The Experts below are selected from a list of 78 Experts worldwide ranked by ideXlab platform
Benjamin Livshits - One of the best experts on this subject based on the ideXlab platform.
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ajaxscope a platform for remotely Monitoring the client side behavior of web 2 0 applications
ACM Transactions on The Web, 2010Co-Authors: Emre Kiciman, Benjamin LivshitsAbstract:The rise of the software-as-a-service paradigm has led to the development of a new breed of sophisticated, interactive applications often called Web 2.0. While Web applications have become larger and more complex, Web application developers today have little visibility into the end-to-end behavior of their systems. This article presents AjaxScope, a dynamic instrumentation platform that enables cross-User Monitoring and just-in-time control of Web application behavior on end-User desktops. AjaxScope is a proxy that performs on-the-fly parsing and instrumentation of JavaScript code as it is sent to Users’ browsers. AjaxScope provides facilities for distributed and adaptive instrumentation in order to reduce the client-side overhead, while giving fine-grained visibility into the code-level behavior of Web applications. We present a variety of policies demonstrating the power of AjaxScope, ranging from simple error reporting and performance profiling to more complex memory leak detection and optimization analyses. We also apply our prototype to analyze the behavior of over 90 Web 2.0 applications and sites that use significant amounts of JavaScript.
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ajaxscope a platform for remotely Monitoring the client side behavior of web 2 0 applications
Symposium on Operating Systems Principles, 2007Co-Authors: Emre Kiciman, Benjamin LivshitsAbstract:The rise of the software-as-a-service paradigm has led to the development of a new breed of sophisticated, interactive applications often called Web 2.0. While web applications have become larger and more complex, web application developers today have little visibility into the end-to-end behavior of their systems. This paper presents AjaxScope, a dynamic instrumentation platform that enables cross-User Monitoring and just-in-time control of web application behavior on end-User desktops. AjaxScope is a proxy that performs on-the-fly parsing and instrumentation of JavaScript code as it is sent to Users' browsers. AjaxScope provides facilities for distributed and adaptive instrumentation in order to reduce the client-side overhead, while giving fine-grained visibility into the code-level behavior of web applications. We present a variety of policies demonstrating the power of AjaxScope, ranging from simple error reporting and performance profiling to more complex memory leak detection and optimization analyses. We also apply our prototype to analyze the behavior of over 90 Web 2.0 applications and sites that use large amounts of JavaScript.
Emre Kiciman - One of the best experts on this subject based on the ideXlab platform.
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ajaxscope a platform for remotely Monitoring the client side behavior of web 2 0 applications
ACM Transactions on The Web, 2010Co-Authors: Emre Kiciman, Benjamin LivshitsAbstract:The rise of the software-as-a-service paradigm has led to the development of a new breed of sophisticated, interactive applications often called Web 2.0. While Web applications have become larger and more complex, Web application developers today have little visibility into the end-to-end behavior of their systems. This article presents AjaxScope, a dynamic instrumentation platform that enables cross-User Monitoring and just-in-time control of Web application behavior on end-User desktops. AjaxScope is a proxy that performs on-the-fly parsing and instrumentation of JavaScript code as it is sent to Users’ browsers. AjaxScope provides facilities for distributed and adaptive instrumentation in order to reduce the client-side overhead, while giving fine-grained visibility into the code-level behavior of Web applications. We present a variety of policies demonstrating the power of AjaxScope, ranging from simple error reporting and performance profiling to more complex memory leak detection and optimization analyses. We also apply our prototype to analyze the behavior of over 90 Web 2.0 applications and sites that use significant amounts of JavaScript.
