Microsoft Visual Studio Research Articles

Study on theoretical model and actual deformation of weft-knitted transfer loop based on particle constraint

Abstract In order to derive the structural properties and deformation behavior of the weft-knitted transfer fabric, a multilayer spring-mass geometric circle model with weft-knitted transfer loop is provided in conjunction with the fabric samples’ image. Eight type-value points were utilized to control the transfer loop’s morphological structure. Connections between the type-value points and the particle system were established. Non-uniform rational B spline curves and texture mapping were utilized to create the three-dimensional impression of the weft-knitted transfer loop. By measuring the offset of the type-value points in conjunction, the actual deformation of the weft-knitted transfer fabric was determined. Utilizing a cylindrical envelope box for collision detection, the possible unreasonable interpenetration phenomenon in the simulation was solved, and thus a stable weft-knitted transfer loop structure was obtained. Using Microsoft Visual Studio and C#, the deformation of the weft-knitted transfer fabric was simulated, the simulated weft-knitted transfer fabric’s deformation pattern accurately depicts the fabric’s three-dimensional structure and deformation behavior while also matching the structural characteristics of the fabric sample. The findings demonstrate that the theoretical structural model of weft-knitted transfer fabric constructed can accurately represent the loop’s structure, and the actual deformation of the simulated weft-knitted transfer fabric is consistent with the deformation characteristics of the fabric sample. Weft-knitted transfer fabric’s deformation behavior may be effectively reflected by the multilayer spring-mass geometric circle model, allowing for the modeling of the fabric’s morphology and 3D structure.

Perancangan Sistem Informasi Pengolahan Data Morbiditas Rawat Inap Guna Menunjang Tata Kelola Pelaporan Rawat Inap

Morbidity is a crucial aspect that must be reported regularly, specifically quarterly (RL4a). This study aims to support the governance of inpatient unit reporting, especially in the aspect of morbidity, and make it easier for medical record officers as system users to process morbidity data of inpatient unit patients into a report that is needed quickly, accurately, and efficiently. This research is qualitative, and data is collected using observation techniques. This research's system development method is the waterfall model, which is a consecutive development method analogous to a waterfall that flows across all project stages. Designing an inpatient morbidity data processing system to support inpatient reporting governance is described using a flow map, Context diagram, Data flow diagram, and Entity relationship diagram. Then, it was implemented into the website using Microsoft Visual Studio Code using the Hypertext Preprocessor, Javascript programming language, and supported by MySQL as a data store. This study results in a system that can quickly process the morbidity of inpatient units, make the extensive ten disease reports, and reduce user error. Therefore, the governance of inpatient reporting can run accurately and efficiently.

RANCANG BANGUN SISTEM INFORMASI PENGOLAHAN DATA CUSTOMER DIGITAL MARKETING PADA MB STORE

The purpose of this research is to design and build a data processing information system at the MB Store which is engaged in digital marketing services. The current problems Processing customer data while still using static data so that it still makes it difficult for admins to find and collect customer data information both those that are being processed, currently running and also those who have ordered before. This static data collection also often causes confusion or misunderstanding between customers and service officers in controlling different customer needs, besides that it also often causes confusion between one customer order package and another, who have and have not paid. , still in the process of ordering as well as the customer data information itself. This is caused because the data is entered separately in each document in Microsoft Excel so that the checking process must be carried out manually. So that this also causes the admin officer to have difficulties in re-data, tracking and matching customer data that has been stored. To overcome the problems that occur, research is carried out which aims to provide solutions to the Miss Bolin Store (MB Store), namely by building a Customer Data Processing Information System using Microsoft Visual Studio and MySQL. The model used in the development of this research uses the Waterfall Model with 5 stages, namely software requirements analysis, design, program code generation, testing and maintenance. Collecting data using interview techniques, observation and literature study. This information system is expected to make it easier for admins to find data, collect customer information, help the service process to customers be faster and can reduce the occurrence of mistakes or misunderstandings in the customer order data itself.

