Technology Reports of Kansai University (ISSN: 04532198) is a monthly peer-reviewed and open-access international Journal. It was first built in 1959 and officially in 1975 till now by kansai university, japan. The journal covers all sort of engineering topic, mathematics and physics. Technology Reports of Kansai University (TRKU) was closed access journal until 2017. After that TRKU became open access journal. TRKU is a scopus indexed journal and directly run by faculty of engineering, kansai university.
Technology Reports of Kansai University (ISSN: 04532198) is a peer-reviewed journal. The journal covers all sort of engineering topic as well as mathematics and physics. the journal's scopes are
in the following fields but not limited to:
Enterprise Resource Planning (ERP) systems is a comprehensive integrated system that governs all aspects of a business. It gives your business automation and integration for core processes such as taking client orders, planning operations and maintaining inventory records and commercial data. Using ERP systems provide the user transparency into the entire business development, by which all the departments can view the information documented to guarantee that the correct procedures are happening. This enables the ERP system to act as a central core for end-to-end workflow and data. With the advances in the technology and customer requirement forced ERP designers to cope with the new progress. Consequently, new designs for the ERP system were done to please companies and customers by developing new ERP business models. Today, ERP covers a wide range of functionality within themselves and become a popular Solution in a business organization. Moreover, among the biggest challenge for ERP program designers is to keep their speed with the manufacturing part, which has been moving rapidly from product-centric to a customer-centric focus. This request encouraged most ERP sellers to add multifunction and modules to their core systems. In this paper, we discuss and analyze ERP, ERP types, the ERP design that might be promising in the future as well as discussing factors that could affect the future of ERP systems
This study was conducted in one of company focusing on aerosol and paint manufacturer. In business processes there are still some weaknesses, such as some manually processes, the system is still not integrating all of operational needed process and errors often occur, so that the improvement toward business process is important and get the most priority for company. Zachman framework is chosen due to the need for business architecture, information architecture, application architecture and technology architecture which are only partly discussed by other frameworks. The final results of this study will produce a blueprint of the proposed application design and blueprint of the network design that can be used in the future by the company
A wideband curved slots antenna established on a substrate integrated waveguide (SIW) technology is presented in this paper for radar and satellite applications. The structure of the proposed antenna is consisting of a microstrip antenna with two curved slots etched on the top of radiation plane and located one on top of the other for bandwidth enhancement. This antenna has been printed on substrate from an FR-4 with εr = 4.3 of and thickness of 1.6 mm. The optimized antenna resonate frequencies are 11.34 GHz and 18.42 GHz with a fractional bandwidth of 500 MHz about (4.409 %) and 4.473 GHz about (24.29 %), respectively. The achieved peak gain is about 6.82 dB and 3.9 dB over the operating frequencies, respectively, this makes it suitable for radar and satellite applications with good matching and return loss characteristics. The design model and performance evaluation of a proposed antenna has been executed by EM simulator, CST Microwave Studio
Internet of Things (IoT) is the development of the Internet and has been acquisition increased attention from researchers, developers in both industrial environments and academic. The hcapacity for communication and data collection possible, providing several opportunities for many IoT applications, particularly medical and healthcare systems. In spite of all the advantages, there are still a lot of open issues that represent the main challenges for Internet of Things, for example information security, privacy, accessibility, portability, and interoperability. IoT provides important characteristics to medical healthcare systems, such as mobility, scalability, and availability that offer an architectural basis for very high technological healthcare applications, such as real-time patient monitoring, environmental and indoor quality monitoring, and ubiquitous and pervasive information access that benefits health professionals and patients. This paper reviews the recent application and the platform architecture of IoT in addition to showing all the challenges and the open issues of IoT. Furthermore, this research synthesizes the existing body of knowledge and identifies the gaps that open up new considerable and challenging future research directions
The use of micro hydro power plants (PLTMH) in utilizing existing water resources has been widely carried out, especially for people in rural areas who experience difficulties in accessing electricity networks and are spread throughout Indonesia. One of the rivers in the province of South Sumatra, Indonesia, which has a swift flow of water to be able to drive a turbine is the Kelekar River located in Ogan Ilir district. Besides having a quite heavy flow of water, Kelekar River is supported by the presence of the reservoir basins that is Embung of Sriwijaya University which has an overflow design be equipped 2 sluice gates with dimensions of 2 x 1.5 m and width threshold with top point elevation +6.00. This study aims to calculate the initial design of micro hydro power plants on the Kelekar River based on the river flow rates and the height of the water falling. Stages of analysis include rainfall analysis, test the suitability of data distribution, calculate concentration time, determine runoff coefficient values, calculate runoff discharge and calculate the height of the water falling, initial design analysis of micro hydro power plants. Based on the calculation analysis, it is obtained that the flowrate of the kelekar river is 211.109 m3/sec (QRmax) and 15.732 m3/sec (QRmin), design discharge (Qd) = 0.45m3/sec, the high of effective energy (H) = 3.475792 m, power from water flow 15.344 kW, dan the power produced by the turbine is Pt = 11.508 kW with the turbine efficiency t = 0.75
