The document discusses the author's magazine media product and how it uses and develops conventions of real magazines. The author aimed to make the magazine look professional by using polished photographs on the cover that followed conventions seen in researched magazines. The layout of the cover is simple with a banner title and one main coverline, mirroring researched magazines. While staying safe within the genre's conventions rather than challenging them drastically, the contents page and double page spread further develop the magazine's professional look and recognizable genre through consistent styles and realistic featured content.
This document discusses how a media product represents particular social groups. Specifically, it describes the creative choices made in producing a magazine targeting middle-class, educated teenage girls. Photographs feature models in vintage-inspired, subtly sexy poses. Makeup and styling choices like red lipstick are meant to portray glamour and sophistication. The layout, fonts, and story topics are selected to appeal to readers interested in indie music, fashion, and news in the music industry. The goal is to represent the tastes and interests of the target demographic through the magazine's visual design and content.
La mujer representa la armonía, el amor, la belleza y la pasión. Ella es la fuente de la felicidad y es sencilla, simplemente lo mejor. El documento también dedica esas cualidades a todas las niñas de la clase 10-A.
During the construction and research stages, the group discussed what technologies like cameras and editing software they could use. For planning, they communicated using smartphones to organize filming dates and share ideas. Technologies helped with communication but weren't essential to the production process. The relationship between creativity and new media is that technologies provide better resources and mediums for producing creative work.
The document discusses the author's magazine media product and how it uses and develops conventions of real magazines. The author aimed to make the magazine look professional by using polished photographs on the cover that followed conventions seen in researched magazines. The layout of the cover is simple with a banner title and one main coverline, mirroring researched magazines. While staying safe within the genre's conventions rather than challenging them drastically, the contents page and double page spread further develop the magazine's professional look and recognizable genre through consistent styles and realistic featured content.
This document discusses how a media product represents particular social groups. Specifically, it describes the creative choices made in producing a magazine targeting middle-class, educated teenage girls. Photographs feature models in vintage-inspired, subtly sexy poses. Makeup and styling choices like red lipstick are meant to portray glamour and sophistication. The layout, fonts, and story topics are selected to appeal to readers interested in indie music, fashion, and news in the music industry. The goal is to represent the tastes and interests of the target demographic through the magazine's visual design and content.
La mujer representa la armonía, el amor, la belleza y la pasión. Ella es la fuente de la felicidad y es sencilla, simplemente lo mejor. El documento también dedica esas cualidades a todas las niñas de la clase 10-A.
During the construction and research stages, the group discussed what technologies like cameras and editing software they could use. For planning, they communicated using smartphones to organize filming dates and share ideas. Technologies helped with communication but weren't essential to the production process. The relationship between creativity and new media is that technologies provide better resources and mediums for producing creative work.
The document discusses the potential media institution to distribute a classical music magazine for young people called Crescendo. It considers both mainstream publishers like Frontline that distribute magazines to large audiences and make money through advertising, and independent publishers that focus on niche audiences. While an independent publisher would allow more creative freedom, a mainstream publisher could help the magazine reach a larger audience and make more money. Ultimately, distributing both a print magazine and digital content online would allow the magazine to reach young people across multiple platforms.
This document summarizes the audience research for a magazine. The target demographic is 16-19 year old females and possibly males, focusing on socio-economic groups C2-B according to the Jicnar scale. The psychographic of the target audience is mainstreamers who have individual tastes in style and music. Considering the psychographic allows targeting the needs, desires, and aspirations of the audience.
1. Hibernate in Action is a book about Hibernate, an open source object-relational mapping tool for Java.
2. ORM tools like Hibernate aim to solve the "object-relational mismatch" by providing an automated solution that bridges between relational databases and object-oriented programming in Java.
3. The book provides a comprehensive overview of using Hibernate for persistent object mapping and retrieval from relational databases, and how to configure Hibernate for both managed and unmanaged environments.
Graph databases are a type of NoSQL database that uses nodes and relationships to represent and store data. Nodes can have properties and be connected to other nodes via relationships. This allows for complex queries of connected data. Neo4j is an example of a graph database that uses these concepts to store and query data. Code examples are shown for how to programmatically create nodes and relationships in Neo4j and traverse the graph to find connected nodes.
