This document discusses careers in mass media, specifically journalism. It outlines different journalism roles like editors, reporters, and photojournalists. Editors oversee publications and make decisions about content. Reporters collect information and write stories. Photojournalists use photos to tell visual stories. The document also interviews a creative director about his career in journalism, what he likes about the storytelling aspect, and the challenges of economic instability in the industry. He recommends the field for those passionate about learning and great work.
Two graph data models : RDF and Property Graphsandyseaborne
This document provides an overview of two graph data models: RDF and Property Graphs. It describes the key components of each model, including triples for RDF and nodes/edges/properties for Property Graphs. It also discusses Apache projects that work with each model like Apache Jena for RDF and Apache TinkerPop, Spark, Giraph and Flink for Property Graphs. Finally, it notes that while the models have different focuses, they could potentially share technologies like storage and query capabilities.
The document summarizes the economic challenges facing the West Midlands region of the UK. It describes the deep recession's impact on the region, including higher unemployment rates and numbers of redundancies compared to other parts of the country. It also discusses the region's long-term economic underperformance, with lower GDP growth and reliance on low-tech manufacturing compared to the national average. Key ongoing challenges include skills shortages, low productivity, and vulnerability to downturns in traditional industries.
The document discusses the Nepali short story writer Parashu Pradhan. It provides biographical details about Pradhan and summarizes his short story "The Telegram on the Table". The story is about a man named Krishna who dreams of moving abroad but has become detached from his roots in Nepal and emotionless after his wife passes away. The document analyzes themes around Nepali youth pursuing dreams abroad and the costs of losing touch with one's culture and family.
RDF Graph Data Management in Oracle Database and NoSQL PlatformsGraph-TA
This document discusses Oracle's support for graph data models across its database and NoSQL platforms. It provides an overview of Oracle's RDF graph and property graph support in Oracle Database 12c and Oracle NoSQL Database. It also outlines Oracle's strategy to support graph data types on all its enterprise platforms, including Oracle Database, Oracle NoSQL, Oracle Big Data, and Oracle Cloud.
This document discusses careers in mass media, specifically journalism. It outlines different journalism roles like editors, reporters, and photojournalists. Editors oversee publications and make decisions about content. Reporters collect information and write stories. Photojournalists use photos to tell visual stories. The document also interviews a creative director about his career in journalism, what he likes about the storytelling aspect, and the challenges of economic instability in the industry. He recommends the field for those passionate about learning and great work.
Two graph data models : RDF and Property Graphsandyseaborne
This document provides an overview of two graph data models: RDF and Property Graphs. It describes the key components of each model, including triples for RDF and nodes/edges/properties for Property Graphs. It also discusses Apache projects that work with each model like Apache Jena for RDF and Apache TinkerPop, Spark, Giraph and Flink for Property Graphs. Finally, it notes that while the models have different focuses, they could potentially share technologies like storage and query capabilities.
The document summarizes the economic challenges facing the West Midlands region of the UK. It describes the deep recession's impact on the region, including higher unemployment rates and numbers of redundancies compared to other parts of the country. It also discusses the region's long-term economic underperformance, with lower GDP growth and reliance on low-tech manufacturing compared to the national average. Key ongoing challenges include skills shortages, low productivity, and vulnerability to downturns in traditional industries.
The document discusses the Nepali short story writer Parashu Pradhan. It provides biographical details about Pradhan and summarizes his short story "The Telegram on the Table". The story is about a man named Krishna who dreams of moving abroad but has become detached from his roots in Nepal and emotionless after his wife passes away. The document analyzes themes around Nepali youth pursuing dreams abroad and the costs of losing touch with one's culture and family.
RDF Graph Data Management in Oracle Database and NoSQL PlatformsGraph-TA
This document discusses Oracle's support for graph data models across its database and NoSQL platforms. It provides an overview of Oracle's RDF graph and property graph support in Oracle Database 12c and Oracle NoSQL Database. It also outlines Oracle's strategy to support graph data types on all its enterprise platforms, including Oracle Database, Oracle NoSQL, Oracle Big Data, and Oracle Cloud.