Real-time object detection, tracking, and monitoring framework for security surveillance systems

The concept of security is becoming a global challenge, and governments, stakeholders, corporate societies, and individuals must urgently create a reasonable protection mechanism for good. Therefore, a real-time surveillance system is essential for detection, tracking, and monitoring. Many studies have attempted to provide better solutions but more research and better approaches are essential. This study presents a real-time framework for object detection and tracking for security surveillance systems. The system has been designed based on approximate median filtering, component labeling, background subtraction, and deep learning approaches. The new algorithms for object detection, tracking, and recognition have been implemented using Python and integrated with C# programming languages for ease of use. A software application framework is designed, implemented, and evaluated. The experimental results based on MOT-Challenge performance metrics show that the proposed algorithms have much better performance in terms of accuracy and precision on the MOT15, MOT16, and MOT17 datasets compared to state-of-the-art approaches. This framework also provides an accurate and effective means of monitoring and recognizing moving objects. The software development, including the design of the framework user interfaces, is coded in the C# programming language and integrated with Python using Microsoft Visual Studio (2019 edition). The integration is performed to provide a convenient user interface and to enable the execution of the framework as a standard and standalone software application. Future studies will consider the dynamic scalability of the framework to accommodate different surveillance application areas in overcrowded scenarios. Multiple data sources are integrated to enhance the performance for different scene times, locations, and weather conditions. Furthermore, other object-detection techniques such as You Only Look Once (YOLO) and its variants shall be considered in future studies. These techniques allow the framework to adapt to complex situations in which security surveillance is challenging.

E-model for Early Detection of Breast Cancer and Patient Monitoring

Breast cancer is becoming one of the most common diseases among women and is a growing global concern. A significant number of women have died worldwide from breast cancer. Studies suggest that early detection gives one better chance at treatment and management. However, the major challenges in early detection of breast cancer are awareness issues and patients’ insensitivity about the disease. This implies that regular breast examination leads to early detection of signs and symptoms of breast cancer. This exercise has been challenged with awareness, improper ways of conducting it and reporting of signs and symptom to appropriate quarters. This work is aimed at designing and development of a computer assisted system that runs on both desktop and mobile device(s) to assist women in conducting self- breast examination. To achieve this, object oriented analysis and design methodology (OOADM) was adopted for investigation and implementation. This work was designed and implemented in Microsoft Visual Studio while MySQL was used as the database management (DBMS). The rule- based approach was used for classification of breast abnormality. The result is an eHealth information system for early detection of breast cancer and patient monitoring. This will assist women to properly conduct self-breast examination, upload signs and symptoms discovered and enable medical professionals monitor patients.

CONCEPT DESIGN FOR OPTIMIZING MASS PRODUCTION PROCESSES WITH 3D PRINTER IN THE INDUSTRY

This study deals with the conceptual design of three-dimensional (3D) printer technology for process optimization in industrial production. While initially 3D printers were primarily used for rapid prototyping, advancements in technology have transformed them into a new technology for mass production. Within the scope of this study, firstly, investigations were conducted on how Industry 4.0 technologies (internet of things (IoT), smart factories) are utilized on the production line. The first-in, first-out (FIFO) method, which is used in communication between objects (3D printer, industrial robot arm, conveyor belt, and assembly unit), has been elaborated in detail. The aim of this study is to comprehensively address and convey how Industry 4.0 technologies increase production speed and efficiency in mass production processes through the created conceptual design. In the obtained conceptual design, even though the production line has been kept limited, every stage of the production process has been thoroughly explained and examined from start to finish. Within the scope of the study, sample data of the production stages are presented with the sample software called 3D Production and Automation Software (3D MAS), which was developed using the C# programming language on Microsoft Visual Studio Community 2022 IDE. In the next study, efforts can be directed towards expanding the limited production line presented in this work, introducing other Industry 4.0 technologies, and incorporating them into the conceptual design of the production process.

