狠狠撸shows by User: johnnatan20

狠狠撸shows by User: johnnatan20 / http://www.slideshare.net/images/logo.gif 狠狠撸shows by User: johnnatan20 / Sat, 31 Jan 2015 21:26:54 GMT 狠狠撸Share feed for 狠狠撸shows by User: johnnatan20 AI - Backtracking vs Depth-First Search (DFS) /slideshow/homework-5-44119081/44119081 homework-5-150131212654-conversion-gate02
The Computer Science solves a lot of daily problems in our lifes, one of them is search problems. These problems sometimes are so hard to find a good solution because is necessary study hard to comprehend the problem, modeling it and after this propose a solution. In this homework, my goal is define and explain the differ- ences between the algorithms DFS - Depth-First Search and Backtrancking. Firstly, I will introduce these algorithms in the section 2 and 3 to DFS and Backtracking respectively. In the section 4 I will show the differences between them. Finally, the conclusion in the section 5.]]>
The Computer Science solves a lot of daily problems in our lifes, one of them is search problems. These problems sometimes are so hard to find a good solution because is necessary study hard to comprehend the problem, modeling it and after this propose a solution. In this homework, my goal is define and explain the differ- ences between the algorithms DFS - Depth-First Search and Backtrancking. Firstly, I will introduce these algorithms in the section 2 and 3 to DFS and Backtracking respectively. In the section 4 I will show the differences between them. Finally, the conclusion in the section 5.]]> Sat, 31 Jan 2015 21:26:54 GMT /slideshow/homework-5-44119081/44119081 johnnatan20@slideshare.net(johnnatan20) AI - Backtracking vs Depth-First Search (DFS) johnnatan20 The Computer Science solves a lot of daily problems in our lifes, one of them is search problems. These problems sometimes are so hard to find a good solution because is necessary study hard to comprehend the problem, modeling it and after this propose a solution. In this homework, my goal is define and explain the differ- ences between the algorithms DFS - Depth-First Search and Backtrancking. Firstly, I will introduce these algorithms in the section 2 and 3 to DFS and Backtracking respectively. In the section 4 I will show the differences between them. Finally, the conclusion in the section 5. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/homework-5-150131212654-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" /> The Computer Science solves a lot of daily problems in our lifes, one of them is search problems. These problems sometimes are so hard to find a good solution because is necessary study hard to comprehend the problem, modeling it and after this propose a solution. In this homework, my goal is define and explain the differ- ences between the algorithms DFS - Depth-First Search and Backtrancking. Firstly, I will introduce these algorithms in the section 2 and 3 to DFS and Backtracking respectively. In the section 4 I will show the differences between them. Finally, the conclusion in the section 5.

AI - Backtracking vs Depth-First Search (DFS) from Johnnatan Messias

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0 MyShell - English /slideshow/documentation-42605404/42605404 documentation-141211080358-conversion-gate02
This paper aims to make students become familiar with the UNIX environment, developing programming skills in C, to increase their exposure to a shell functionality and put into practice concepts of management processes.]]>
This paper aims to make students become familiar with the UNIX environment, developing programming skills in C, to increase their exposure to a shell functionality and put into practice concepts of management processes.]]> Thu, 11 Dec 2014 08:03:58 GMT /slideshow/documentation-42605404/42605404 johnnatan20@slideshare.net(johnnatan20) MyShell - English johnnatan20 This paper aims to make students become familiar with the UNIX environment, developing programming skills in C, to increase their exposure to a shell functionality and put into practice concepts of management processes. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/documentation-141211080358-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" /> This paper aims to make students become familiar with the UNIX environment, developing programming skills in C, to increase their exposure to a shell functionality and put into practice concepts of management processes.

