Part 4: Problem Solving, Planning and SchedulingInternational audienceControl systems embodying artificial intelligence (AI) techniques tend to be “reactive” rather than “deliberative” in many application areas. There arises a need for systems that can sense, interpret and deliberate with their actions and goals to be achieved, taking into consideration continuous changes in state, required service level and environmental constraints. The requirement of such systems is that they can plan and act effectively after such deliberation, so that behaviourally they appear self-aware. In this paper, we focus on designing a generic architecture for autonomic systems which is inspired by the Human Autonomic Nervous System. Our architecture consists o...
In recent years, Artificial Intelligence (AI) has been increasingly used in traffic management and c...
The roles of human operators are changing due to increased intelligence and autonomy of computer sys...
The application of artificial intelligence (AI) to dynamic mobility management can support the achie...
Control systems embodying artificial intelligence (AI) techniques tend to be “reactive” rather than ...
Most control systems embodying artificial intelligence (AI) techniques tend to be “reactive” rather ...
Advanced urban traffic control systems are often based on feed-back algorithms. They use road traffic da...
This paper discusses a systems design approach inspired from the autonomic nervous system for ITS ap...
Solving traffic congestions represents a high priority issue in many big cities. Traditional traffic...
We describe an architectural approach to achieving the goals of autonomic computing. The architectur...
Abstract — Autonomic systems represent the next generation of software-intensive systems that merge ...
Ambient Intelligence (AmI) systems are constantly evolving and becoming ever more complex, so it is ...
Autonomic Systems are computer systems that can self-manage by ensuring that the system is optimal, ...
Advanced urban traffic control systems are often based on feed-back algorithms. For instance, curren...
Advanced urban traffic control systems are often based on feed-back algorithms. For instance, curren...
Autonomous robots will soon enter our everyday life as self-driving cars. These vehicles are designe...
In recent years, Artificial Intelligence (AI) has been increasingly used in traffic management and c...
The roles of human operators are changing due to increased intelligence and autonomy of computer sys...
The application of artificial intelligence (AI) to dynamic mobility management can support the achie...
Control systems embodying artificial intelligence (AI) techniques tend to be “reactive” rather than ...
Most control systems embodying artificial intelligence (AI) techniques tend to be “reactive” rather ...
Advanced urban traffic control systems are often based on feed-back algorithms. They use road traffic da...
This paper discusses a systems design approach inspired from the autonomic nervous system for ITS ap...
Solving traffic congestions represents a high priority issue in many big cities. Traditional traffic...
We describe an architectural approach to achieving the goals of autonomic computing. The architectur...
Abstract — Autonomic systems represent the next generation of software-intensive systems that merge ...
Ambient Intelligence (AmI) systems are constantly evolving and becoming ever more complex, so it is ...
Autonomic Systems are computer systems that can self-manage by ensuring that the system is optimal, ...
Advanced urban traffic control systems are often based on feed-back algorithms. For instance, curren...
Advanced urban traffic control systems are often based on feed-back algorithms. For instance, curren...
Autonomous robots will soon enter our everyday life as self-driving cars. These vehicles are designe...
In recent years, Artificial Intelligence (AI) has been increasingly used in traffic management and c...
The roles of human operators are changing due to increased intelligence and autonomy of computer sys...
The application of artificial intelligence (AI) to dynamic mobility management can support the achie...