Color-Based Image Processing for Autonomous Human Following Trolley Robot Navigation with Camera Vision

The rapid advancements in the field of robotics have spurred intensive research, particularly in the industrial sector, aiming to develop robots that can assist in simplifying daily human tasks. One emerging area of research involves the design of a cargo-carrying robot trolley. This trolley robot has the capability to follow a person carrying items by recognizing the color of the clothes worn by that person through image processing. The objective of this research is to facilitate the transportation of goods, especially in airport environments, by enabling the robot to identify and follow human objects with a minimum distance of 30 centimeters and a maximum distance of over 3 meters. The design system of this robot trolley utilizes a camera sensor to detect the object to be followed through image processing using OpenCV on the Microsoft Visual Studio 2012 platform. The image processing results in PWM values sent to the Arduino to drive DC motors. Additionally, ultrasonic sensors are employed to restrict the robot's movement in its surroundings, preventing collisions. The robot's speed can adjust according to the walking speed of a person. If the robot is moving too fast, it will be stopped by the ultrasonic sensor when the distance between the robot and the person being followed is less than 30 cm, avoiding collisions between the robot and the person.

Accounting and Monitoring System of Electricity Expenditures Based on Geospatient Data Consumers Location

The purpose of the research is considers the development and implementation of a system of accounting and monitoring of electricity costs with visualization of geospatial location data by consumers, which provides technical accounting and analysis of the structure of electricity consumption, estimation of electricity consumption for the tasks of planning production volumes and purchasing electricity from producing companies based on consumer expenditure statistics, prevention of losses associated with unauthorized electricity extraction.Methods. When creating a project and software implementation of a system for monitoring and controlling energy consumption, methods of system analysis, methods of designing software for information systems, a unified object-oriented modeling language Unified Modeling Language (UML), DBMS SQLServer, development environment Microsoft Visual Studio Code (VS Code.) were used.Results. During the project, software for a monitoring and control system for electricity consumption with visualization of geospatial data on the location of consumers was developed and implemented.Тhe project was implemented, tested and introduced into the activities of JSC АtomЕnergoSbyt when planning and accounting for electricity supplies to consumers.Тhe testing results showed that the software system fully satisfies the functional requirements, is ready for use and was demonstrated at the exhibition center.Conclusion. А system for recording energy consumption data with visualization of the territorial location of consumers has been developed in order to control consumption and payments. Тhe developed system will solve the problem of delay in receiving readings from metering devices in the data collection system. Visualization of energy resource con- sumption data by objects and their territorial location with linked personal accounts, meters and consumption volumes will allow you to quickly control the volume of supplies and energy consumers. availability of payment, which will reduce unproductive losses and unauthorized connections.For the company JSC Аtomenergosbyt, operational visualization of consumer data makes it possible to analyze the coverage of consumers by territorial basis and plan new connections.

Digitally improving UK police surveillance and incidence response using real-time crowd reporting app: Digipolice

