@inproceedings{NguyenSchappacherSikora2015, author = {Minh Phuong Nguyen and Manuel Schappacher and Axel Sikora}, title = {Extensions of the IEEE 802.15.4 protocol for the usage with highly energy-saving real-time communication}, series = {Tagungsband: MikroSystemTechnik 2015}, booktitle = {Erweiterungen des IEEE 802.15.4 f{\"u}r extrem energiesparende echtzeitf{\"a}hige Funkkommunikation}, organization = {VDE/VDI-Gesellschaft Mikroelektronik, Mikrosystem- und Feinwerktechnik (GMM)}, isbn = {978-3-8007-4100-7}, pages = {696 -- 699}, year = {2015}, abstract = {Wireless sensor networks have recently found their way into a wide range of applications among which environmental monitoring system has attracted increasing interests of researchers. Such monitoring applications, in general, don way into a wide range of applications among which environmental monitoring system has attracted increasing interests of researc latency requirements regarding to the energy efficiency. Also a challenge of this application is the network topology as the application should be able to be deployed in very large scale. Nevertheless low power consumption of the devices making up the network must be on focus in order to maximize the lifetime of the whole system. These devices are usually battery-powered and spend most of their energy budget on radio transceiver module. A so-called Wake-On-Radio (WoR) technology can be used to achieve a reasonable balance among power consumption, range, complexity and response time. In this paper, some designs for integration of WOR into IEEE 802.1.5.4 are to be discussed, providing an overview of trade-offs in energy consumption while deploying the WoR schemes in a monitoring system.}, language = {en} }