The document appears to be discussing graph databases and Neo4j. It provides examples of modeling data as nodes and relationships in Neo4j and writing Cypher queries to retrieve and update data in the graph.
This is a presentation given at http://nosql-matters.org 2012 and at the JUG in Toulouse and Bordeaux.
The links are referring to the great introduction to Cypher by Max De Marci, http://www.slideshare.net/maxdemarzi/cypher-12154713 and the Neo4j online Cypher Cookbook section, http://docs.neo4j.org/chunked/snapshot/cypher-cookbook.html
Given by Peter Neubuaer at OSON 2012:
You know the drill – prototype, code, test, docs. The last part of the chain is either omitted or will rot in Wikis and manuals. At Neo4j, we made the painful switch from wiki-hell to a totally code – backed manual that is driven by unit tests, a documentation toolchain and part of our build artifacts. Graph images, code snippets, live REST calls and everything. And still not getting in the way of the developers. We are now writing test code that is fit for publishing as blog links to parts of the manual. And developers are looking at the manual to see if the tests make sense. Want that? Hell yeah
Neo4j Spatial provides spatial/GIS capabilities for Neo4j, allowing it to store and query geospatial data. It aims to make GIS more accessible and allow for complex spatial mapping and analytics by connecting location data to other domain data stored in the graph. Features include support for OpenStreetMap data, dynamic layers, and topological queries and persistence of spatial relationships directly in the graph.
Compelling location-based services require more than simple “what’s near me?” operations. The Open Street Map dataset is a perfect example of a rich geographically-based wiki that can be used for much more than map rendering.
With the newly released Neo4j Spatial, any data can be adapted to complex queries with geographic components like “Select all streets in the Municipality of NYC where at least 2 of my friends are walking right now”.
The talk will demonstrate the important benefits of modeling geodata in a graph, the main components needed to expose data to geo stacks like map servers, and explain how the Open Street Map dataset is modeled in Neo4j. I’ll show how using Neo4j unlocks the full potential of the OSM data far beyond just rendering maps.
There will also be some cool examples of Neo4j Spatial, from Telecomms network planning, Web-based AJAX GIS systems, topology editing and routing to REST and Web Feature Service endpoints, all in a single stack.
This is Location-based Services on steroids!
This document discusses graph databases and provides examples of how the Neo4j graph database can be used. It shows how Neo4j supports social, spatial, financial and other types of connected data. It also summarizes Neo4j's REST API, support for object-oriented programming, routing algorithms, multiple indexes, recommendation systems, and other use cases. The document advocates for graph databases for any problem involving multiple relationships and connections between entities.
The document discusses the potential media institution to distribute a classical music magazine for young people called Crescendo. It considers both mainstream publishers like Frontline that distribute magazines to large audiences and make money through advertising, and independent publishers that focus on niche audiences. While an independent publisher would allow more creative freedom, a mainstream publisher could help the magazine reach a larger audience and make more money. Ultimately, distributing both a print magazine and digital content online would allow the magazine to reach young people across multiple platforms.
This document summarizes the audience research for a magazine. The target demographic is 16-19 year old females and possibly males, focusing on socio-economic groups C2-B according to the Jicnar scale. The psychographic of the target audience is mainstreamers who have individual tastes in style and music. Considering the psychographic allows targeting the needs, desires, and aspirations of the audience.
1. Hibernate in Action is a book about Hibernate, an open source object-relational mapping tool for Java.
2. ORM tools like Hibernate aim to solve the "object-relational mismatch" by providing an automated solution that bridges between relational databases and object-oriented programming in Java.
3. The book provides a comprehensive overview of using Hibernate for persistent object mapping and retrieval from relational databases, and how to configure Hibernate for both managed and unmanaged environments.
Graph databases are a type of NoSQL database that uses nodes and relationships to represent and store data. Nodes can have properties and be connected to other nodes via relationships. This allows for complex queries of connected data. Neo4j is an example of a graph database that uses these concepts to store and query data. Code examples are shown for how to programmatically create nodes and relationships in Neo4j and traverse the graph to find connected nodes.