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ajaxscope a platform for remotely Monitoring the client side behavior of web 2 0 applications
Symposium on Operating Systems Principles, 2007Co-Authors: Emre Kiciman, Benjamin LivshitsAbstract:The rise of the software-as-a-service paradigm has led to the development of a new breed of sophisticated, interactive applications often called Web 2.0. While web applications have become larger and more complex, web application developers today have little visibility into the end-to-end behavior of their systems. This paper presents AjaxScope, a dynamic instrumentation platform that enables cross-User Monitoring and just-in-time control of web application behavior on end-User desktops. AjaxScope is a proxy that performs on-the-fly parsing and instrumentation of JavaScript code as it is sent to Users' browsers. AjaxScope provides facilities for distributed and adaptive instrumentation in order to reduce the client-side overhead, while giving fine-grained visibility into the code-level behavior of web applications. We present a variety of policies demonstrating the power of AjaxScope, ranging from simple error reporting and performance profiling to more complex memory leak detection and optimization analyses. We also apply our prototype to analyze the behavior of over 90 Web 2.0 applications and sites that use large amounts of JavaScript.
Abdul Adam Abdullah - One of the best experts on this subject based on the ideXlab platform.
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A Monitoring system for EPW safe use
Journal of Telecommunication Electronic and Computer Engineering, 2018Co-Authors: Mohammed Hayyan Alsibai, Nurul Nadia Nor Hamran, Abdul Nasir, Abdul Adam AbdullahAbstract:Electric Powered Wheelchair (EPW) can be considered as a special Electric Vehicle (EV) because it is used by senior citizens, disabled drivers/Users who have special needs. Using manual or electric wheelchair independently can lead to the lack of User Monitoring. Wheelchair Users are also subjected to fatigue and emergency health situations. This paper presents an add-on smart Monitoring system to help wheelchair Users to use the wheelchair independently and safely. The system integrates health related sensors with computer, mobile phone and an alarm system. The tested prototype uses two sensors, namely, temperature sensor and heart beat sensor. The system is extendable and more sensors can be added. The temperature sensor is used to sense the body temperature, which is a basic parameter for Monitoring and diagnosing human health. Heartbeat sensor is used to measure the User Mean Arterial Pressure (MAP). It can be connected to a personal computer to show the cardiograph. Body temperature and MAP data are acquired by an embedded system and displayed on a Liquid Crystal Display (LCD). Data are also sent to the cloud for Internet of Things (IoT) Monitoring. In emergency cases, alarm signal is triggered. Moreover, a notification Email and SMS messages are sent to the people in charge of Monitoring the User. The system was tested and validated as a real-time Monitoring system.
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A Monitoring system for EPW safe use
Universiti Teknikal Malaysia Melaka (UTeM), 2018Co-Authors: Alsibai, Mohammed Hayyan, Nurul Nadia Nor Hamran, Abdul Nasir, Abd Ghafar, Abdul Adam AbdullahAbstract:Electric Powered Wheelchair (EPW) can be considered as a special Electric Vehicle (EV) because it is used by senior citizens, disabled drivers/Users who have special needs. Using manual or electric wheelchair independently rises up an important problem which is the lack of User Monitoring. Wheelchair Users are more subject to fatigue and emergency health situations. This paper presents an add-on smart Monitoring system to help wheelchair Users to use the wheelchair independently and safely. The system integrates health related sensors with computer, mobile phone and an alarm system. The tested prototype uses two sensors, namely, temperature sensor and heart beat sensor. The system is extendable and more sensors can be added. The temperature sensor is used to sense the body temperature which is a basic parameter for Monitoring and diagnosing human health. Heartbeat sensor is used to measure the User Mean Arterial Pressure (MAP). It can be connected to a personal computer to show the cardiograph. Body temperature and MAP data are acquired by an embedded system and displayed on a Liquid Crystal Display (LCD). Data are also sent to the cloud for Internet of Things (IoT) Monitoring. In emergency cases alarm signal is triggered. Moreover, a notification Email and SMS messages are sent to the people in charge of Monitoring the User. The system was tested and validated as a real-time Monitoring system
Nurul Nadia Nor Hamran - One of the best experts on this subject based on the ideXlab platform.