"Dude, where's my graph?" RDF Data Cubes for Clinical Trials DataMarc Andersen
This document discusses using RDF and linked data principles to display clinical trial results as interactive graphs and summary tables. It describes how RDF triples can represent clinical data and be rendered as directed graphs using D3.js. It also presents an interface with actions like "Describe", "Dimensions", and "Data" that build and display SPARQL queries of an RDF data cube, allowing linked exploration and visualization of results. Ongoing work in the PhUSE Semantic Technology Project aims to further specify the RDF data cube model and develop supporting R packages and documentation.
This document discusses linking data and people through ontologies and semantic web technologies. It provides examples of using RDF, FOAF, and Linked Data principles to describe people and relationships. It also showcases several applications that utilize these technologies including Vivo, a semantic publishing platform, and domain-specific knowledge environments.
Gi-Fi is a new wireless technology that allows data transfer speeds up to 5 gigabits per second, which is 10 times faster than current wireless speeds. It uses a small chip that integrates both a transmitter and receiver to enable wireless transfer of audio, video and other large files within seconds over short distances. Gi-Fi has advantages over existing technologies like Wi-Fi in offering higher speeds, lower power consumption and cost for short-range transmissions. The development of Gi-Fi will enable truly wireless networking in offices and homes without wires.
Mobile computing allows users to access network services from any location using portable devices. It enables connectivity and access to information anywhere and anytime. Mobile computing faces several challenges due to low bandwidth, variable connectivity, and security risks when accessing networks from untrusted locations. However, technology is constantly improving and helping to address limitations. The future of mobile computing may include greater use of artificial intelligence, integrated circuits for more compact devices, and faster computer processors.
What's The Social Graph Got To Do With It?Alisa Leonard
The social graph and data portability have long been a geek discussion. This is hopefully a nice primer for marketers to start thinking about the social graph and its potential. Granted, there are many counterpoints to the ideas expressed here, and many other issues around data portability including decentralization, the creation of microformats and how FBC is contrary to the Open movement...but I wanted this to be an intro for marketers.
This document provides guidance on listening skills and note taking. It recommends focusing on the main ideas and key points when listening, rather than unimportant details. It also suggests practicing paraphrasing by shortening sentences into telegram or text message style for note taking.
The document discusses the messaging app Telegram, launched in 2013 by Nikolai and Pavel Durov. It gained 100,000 daily users in October 2013 and 35 million monthly users by March 2014. Telegram allows ordinary chats with client-server encryption on multiple devices, and secret chats with end-to-end encryption only on two devices. It features encryption, cloud storage, desktop and mobile apps, file sharing, and groups.
The document provides information about storing, using, and troubleshooting social studies laptop computers. The laptops are stored in a cart in room 124, plugged into chargers. To transport the cart, the airport must be unplugged. Common problems include dim monitors which can be fixed by restarting, freezing which is solved by restarting, and sound control issues which may work by hitting function and end keys. Students should sign out laptops from the binder, return them to the cart plugged in, and not have food or drink while using them.
The document discusses various wireless communication technologies including Wi-Fi, Bluetooth, 3G/4G networks, RFID, WIMAX, and WAP. It provides information on each technology such as how they transmit data wirelessly, their typical range, and common uses. Wireless communication allows data transfer without wires by using techniques like radio waves, infrared light, and radio frequency identification. Public wireless internet access points also allow wireless internet connectivity in various locations.
How to Leverage the Social Graph with Facebook PlatformDave Olsen
Facebook is about more than just Pages and Groups. Facebook's set of powerful APIs, Facebook Platform, has made it easier than ever to create engaging social experiences on your own sites. We'll talk about why you will want to take advantage of Facebook Platform, share an example of using Facebook Platform to drive engagement and give you several strategies for how you can go back to your campus and quickly take advantage of Facebook Platform.