MyShell - English from Johnnatan Messias

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0 Monografia: Framework Para Sistemas de Navega??o de Veículos Aéreos N?o Tripulados https://pt.slideshare.net/slideshow/monografia-framework-para-sistemas-de-navegao-de-veculos-areos-no-tripulados/42604884 monografia-johnnatanmessias-141211074914-conversion-gate02
Tornar voos n?o tripulados aut?nomos sem dúvida capacitará novas oportunidades de desenvolvimento científico. Os drones podem ser utilizados em servi?os militares como, por exemplo, em combates ou ainda bem como para miss?es de resgate, pesquisa aérea, supervis?o e inspe??o de um território, atraindo bastante aten??o dos veículos de comunica??o como, por exemplo, emissoras de televis?o, rádio, jornais e internet. O objetivo desse projeto é saber se é possível tornar voos aut?nomos viáveis no drone AR.Drone 2.0 bem como a compreens?o sobre o seu funcionamento. Para isso será necessário a implementa??o de um programa de controle para voos aut?nomos. Esta realiza??o requer a aquisi??o de dados durante o voo, os quais s?o obtidos através de sensores que utilizam Arduino. A comunica??o do Arduino com o drone é necessária para a inclus?o de novos sensores e a utiliza??o destes pelo Ar.Drone é realizada mediante o framework Node.js. Cada bot?o do controle remoto possui um comando específico, podendo ser com o objetivo de o próprio usuário criar miss?es ou até mesmo executar algumas miss?es anteriormente implementadas pelo desenvolvedor. Todos os testes foram executados no AR.Drone 2.0, utilizando o framework Node.js, sensores e um controle remoto. Mediante os experimentos e estudos apresentados tornou-se possível atingir o objetivo proposto, tornando viável a aplica??o de voos aut?nomos no drone. Como resultado, para a realiza??o de voos aut?nomos foi elaborado um framework onde o usuário poderá criar miss?es de voos aut?nomos para o drone executa-las. Esses comandos s?o enviados ao drone pelo usuário devido a utiliza??o de um controle remoto. Esse controle remoto envia dados a um sensor conectado ao Arduino que processa os dados e em seguida é lido e interpretado pelo drone. Become autonomous unmanned flights undoubtedly enable new opportunities for scientific development. The drones can be used in military services, for example, in combat or as well as for rescue missions, aerial survey, supervision and inspection of a territory, attracting significant attention from media outlets such as, for example, television stations, radio, newspapers and internet. The goal of this project is whether it is possible to make viable autonomous flights at AR.Drone 2.0 and the understanding of its operation. This will require the implementation of a control program for autonomous flights. This framework requires the acquisition of data during the flight, which are obtained using sensors which use Arduino. The Arduino communication with the drone is needed for the inclusion of new sensors and the use of the AR.Drone is performed by the framework Node.js. Each remote button has a specific command, and may be in order for the user to create own missions or even perform some missions previously implemented by the developer. All tests were run on the AR.Drone 2.0, using the Node.js framework, sensors]]>
Tornar voos n?o tripulados aut?nomos sem dúvida capacitará novas oportunidades de desenvolvimento científico. Os drones podem ser utilizados em servi?os militares como, por exemplo, em combates ou ainda bem como para miss?es de resgate, pesquisa aérea, supervis?o e inspe??o de um território, atraindo bastante aten??o dos veículos de comunica??o como, por exemplo, emissoras de televis?o, rádio, jornais e internet. O objetivo desse projeto é saber se é possível tornar voos aut?nomos viáveis no drone AR.Drone 2.0 bem como a compreens?o sobre o seu funcionamento. Para isso será necessário a implementa??o de um programa de controle para voos aut?nomos. Esta realiza??o requer a aquisi??o de dados durante o voo, os quais s?o obtidos através de sensores que utilizam Arduino. A comunica??o do Arduino com o drone é necessária para a inclus?o de novos sensores e a utiliza??o destes pelo Ar.Drone é realizada mediante o framework Node.js. Cada bot?o do controle remoto possui um comando específico, podendo ser com o objetivo de o próprio usuário criar miss?es ou até mesmo executar algumas miss?es anteriormente implementadas pelo desenvolvedor. Todos os testes foram executados no AR.Drone 2.0, utilizando o framework Node.js, sensores e um controle remoto. Mediante os experimentos e estudos apresentados tornou-se possível atingir o objetivo proposto, tornando viável a aplica??o de voos aut?nomos no drone. Como resultado, para a realiza??o de voos aut?nomos foi elaborado um framework onde o usuário poderá criar miss?es de voos aut?nomos para o drone executa-las. Esses comandos s?o enviados ao drone pelo usuário devido a utiliza??o de um controle remoto. Esse controle remoto envia dados a um sensor conectado ao Arduino que processa os dados e em seguida é lido e interpretado pelo drone. Become autonomous unmanned flights undoubtedly enable new opportunities for scientific development. The drones can be used in military services, for example, in combat or as well as for rescue missions, aerial survey, supervision and inspection of a territory, attracting significant attention from media outlets such as, for example, television stations, radio, newspapers and internet. The goal of this project is whether it is possible to make viable autonomous flights at AR.Drone 2.0 and the understanding of its operation. This will require the implementation of a control program for autonomous flights. This framework requires the acquisition of data during the flight, which are obtained using sensors which use Arduino. The Arduino communication with the drone is needed for the inclusion of new sensors and the use of the AR.Drone is performed by the framework Node.js. Each remote button has a specific command, and may be in order for the user to create own missions or even perform some missions previously implemented by the developer. All tests were run on the AR.Drone 2.0, using the Node.js framework, sensors]]> Thu, 11 Dec 2014 07:49:14 GMT