Overtime, evolving technologies has made ways of monitoring and controlling crime and action in the United Kingdom (UK) become more challenging which needs optimization with the help of technologies. Also with the rate of crime across cities in the UK like mass shootings, murder and gang gun battles, the UK Police system within localities are overwhelmed or may not efficiently cope with crime alerts and incidences coming in at increasing frequencies. However looking in the area of real time crowd reporting, there is need to leverage technology to enhance public safety, improve incident response, and foster community engagement. This necessitated the aim of this study to develop a digital policing surveillance app for crowd reporting in the UK. By utilizing digital policing surveillance apps, the aim is to improve crowd management capabilities by enabling real-time reporting of incidents and observations from both the public and law enforcement personnel. This was positioned to facilitate better situational awareness, efficient resource allocation, and effective response strategies. To achieve the objectives, Python Programming Language 3.8 were deployed together with a Django Framework and a Microsoft Visual Studio Build Tools. In the DP system, the Model-View-Controller (MVC) pattern, which divides an application into three interconnected components—the model, the view, and the controller—was used for the architectural design of the system. For the database, Django's ORM makes it simple to support many databases, and in this project straightforward SQLite3 database were utilised which is ideal for small-footprint applications. Using WebSockets to establish real-time, bidirectional communication between web clients and servers, the user interface and intelligence board for the system were developed. A clean designed frontend design system with Bootstrap version 5—an open-source, reusable design framework created by Twitter—was selected for its easy user interface. The system was put through 50 concurrent load tests with actual users swarming the app since the DP app was subjected to hundreds of people complaining in real time. 2. The host computer had a Core i5 vPro CPU running at 4GHz and 4GB of RAM. The result shows that 50 users successfully generated an average of 29.7 requests per second. The system scaled up nicely to 50 users and reached its highest response time of 2600 milliseconds (2.6 seconds) in total. A dramatic rise in activity and a longer response time occurred after there were more than 50 users. The system could not operate at its peak efficiency with 100 users because response times were inconsistent and exceeded 7000 milliseconds (7 seconds) for each request. The effectiveness of the online deployment was evaluated with respectable results, and the system requirements also underwent successful testing. The appropriate investigation of ethical issues was done to meet requirements. DigiPolice has the potential to develop into a cutting-edge programme for real-time crowd surveillance and incident reporting. UK Police can employ it to as advancement to its “My Police” with as fast-track real-time and collaborative crowd reporting enhancements.

Development and implementation of Building Site Information Management (BUSIM) for Nigeria Building Industry

Overtime, building project delivery failures have been blamed on other factors except poor site management. Site management is considered by most building experts as off work-plan activities and as such attention is less giving to its process thereby creating delays in project. Also some others taken it serious have been shrouded with the manual process which in turn complicates the entire system. To solve this menace, the core objective of this paper is the development and deployment of cloud custom based building site information management system with emphasis on real time safety tracking, equipment maintenance tracking and management, materials management, site risk analytics and project progress report. The system is collaborative one and can be updated real time. To achieve the outcome, investigation into existing system was first carried out, as such, system failure were detected to upgrade the new system. However, in building the new system , suitable programming language that can give desired results were examined and Python 3.8 was utilized with Django 2.0.3 framework and Microsoft Visual Studio (MS VS) for the smooth running of programming languages. Due to Django having an ORM, supporting multiple databases, SQLite3 database, a simple database for lightweight applications was used. It is lightweight, fast for simple to medium applications. Results showed that BUSIM prototype app when applied not only will help in assessment of risk and real time overview for building site management, but will additionally improve the industry when adopted and applied to replace current manual process.

Research on Intelligent Design of Geometric Factor Encoding for Aircraft Engine Turbine Structures

In recent years, with the rapid development of computer technology and artificial intelligence design technology, multiple possible design solutions can be quickly generated by transforming the experience and knowledge of structural design into computer executable rules and algorithms. To achieve intelligent design of aircraft engines, this paper proposes an encoding model for the turbine rotor structure of aircraft engines using geometric encoding technology. The turbine rotor structure of aircraft engines is divided into several units according to geometric similarity types, these units continue to be divided into attribute sets according to their functional types, connection relationships, and material properties. These attribute sets can be encoded using geometric encoding technology. The experiment simulated that these codes, for the point cloud modeling of turbine rotor structure, can be quickly achieved and they combine various algorithms to display the point cloud model of the turbine rotor in the Microsoft Visual studio MFC class library. The results show that by creating geometric codes for the turbine rotor of aircraft engines, it is possible to quickly create and display point cloud models of the turbine rotor structure, laying the foundation for subsequent application of machine learning to solve and find the optimal design solution.

