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Laporan Tahunan Universiti Pertahanan Nasional Malaysia
2016
penyelidikan dan inovasi
sambungan Jadual 42: Senarai Penerima Anugerah Pertandingan PERINTIS 2016
High Speed Mission Critical
Multiple Clients/Single Server
Operation Failure Detection
and Recovery System
Smart CCTV for Motion
Detection and Energy Saving
(I-CCTV)
Mej Dr. Vikneswaran a/l Munikanana
Kapt Prof. Madya Syed Nasir Alsagoff
bin Syed Zakaria (Bersara)
Prof. Madya Dr. Suzaimah binti Ramli
3.
4.
High Speed Mission Critical Multiple clients/single
server operation failure detection and recovery system
is a client/server system for transmission of real time
situational mission data. Both clients and server can
detect problems from either side and clients can
immediately reconnet. The normal method of using
the build-in networking engine to detect client/server
problem is not relieable.
A smart CCTV surveillance with motion detection and
energy saving is presented. Currently the process of
recording from CCTV is non-stop that will require a
large memory. Hence, it has increased the power
consumption. To overcome these situation we have
proposed a method that will be able to control the
process of recording from CCTV that will detect the
any movement. Emphasis is set on robust techniques
allowing the use of this system in any condition.
Nama Produk
Sustainable Concrete
Curing Compound Using
Sugarcane Bagasse
Nama Penyelidik
Encik Muhamad Azani bin Yahya
Bil.
2.
Ringkasan Produk
A concrete element is expected to last a certain
number of years. In order to meet this expected service
life, it must be able to withstand structural loading,
fatigue, weathering, abrasion, and chemical attack.
The duration and type of curing plays a big role in
determining the requiredmaterials necessary to achieve
the high level of quality. Curing is the process in which
the concrete is protected from loss of moisture and
kept within a reasonable temperature range. The result
of this process is increased strength and decreased
permeability. Curing is also a key player in mitigating
cracks in the concrete, which severely impacts
durability. Cracks allow open access for harmful
materials to bypass the low permeability concrete
near the surface. Good curing can help mitigate the
appearance of unplanned cracking. Additionally,
practical curing methods can enhance sustainability by
reducing the need for resource intensive conditioning
treatments, should the curing method be incompatible
with the intended service environment. Typical
recommendations for curing of pavements allow the
use of sheet curing, moist curing, or application of a
film forming curing compound. Due to the large surface
areas typical of concrete paving the application of
curing compound to all exposed surfaces is the most
common curing method. Moist curing and sheet curing
of large surface areas may become cost prohibitive due
to the large quantity of materials required to cover the full
surface of concrete placed in any single day. According
to selected construction projects, the average
cost of curing process is 8% to 10% of concreting
cost. Therefore, an alternative method should be
implemented to save the cost of concreting works
and project cost. The research was done by mixing
sugarcane bagasse into a concrete mix. Sugarcane
bagasse has the fixture or slowing the concrete setting
time and it can retain the moisture content hydration
process. By putting the optimum content of sugarcane
bagasse into the concrete mix, concrete does not have
to cure and it saves the curing cost. Not only for the
curing process, sugarcane bagasse also offering the
increment of concrete strength in term of compression
and flexural also prolong the setting time. Sugarcane
bagasse considered as waste materials. This approach
is sustainable because of using the waste material and
it can be collected with the minimum cost. By using this
method, it can act as natural curing compound and the
process of disposal such as burning can be eliminated.
Penerima Anugerah EMAS