3 research outputs found
A case study exploring Bangladeshi teacher educators' perspectives of information and communication technology (ICT) in education.
This study explores teacher educatorsâ perceptions of information and
communication technology (ICT) within teacher education programs in Bangladesh.
The study is set within the context of a nationwide focus on ICT shaped by the
Bangladesh Governmentâs National Information and Communication Technology
(ICT) Policy â 2009. The intention of this policy is to increase the use and
understanding of ICT by introducing specific courses in primary, secondary and
tertiary education, technical and vocational education, and teacher education
programs. Aligned with this overarching ICT policy, the National Education Policy,
2010, places special emphasis on the integration of ICT in education by
recommending that ICT is taught as a separate learning area, and that it is used as a
tool across all curriculum areas. Consequently the National Education Policy
recommends that all teachers receive training to make the best use of ICT for
educational purposes. Given the critical role of teachers in implementing these
policies, this study explores teacher educatorsâ perceptions of ICT within the teacher
education programs in Bangladesh. Ten educators from four different teachersâ
training colleges (TTC) were interviewed to explore their experiences and
understandings of ICT. This study found that the teacher educators believe ICT is
more than a simple teaching-learning tool because it has potential for constructing
knowledge and enhancing the quality of education. They also recognized that ICT
provides relative advantages over traditional teaching tools, and that it facilitates
professional learning via access to current knowledge from national and international
sources. However, the educators also understood that the mere provision of
computers or ICT in institutions does not ensure quality education. Teachers need to
develop technological knowledge about how ICTs work; an understanding of
pedagogical strategies that utilize ICT; and the capability to design learning
experiences that appropriately integrate technology in relation to learning content. In
addition, teacher educators should also be prepared with both pedagogical and
andragogical knowledge of teaching about and with ICT. The teacher education
programs should integrate ICT in cross-curricular activities so that the trainee teachers can experience how to use ICT in different subject areas. Therefore, ICT
courses in the B.Ed. curriculum in Bangladesh should be enriched not only with
computer operational skills but also with features of social communication,
knowledge construction and dissemination. It is also understood that the successful
integration of ICT in Bangladeshi education requires a supportive professional
culture and appropriate support from different educational administrative layers
including the government sector
Downscaling of far-red solar-induced chlorophyll fluorescence of different crops from canopy to leaf level using a diurnal data set acquired by the airborne imaging spectrometer HyPlant
Remote sensing-based measurements of solar-induced chlorophyll fluorescence (SIF) are useful for assessing plant functioning at different spatial and temporal scales. SIF is the most direct measure of photosynthesis and is therefore considered important to advance capacity for the monitoring of gross primary production (GPP) while it has also been suggested that its yield facilitates the early detection of vegetation stress. However, due to the influence of different confounding effects, the apparent SIF signal measured at canopy level differs from the fluorescence emitted at leaf level, which makes its physiological interpretation challenging. One of these effects is the scattering of SIF emitted from leaves on its way through the canopy. The escape fraction (f esc) describes the scattering of SIF within the canopy and corresponds to the ratio of apparent SIF at canopy level to SIF at leaf level. In the present study, the fluorescence correction vegetation index (FCVI) was used to determine f esc of far-red SIF for three structurally different crops (sugar beet, winter wheat, and fruit trees) from a diurnal data set recorded by the airborne imaging spectrometer HyPlant. This unique data set, for the first time, allowed a joint analysis of spatial and temporal dynamics of structural effects and thus the downscaling of far-red SIF from canopy (SIF 760 canopy) to leaf level (SIF 760 leaf). For a homogeneous crop such as winter wheat, it seems to be sufficient to determine f esc once a day to reliably scale SIF 760 from canopy to leaf level. In contrast, for more complex canopies such as fruit trees, calculating f esc for each observation time throughout the day is strongly recommended. The compensation for structural effects, in combination with normalizing SIF 760 to remove the effect of incoming radiation, further allowed the estimation of SIF emission efficiency (Δ SIF) at leaf level, a parameter directly related to the diurnal variations of plant photosynthetic efficiency
Downscaling of far-red solar-induced chlorophyll fluorescence of different crops from canopy to leaf level using a diurnal data set acquired by the airborne imaging spectrometer HyPlant
Remote sensing-based measurements of solar-induced chlorophyll fluorescence (SIF) are useful for assessing plant functioning at different spatial and temporal scales. SIF is the most direct measure of photosynthesis and is therefore considered important to advance capacity for the monitoring of gross primary production (GPP) while it has also been suggested that its yield facilitates the early detection of vegetation stress. However, due to the influence of different confounding effects, the apparent SIF signal measured at canopy level differs from the fluorescence emitted at leaf level, which makes its physiological interpretation challenging. One of these effects is the scattering of SIF emitted from leaves on its way through the canopy. The escape fraction () describes the scattering of SIF within the canopy and corresponds to the ratio of apparent SIF at canopy level to SIF at leaf level. In the present study, the fluorescence correction vegetation index (FCVI) was used to determine of far-red SIF for three structurally different crops (sugar beet, winter wheat, and fruit trees) from a diurnal data set recorded by the airborne imaging spectrometer HyPlant. This unique data set, for the first time, allowed a joint analysis of spatial and temporal dynamics of structural effects and thus the downscaling of far-red SIF from canopy () to leaf level (). For a homogeneous crop such as winter wheat, it seems to be sufficient to determine once a day to reliably scale SIF760 from canopy to leaf level. In contrast, for more complex canopies such as fruit trees, calculating for each observation time throughout the day is strongly recommended. The compensation for structural effects, in combination with normalizing SIF760 to remove the effect of incoming radiation, further allowed the estimation of SIF emission efficiency (Δ) at leaf level, a parameter directly related to the diurnal variations of plant photosynthetic efficiency