The availability of suitable monitoring tools and techniques will be crucial to orchestrate multi-service applications in a context- and QoS-aware manner over new Fog infrastructures. In this paper, we propose FogMon, a lightweight distributed prototype monitoring tool, which measures data about hardware resources (viz., CPU, RAM, HDD) at the available Fog nodes, end-to-end network QoS (viz., latency and bandwidth) between those nodes, and detects connected IoT devices. FogMon is organised into a peer-to-peer architecture and it shows a very limited footprint on both hardware and bandwidth. The usage of FogMon on a real testbed is presented
The adoption of the Internet of Things raises many challenges. A variety of its applications require...
The Internet of Things (IoT) paradigm is leading to the deployment of an extensive number of smart d...
Computation and data sensitivity are the metrics of the current Internet of Things (IoT). In cloud d...
The availability of suitable monitoring tools and techniques will be crucial to orchestrate multi-se...
Infrastructure monitoring will play a crucial enabling role in the orchestration of next-gen Cloud-I...
Monitoring will be crucial to properly orchestrate next-gen services. Indeed, monitoring’s output ca...
The rise of IoT-based system is making an impact on our daily lives and environment. Fog Computing i...
Leveraging the Internet of Things (IoT) in intensive domains, such as in the Industrial Internet of ...
Within the Internet of Things (IoT) era, a big volume of data is generated/gathered every second fro...
Within the Internet of Things (IoT) era, a big volume of data is generated/gathered every second fro...
Fog computing aims at extending the Cloud by bringing computational power, storage and communicatio...
Internet of Things (IoT) is now transitioning from theory to practice. This means that a lot of data...
Monitoring Fog infrastructure resources in a lightweight and fault-resilient manner is a challenging...
Today’s advanced Internet-of-Things applications raise technical challenges on cloud, edge, and fog ...
Deploying composite applications to Fog nodes in a QoS-and context-aware manner is challenging due t...
The adoption of the Internet of Things raises many challenges. A variety of its applications require...
The Internet of Things (IoT) paradigm is leading to the deployment of an extensive number of smart d...
Computation and data sensitivity are the metrics of the current Internet of Things (IoT). In cloud d...
The availability of suitable monitoring tools and techniques will be crucial to orchestrate multi-se...
Infrastructure monitoring will play a crucial enabling role in the orchestration of next-gen Cloud-I...
Monitoring will be crucial to properly orchestrate next-gen services. Indeed, monitoring’s output ca...
The rise of IoT-based system is making an impact on our daily lives and environment. Fog Computing i...
Leveraging the Internet of Things (IoT) in intensive domains, such as in the Industrial Internet of ...
Within the Internet of Things (IoT) era, a big volume of data is generated/gathered every second fro...
Within the Internet of Things (IoT) era, a big volume of data is generated/gathered every second fro...
Fog computing aims at extending the Cloud by bringing computational power, storage and communicatio...
Internet of Things (IoT) is now transitioning from theory to practice. This means that a lot of data...
Monitoring Fog infrastructure resources in a lightweight and fault-resilient manner is a challenging...
Today’s advanced Internet-of-Things applications raise technical challenges on cloud, edge, and fog ...
Deploying composite applications to Fog nodes in a QoS-and context-aware manner is challenging due t...
The adoption of the Internet of Things raises many challenges. A variety of its applications require...
The Internet of Things (IoT) paradigm is leading to the deployment of an extensive number of smart d...
Computation and data sensitivity are the metrics of the current Internet of Things (IoT). In cloud d...