| 1. Identificação | |
| Tipo de Referência | Capítulo de Livro (Book Section) |
| Site | mtc-m16b.sid.inpe.br |
| Código do Detentor | isadg {BR SPINPE} ibi 8JMKD3MGPCW/3DT298S |
| Repositório | sid.inpe.br/mtc-m17@80/2008/01.17.14.37 |
| Última Atualização | 2008:01.17.14.37.10 (UTC) administrator |
| Repositório de Metadados | sid.inpe.br/mtc-m17@80/2008/01.17.14.37.12 |
| Última Atualização dos Metadados | 2021:02.10.23.11.23 (UTC) administrator |
| Chave Secundária | INPE-15163-PRE/10056 |
| Chave de Citação | Correa:2005:UsReSe |
| Título | The use of meteorological satellites for the improvement of human health.In: The use of remote sensing to control infectious diseases  |
| Projeto | Meteorologia por satélite e radiação atmosférica |
| Ano | 2005 |
| Data de Acesso | 24 abr. 2024 |
| Tipo Secundário | PRE LN |
| Número de Arquivos | 1 |
| Tamanho | 1279 KiB |
| 2. Contextualização | |
| Autor | Correa, Marcelo de Paula |
| Grupo | DSA-INPE-MCT-BR |
| Afiliação | Instituto Nacional de Pesquisas Espaciais, Centro de Previsão do Tempo e Estudos Climáticos (INPE.CPTEC) |
| Endereço de e-Mail do Autor | mpcorrea@cptec.inpe.br |
| Editor | Confalonieri, Ulisses (org. ) |
| Título do Livro | The use of remote sensing to control infectious diseases |
| Editora (Publisher) | Associação Brasileira de Pós-Graduação em Saúde Coletiva |
| Cidade | Rio de Janeiro |
| Páginas | x |
| Histórico (UTC) | 2008-01-17 14:37:12 :: simone -> administrator :: 2012-10-22 13:21:07 :: administrator -> simone :: 2005 2013-02-20 15:20:18 :: simone -> administrator :: 2005 2021-02-10 23:11:23 :: administrator -> marciana :: 2005 |
| 3. Conteúdo e estrutura | |
| É a matriz ou uma cópia? | é a matriz |
| Estágio do Conteúdo | concluido |
| Transferível | 1 |
| Tipo do Conteúdo | External Contribution |
| Palavras-Chave | METEOROLOGY Meterological satellites Human health Remote sensing Infectious diseases Solar radiation Terrestrial radiation METEOROLOGIA Satélites meteorológicos Saúde humana Sensoriamento remoto Doenças infeccionasa Radiação solar Radiação terrestre |
| Resumo | Since the older times men have observed and studied the optical phenomena in nature, like the formation of images, eclipses and sky observation. In 300 b.C. the Greek philosopher Aristotle observed the suns image projected on the soil after the passage of the sunlight through a small orifice. He also perceived that the smaller was this orifice, the clearer was the image. It was the first (and rough) description of a Camera obscura (Latin name for the dark room). In the tenth-century the Arabian scholar Ibrahin Ibn Ibrahin reported the use of a small orifice in a dark room to project eclipses in a wall. European studious also used this technique some centuries later, like Leonardo da Vinci (1452-1519) that also wrote about the use of a similar device as a dark room. In the following years, studious, astronomers, painters and artists also used dark rooms for different proposals. The development of lenses and modern technologies has contributed to the mans desire of recording the scenes. In June/July 1827, Joseph Nicéphore Niepce, using a technique called heliography, obtained the first successful recorded image with the use of a sensor placed at some considerable distance of a target. However, the invention of photography cannot be credited to only one person. One of the most famous inventors is also the French Louis Jacques Mandé Daguerre, who had worked with Niepce and continued working after his death. Daguerre created a technique to fix an image in a copper shape covered with a thin silver pellicle, using mercury vapor. After few years, photographic cameras started to be mounted in free and captive balloons to produce aerial images. The aerial photography was extensively used in topography maps, war strategy and petroleum exploration. In the twentieth-century, new techniques were developed for the use of colors (~1900), infrared (~1930), ultraviolet and multi-spectral (~1960) images. In spite of the utilization of remote sensing devices since the nineteen-century, the term "remote sensing" became usual after the 1950s to describe a type of observation whose sensor is placed at some considerable distance from a target. |
| Área | MET |
| Arranjo | urlib.net > BDMCI > Fonds > Produção anterior à 2021 > DIDSA > The use of... |
| Conteúdo da Pasta doc | acessar |
| Conteúdo da Pasta source | não têm arquivos |
| Conteúdo da Pasta agreement | não têm arquivos |
| 4. Condições de acesso e uso | |
| URL dos dados | http://urlib.net/ibi/sid.inpe.br/mtc-m17@80/2008/01.17.14.37 |
| URL dos dados zipados | http://urlib.net/zip/sid.inpe.br/mtc-m17@80/2008/01.17.14.37 |
| Idioma | en |
| Arquivo Alvo | the use of meteorological.pdf |
| Grupo de Usuários | administrator simone |
| Visibilidade | shown |
| Detentor da Cópia | SID/SCD |
| 5. Fontes relacionadas | |
| Unidades Imediatamente Superiores | 8JMKD3MGPCW/43SRC6S |
| Lista de Itens Citando | sid.inpe.br/bibdigital/2021/01.03.02.10 1 |
| Divulgação | NTRSNASA; BNDEPOSITOLEGAL. |
| Acervo Hospedeiro | lcp.inpe.br/ignes/2004/02.12.18.39 cptec.inpe.br/walmeida/2003/04.25.17.12 |
| 6. Notas | |
| Campos Vazios | archivingpolicy archivist callnumber copyright creatorhistory descriptionlevel documentstage doi e-mailaddress edition format identifier isbn issn label lineage mark mirrorrepository nextedition notes numberofvolumes orcid parameterlist parentrepositories previousedition previouslowerunit progress readergroup readpermission resumeid rightsholder schedulinginformation secondarydate secondarymark serieseditor seriestitle session shorttitle sponsor subject tertiarymark tertiarytype translator url versiontype volume |
| 7. Controle da descrição | |
| e-Mail (login) | marciana |
| atualizar | |