Métodos de estimativa da evapotranspiração de referência em Cristino Castro-Piauí.

Este trabalho teve como objetivo comparar métodos empíricos de estimativa de evapotranspiração de referência (ETo) diária em relação ao método Penman-Monteith/FAO para o município de Cristino Castro-Piauí, utilizando série de dados coletados em estação agrometeorológica convencional para o período 01 de janeiro de 2010 a 31 dezembro de 2012.

A PRESENÇA NA GEOGRAFIA DE JOSUÉ DE CASTRO

Este artigo trata da citação ou não das obras de Josué de Castro nas publicações referentes à Geografia, principalmente no Brasil, durante o século XX. Discute-se se ele pode ser considerado geógrafo ou não, seu ponto de vista sobre a Geografia, sua proposta de divisão regional e a visão da Geografia oficial do período. Procurou-se ainda verificar a presença do autor em livros didáticos, em revistas especializadas e em alguns livros. No final, levanta algumas hipóteses que ajudam a entender o seu esquecimento pela Geografia.

O PENSAMENTO DE JOSUÉ DE CASTRO E A GEOGRAFIA BRASILEIRA

No período entre 1930 e 1960, emerge no cenário intelectual brasileiro a figura de Josué de Castro, um dos grandes nomes da Geografia brasileira. Seus estudos sobre a alimentação e a fome se tornaram referência para os debates sobre as relações entre agricultura e desenvolvimento, num contexto histórico conturbado, marcado pela II Guerra Mundial, pela Revolução Popular Chinesa, reconstrução da Europa e convulsões sociais diversas ao redor do mundo. Naquele contexto, a fome era um fenômeno central dentro dos desafios econômicos e sociais dos quais a humanidade não podia esquivar-se. Castro esboçou uma análise multifacetária do tema, abordado em diversas escalas espaciais e temporais, resultando num aprofundamento da reflexão sobre a realidade social brasileira e mundial e trazendo, ainda, uma inequívoca contribuição à epistemologia e metodologia da ciência geográfica. Focado principalmente em três trabalhos de Josué de Castro, os livros Geografia da Fome, Geopolítica da Fome e Ensaios de Geografia Humana, o presente artigo tem por objetivos analisar a concepção do método geográfico aplicado e aprimorado pelo autor à temática da fome, bem como compreender sua importância e a relação com o desenvolvimento da ciência geográfica brasileira da época.

Opiliões (Arachnida: Opiliones) em remanescente florestal no município de Plácido de Castro, AC.

Os opiliões (Arachnida: Opiliones) são aracnídeos com ampla distribuição geográfica, sendo a maior parte das espécies registradas na região Neotropical. Esses organismos possuem baixa capacidade de dispersão, alto grau de endemismo e sensibilidade às mudanças ambientais, também participam da ciclagem da matéria orgânica do solo, visto que muitas espécies possuem o hábito alimentar detritívoro. Dada a importância desses organismos, objetivou-se com esse trabalho prospectar a fauna de opiliões em remanescente florestal localizado no município de Plácido de Castro, AC. Foram utilizados dois métodos de captura: armadilhas pitfall (captura passiva), dispostas em dois transectos, e procura livre noturna (coleta ativa). As armadilhas pitfall consistiram em copos plásticos de 500 mL, contendo uma solução de formaldeído a 1% e gotas de detergente neutro, sendo recolhidas semanalmente. As coletas ativas mensais foram realizadas por quatro pessoas, em um esforço de coleta de 1 h. As espécies de opiliões capturadas foram: Paecilaema marajoara, Paraprotus quadripunctatus, Taito kakera e Cynorta sp. (Cosmetidae); Geaya sp. (Sclerosomatidae) e quatro adultos e um imaturo, pertencentes à família Manaosbiidae. Todos os opiliões registrados nesse levantamento foram capturados pelo método de ?procura livre noturna?, sendo os gêneros Geaya e Cynorta, bem como a espécie P. quadripunctatus, registrados pela primeira vez no estado do Acre.

Pedestrians Effects on Indoor MIMO-OFDM Channel Capacity

Temporal variations caused by pedestrian movement can significantly affect the channel capacity of indoor MIMOOFDM wireless systems. This paper compares systematic measurements of MIMO-OFDM channel capacity in presence of pedestrians with predicted MIMO-OFDM channel capacity values using geometric optics-based ray tracing techniques. Capacity results are presented for a single room environment using 5.2 GHz with 2x2, 3x3 and 4x4 arrays as well as a 2.45 GHz narrowband 8x8 MIMO array. The analysis shows an increase of up to 2 b/s/Hz on instant channel capacity with up to 3 pedestrians. There is an increase of up to 1 b/s/Hz in the average capacity of the 4x4 MIMO-OFDM channel when the number of pedestrians goes from 1 to 3. Additionally, an increment of up to 2.5 b/s/Hz in MIMO-OFDM channel capacity was measured for a 4x4 array compared to a 2x2 array in presence of pedestrians. Channel capacity values derived from this analysis are important in terms of understanding the limitations and possibilities for MIMO-OFDM systems in indoor populated environments.

Effect of Pedestrian Movement on MIMO-OFDM Channel Capacity in an Indoor Environment

Effects of pedestrian movement on multiple-input multiple-output orthogonal frequency division multiplexing (MIMO-OFDM) channel capacity have been investigated using experiment and simulation. The experiment was conducted at 5.2 GHz by a MIMO-OFDM packet transmission demonstrator using four transmitters and four receivers built in-house. Geometric optics based ray tracing technique was used to simulate the experimental scenarios. Changes in the channel capacity dynamic range have been analysed for different number of pedestrian (0-3) and antennas (2-4). Measurement and simulation results show that the dynamic range increases with the number of pedestrian and the number of antennas on the transmitter and receiver array.