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.
This is an interpretation of an article from PCWorld. It is based on the fact that the seeping in of mobile technological devices like touch screen phones, etc have threatened the existence of PCs and laptops.
Wireless charging (also known as " Inductive charging ") uses an electromagnetic field to transfer energy between two objects.
This is usually done with a charging station.
Energy is sent through an inductive coupling to an electrical device, which can then use that energy to charge batteries or run the device.
The document discusses wireless mobile phone charging through microwave power transmission and rectification. It describes the key components of the transmitter and receiver sections. The transmitter section consists of a magnetron to generate microwaves and a slotted waveguide antenna to transmit them. The receiver section uses a rectenna (rectifying antenna) made of a mesh of dipoles and diodes to convert received microwaves into DC electricity. It also includes a simple sensor circuit to detect when a call is taking place so that the phone can charge during a call. The overall system aims to wirelessly charge a mobile phone using microwave power transmitted to a rectenna attached to the phone.
Three wireless technologies are described: Bluetooth, Wi-Fi, and infrared. Bluetooth transfers data at short ranges using radio waves, Wi-Fi enables wireless networking using the IEEE 802.11 standards at speeds up to 1 Mbps for most devices, and infrared uses line-of-sight infrared radiation to transmit data between devices over short distances and with lower power and cost than Bluetooth or Wi-Fi but at slower speeds and requiring line-of-sight.
Gi-Fi is a new wireless technology that offers faster data transfer rates than Wi-Fi and WiMax. It uses 60GHz frequency and can transfer data at rates up to 5 gigabits per second, which is 10 times faster than current wireless technologies. Gi-Fi uses an integrated transceiver chip developed in Australia that operates at low power. It allows quick transfer of large files like videos within seconds over short ranges. Gi-Fi is expected to become the dominant wireless technology for applications like wireless home networks and high-speed transfer between devices.
This presentation discusses wireless charging technology. It describes how wireless charging works using electromagnetic induction between two coils. There are three main types of wireless charging: resonant charging, inductive charging, and radio charging. Inductive charging is used for devices like phones and toothbrushes, while resonant charging is used for larger devices like electric cars. The presentation covers standards, applications, and the current and future state of the wireless charging market.
Wireless technology allows for the transfer of information between two points not physically connected by wires. It includes technologies like radio frequency communication, microwave communication, infrared communication, cellular networks, WiFi, and Bluetooth. Some important developments in wireless technology history include Alexander Graham Bell and Charles Sumner Tainter inventing the photophone in 1880, the first wireless telephone, and Heinrich Hertz demonstrating electromagnetic waves in 1888, proving James Clerk Maxwell's electromagnetic theory. Modern applications of wireless technology include mobile phones, wireless internet access, and wireless energy transfer.
This document summarizes a seminar on Gi-Fi technology. It discusses currently used wireless technologies like Wi-Fi and Bluetooth. It then introduces Gi-Fi, explaining that it uses light waves to transmit data wirelessly over short distances at high speeds. The document outlines Gi-Fi's architecture, features like high speed data transfer and low power consumption. It also lists some applications and concludes that Gi-Fi is expected to become the dominant wireless networking technology within five years, bringing wireless broadband to both homes and offices.
"Dude, where's my graph?" RDF Data Cubes for Clinical Trials DataMarc Andersen
This document discusses using RDF and linked data principles to display clinical trial results as interactive graphs and summary tables. It describes how RDF triples can represent clinical data and be rendered as directed graphs using D3.js. It also presents an interface with actions like "Describe", "Dimensions", and "Data" that build and display SPARQL queries of an RDF data cube, allowing linked exploration and visualization of results. Ongoing work in the PhUSE Semantic Technology Project aims to further specify the RDF data cube model and develop supporting R packages and documentation.