https://pt.slideshare.net/slideshow/monografia-framework-para-sistemas-de-navegao-de-veculos-areos-no-tripulados/42604884 johnnatan20@slideshare.net(johnnatan20) Monografia: Framework Para Sistemas de Navega??o de Veículos Aéreos N?o Tripulados johnnatan20 Tornar voos n?o tripulados aut?nomos sem dúvida capacitará novas oportunidades de desenvolvimento científico. Os drones podem ser utilizados em servi?os militares como, por exemplo, em combates ou ainda bem como para miss?es de resgate, pesquisa aérea, supervis?o e inspe??o de um território, atraindo bastante aten??o dos veículos de comunica??o como, por exemplo, emissoras de televis?o, rádio, jornais e internet. O objetivo desse projeto é saber se é possível tornar voos aut?nomos viáveis no drone AR.Drone 2.0 bem como a compreens?o sobre o seu funcionamento. Para isso será necessário a implementa??o de um programa de controle para voos aut?nomos. Esta realiza??o requer a aquisi??o de dados durante o voo, os quais s?o obtidos através de sensores que utilizam Arduino. A comunica??o do Arduino com o drone é necessária para a inclus?o de novos sensores e a utiliza??o destes pelo Ar.Drone é realizada mediante o framework Node.js. Cada bot?o do controle remoto possui um comando específico, podendo ser com o objetivo de o próprio usuário criar miss?es ou até mesmo executar algumas miss?es anteriormente implementadas pelo desenvolvedor. Todos os testes foram executados no AR.Drone 2.0, utilizando o framework Node.js, sensores e um controle remoto. Mediante os experimentos e estudos apresentados tornou-se possível atingir o objetivo proposto, tornando viável a aplica??o de voos aut?nomos no drone. Como resultado, para a realiza??o de voos aut?nomos foi elaborado um framework onde o usuário poderá criar miss?es de voos aut?nomos para o drone executa-las. Esses comandos s?o enviados ao drone pelo usuário devido a utiliza??o de um controle remoto. Esse controle remoto envia dados a um sensor conectado ao Arduino que processa os dados e em seguida é lido e interpretado pelo drone. Become autonomous unmanned flights undoubtedly enable new opportunities for scientific development. The drones can be used in military services, for example, in combat or as well as for rescue missions, aerial survey, supervision and inspection of a territory, attracting significant attention from media outlets such as, for example, television stations, radio, newspapers and internet. The goal of this project is whether it is possible to make viable autonomous flights at AR.Drone 2.0 and the understanding of its operation. This will require the implementation of a control program for autonomous flights. This framework requires the acquisition of data during the flight, which are obtained using sensors which use Arduino. The Arduino communication with the drone is needed for the inclusion of new sensors and the use of the AR.Drone is performed by the framework Node.js. Each remote button has a specific command, and may be in order for the user to create own missions or even perform some missions previously implemented by the developer. All tests were run on the AR.Drone 2.0, using the Node.js framework, sensors <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/monografia-johnnatanmessias-141211074914-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Tornar voos n?o tripulados aut?nomos sem dúvida capacitará novas oportunidades de desenvolvimento científico. Os drones podem ser utilizados em servi?os militares como, por exemplo, em combates ou ainda bem como para miss?es de resgate, pesquisa aérea, supervis?o e inspe??o de um território, atraindo bastante aten??o dos veículos de comunica??o como, por exemplo, emissoras de televis?o, rádio, jornais e internet. O objetivo desse projeto é saber se é possível tornar voos aut?nomos viáveis no drone AR.Drone 2.0 bem como a compreens?o sobre o seu funcionamento. Para isso será necessário a implementa??o de um programa de controle para voos aut?nomos. Esta realiza??o requer a aquisi??o de dados durante o voo, os quais s?o obtidos através de sensores que utilizam Arduino. A comunica??o do Arduino com o drone é necessária para a inclus?o de novos sensores e a utiliza??o destes pelo Ar.Drone é realizada mediante o framework Node.js. Cada bot?o do controle remoto possui um comando específico, podendo ser com o objetivo de o próprio usuário criar miss?es ou até mesmo executar algumas miss?es anteriormente implementadas pelo desenvolvedor. Todos os testes foram executados no AR.Drone 2.0, utilizando o framework Node.js, sensores e um controle remoto. Mediante os experimentos e estudos apresentados tornou-se possível atingir o objetivo proposto, tornando viável a aplica??o de voos aut?nomos no drone. Como resultado, para a realiza??o de voos aut?nomos foi elaborado um framework onde o usuário poderá criar miss?es de voos aut?nomos para o drone executa-las. Esses comandos s?o enviados ao drone pelo usuário devido a utiliza??o de um controle remoto. Esse controle remoto envia dados a um sensor conectado ao Arduino que processa os dados e em seguida é lido e interpretado pelo drone. Become autonomous unmanned flights undoubtedly enable new opportunities for scientific development. The drones can be used in military services, for example, in combat or as well as for rescue missions, aerial survey, supervision and inspection of a territory, attracting significant attention from media outlets such as, for example, television stations, radio, newspapers and internet. The goal of this project is whether it is possible to make viable autonomous flights at AR.Drone 2.0 and the understanding of its operation. This will require the implementation of a control program for autonomous flights. This framework requires the acquisition of data during the flight, which are obtained using sensors which use Arduino. The Arduino communication with the drone is needed for the inclusion of new sensors and the use of the AR.Drone is performed by the framework Node.js. Each remote button has a specific command, and may be in order for the user to create own missions or even perform some missions previously implemented by the developer. All tests were run on the AR.Drone 2.0, using the Node.js framework, sensors