The document appears to be discussing graph databases and Neo4j. It provides examples of modeling data as nodes and relationships in Neo4j and writing Cypher queries to retrieve and update data in the graph.
This is a presentation given at http://nosql-matters.org 2012 and at the JUG in Toulouse and Bordeaux.
The links are referring to the great introduction to Cypher by Max De Marci, http://www.slideshare.net/maxdemarzi/cypher-12154713 and the Neo4j online Cypher Cookbook section, http://docs.neo4j.org/chunked/snapshot/cypher-cookbook.html
Given by Peter Neubuaer at OSON 2012:
You know the drill – prototype, code, test, docs. The last part of the chain is either omitted or will rot in Wikis and manuals. At Neo4j, we made the painful switch from wiki-hell to a totally code – backed manual that is driven by unit tests, a documentation toolchain and part of our build artifacts. Graph images, code snippets, live REST calls and everything. And still not getting in the way of the developers. We are now writing test code that is fit for publishing as blog links to parts of the manual. And developers are looking at the manual to see if the tests make sense. Want that? Hell yeah
Neo4j Spatial provides spatial/GIS capabilities for Neo4j, allowing it to store and query geospatial data. It aims to make GIS more accessible and allow for complex spatial mapping and analytics by connecting location data to other domain data stored in the graph. Features include support for OpenStreetMap data, dynamic layers, and topological queries and persistence of spatial relationships directly in the graph.
Compelling location-based services require more than simple “what’s near me?” operations. The Open Street Map dataset is a perfect example of a rich geographically-based wiki that can be used for much more than map rendering.
With the newly released Neo4j Spatial, any data can be adapted to complex queries with geographic components like “Select all streets in the Municipality of NYC where at least 2 of my friends are walking right now”.
The talk will demonstrate the important benefits of modeling geodata in a graph, the main components needed to expose data to geo stacks like map servers, and explain how the Open Street Map dataset is modeled in Neo4j. I’ll show how using Neo4j unlocks the full potential of the OSM data far beyond just rendering maps.
There will also be some cool examples of Neo4j Spatial, from Telecomms network planning, Web-based AJAX GIS systems, topology editing and routing to REST and Web Feature Service endpoints, all in a single stack.
This is Location-based Services on steroids!
This document discusses graph databases and provides examples of how the Neo4j graph database can be used. It shows how Neo4j supports social, spatial, financial and other types of connected data. It also summarizes Neo4j's REST API, support for object-oriented programming, routing algorithms, multiple indexes, recommendation systems, and other use cases. The document advocates for graph databases for any problem involving multiple relationships and connections between entities.
2. Auringon säteily Aktivoi kehon D-vitamiinin tuotantoa Valolla paljon myönteisiä vaikutuksia Ultraviolettisäteilyllä 3 aallonpituutta UV-A 315 - 400 nm UV-B 280 - 315 nm UV-C 200 - 280 nm 16.3.2010 Oma Nimi 2
3. Ultraviolettisäteily UV-A ruskettaa UV-B on iholle haitallisinta otsoni suodattaa UV-C yleisesti haitallisin suodattuu ilmakehään 16.3.2010 Oma Nimi 3
4. Auringonotto Huomioi ihotyyppisi auringonsuoja-aine Lapset suojattava auringolta Leveysasteen vaikutus Välimerellä voimakkuus 2x tropiikissa 3x 16.3.2010 Oma Nimi 4
5. Kesä ja talvi napa-alueilla 16.3.2010 Oma Nimi 5 KESÄ TALVI Aurinko näkyy 24 tuntia. Aurinko ei näy 24 tuntiin.
6. Kesä ja Talvi napa-alueilla 16.3.2010 Oma Nimi 6 KESÄ TALVI Aurinko ei näy 24 tuntia Aurinko näkyy 24 tuntia.
7. Otsonikato otsonikerros on suoja säteilyltä otsonikerros ohenee erityisesti keväisin teollisuuden päästöt freonit halonit kansainvälisiä rajoitustoimia