This document discusses linking data and people through ontologies and semantic web technologies. It provides examples of using RDF, FOAF, and Linked Data principles to describe people and relationships. It also showcases several applications that utilize these technologies including Vivo, a semantic publishing platform, and domain-specific knowledge environments.
Gi-Fi is a new wireless technology that allows data transfer speeds up to 5 gigabits per second, which is 10 times faster than current wireless speeds. It uses a small chip that integrates both a transmitter and receiver to enable wireless transfer of audio, video and other large files within seconds over short distances. Gi-Fi has advantages over existing technologies like Wi-Fi in offering higher speeds, lower power consumption and cost for short-range transmissions. The development of Gi-Fi will enable truly wireless networking in offices and homes without wires.
Mobile computing allows users to access network services from any location using portable devices. It enables connectivity and access to information anywhere and anytime. Mobile computing faces several challenges due to low bandwidth, variable connectivity, and security risks when accessing networks from untrusted locations. However, technology is constantly improving and helping to address limitations. The future of mobile computing may include greater use of artificial intelligence, integrated circuits for more compact devices, and faster computer processors.
What's The Social Graph Got To Do With It?Alisa Leonard
The social graph and data portability have long been a geek discussion. This is hopefully a nice primer for marketers to start thinking about the social graph and its potential. Granted, there are many counterpoints to the ideas expressed here, and many other issues around data portability including decentralization, the creation of microformats and how FBC is contrary to the Open movement...but I wanted this to be an intro for marketers.
This document provides guidance on listening skills and note taking. It recommends focusing on the main ideas and key points when listening, rather than unimportant details. It also suggests practicing paraphrasing by shortening sentences into telegram or text message style for note taking.
The document discusses the messaging app Telegram, launched in 2013 by Nikolai and Pavel Durov. It gained 100,000 daily users in October 2013 and 35 million monthly users by March 2014. Telegram allows ordinary chats with client-server encryption on multiple devices, and secret chats with end-to-end encryption only on two devices. It features encryption, cloud storage, desktop and mobile apps, file sharing, and groups.
The document provides information about storing, using, and troubleshooting social studies laptop computers. The laptops are stored in a cart in room 124, plugged into chargers. To transport the cart, the airport must be unplugged. Common problems include dim monitors which can be fixed by restarting, freezing which is solved by restarting, and sound control issues which may work by hitting function and end keys. Students should sign out laptops from the binder, return them to the cart plugged in, and not have food or drink while using them.
The document discusses various wireless communication technologies including Wi-Fi, Bluetooth, 3G/4G networks, RFID, WIMAX, and WAP. It provides information on each technology such as how they transmit data wirelessly, their typical range, and common uses. Wireless communication allows data transfer without wires by using techniques like radio waves, infrared light, and radio frequency identification. Public wireless internet access points also allow wireless internet connectivity in various locations.
How to Leverage the Social Graph with Facebook PlatformDave Olsen
Facebook is about more than just Pages and Groups. Facebook's set of powerful APIs, Facebook Platform, has made it easier than ever to create engaging social experiences on your own sites. We'll talk about why you will want to take advantage of Facebook Platform, share an example of using Facebook Platform to drive engagement and give you several strategies for how you can go back to your campus and quickly take advantage of Facebook Platform.
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.
This is an interpretation of an article from PCWorld. It is based on the fact that the seeping in of mobile technological devices like touch screen phones, etc have threatened the existence of PCs and laptops.
Wireless charging (also known as " Inductive charging ") uses an electromagnetic field to transfer energy between two objects.
This is usually done with a charging station.
Energy is sent through an inductive coupling to an electrical device, which can then use that energy to charge batteries or run the device.
