Dissecting internet of things by avinash sinhaAvinash Sinha
Advanced Attacks on Internet of Things -Major threat to your Personal and Business Sensitive data. Tools to attack IoT Devices such as Home automation systems
All Work Responsibilities in my whole Life-Testing ProfessionGopi Raghavendra
The document discusses the author's experience with Appium and mobile app testing as well as API, web services, and Selenium testing with Java and Ruby. Some of the key things mentioned include:
- Installing and configuring Appium for mobile app testing on Windows and Mac as well as integrating tools like Eclipse, Android SDK, Xcode, and Jenkins.
- Creating test cases for native, web, and hybrid mobile apps on Android and executing tests on devices and emulators as well as using tools like Appium, Sauce Labs, and BrowserStack.
- Experience with performance and load testing of APIs using JMeter including testing requests, responses, and validating SLAs.
- Experience developing Selenium frameworks in Java and Ruby
Dissecting internet of things by avinash sinhaAvinash Sinha
Advanced Attacks on Internet of Things -Major threat to your Personal and Business Sensitive data. Tools to attack IoT Devices such as Home automation systems
All Work Responsibilities in my whole Life-Testing ProfessionGopi Raghavendra
The document discusses the author's experience with Appium and mobile app testing as well as API, web services, and Selenium testing with Java and Ruby. Some of the key things mentioned include:
- Installing and configuring Appium for mobile app testing on Windows and Mac as well as integrating tools like Eclipse, Android SDK, Xcode, and Jenkins.
- Creating test cases for native, web, and hybrid mobile apps on Android and executing tests on devices and emulators as well as using tools like Appium, Sauce Labs, and BrowserStack.
- Experience with performance and load testing of APIs using JMeter including testing requests, responses, and validating SLAs.
- Experience developing Selenium frameworks in Java and Ruby
From temporal to static networks, and backPetter Holme
Infectious diseases are a major burden to global health. Understanding their mechanisms and being able to predict and intervene epidemic outbreaks is an important challenge for researchers and decision makers alike. It should not be too hard either―if we include human contact patterns, the mechanisms of contagion and the typical features of the disease, we could model most infectious-disease related phenomena. Of these three components, the network epidemiology of the last decade has shown that our limited understanding of human contact patterns is probably the most important focus are for advancing infectious disease epidemiology. We will discuss what is known about human contact patterns and how to include this knowledge in epidemic modeling. First, we discuss recent work on what the epidemiologically most important temporal structures of human contacts are. We use about 80 empirical temporal network datasets, several arguably important for disease spreading, and scan the entire parameter space of disease-spreading models. By comparing to null-models, we identify important, simple temporal patterns that affect disease spreading stronger than the bursty interevent time distributions. Furthermore, we investigate how to eliminate the temporal information to make an as relevant static network as possible. After all, static network epidemiology has more methods and results than temporal network epidemiology and it for some purposes it is necessary. We find that an “exponential threshold” representation almost always the best performance, but time-sliced network (with a carefully chosen window, usually considerably different than the sampling time of the data) works almost as good. In contrast, networks of concurrent contacts do not seem to carry so important information.
The document provides definitions and examples of common English idioms organized alphabetically from A to W. Some of the idioms defined include "according to", "all of a sudden", "as a matter of fact", "as long as", "back and forth", "better off", "break down", "by the way", "carry out", "come up with", "deal with", "end up", "figure out", "fill in", "find out", "first of all", "get into", "go ahead", "hang out", "hold on", "in favor of", "in place", "keep in mind", "look up", "make sure", "more or less", "no matter
The document is a series of 64 pages all dated 12/16/2013 with no other text or information provided. It appears to be a blank or placeholder document consisting of only dates on 64 numbered pages.
Este documento explica cómo decir la hora en español. Primero, se debe decir "¿Qué hora es?" para preguntar la hora. Luego, se usa el verbo "ser" para decir la hora, diciendo "es" a la una y "son" para cualquier otra hora. Finalmente, el documento proporciona ejemplos para decir la hora exacta usando "y" para los minutos o "menos" dependiendo de la posición de la manecilla de los minutos.
This document discusses building a Testing Center of Excellence (TCoE). It describes various TCoE models and their key activities and services including test process management, test tools/infrastructure management, non-functional testing/automation services, and a shared testing team. It outlines critical success factors and considerations for setting up a Testing Process CoE, Infrastructure/Tools CoE, and Non-Functional Testing/Automation CoE. The document concludes with a discussion of piloting a TCoE and realizing benefits from establishing a TCoE ecosystem.
