In this paper we propose an integration of dynamic channel allocation capabilities, typical of cognitive radio networks, in wireless sensor networks based on IPv6 protocol. We analyze the fundamental aspects of the proposed frequency-agile wireless sensor networks, including spectrum sensing, channel selection, network architecture, extensions of the IPv6 stack, and system operation. We then present a complete implementation of a prototype which illustrates feasibility and effectiveness of the proposed solutions. Results show that dynamic frequency allocation provides significant improvement of performance and reliability in wireless sensor networks operating in highly interfered environments
Static spectrum allocation prohibits radio devices from using spectral bands designated for others. ...
Wireless communications has become one of the fastest growing segments of the communications industr...
Recent literature characterizes future wireless sensor networks (WSN) with dynamic spectrum capabili...
Recent surveys conducted in the context of industrial automation have outlined that reliability conc...
Wireless technologies grow rapidly and benefit almost every aspect of our daily lives. To fulfill va...
Due to the advances in wireless technology and spectrum scarcity, unlicensed band heterogeneous netw...
Abstract—The increasing demand for wireless communication introduces efficient spectrum utilization ...
A fundamental evolution is witnessed in recent research and development of wireless communications: ...
Abstract—Cognitive radios allow secondary users to use the underutilized spectrum. However, in the p...
While the increasing scales of the recent WSN deployments keep pushing a higher demand on the networ...
Industrial wireless applications often share the communication channel with other wireless technolog...
Cognitive radio sensor networks are one of the kinds of application where cognitive techniques can b...
Energy saving has been one of the major design criteria for wireless sensor networks. Cognitive radi...
International audienceRecently, wireless sensor networks are gaining a lot of attention due to the a...
Because of the increasing number of low-cost wireless applications, the unlicensed spectrum is quick...
Static spectrum allocation prohibits radio devices from using spectral bands designated for others. ...
Wireless communications has become one of the fastest growing segments of the communications industr...
Recent literature characterizes future wireless sensor networks (WSN) with dynamic spectrum capabili...
Recent surveys conducted in the context of industrial automation have outlined that reliability conc...
Wireless technologies grow rapidly and benefit almost every aspect of our daily lives. To fulfill va...
Due to the advances in wireless technology and spectrum scarcity, unlicensed band heterogeneous netw...
Abstract—The increasing demand for wireless communication introduces efficient spectrum utilization ...
A fundamental evolution is witnessed in recent research and development of wireless communications: ...
Abstract—Cognitive radios allow secondary users to use the underutilized spectrum. However, in the p...
While the increasing scales of the recent WSN deployments keep pushing a higher demand on the networ...
Industrial wireless applications often share the communication channel with other wireless technolog...
Cognitive radio sensor networks are one of the kinds of application where cognitive techniques can b...
Energy saving has been one of the major design criteria for wireless sensor networks. Cognitive radi...
International audienceRecently, wireless sensor networks are gaining a lot of attention due to the a...
Because of the increasing number of low-cost wireless applications, the unlicensed spectrum is quick...
Static spectrum allocation prohibits radio devices from using spectral bands designated for others. ...
Wireless communications has become one of the fastest growing segments of the communications industr...
Recent literature characterizes future wireless sensor networks (WSN) with dynamic spectrum capabili...