Reducing transmission delay and maximizing the network lifetime are important issues for wireless sensor networks (WSN). The existing approaches commonly let the nodes periodically sleep to minimize energy consumption, which adversely increases packet forwarding latency. In this study, a novel scheme is proposed, which effectively determines the duty cycle of the nodes and packet forwarding path according to the network condition by employing the event-based mechanism and reinforcement learning technique. This allows low-latency energy-efficient scheduling and reduces the transmission collision between the nodes on the path. The Monte Carlo evaluation method is also adopted to minimize the overhead of the computation of each node in making ...
Minimum latency scheduling has arisen as one of the most crucial problems for broadcasting in duty-c...
The Internet of Things (IoT) is widely adopted across various fields due to its flexibility and low ...
One of the major sources of energy waste in a Wireless Sensor Network (WSN) is idle listening, i.e.,...
Multichannel communication protocols have been developed to alleviate the effects of interference an...
Designing energy-efficient communication protocols is one of the main challenges in wireless sensor ...
In a wireless powered sensor network, a base station transfers power to sensors by using wireless p...
One of the most important topics in the field of wireless sensor networks is the development of appr...
Sleep/wake-up scheduling is one of the fundamental problems in wireless sensor networks, since the e...
High-density communications in wireless sensor networks (WSNs) demand for new approaches to meet str...
Sleep/wake-up scheduling is one of the fundamental problems in wireless sensor networks, since the e...
Sleep/wake-up scheduling is one of the fundamental problems in wireless sensor networks, since the e...
In this paper, we propose a MAC protocol that provides energy efficiency and QoS for wireless sensor...
In this paper, we propose the data fairness transmission and adaptive duty cycle through machine lea...
© 2020 ACM. This paper considers an Energy Harvesting Wireless Sensor Network (EH-WSN) where nodes h...
One of the major sources of energy waste in wireless sensor networks (WSNs) is idle listening, that ...
Minimum latency scheduling has arisen as one of the most crucial problems for broadcasting in duty-c...
The Internet of Things (IoT) is widely adopted across various fields due to its flexibility and low ...
One of the major sources of energy waste in a Wireless Sensor Network (WSN) is idle listening, i.e.,...
Multichannel communication protocols have been developed to alleviate the effects of interference an...
Designing energy-efficient communication protocols is one of the main challenges in wireless sensor ...
In a wireless powered sensor network, a base station transfers power to sensors by using wireless p...
One of the most important topics in the field of wireless sensor networks is the development of appr...
Sleep/wake-up scheduling is one of the fundamental problems in wireless sensor networks, since the e...
High-density communications in wireless sensor networks (WSNs) demand for new approaches to meet str...
Sleep/wake-up scheduling is one of the fundamental problems in wireless sensor networks, since the e...
Sleep/wake-up scheduling is one of the fundamental problems in wireless sensor networks, since the e...
In this paper, we propose a MAC protocol that provides energy efficiency and QoS for wireless sensor...
In this paper, we propose the data fairness transmission and adaptive duty cycle through machine lea...
© 2020 ACM. This paper considers an Energy Harvesting Wireless Sensor Network (EH-WSN) where nodes h...
One of the major sources of energy waste in wireless sensor networks (WSNs) is idle listening, that ...
Minimum latency scheduling has arisen as one of the most crucial problems for broadcasting in duty-c...
The Internet of Things (IoT) is widely adopted across various fields due to its flexibility and low ...
One of the major sources of energy waste in a Wireless Sensor Network (WSN) is idle listening, i.e.,...