Let Us Build a MQTT Pub-Sub Client In C# For IoT Research

Purpose: MQTT stands for Message Queuing Telemetry Transport. It is a lightweight protocol specifically designed for IoT applications. Nowadays, most IoT projects exchange sensor data over the MQTT protocol. It is simple to integrate and can run on low hardware resources. To test MQTT, the researcher needs MQTT publisher subscriber client software. There are several free and paid software available on the web. But sometimes, researchers need some custom interface or functionality not available in the free version. The paid version demands vast amounts of money for customization. Occasionally, they want to avoid customization for specific projects. Here, we provide a procedure to create our MQTT pub-sub client software interface, which the researcher can easily customize. The project is available to download. Methodology/Approach: We installed Microsoft Visual Studio in our working system. Using C# language, we create a GUI (graphical user interface). Inside the GUI, we segregate the info into two. The left is for publishing clients, and the right is for subscribing clients. We installed the M2MQTT package using the NuGet package manager to communicate with the MQTT broker. Findings/Result: Using our built application, we test to exchange the sensor data between two clients. We found the data exchanged in almost real-time. In a couple of scenarios, we observed that the data propagation could have been faster when we set the update interval below 500 milliseconds. There may be a network delay, or the MQTT broker we used is a free service. It may be the limited capacity of the accessible mode of the server we used. If the application is not time-critical, we can utilize this communication route to exchange the sensor data. Originality/Value: Every day, new researchers are introduced to the IoT field and integrate MQTT into their projects. They feel one customizable software they can use according to their project requirements. So, using this project, the researcher can fulfill their need. The code is freely available on the web. And scope to customize. This project provides value to them. Type of Paper: Experimental-based Research.

Perancangan Sistem Informasi Peminjaman Berkas Rekam Medis di RSUD Al-Ihsan

This study aimed to evaluate current systems and processes as well as design and build a medical record lending information system using Visual Studio 2012 at Al-Ihsan Regional Hospital in Bandung. The research method used is qualitative research with data collection through observation, interviews, internet browsing and information system design within a system development framework built using the waterfall method using the Microsoft Visual Studio 2012 tool. In this study, several problems were found in the medical record borrowing process, among others, inefficiencies in the document borrowing system, the use of using Excel-based manuals, as well as obstacles in obtaining documents. It is suggested that a system designed to record loans be used to speed up the process and manage duplicate data more effectively.

RANCANG BANGUN APLIKASI PENGINPUTAN DATA SENSUS PENDUDUK BERBASIS DEKSTOP

The existence of information technology has led to the emergence of various innovations in all fields, one of which is tchnology. This research aims to design an application system for dekstop-based population cencus data collection in Kedunggede Village. By using the literature study method in adding references and this research focuses on designing a cencus data input appliucation data. The features that are applied can be easily understood by users in their use. This application is designed using the C# programming language by utilizing Microsoft Visual Studio software.

Optimization of conditions for the formation of functional coatings based on carboxymethylcellulose with chromium

The possibility of increasing the strength and improving the functional properties of coatings based on biopolymers by adding metal powders is considered. An approach has been proposed that makes it possible to form composites based on carboxymethylcellulose with specified mechanical properties. The procedure for adjusting the process of formation and increasing the strength of a protective coating based on carboxymethylcellulose with chromium powder is shown. For the numerical calculation of the composition and temperature conditions for the manufacture of composite materials, a software module developed in the Microsoft Visual Studio environment was used. The calculation makes it possible to determine the combination of components of the coating composition that provides the highest mechanical strength for a given value of the relative deformation of the biocomposite. An example of calculation is given for a protective coating based on carboxymethylcellulose with chromium powder. The calculation results were confirmed experimentally. Using the proposed approach makes it possible to increase the mechanical strength of coatings by 40% and improve the adhesive strength to 1 point.

