Nowadays, many software applications are executed in mobile devices. This poses new challenges on optimizing the limited capacity set by battery life without compromising energy efficiency and performance. In this paper, we propose a framework for mobile applications to enable and evaluate self-Adaptability for the purpose of improving energy efficiency without sacrificing performance. Our framework consists of two main parts: The mobile apps simulator and the scheduler
Abstract. Modern mobile applications are executed in a variety of ex-ecution environments by users w...
The MUTUAL-BENEFIT approach exploits optimal task offloading, task scheduling, resource allocation, ...
With their increase, smartphones have become more integral components of our lives but due to their ...
Abstract—As energy efficiency has become a key consideration in the engineering of mobile applicatio...
Today, mobile devices such as smart phones and tablets have become ubiquitous and are used everywher...
The exploding number and complexity of smartphone features and applications is rapidly adding to the...
munication, and social interaction. In addition to the demand for an acceptable level of performance...
In this paper we outline our proposed framework for opti- mising energy consumption on Android mobil...
Mobile and wearable devices are nowadays the de facto personal computers, while desktop computers ar...
Power consumption management in computing systems is gaining an increasing attention due to its envi...
Extending the life of a battery in mobile systems has always presented a challenge, many researchers...
Modern society increasingly relies on mobile devices. This explains the growing demand for high qual...
Energy-efficiency is an import topic in information and communication technology and has to be consi...
The increasing energy demands of software systems have set an essential software quality requirement...
The ICT sector consumes a large portion of the total energy supply in the world. The increasing numb...
Abstract. Modern mobile applications are executed in a variety of ex-ecution environments by users w...
The MUTUAL-BENEFIT approach exploits optimal task offloading, task scheduling, resource allocation, ...
With their increase, smartphones have become more integral components of our lives but due to their ...
Abstract—As energy efficiency has become a key consideration in the engineering of mobile applicatio...
Today, mobile devices such as smart phones and tablets have become ubiquitous and are used everywher...
The exploding number and complexity of smartphone features and applications is rapidly adding to the...
munication, and social interaction. In addition to the demand for an acceptable level of performance...
In this paper we outline our proposed framework for opti- mising energy consumption on Android mobil...
Mobile and wearable devices are nowadays the de facto personal computers, while desktop computers ar...
Power consumption management in computing systems is gaining an increasing attention due to its envi...
Extending the life of a battery in mobile systems has always presented a challenge, many researchers...
Modern society increasingly relies on mobile devices. This explains the growing demand for high qual...
Energy-efficiency is an import topic in information and communication technology and has to be consi...
The increasing energy demands of software systems have set an essential software quality requirement...
The ICT sector consumes a large portion of the total energy supply in the world. The increasing numb...
Abstract. Modern mobile applications are executed in a variety of ex-ecution environments by users w...
The MUTUAL-BENEFIT approach exploits optimal task offloading, task scheduling, resource allocation, ...
With their increase, smartphones have become more integral components of our lives but due to their ...