196 research outputs found

    Smart site monitoring system / Muhammad Azmi and Muhammad Naim Mahyuddin

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    The Smart Site Monitoring System is an innovative and integrated approach designed to optimise a construction site management. The primary objective of this project is to develop a comprehensive system that enhances real-time monitoring, improves safety protocols, and streamlines communication among stakeholders. The Smart Site Monitoring System utilises a network of Internet of Things (IoT) devices, including sensors and cameras, strategically installed across the construction site. These devices collect and transmit data to a centralised cloud-based platform. Advanced data analytics and machine learning algorithms process this data, enabling the system to detect potential safety hazards, monitor construction progress, and predict resource requirements. Throughout the project’s implementation, the Smart Site Monitoring System demonstrated remarkable efficiency gains, reducing project timelines by an average of 15% and preventing safety incidents by alerting supervisors in real-time. Additionally, the system;s predictive capabilities facilitated better resource allocation, leading to cost savings of up to 10%. This innovation holds significant implications for the construction industry, offering a proactive and data-driven approach to site management

    The journey of UiTM through digital horizons in construction technology / Ts. Muhammad Naim Mahyuddin

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    Anthology of 200 poems which were contributed by lecturers and academicians from UiTM and other higher learning institutions. This is in fact the largest collection of poems compiled in one anthology

    Composition of plastic waste in construction industry / Nor Alya Atiqah Mohidin and Muhammad Naim Mahyuddin

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    This paper aims to study the issue and problem of plastic waste and to identify its composition in new or existing products. The continuous demand of plastics caused the plastic waste accumulation in the landfill consumed a lot of spaces that contributed to the environmental problem. The ranking of the highest to the lowest plastic waste in municipal solid waste according to the categories of plastic containers. Some alternatives that have been developed to manage plastic wastes were recycling and innovation in construction industry. The innovations in construction industry may get a place to contribute as a solution for reducing plastic waste on earth. It’s given a new value and price which may improve the economic growth. The innovation of plastic waste into new products can be applied either in production, building components or construction materials

    Development idea of smart forklift / Nur Athirah binti Mohamad Sakri and Muhammad Naim bin Mahyuddin

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    This study will be focusing on the manufacturing stages, specifically the material handling system of an Industrialised Building System (IBS) component. To run an IBS plant or warehouse, it requires a high number of workers especially skilled worker to handle the movement of the product inside the plant. Other than that, the technologies and machineries used must be safe to ensure the safety and health of the workers. To properly handle an IBS plant, it requires higher technology with accuracy which one of the ways is by replacing the manpower with machineries or robots, since robots works better than human. The main objective of this study is to propose an innovation to cater the problems of material handling of an IBS component in a warehouse or plant. Desk study on relevant research related to the material handling stages and innovation existed will be conducted through a literature review. The data will then be analyses through comparative analysis to come out with the best solution to cater the problems. This study highlights the benefits of having robots in the industry to help human works better and safer as well as following the Industry Revolution 4.0 plan where it is being driven by the conjunction of advanced technologies, such as robotics and artificial intelligence

    Innovation of glow-in-the-dark roadside lines in rural area / Muhammad Amirul Syazwan Muda and Muhammad Naim Mahyuddin

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    Road safety in rural areas is a pressing concern due to high rates of motor vehicle mortality, increased fatality risk with limited access to hospitals, and high severity of injuries. Additionally, accidents caused by poorly lit roads, making its users to have limited visibility, will increase the challenges for emergency vehicles on narrow roads, and inadequate street lighting will further exacerbate the issue. To overcome the road safety issues in rural areas, it requires improving the existing road infrastructure, implementing sustainable road lighting solutions, enhancing electricity accessibility, and promoting road safety education and enforcement. Therefore, this research is aimed to develop glow-in-the-dark roadside lines in rural areas to reduce the number of road accidents. To achieve the aim, four objectives have been established which are to develop innovative design ideas for glow-in-the-dark roadside lines in rural areas, assemble a mock-up model based on the improved designs, assess its performance, and demonstrate entrepreneurial skills in proposing a marketable solution

    Exploring fire safety awareness among the Malaysia Public / Azim Sulaiman , Mohd Najib Abd Rashid and Naim Mahyuddin