SOFTWARE IMPLEMENTATION OF AUTOMATED USER INTERFACE TRANSLATION TOOL

Numerous daily activities are long since accomplished using mobile applications and international resources available through the Internet. The majority of such resources support only a limited amount of world languages for the interface. This raises the issue of the need for end users to know the languages required to operate and use these programs. Not every developer in the world has access to professional translation services, or the ability to create such translations on their own. Evaluating these factors shows an existing need of a convenient and accessible program specialized in creating and ensuring quality translation of software user interfaces specifically. Analysis was conducted to determine advantages and disadvantages of possible implementation methods and existing algorithms, i.e. GNU gettext. Based on this analysis requirements for the resulting program are formed, those being a comfortable user interface and a set of functions specific to working with user interfaces and source code files. The list of primary functionality includes interaction with internet services for machine translation and the ability to view the source code of a program or website in context of text elements of the user interface. A program tool for the Microsoft Windows environment that implements all requirements to base functionality is conceptualized and developed. The project version of the program was implemented using C# programming language and Microsoft Visual Studio development environment. The program is specialized for the translation of user interfaces, and enables automation of this process via usage of the Google Translate service. To maximize ease of use the program stores the resulting translation in a simple text format, designed to be loaded and read from during runtime of the target program or website. Also included is a detailed demonstration on the workflow using the interface of the translation program as an example, and potential directions of further developments are determined. Keywords: machine translation; software development; user interface; Google Translate

Інформаційна технологія оцінювання теплоізоляції багатошарових стін

In today's conditions, the problem of insulation of surfaces is very relevant for wide circles of the population of Ukraine. Everyone knows that surface insulation allows to reduce heat transfer due to the use of materials with low thermal conductivity. In the absence of permanent heating, the issue of thermal insulation of cylindrical pipes is very relevant. The issue of insulation selection and structural design requires a complex and professional approach. To calculate the problem of thermal insulation, a specialist needs to have a toolkit for calculating the temperature field and saving the obtained results for further analysis. The work presents the developed information technology that allows a specialist to calculate the temperature field for multilayer cylindrical pipes. The object-oriented programming language C# and the Microsoft Visual Studio integrated development environment were used to build the IT toolkit. It should be noted that when making calculations, there is no need to specify the characteristics of pipe and insulation materials, since all data is stored in the IT database. The object-relational database management system - PostgreSQL was used to build the data module. After the calculations, all the built calculation models and the received numerical models of the results are also stored in the database. This allows you not to recalculate if necessary, but to use the data that is already available. To analyze the results, the developed toolkit allows you to plot temperature changes of a multilayer wall. At the same time, the user selects the necessary calculation models independently from IT database data. The DirectX three-dimensional graphics development tool package is used for visual representation of numerical model calculations. The authors developed an algorithm for constructing a color temperature field according to the calculations. Red is chosen for the highest field temperature, and blue for the lowest temperature. A feature of the proposed information technology is that its functionality allows three users with different levels of access to work with the toolkit: a database administrator, a mathematical model construction engineer, and a numerical model analysis specialist.

THE DEVELOPMENT OF A MOBILE APPLICATION ISMIND FOR FORMATIVE STUDENTS’ ASSESSMENT

Nowadays, mobile learning utilizing mobile applications has become widely adopted due to its flexibility and the numerous benefits it offers. However, the availability of mobile apps in education especially for assessment is limited and still an emerging topic despite the affirmation of its positive impact on students’ learning outcomes and motivation. The complexity of the mobile application development process, which includes requirement elicitation, modeling, designing, developing, testing, and evaluating, could be a contributing factor to this issue. This study aimed to propose a guideline for designing and developing an educational mobile application through the development of an application named IsMind that focuses on formative assessment. Evolutionary Prototyping, a methodology under the agile approach of Software Development Life Cycle (SDLC) was deployed to meet the educational application requirement by integrating content, pedagogy, and technology aspects to provide better teaching and learning material. The activities within each phase of evolutionary prototyping including the models, tools, techniques, and deliverables were discussed extensively. The analysis and design phase were done using an object-oriented approach with appropriate models (diagrams) to present the functional requirement of the mobile application. Various CASE tools which accelerated the development process in various stages of software development were explained.UMLet software was employed to create a use case diagram, activity diagram, and sequence diagram. The user interface design, which followed The Eight Golden Rules of Interface, was developed utilizing Marvel software. Adobe Photoshop CS6, Adobe Illustrator CS6, Unity 3D, and Microsoft Visual Studio Code (C#) were utilized in the development process. The mobile application provides a variety of question types, such as Drag And Drop, Multiple Choice, Numbering, True And False, Matching, and Puzzle. The evaluation of IsMind indicated its appropriateness as an interactive teaching and learning media for assessment. The proposed steps for constructing this assessment educational mobile app. The proposed methodology consists of the details of phases, various activities within each phase, techniques, models, and tools for each activity as well as deliverables of each phase offer a helpful guideline for anyone interested in developing a similar application.

