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
New Materials – New Test Requirements
17.05.2017 | Fraunhofer-Institut für Solare Energiesysteme ISE
Virtual Worlds: Research Trends in Mobile 3D Data Collection
30.11.2016 | Fraunhofer IPM
An international team of physicists has monitored the scattering behaviour of electrons in a non-conducting material in real-time. Their insights could be beneficial for radiotherapy.
We can refer to electrons in non-conducting materials as ‘sluggish’. Typically, they remain fixed in a location, deep inside an atomic composite. It is hence...
Two-dimensional magnetic structures are regarded as a promising material for new types of data storage, since the magnetic properties of individual molecular building blocks can be investigated and modified. For the first time, researchers have now produced a wafer-thin ferrimagnet, in which molecules with different magnetic centers arrange themselves on a gold surface to form a checkerboard pattern. Scientists at the Swiss Nanoscience Institute at the University of Basel and the Paul Scherrer Institute published their findings in the journal Nature Communications.
Ferrimagnets are composed of two centers which are magnetized at different strengths and point in opposing directions. Two-dimensional, quasi-flat ferrimagnets...
An Australian-Chinese research team has created the world's thinnest hologram, paving the way towards the integration of 3D holography into everyday...
In the race to produce a quantum computer, a number of projects are seeking a way to create quantum bits -- or qubits -- that are stable, meaning they are not much affected by changes in their environment. This normally needs highly nonlinear non-dissipative elements capable of functioning at very low temperatures.
In pursuit of this goal, researchers at EPFL's Laboratory of Photonics and Quantum Measurements LPQM (STI/SB), have investigated a nonlinear graphene-based...
Dental plaque and the viscous brown slime in drainpipes are two familiar examples of bacterial biofilms. Removing such bacterial depositions from surfaces is...
23.05.2017 | Event News
22.05.2017 | Event News
17.05.2017 | Event News
23.05.2017 | Physics and Astronomy
23.05.2017 | Life Sciences
23.05.2017 | Medical Engineering