUTURE
22. Google Fiber is a new generation InternetGoogle Fiber is a new generation Internet
technology.technology. In the preceding sections we saw thatIn the preceding sections we saw that
“It's not just TV. And it's not just Internet. It's“It's not just TV. And it's not just Internet. It's
Google Fiber” because its contain up to 1Gb uploadGoogle Fiber” because its contain up to 1Gb upload
& download speed, Full channel TV, 1 TV Box,& download speed, Full channel TV, 1 TV Box,
Storage Box, Network Box and 1TB storageStorage Box, Network Box and 1TB storage
capacity.capacity.
ConclusionConclusion