Nexaweb transforms growth-limiting PowerBuilder and VB applications into modern web solutions, accessible to anyone from anywhere. The Nexaweb modernization platform and risk eliminating fixed cost, fixed-time guarantee has helped hundreds of companies modernize applications and transform their business.
UML component diagrams model physical aspects of a system such as executables, libraries, and files. They visualize component relationships and allow constructing executables through forward and reverse engineering. Component diagrams identify artifacts, draw components and their relationships, and can model systems, databases, executables, and source code. UML statechart diagrams describe component states and state transitions triggered by events. They model dynamic and reactive systems by defining state machines. UML activity diagrams represent system flows as activities and depict sequential, parallel, branched, and concurrent flows. They model work flows, business requirements, and system functionalities at a high level.
From temporal to static networks, and backPetter Holme
Infectious diseases are a major burden to global health. Understanding their mechanisms and being able to predict and intervene epidemic outbreaks is an important challenge for researchers and decision makers alike. It should not be too hard either―if we include human contact patterns, the mechanisms of contagion and the typical features of the disease, we could model most infectious-disease related phenomena. Of these three components, the network epidemiology of the last decade has shown that our limited understanding of human contact patterns is probably the most important focus are for advancing infectious disease epidemiology. We will discuss what is known about human contact patterns and how to include this knowledge in epidemic modeling. First, we discuss recent work on what the epidemiologically most important temporal structures of human contacts are. We use about 80 empirical temporal network datasets, several arguably important for disease spreading, and scan the entire parameter space of disease-spreading models. By comparing to null-models, we identify important, simple temporal patterns that affect disease spreading stronger than the bursty interevent time distributions. Furthermore, we investigate how to eliminate the temporal information to make an as relevant static network as possible. After all, static network epidemiology has more methods and results than temporal network epidemiology and it for some purposes it is necessary. We find that an “exponential threshold” representation almost always the best performance, but time-sliced network (with a carefully chosen window, usually considerably different than the sampling time of the data) works almost as good. In contrast, networks of concurrent contacts do not seem to carry so important information.
The document provides definitions and examples of common English idioms organized alphabetically from A to W. Some of the idioms defined include "according to", "all of a sudden", "as a matter of fact", "as long as", "back and forth", "better off", "break down", "by the way", "carry out", "come up with", "deal with", "end up", "figure out", "fill in", "find out", "first of all", "get into", "go ahead", "hang out", "hold on", "in favor of", "in place", "keep in mind", "look up", "make sure", "more or less", "no matter
The document is a series of 64 pages all dated 12/16/2013 with no other text or information provided. It appears to be a blank or placeholder document consisting of only dates on 64 numbered pages.
Este documento explica cómo decir la hora en español. Primero, se debe decir "¿Qué hora es?" para preguntar la hora. Luego, se usa el verbo "ser" para decir la hora, diciendo "es" a la una y "son" para cualquier otra hora. Finalmente, el documento proporciona ejemplos para decir la hora exacta usando "y" para los minutos o "menos" dependiendo de la posición de la manecilla de los minutos.
This document discusses building a Testing Center of Excellence (TCoE). It describes various TCoE models and their key activities and services including test process management, test tools/infrastructure management, non-functional testing/automation services, and a shared testing team. It outlines critical success factors and considerations for setting up a Testing Process CoE, Infrastructure/Tools CoE, and Non-Functional Testing/Automation CoE. The document concludes with a discussion of piloting a TCoE and realizing benefits from establishing a TCoE ecosystem.
Nexaweb transforms growth-limiting PowerBuilder and VB applications into modern web solutions, accessible to anyone from anywhere. The Nexaweb modernization platform and risk eliminating fixed cost, fixed-time guarantee has helped hundreds of companies modernize applications and transform their business.
UML component diagrams model physical aspects of a system such as executables, libraries, and files. They visualize component relationships and allow constructing executables through forward and reverse engineering. Component diagrams identify artifacts, draw components and their relationships, and can model systems, databases, executables, and source code. UML statechart diagrams describe component states and state transitions triggered by events. They model dynamic and reactive systems by defining state machines. UML activity diagrams represent system flows as activities and depict sequential, parallel, branched, and concurrent flows. They model work flows, business requirements, and system functionalities at a high level.