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A Monitoring system for EPW safe use
Journal of Telecommunication Electronic and Computer Engineering, 2018Co-Authors: Mohammed Hayyan Alsibai, Nurul Nadia Nor Hamran, Abdul Nasir, Abdul Adam AbdullahAbstract:Electric Powered Wheelchair (EPW) can be considered as a special Electric Vehicle (EV) because it is used by senior citizens, disabled drivers/Users who have special needs. Using manual or electric wheelchair independently can lead to the lack of User Monitoring. Wheelchair Users are also subjected to fatigue and emergency health situations. This paper presents an add-on smart Monitoring system to help wheelchair Users to use the wheelchair independently and safely. The system integrates health related sensors with computer, mobile phone and an alarm system. The tested prototype uses two sensors, namely, temperature sensor and heart beat sensor. The system is extendable and more sensors can be added. The temperature sensor is used to sense the body temperature, which is a basic parameter for Monitoring and diagnosing human health. Heartbeat sensor is used to measure the User Mean Arterial Pressure (MAP). It can be connected to a personal computer to show the cardiograph. Body temperature and MAP data are acquired by an embedded system and displayed on a Liquid Crystal Display (LCD). Data are also sent to the cloud for Internet of Things (IoT) Monitoring. In emergency cases, alarm signal is triggered. Moreover, a notification Email and SMS messages are sent to the people in charge of Monitoring the User. The system was tested and validated as a real-time Monitoring system.
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A Monitoring system for EPW safe use
Universiti Teknikal Malaysia Melaka (UTeM), 2018Co-Authors: Alsibai, Mohammed Hayyan, Nurul Nadia Nor Hamran, Abdul Nasir, Abd Ghafar, Abdul Adam AbdullahAbstract:Electric Powered Wheelchair (EPW) can be considered as a special Electric Vehicle (EV) because it is used by senior citizens, disabled drivers/Users who have special needs. Using manual or electric wheelchair independently rises up an important problem which is the lack of User Monitoring. Wheelchair Users are more subject to fatigue and emergency health situations. This paper presents an add-on smart Monitoring system to help wheelchair Users to use the wheelchair independently and safely. The system integrates health related sensors with computer, mobile phone and an alarm system. The tested prototype uses two sensors, namely, temperature sensor and heart beat sensor. The system is extendable and more sensors can be added. The temperature sensor is used to sense the body temperature which is a basic parameter for Monitoring and diagnosing human health. Heartbeat sensor is used to measure the User Mean Arterial Pressure (MAP). It can be connected to a personal computer to show the cardiograph. Body temperature and MAP data are acquired by an embedded system and displayed on a Liquid Crystal Display (LCD). Data are also sent to the cloud for Internet of Things (IoT) Monitoring. In emergency cases alarm signal is triggered. Moreover, a notification Email and SMS messages are sent to the people in charge of Monitoring the User. The system was tested and validated as a real-time Monitoring system
Mohammed Hayyan Alsibai - One of the best experts on this subject based on the ideXlab platform.
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A Monitoring system for EPW safe use
Journal of Telecommunication Electronic and Computer Engineering, 2018Co-Authors: Mohammed Hayyan Alsibai, Nurul Nadia Nor Hamran, Abdul Nasir, Abdul Adam AbdullahAbstract:Electric Powered Wheelchair (EPW) can be considered as a special Electric Vehicle (EV) because it is used by senior citizens, disabled drivers/Users who have special needs. Using manual or electric wheelchair independently can lead to the lack of User Monitoring. Wheelchair Users are also subjected to fatigue and emergency health situations. This paper presents an add-on smart Monitoring system to help wheelchair Users to use the wheelchair independently and safely. The system integrates health related sensors with computer, mobile phone and an alarm system. The tested prototype uses two sensors, namely, temperature sensor and heart beat sensor. The system is extendable and more sensors can be added. The temperature sensor is used to sense the body temperature, which is a basic parameter for Monitoring and diagnosing human health. Heartbeat sensor is used to measure the User Mean Arterial Pressure (MAP). It can be connected to a personal computer to show the cardiograph. Body temperature and MAP data are acquired by an embedded system and displayed on a Liquid Crystal Display (LCD). Data are also sent to the cloud for Internet of Things (IoT) Monitoring. In emergency cases, alarm signal is triggered. Moreover, a notification Email and SMS messages are sent to the people in charge of Monitoring the User. The system was tested and validated as a real-time Monitoring system.