Objective: To provide a platform for the academia and the researchers to exchange technical, scientific and professional knowledge and ideas within and across sectors of Civil and Infrastructure Engineering.
1. To create awareness among the researchers to identify solutions to the problems encountered/anticipated and strategise framework for future development.
2. To provide a link for the researchers to interact and discuss with the participants worldwide.Call for papers
English is the official language for this seminar and will be adopted in all publications and oral presentation. The abstracts should contain title of paper, name of authors, affiliations, contact details and summary of objectives, main findings and results of the study with limitation of not more than 400 words.
Abstracts can be sent by email to Secretariat at firstname.lastname@example.org or email@example.com or faxed to +603-55435275.
Who should attend: All academicians, scientists, researchers, developers, consultants, contractors, practitioners, students are invited to attend this seminar. Technical visits to interesting place will be arranged for seminar and short course participants (see updates from our website).
*Note that only presented papers will be included in the proceedings.
Norzaidi | ResearchSEA
Biomedical research continues to develop rapidly - resources to be pooled in MV
17.09.2018 | Leibniz-Institut für Nutzierbiologie (FBN)
Workshop on sensor data management in September
16.08.2018 | Fraunhofer-Institut für Optronik, Systemtechnik und Bildauswertung IOSB
DESY and MPSD scientists create high-order harmonics from solids with controlled polarization states, taking advantage of both crystal symmetry and attosecond electronic dynamics. The newly demonstrated technique might find intriguing applications in petahertz electronics and for spectroscopic studies of novel quantum materials.
The nonlinear process of high-order harmonic generation (HHG) in gases is one of the cornerstones of attosecond science (an attosecond is a billionth of a...
Nano- and microtechnology are promising candidates not only for medical applications such as drug delivery but also for the creation of little robots or flexible integrated sensors. Scientists from the Max Planck Institute for Polymer Research (MPI-P) have created magnetic microparticles, with a newly developed method, that could pave the way for building micro-motors or guiding drugs in the human body to a target, like a tumor. The preparation of such structures as well as their remote-control can be regulated using magnetic fields and therefore can find application in an array of domains.
The magnetic properties of a material control how this material responds to the presence of a magnetic field. Iron oxide is the main component of rust but also...
Due to the special arrangement of its molecules, a new coating made of corn starch is able to repair small scratches by itself through heat: The cross-linking via ring-shaped molecules makes the material mobile, so that it compensates for the scratches and these disappear again.
Superficial micro-scratches on the car body or on other high-gloss surfaces are harmless, but annoying. Especially in the luxury segment such surfaces are...
The Potsdam Echelle Polarimetric and Spectroscopic Instrument (PEPSI) at the Large Binocular Telescope (LBT) in Arizona released its first image of the surface magnetic field of another star. In a paper in the European journal Astronomy & Astrophysics, the PEPSI team presents a Zeeman- Doppler-Image of the surface of the magnetically active star II Pegasi.
A special technique allows astronomers to resolve the surfaces of faraway stars. Those are otherwise only seen as point sources, even in the largest telescopes...
Researchers at Chalmers University of Technology and the University of Gothenburg, Sweden, have proposed a way to create a completely new source of radiation. Ultra-intense light pulses consist of the motion of a single wave and can be described as a tsunami of light. The strong wave can be used to study interactions between matter and light in a unique way. Their research is now published in the scientific journal Physical Review Letters.
"This source of radiation lets us look at reality through a new angle - it is like twisting a mirror and discovering something completely different," says...
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