Application of the Double Approximation Method for Constructing Stiffness Matrices of Volumetric Finite Elements

Introduction. When numerically solving problems of elasticity theory in a three-dimensional formulation by the finite element method, finite elements (FE) in the form of parallelepipeds, prisms and tetrahedra are used. Regularly, the construction of stiffness matrices of volumetric FE is based on the principle of isoparametricity, which involves the Lagrange polynomials to approximate the geometry and displacements. In computational practice, the most widespread FE are the so-called multilinear isoparametric FE with a linear law of approximation of displacements. The main disadvantage of these elements lies in the “locking” effect when modulating bending deformations. Moreover, the error of the numerical solution increases drastically in the case when the structure, in comparison to conventional deformations, undergoes significant displacements as a rigid whole. Long-term experience in solving problems of deformable solid mechanics by the finite element method has shown that existing volumetric FE have slow convergence, specifically, when modeling bending deformations of plates and shells. This study aims at constructing stiffness matrices of multilinear volumetric FE of increased accuracy allowing for rigid displacements based on the double approximation method.Materials and Methods. The mathematical apparatus of the double approximation method based on the principle of a separate representation of the distribution functions of displacements and deformations inside the element, was used to construct the stiffness matrices of volumetric FE. The storage and processing of the resulting system of equations was implemented in algorithmic terms of sparse matrices. Software development and computational experiments were carried out using the Microsoft Visual Studio 2013 64-bit computing platform and the Intel ® Parallel Studio XE 2019 compiler with the integrated Intel ® Visual Fortran Composer XE 2019 text editor. Visualization of the calculation results was performed using the descriptor graphics of the MATLAB computer mathematics package. A large eight-node SOLID185 CE of the ANSYS Mechanical software complex was used as a test sample.Results. Mathematical tool and software were developed to study the stress-strain state of massive structures under various types of external actions. The authorized application software package was verified on test examples with known analytical solutions. It has been shown that the constructed FE accurately satisfy the basic requirements for finite element modeling of spatial problems of elasticity theory.Discussion and Conclusion. The performed testing of the developed mathematical and program toolkit has shown that the finite elements constructed on the basis of the double approximation method can successfully compete with similar SOLID185 volumetric elements of the ANSYS Mechanical software complex. The proposed elements can be integrated into domestic import-substituting software systems that implement the finite element method in the form of the displacement method.

Design of an Order-Based Cost Accounting Information System Using Microsoft Visual Studio 2017

The Accounting Information System (AIS) is crucial for a company's commercial operations to run smoothly. One type of AIS is the Cost Accounting Information System which has a vital role, especially in manufacturing companies. More specifically, AIS Cost also depends on the method of collecting costs used by a company which consists of two types, namely process-costing and job order-costing. MSMEs MMC Fashion Knitting one of the manufacturing companies in Bandung that produces based on orders (job order-costing) still uses the Cost Accounting Information System manually so that the owner does not know the exact production cost and gross profit of each order. This study aims to create a simple application to process the Accounting Information System of Job Order Costing that can help the company's operational activities. Descriptive-qualitative research methodology is being employed. Interviews and documentation in the form of primary and secondary data were used to acquire the information. The System Development Life Cycle (SDLC) approach and Microsoft Visual Studio 2017 are used in this study's application design. The results of this study are the Accounting Information System of Job Order Costing Application which can produce output including sales order letter, production order letter, bill of material, production activities list, material stock report, cost of goods manufactured report, and income statement with variable costing method.