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    As a global issue, fire incidents would cause severe implication(s)to victims. Fire incidents in Malaysia have increased rapidly over the years. Most cases of property loss involved residential buildings, causing severe injuries to victims. This scenario is of concern in terms of national development, because the prime purpose of owning a house is to provide shelter and security to the residents. In response to growing concerns, surveys were conducted over recent years, as shown in the media which revealed that the main contribution towards the increase of fire cases in Malaysia is due to a low level of fire safety awareness among the public. Furthermore, there is still a lack of fire safety measures especially in regards to landed residential properties. The installation of smoke detectors and portable fire extinguishers in houses in Australia, the United Kingdom and .ew Zealand, in comparison significantly reduced the fire fatalities and losses.Over recent years, there have been campaigns, seminars and trainings on fire safety conducted by the .ational Fire and Rescue Department of Malaysia throughout the nation. However, these fire preventive measures failed to increase the level of fire safety awareness among the public. Perhaps we should keep in mind the significant importance promoting fire safety awareness among the public. Does this responsibility solely rest with regulating authorities or with each individual

    Innovation of IBS 3D printing mix design material tensile performance with Kenaf fibre / Muhammad Amirul Haqim Saharan and Muhammad Naim Mahyuddin

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    The construction industry has experienced a paradigm shift, leading to a growing demand for sustainable construction methods. 3D printing technology has revolutionised the construction industry by allowing for mass-customisation of structures, reducing the need for formwork and labour. However, 3D printing has faced challenges due to unstable and low-strength materials, making it an expensive method. This research aims to find a sustainable material for 3D printing technology in the construction industry, ensuring its strength, cost, and handling methods are superior to those of existing materials. The use of natural building materials from plant waste is crucial for reducing the cost of construction using 3D printing technology in a country

    Improvements of IBS 3D printig mix design material performance with kenaf fiber in the building construction / Muhammad Amirul Haqim Saharan and Muhammad Naim Mahyuddin

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    The construction industry has experienced a paradigm shift, leading to a growing demand for sustainable construction methods. 3D printing technology has revolutionized the construction industry by allowing for mass-customization of structures, reducing the need for formwork and labor. However, 3D printing has faced challenges due to unstable and low-strength materials, making it an expensive method. This research aims to find a sustainable material for 3D printing technology in the construction industry, ensuring its strength, cost, and handling methods are superior to those of existing materials. The use of natural building materials from plant waste is crucial for reducing the cost of construction using 3D printing technology in each country. This research aims to find a sustainable material that can be used in 3D printing technology that is used in the construction industry, and make sure that its strength, cost, and handling methods are greater to those of the materials that are already used in building construction. In addition to acquiring more precise data, the goal of this research is to investigate the efficacy of the proposed material (kenaf fibre) for use in Machine 3D Printing and to compare the strength of this new study material with those of materials that have been employed in previous studies. This study shall demonstrates that the Kenaf Fiber Mortar has a compressive strength that meets the requirements of the JKR Mortar Grade 20 Standard Specifications

    Birleşmiş Milletler Güvenlik Konseyi'nin Libya hakkındaki 1973 (2011) sayılı kararı

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    Demirel, Naim (Dogus Author)Bu Karar Güvenlik Konseyi’ nin 6498’inci toplantısında 17 Mart 2011’de kabul edildi

    Energy efficiency in green building materials application for low-energy indoor eco-friendly / Anas Zafirol Abdullah Halim, Mohd Fareh Majid and Muhammad Naim Mahyuddin

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    World environment climate has changed toward unpredictable weather where average global temperature has increased up to 0.74oC since 1906 until 2005 [1]. This increment is an indication of more heat from the sun is penetrated to our primary protector which is the ozone layer. Due to this scenario, the secondary protector in the forms of the buildings should play major roles in giving comfort to the human. This is where the thermal conductivity of the building material becomes an important matter to study. Thermal conductivity or k-value of solid material describes the ability of heat being transferred through conduction. High k-value describes the material as highly conductive from one point to another. In other words, high k-value material easily allows the heat transfer to pass through it, as such indicating that this is not a good property for building material. The design thickness is very crucial where it will impact the cost of producing green materials. Thicker brick uses more amount of material and hence, it increases the production cost. The requirement on heat resistivity is very important for a building to prevent the building to be hot and uncomfortable. Unlike the clay brick wall and concrete wall, the U-value for green material wall is very low and it can block the entry of large amounts of heat and thereby cooling the buildin
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