Variations in MIMO-OFDM channel capacity due to random human movement in an indoor environment

Channel measurements and simulations have been carried out to observe the effects of pedestrian movement on multiple-input multiple-output orthogonal frequency division multiplexing (MIMO-OFDM) channel capacity. An in-house built MIMO-OFDM packet transmission demonstrator equipped with four transmitters and four receivers has been utilized to perform channel measurements at 5.2 GHz. Variations in the channel capacity dynamic range have been analysed for 1 to 10 pedestrians and different antenna arrays (2 × 2, 3 × 3 and 4 × 4). Results show a predicted 5.5 bits/s/Hz and a measured 1.5 bits/s/Hz increment in the capacity dynamic range with the number of pedestrian and the number of antennas in the transmitter and receiver array.

Body-shadowing effects in indoor MIMO-OFDM channel capacity

We investigate Multiple-Input and Multiple-Output Orthogonal Frequency Division Multiplexing (MIMO-OFDM) systems behavior in indoor populated environments that have line-of-site (LoS) between transmitter and receiver arrays. The in-house built MIMO-OFDM packet transmission demonstrator, equipped with four transmitters and four receivers, has been utilized to perform channel measurements at 5.2 GHz. Measurements have been performed using 0 to 3 pedestrians with different antenna arrays (2 £ 2, 3 £ 3 and 4 £ 4). The maximum average capacity for the 2x2 deterministic Fixed SNR scenario is 8.5 dB compared to the 4x4 deterministic scenario that has a maximum average capacity of 16.2 dB, thus an increment of 8 dB in average capacity has been measured when the array size increases from 2x2 to 4x4. In addition a regular variation has been observed for Random scenarios compared to the deterministic scenarios. An incremental trend in average channel capacity for both deterministic and random pedestrian movements has been observed with increasing number of pedestrian and antennas. In deterministic scenarios, the variations in average channel capacity are more noticeable than for the random scenarios due to a more prolonged and controlled body-shadowing effect. Moreover due to the frequent Los blocking and fixed transmission power a slight decrement have been observed in the spread between the maximum and minimum capacity with random fixed Tx power scenario.

Wireless channel modelling for indoor populated environments : statistical characterization of narrowband channels at 2.45 Ghz and 5.2 Ghz

The recent development of indoor wireless local area network (WLAN) standards at 2.45 GHz and 5 GHz has led to increased interest in propagation studies at these frequency bands. Within the indoor environment, human body effects can strongly reduce the quality of wireless communication systems. Human body effects can cause temporal variations and shadowing due to pedestrian movement and antenna- body interaction with portable terminals. This book presents a statistical characterisation, based on measurements, of human body effects on indoor narrowband channels at 2.45 GHz and at 5.2 GHz. A novel cumulative distribution function (CDF) that models the 5 GHz narrowband channel in populated indoor environments is proposed. This novel CDF describes the received envelope in terms of pedestrian traffic. In addition, a novel channel model for the populated indoor environment is proposed for the Multiple-Input Multiple-Output (MIMO) narrowband channel in presence of pedestrians at 2.45 GHz. Results suggest that practical MIMO systems must be sufficiently adaptive if they are to benefit from the capacity enhancement caused by pedestrian movement.

Efficient wireless broadband communications to rural area

This paper discusses how internet services can be brought one step closer to the rural dispersed communities by improving wireless broadband communications in those areas. To accomplish this objective we describe the use of an innovative Multi-User-Single-Antenna for MIMO (MUSA-MIMO) technology using the spectrum currently allocated to analogue TV. MUSA-MIMO technology can be considered as a special case of MIMO technology, which is beneficial when provisioning reliable and high-speed communication channels. This paper describes channel modelling techniques to characterise the MUSA-MIMO system allowing an effective deployment of this technology. Particularly, it describes the development of a novel MUSA MIMO channel model that takes into account temporal variations in the rural wireless environment. This can be considered as a novel approach tailor-maid to rural Australia for provisioning efficient wireless broadband communications.

Human-body shadowing effects on indoor MIMO-OFDM channels at 5.2 GHz

Pedestrian movement is known to cause significant effects on indoor MIMO channels. In this paper, a statistical characterization of the indoor MIMO-OFDM channel subject ot pedestrian movement is reported. The experiment used 4 sending and 4 receiving antennas and 114 sub-carriers at 5.2 GHz. Measurement scenarios varied from zero to ten pedestrians walking randomly between transmitter (tx) and receiver (Rx) arrays. The empirical cumulative distribution function (CDF) of the received fading envelope fits the Ricean distribution with K factors ranging from 7dB to 15 dB, for the 10 pedestrians and vacant scenarios respectively. In general, as the number of pedestrians increase, the CDF slope tends to decrease proportionally. Furthermore, as the number of pedestrians increase, increasing multipath contribution, the dynamic range of channel capacity increases proportionally. These results are consistent with measurement results obtained in controlled scenarios for a fixed narrowband Single-Input Single-Output (SISO) link at 5.2 GHz in previous work. The described empirical characterization provides an insight into the prediction of human-body shadowing effects for indoor MIMO-OFDM channels at 5.2 GHz.