from Johnnatan Messias

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0 Twitter and Youtube Collector https://pt.slideshare.net/slideshow/twitter-and-youtube-collector/9802002 tp2-amsjohnnatanpollyannawellington-111020191316-phpapp02
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]]> Thu, 20 Oct 2011 19:13:13 GMT https://pt.slideshare.net/slideshow/twitter-and-youtube-collector/9802002 johnnatan20@slideshare.net(johnnatan20) Twitter and Youtube Collector johnnatan20 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tp2-amsjohnnatanpollyannawellington-111020191316-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" />

from Johnnatan Messias

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0 MyShell https://pt.slideshare.net/slideshow/so-relatorio-tp2/9298933 sorelatoriotp2-110917114157-phpapp02
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]]> Sat, 17 Sep 2011 11:41:54 GMT https://pt.slideshare.net/slideshow/so-relatorio-tp2/9298933 johnnatan20@slideshare.net(johnnatan20) MyShell johnnatan20 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sorelatoriotp2-110917114157-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" />

from Johnnatan Messias

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0 Análise de Disco, I/O e Processamento https://pt.slideshare.net/slideshow/so-relatrio-tp1/9298927 sorelatriotp1-110917114145-phpapp01
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]]> Sat, 17 Sep 2011 11:41:42 GMT https://pt.slideshare.net/slideshow/so-relatrio-tp1/9298927 johnnatan20@slideshare.net(johnnatan20) Análise de Disco, I/O e Processamento johnnatan20 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sorelatriotp1-110917114145-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" />

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0 Quadro de Avisos - IHC https://pt.slideshare.net/slideshow/ihc-relatrio/9298920 ihcrelatrio-110917114107-phpapp01
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]]> Sat, 17 Sep 2011 11:41:04 GMT https://pt.slideshare.net/slideshow/ihc-relatrio/9298920 johnnatan20@slideshare.net(johnnatan20) Quadro de Avisos - IHC johnnatan20 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ihcrelatrio-110917114107-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" />

from Johnnatan Messias

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0 Avalia??o de Usabilidade, Comunicabilidade e Acessibilidade - Quadro de Avisos https://pt.slideshare.net/slideshow/ihc-avaliao-de-usabilidade-comunicabilidadeacessibilidade-quadro-de-avisos/9298916 ihcavaliaodeusabilidadecomunicabilidadeacessibilidade-quadrodeavisos-110917114055-phpapp01
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]]> Sat, 17 Sep 2011 11:40:54 GMT https://pt.slideshare.net/slideshow/ihc-avaliao-de-usabilidade-comunicabilidadeacessibilidade-quadro-de-avisos/9298916 johnnatan20@slideshare.net(johnnatan20) Avalia??o de Usabilidade, Comunicabilidade e Acessibilidade - Quadro de Avisos johnnatan20 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ihcavaliaodeusabilidadecomunicabilidadeacessibilidade-quadrodeavisos-110917114055-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" />

