339 research outputs found
Regionalization and harmonization in TVET
A transversal skill is one of the skills needed in every type of workplace setting. There is
limited information about the perceptions of which transferable skills are needed in the workplace. The
objective of this study is to explore the transferable skills among students and lecturers in TVET higher
learning institutions in Indonesia and Malaysia. In the present study, transferable skills consist of communication
skills, collaboration skills, problem-solving skills, entrepreneurship, and learning to learn skills.
A qualitative research was conducted using survey. The five Likert scale questionnaire was distributed to
lecturers and students from selected Malaysian and Indonesian universities who have bachelor program
in engineering. Based on the analysis outcomes, it is clearly shown that Malaysian university engineering
students yielded significantly higher scores on the perceptions of transferable skill acquisition in all
measured components compared to their counterparts in Indonesia. Similar patterns of data distribution
have been observed in Malaysian and Indonesian engineering students. Based on the lecturers’ perception,
Malaysian and Indonesian Engineering Lecturers have comparable perceptions in the aspects of problem
solving skills and entrepreneurship skills. In contrast, Malaysian university engineering lecturers gained
significantly higher scores on the perception of communication skill, collaboration skill, and learning to
learn skill compared to the Indonesian lecturers. The results indicate the need to increase transferable
skills of both lecturers and students
The relationship between ICT adoption and business performance in Malaysia and Indonesia
This paper reviews the relationship of information communication technology adoption (ICT) and
Business Performance (BP) from women entrepreneur perspective in Malaysia and Indonesia. The aim of
this paper is to identify the dimension of ICT adoption and BP to develop a conceptual framework for
further study about the relationship to identify those that can determine women entrepreneur success. To
achieve this objective, literature review is conducted by extend number of literature in ICT, BP, and
women entrepreneur. Related studies are review and analyze by using literature table. The finding of this
paper reveals a proposed conceptual framework and hypothesis that gain support from literature. The
significant of this study is expected to provide guideline for women entrepreneurs in Malaysia and
Indonesia who wish to adopt ICT in their business and help them to evaluate the relationship with BP.
This study can assist women entrepreneurs in considering the adoption of Electronic commerce (EC) and
Mobile commerce (MC) to embark themselves in technology and innovation. Further efforts are to test
this conceptual framework and hypothesis by using Structural Equation Modelling (SEM) to develop a
research model
Numerical Study for MHD Stagnation-Point Flow of a Micropolar Nanofluid Towards a Stretching Sheet
In this paper, we investigated the magnetohydrodynamic (MHD) stagnation-point flow of micropolar nanofluid over a stretching sheet. A uniform magnetic field is applied normal to the flow. Nonlinear micropolar nanofluid problem in the presence of the strong concentration of microelements is modeled and then solved by numerical techniques. A parametric study of the involved parameters in the presence of spin gradient viscosity is conducted, and representative set of numerical results is illustrated in the graphical and tabular forms. The complete formulation of the Keller-box method for the considered flow problem is given, and a comparison of the obtained results is performed with the previous published results. The comparison shows that our present results have an excellent match with the previous results in a limiting case. We found that the non-dimensional temperature and its associated thermal boundary layer thickness are enhanced when we use the larger values of thermophoresis and Brownian motion parameter. The non-dimensional concentration is higher for larger thermophoresis parameter but smaller for higher Brownian motion parameter. It is also observed that the smaller values of Lewis number correspond to higher non-dimensional concentration and its associated boundary layer thickness
Aerodynamics characteristics around simplified high speed train model under the effect of crosswinds
The aerodynamics problems of train commonly come when the flow pass through train body. The increasing speed of train to achieve highly technology demands has led to increase the forces and moments and increase sensitivity of train stability and may cause the train to overturn. In this paper, two prisms arranged in tandem represent a simplified model of high speed train are performed at different yaw angle ranging from 0° to 90° by using the unsteady Reynolds- Averaged Navier Stokes (URANS) equation combined with k-ω SST turbulence model. The Reynolds number is 3.14x105based on height of the train and the free stream velocity. The aerodynamic quantities such as the side force, lift force and drag force coefficient show a similar trend where the forces increase with the yaw angle until a certain critical yaw angle before start to decrease till the yaw angle of 90°. The flow structure around the train under the effect of crosswind is visualized. The vorticiticy start to form from the nose and slowly drifts away further towards the trailing edge. The two-dimensional mean streamlines on the cross-section of train at different yaw angle show that the size of vortex increase as the yaw angle increase. Time averaged pressure contour plotted on the cross section along x-axis show the variation of region between high pressure and low pressure region on the leeward and windward side of the train model that may cause train to overturn. © 2006-2017 Asian Research Publishing Network (ARPN)
Energy efficient routing protocols for UWSN: A review
The Underwater Sensor Network (UWSN) is main interesting area due to its most valuable applications like: disaster preventions, distributed tactical surveillance, undersea exploration, seismic monitoring, environmental monitoring and many more. The design of energy efficient routing protocol however is a challenging issue because in underwater environment the batteries of the sensor nodes cannot be recharged easily. Majority of the researchers have adapted the terrestrial WSN methodologies to overcome this problem but in underwater environment the terrestrial WSN approach is not feasible due to the acoustic signaling and water current. This research paper focuses the key limitation of the current energy efficient routing protocols. The simulation results with comparative analysis for energy efficient routing protocols are also presented in this research article; which helps the researchers to find the further research gap in the field of energy efficient routing protocols
The Potential of Treated Palm Oil Mill Effluent (Pome) Sludge as an Organic Fertilizer
Palm oil mill contributed a significant benefit to agro-based industry and social-economic for Malaysia. Palm oil mill effluent (POME) is considered as a polluted wastewater and the treated POME sludge was produced from the open treatment ponds. The objective of this study was to determine the physicochemical characteristics of treated POME sludge and its potential as an organic fertilizer. It was collected from the dumping ponds in Felda Jengka 8, palm oil mill. Physicochemical characteristics, sampling and preparation of samples were analyzed according to the standard method of soil and the wastewater. The samples were collected after one and six month of age with different depths (one, two and three meters). The statistical analysis revealed that the depth was not significant on the physicochemical characteristics. The characteristics of the treated POME sludge was measures using CHNS-O, C/N ratio, solid analysis, heavy metal, macro and micronutrient, moisture content, and pH. However, the elements of oxygen, iron and pH were shown an interaction effects with time. In conclusion, the treated POME sludge has shown significant effect and the potential used as an organic fertilizer. Indeed, further studies on crops response are being conducted to prove the findings
Structural And Dynamics Behavior Of Native Endoglucanase From Fusarium Oxysporum
Abstract: Molecular dynamics methods are very useful tool in understanding the behavior of the enzymes at higher temperatures. In this work we employ molecular dynamics simulation of an endoglucanase from Fusarium oxysporum to examine its structural and dynamics behavior at 80°C, by analyzing the root mean square derivation (RMSD) from the initial structure. The RMSD values of coil and turn regions are found to be higher compared to helix and β-sheet regions. The surface area of the structure is found to have larger RMSD compared to the buried part of the enzyme, due the β-jelly roll nature of the enzyme. For the same reasons, the number of hydrogen bonds between among residues in β-sheet is found to larger compared to those in the coil regions. However, the number of hydrogen bonds between water and proteins is highest in turn regions and lowest in helix regions. The turn regions connecting the 3 10 -helix are found to fluctuate more rapidly compared to the other parts of the enzyme. These factors can explain the loss of the activity of the enzyme at high temperatures
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