Can frequency diversity provide performance gains for WSNs at 2.4GHz for the fire hydrant to above ground channel

Wireless Sensor Networks (WSNs) which utilise IEEE 802.15.4 technology offer the potential for low cost deployment and maintenance compared with conventional wired sensor networks, enabling effective and efficient condition monitoring of aged civil engineering infrastructure. We will address wireless propagation for a below to above ground scenario where one of the wireless nodes is located in a below ground fire hydrant chamber to permit monitoring of the local water distribution network. Frequency Diversity (FD) is one method that can be used to combat the damaging effects of multipath fading and so improve the reliability of radio links. However, no quantitative investigation concerning the potential performance gains from the use of FD at 2.4GHz is available for the outlined scenario. In this paper, we try to answer this question by performing accurate propagation measurements using modified and calibrated off-the-shelf 802.15.4 based sensor nodes. These measurement results are also compared with those obtained from simulations that employ our Modified 2D Finite-Difference Time-Domain (FDTD) approach. ©2009 IEEE.

Frequency diversity measurements at 2.4 GHz for wireless sensor networks deployed in tunnels

Wireless Sensor Networks (WSNs) which utilise IEEE 802.15.4 technology operate primarily in the 2.4 GHz globally compatible ISM band. However, the wireless propagation channel in this crowded band is notoriously variable and unpredictable, and it has a significant impact on the coverage range and quality of the radio links between the wireless nodes. Therefore, the use of Frequency Diversity (FD) has potential to ameliorate this situation. In this paper, the possible benefits of using FD in a tunnel environment have been quantified by performing accurate propagation measurements using modified and calibrated off-the-shelf 802.15.4 based sensor motes in the disused Aldwych underground railway tunnel. The objective of this investigation is to characterise the performance of FD in this confined environment. Cross correlation coefficients are calculated from samples of the received power on a number of frequency channels gathered during the field measurements. The low measured values of the cross correlation coefficients indicate that applying FD at 2.4 GHz will improve link performance in a WSN deployed in a tunnel. This finding closely matches results obtained by running a computational simulation of the tunnel radio propagation using a 2D Finite-Difference Time-Domain (FDTD) method. ©2009 IEEE.

Control microbial del picudo negro Cosmopolites sordidus, (Germar, 1824) usando hongos entomopatógenos Beauveria bassiana (Bals vuill) y Metarhizum anisopliae (Metsch sorokin) en el cultivo de plátano

El presente estudio se llevó a cabo desde Julio de 1996 a Marzo de 1997, con el objetivo de determinar el efecto de las aplicaciones de Beauveria bassíana (Bals) vuill y Metarhízíum anisopliae (Metsch) sorokin en diferentes momentos sobre la dinámica poblacional de picudo negro, Cosmopolites sordídus (Germar 1824) dichos hongos fueron aplicados en suspención acuosa y en trampas de pseudotallos de plátano, variedad "Cuerno". Los tratamientos evaluados fueron: 1) aplicación de Beauveria bassiana:. 2) aplicación con Metarhizium anisopliae: 3) Trampas+ aplicación de B. bassiana: 4) trampas+ aplicación de M. anisopliae: 5) Control físico. Eliminación manual de las poblaciones de adultos de picudo capturado por medio de trampas. 6) Testigo. No se realizó ningún tipo de control especial. En los resultados obtenidos se determinó que no hay diferencias estadísticas significativas entra los tratamientos aplicados Al mismo tiempo se determinó que los tratamientos evaluados no redujeron el número de picudo negro y el nivel de daño presente en la plantación. Se logró determinar que la plantación esta siendo afectada por C. Sordidus asociado con nemátodos ; los que debilitan la planta provocando mayor caída de las misma.

Threshold diversity and trans-scales sensitivity in a finite nonlinear evolution model of materials failure

We present a slice-sampling method and study the ensemble evolution of a large finite nonlinear system in order to model materials failure. There is a transitional region of failure probability. Its size effect is expressed by a slowly decaying scaling law. In a meso-macroscopic range (similar to 10(5)) in realistic failure, the diversity cannot be ignored. Sensitivity to mesoscopic details governs the phenomena. (C) 1997 Published by Elsevier Science B.V.