Cyberphysical systems (CPS) integrate embedded sensors, actuators, and computing elements for controlling physical processes. Due to the intimate interactions with the surrounding environment, CPS software must continuously adapt to changing conditions. Enacting adaptation decisions is often subject to strict time requirements to ensure control stability, while CPS software must operate within the tight resource constraints that characterize CPS platforms. De- velopers are typically left without dedicated programming support to cope with these aspects. This results in either to neglect functional or timing issues that may potentially arise or to invest significant efforts to implement hand-crafted so- lutions. We provide programming constru...
We present programming abstractions for implementing adaptive Wireless Sensor Network (WSN) software...
Models Of Computation (MoCs) define the rules for com-putation and communication for components in a...
As methods and tools for Cyber-Physical Systems grow in capabilities and use, one-size-fits-all solu...
Cyberphysical systems (CPS) integrate embedded sensors, actuators, and computing elements for contro...
Abstract—We present a context-oriented approach to de-sign and implement self-adaptive component-bas...
Recent developments in computer and communication technologies are leading to an increasingly networ...
The adaptive nature of cyber physical systems (CPS) comes from the fact that they are deeply immerse...
Smart cyber-physical systems (S-CPSs) are complex engineered systems empowered by cyber-physical com...
Wired and wireless networking is becoming a necessary part of industrial control systems’ design and...
Software design and implementation has become critical and increasingly challenging for cyber-physic...
Cyber-physical systems (CPSs) represent practical examples of the integration of bits and atoms in h...
Cyber-Physical Systems (CPS) are interconnected devices, reactive and dynamic to sensed external and...
We present programming abstractions for implementing adaptive Wireless Sensor Network (WSN) software...
Models Of Computation (MoCs) define the rules for com-putation and communication for components in a...
As methods and tools for Cyber-Physical Systems grow in capabilities and use, one-size-fits-all solu...
Cyberphysical systems (CPS) integrate embedded sensors, actuators, and computing elements for contro...
Abstract—We present a context-oriented approach to de-sign and implement self-adaptive component-bas...
Recent developments in computer and communication technologies are leading to an increasingly networ...
The adaptive nature of cyber physical systems (CPS) comes from the fact that they are deeply immerse...
Smart cyber-physical systems (S-CPSs) are complex engineered systems empowered by cyber-physical com...
Wired and wireless networking is becoming a necessary part of industrial control systems’ design and...
Software design and implementation has become critical and increasingly challenging for cyber-physic...
Cyber-physical systems (CPSs) represent practical examples of the integration of bits and atoms in h...
Cyber-Physical Systems (CPS) are interconnected devices, reactive and dynamic to sensed external and...
We present programming abstractions for implementing adaptive Wireless Sensor Network (WSN) software...
Models Of Computation (MoCs) define the rules for com-putation and communication for components in a...
As methods and tools for Cyber-Physical Systems grow in capabilities and use, one-size-fits-all solu...