The document discusses wireless mobile phone charging through microwave power transmission and rectification. It describes the key components of the transmitter and receiver sections. The transmitter section consists of a magnetron to generate microwaves and a slotted waveguide antenna to transmit them. The receiver section uses a rectenna (rectifying antenna) made of a mesh of dipoles and diodes to convert received microwaves into DC electricity. It also includes a simple sensor circuit to detect when a call is taking place so that the phone can charge during a call. The overall system aims to wirelessly charge a mobile phone using microwave power transmitted to a rectenna attached to the phone.
Three wireless technologies are described: Bluetooth, Wi-Fi, and infrared. Bluetooth transfers data at short ranges using radio waves, Wi-Fi enables wireless networking using the IEEE 802.11 standards at speeds up to 1 Mbps for most devices, and infrared uses line-of-sight infrared radiation to transmit data between devices over short distances and with lower power and cost than Bluetooth or Wi-Fi but at slower speeds and requiring line-of-sight.
Gi-Fi is a new wireless technology that offers faster data transfer rates than Wi-Fi and WiMax. It uses 60GHz frequency and can transfer data at rates up to 5 gigabits per second, which is 10 times faster than current wireless technologies. Gi-Fi uses an integrated transceiver chip developed in Australia that operates at low power. It allows quick transfer of large files like videos within seconds over short ranges. Gi-Fi is expected to become the dominant wireless technology for applications like wireless home networks and high-speed transfer between devices.
This presentation discusses wireless charging technology. It describes how wireless charging works using electromagnetic induction between two coils. There are three main types of wireless charging: resonant charging, inductive charging, and radio charging. Inductive charging is used for devices like phones and toothbrushes, while resonant charging is used for larger devices like electric cars. The presentation covers standards, applications, and the current and future state of the wireless charging market.
Wireless technology allows for the transfer of information between two points not physically connected by wires. It includes technologies like radio frequency communication, microwave communication, infrared communication, cellular networks, WiFi, and Bluetooth. Some important developments in wireless technology history include Alexander Graham Bell and Charles Sumner Tainter inventing the photophone in 1880, the first wireless telephone, and Heinrich Hertz demonstrating electromagnetic waves in 1888, proving James Clerk Maxwell's electromagnetic theory. Modern applications of wireless technology include mobile phones, wireless internet access, and wireless energy transfer.
This document summarizes a seminar on Gi-Fi technology. It discusses currently used wireless technologies like Wi-Fi and Bluetooth. It then introduces Gi-Fi, explaining that it uses light waves to transmit data wirelessly over short distances at high speeds. The document outlines Gi-Fi's architecture, features like high speed data transfer and low power consumption. It also lists some applications and concludes that Gi-Fi is expected to become the dominant wireless networking technology within five years, bringing wireless broadband to both homes and offices.
3. QUÈ ÉS TELEGRAM?
● Missatgeria gratuïta
● Permet enviar i rebre missatges
● Funciona a través d'Internet
● Permet creació de grups, imatges i videos
● Major privacitat i seguretat
4. SEGURETAT
● Es pot utilitzar el “Xat Secret”
● Les conversacions no queden als servidors de telegram
● Les conversacions s'esborren automàticament
● Es pot esborrar un document (foto, vídeo...) en la convercació
de les dues persones.
● Impossibilitat de hackejar la conta
● Sense virus
6. COMPARACIONS ENTRE
WHATSAPP I TELEGRAM
TELEGRAMWHATSAPP
● Grups de fins a 50 persones
● Preu: 0'89€/any
● Seguretat baixa (múltiples errades)
● Compartir només imatges, vídeos,
ubicació, i contactes
● Es guarda dins l'aplicació, és a dir,
només dins el mòbil
● Suport en anglès
● Grups de fins a 200 persones
● Preu: Gratuït
● Seguretat alta
● Compartir qualsevol arxiu (fins 1GB)
● És guarda online, és a dir, a qualsevol
dispositiu
● Suport en espanyol
7. PER QUÈ...?
● Per què no utilitzam Telegram?
● Per què no amollam Whatsapp?
● Per què es diu que “Telegram” no està a l'altura de
Whatsapp?