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0 Lista Encadeada - TP2_AEDSI https://pt.slideshare.net/slideshow/lista-encadeada-tp2aedsi/9298914 tp2-110917114053-phpapp02
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]]> Sat, 17 Sep 2011 11:40:51 GMT https://pt.slideshare.net/slideshow/lista-encadeada-tp2aedsi/9298914 johnnatan20@slideshare.net(johnnatan20) Lista Encadeada - TP2_AEDSI johnnatan20 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tp2-110917114053-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" />

from Johnnatan Messias

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0 Simulador Funcional https://pt.slideshare.net/slideshow/tp1-simulador-funcional-5890977/5890977 tp1simuladorfuncional-101124104423-phpapp01
Este trabalho consiste na cria??o de um simulador funcional onde cada instru??o executada demora quatro ciclos para completar. Estes ciclos s?o denominados: IF, ID, EX/MEM e WB.]]>
Este trabalho consiste na cria??o de um simulador funcional onde cada instru??o executada demora quatro ciclos para completar. Estes ciclos s?o denominados: IF, ID, EX/MEM e WB.]]> Wed, 24 Nov 2010 10:44:16 GMT https://pt.slideshare.net/slideshow/tp1-simulador-funcional-5890977/5890977 johnnatan20@slideshare.net(johnnatan20) Simulador Funcional johnnatan20 Este trabalho consiste na cria??o de um simulador funcional onde cada instru??o executada demora quatro ciclos para completar. Estes ciclos s?o denominados: IF, ID, EX/MEM e WB. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tp1simuladorfuncional-101124104423-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Este trabalho consiste na cria??o de um simulador funcional onde cada instru??o executada demora quatro ciclos para completar. Estes ciclos s?o denominados: IF, ID, EX/MEM e WB.

from Johnnatan Messias

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0 Caminhos Mínimos: Dijkstra e Floyd-Warshall https://pt.slideshare.net/slideshow/caminhos-mnimos-floyd/5890825 tp1caminhosmnimos-101124103000-phpapp01
Otimiza??o e Implementa??o dos Algoritmos de Caminhos Mínimos: Dijkstra e Floyd-Warshall. Este trabalho obteve a primeira coloca??o na 1? Competi??o de Caminhos Mínimos do DECOM/UFOP.]]>
Otimiza??o e Implementa??o dos Algoritmos de Caminhos Mínimos: Dijkstra e Floyd-Warshall. Este trabalho obteve a primeira coloca??o na 1? Competi??o de Caminhos Mínimos do DECOM/UFOP.]]> Wed, 24 Nov 2010 10:29:48 GMT https://pt.slideshare.net/slideshow/caminhos-mnimos-floyd/5890825 johnnatan20@slideshare.net(johnnatan20) Caminhos Mínimos: Dijkstra e Floyd-Warshall johnnatan20 Otimiza??o e Implementa??o dos Algoritmos de Caminhos Mínimos: Dijkstra e Floyd-Warshall. Este trabalho obteve a primeira coloca??o na 1? Competi??o de Caminhos Mínimos do DECOM/UFOP. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tp1caminhosmnimos-101124103000-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Otimiza??o e Implementa??o dos Algoritmos de Caminhos Mínimos: Dijkstra e Floyd-Warshall. Este trabalho obteve a primeira coloca??o na 1? Competi??o de Caminhos Mínimos do DECOM/UFOP.

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0 Cálculo Numérico: Integra??o Numérica com Bubble Sort https://pt.slideshare.net/slideshow/tp2-5890644/5890644 tp2-101124101845-phpapp01
Estimativa do tempo médio de execu??o do algoritmo de ordena??o interna bubble sort através de métodos numéricos: Integra??o numérica e ainda o teorema do valor médio.]]>
Estimativa do tempo médio de execu??o do algoritmo de ordena??o interna bubble sort através de métodos numéricos: Integra??o numérica e ainda o teorema do valor médio.]]> Wed, 24 Nov 2010 10:18:06 GMT https://pt.slideshare.net/slideshow/tp2-5890644/5890644 johnnatan20@slideshare.net(johnnatan20) Cálculo Numérico: Integra??o Numérica com Bubble Sort johnnatan20 Estimativa do tempo médio de execu??o do algoritmo de ordena??o interna bubble sort através de métodos numéricos: Integra??o numérica e ainda o teorema do valor médio. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tp2-101124101845-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Estimativa do tempo médio de execu??o do algoritmo de ordena??o interna bubble sort através de métodos numéricos: Integra??o numérica e ainda o teorema do valor médio.

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0 Cálculo Numérico: Interpola??o Polinomial com Bubble Sort https://pt.slideshare.net/slideshow/tp1-5890643/5890643 tp1-101124101806-phpapp02
Trabalho com a finalidade de estimar o tempo de execu??o do algoritmo de ordena??o interna bubble sort utilizando conceitos de cálculo numérico.]]>
Trabalho com a finalidade de estimar o tempo de execu??o do algoritmo de ordena??o interna bubble sort utilizando conceitos de cálculo numérico.]]> Wed, 24 Nov 2010 10:18:00 GMT https://pt.slideshare.net/slideshow/tp1-5890643/5890643 johnnatan20@slideshare.net(johnnatan20) Cálculo Numérico: Interpola??o Polinomial com Bubble Sort johnnatan20 Trabalho com a finalidade de estimar o tempo de execu??o do algoritmo de ordena??o interna bubble sort utilizando conceitos de cálculo numérico. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tp1-101124101806-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Trabalho com a finalidade de estimar o tempo de execu??o do algoritmo de ordena??o interna bubble sort utilizando conceitos de cálculo numérico.

from Johnnatan Messias

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0 Análise de Algoritmos de Ordena??o Interna https://pt.slideshare.net/slideshow/anlise-de-algoritmos-de-ordenao-interna/5890608 tp5-101124101614-phpapp01
Análise da execu??o dos algoritmos de ordena??o interna (em Memória Principal). Buble, Insert, Select, Heap, Merge, Quick sort]]>
Análise da execu??o dos algoritmos de ordena??o interna (em Memória Principal). Buble, Insert, Select, Heap, Merge, Quick sort]]> Wed, 24 Nov 2010 10:16:10 GMT https://pt.slideshare.net/slideshow/anlise-de-algoritmos-de-ordenao-interna/5890608 johnnatan20@slideshare.net(johnnatan20) Análise de Algoritmos de Ordena??o Interna johnnatan20 Análise da execu??o dos algoritmos de ordena??o interna (em Memória Principal). Buble, Insert, Select, Heap, Merge, Quick sort <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tp5-101124101614-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Análise da execu??o dos algoritmos de ordena??o interna (em Memória Principal). Buble, Insert, Select, Heap, Merge, Quick sort

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0 https://cdn.slidesharecdn.com/profile-photo-johnnatan20-48x48.jpg?cb=1716586345 I am a MsC. candidate at Universidade Federal de Minas Gerais (UFMG) with Dr. Fabricio Benevenuto as my advisor. During my MsC, I also held research intern position at MPI-SWS (Max Planck Institute for Software Systems) in Saarbrücken/Germany. I studied Computer Science at E?tv?s Loránd University - ELTE in Budapest/Hungary in 2013/2014 during my exchange program (Science Without Borders - CAPES). I received a bachelor degree in Computer Science from Universidade Federal de Ouro Preto (UFOP), in 2015. Subjects of interest: Data Science; Social Computing; Mobile Computing; Influence; Bots; Autonomous Flight with Drones. Creative and hardworking I like to reach for opportunities that fit... johnnatan.me https://cdn.slidesharecdn.com/ss_thumbnails/homework-5-150131212654-conversion-gate02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/homework-5-44119081/44119081 AI - Backtracking vs D... https://cdn.slidesharecdn.com/ss_thumbnails/documentation-141211080358-conversion-gate02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/documentation-42605404/42605404 MyShell - English https://cdn.slidesharecdn.com/ss_thumbnails/monografia-johnnatanmessias-141211074914-conversion-gate02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/monografia-framework-para-sistemas-de-navegao-de-veculos-areos-no-tripulados/42604884 Monografia: Framework ...