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International journal of innovative technology and exploring engineering,
10/2019, Volume:
8, Issue:
11S
Journal Article
Open access
It is an Application which is to gauge the calorie of nourishment, which was shifted relying upon its fixings and capacity in each cookery time and it is mandatory to ascertain calories of sustenance ...earlier it gets expended. In light of nourishment information, fixings that are parts of sustenance surely have various calories. This rag suggests a technique for fixing created nourishment admission guess utilizing sustenance learning and warm information. In this strategy, a duplicate of the sustenance is first perceived as the kind of nourishment, and afterward, the elements of the realized sustenance are recovered from the database with their nourishment information. At the same time, the picture is then sectioned into limits of fixing applicants, and every one of those limits is then characterized into fixings utilizing LabVIEW dependent on the fixings level which is fitting for each age classifications. The ordered fixings from all limits are at last determined for all-out calories dependent on zone proportion and sustenance information. The presentation of our proposed technique indicates satisfactory outcomes contrasting and the calories set up by the regular ruinous strategy.
Untuk dapat mengetahui dan mendeteksi jenis dan tingkat kerusakan bearing pada motor induksi dapat dilakukan dengan menganalisis sinyal getarannya. Pada penelitian ini, akan dianalisis jenis ...kerusakan bearing yang diakibatkan oleh kerusakan lokal atau yang terdistribusi ditunjukan oleh adanya getaran dengan frekuensi tertentu yang muncul. Sedangkan tingkat kerusakan yang umumnya diketehui dari besarnya ampitude getarannya. Metode yang digunakan untuk mendeteksi kerusakan bearing adalah dengan mengukur karakteristik getaran mengunakan sensor accelerometer dan menggunakan analisis wavelet berbasis labview, dalam domain waktu maupun domain frekuensi yang terjadi pada arah putaran radial. Percobaan untuk mengetahui spektrum getaran akibat kerusakan bearing pada motor induksi dengan cara dimodifikasi atau sengaja dirusak pada bearing tersebut. Analisis perbandingan getaran antara bearing yang berkondisi baik dan yang dibuat cacat pada bagian inner race, outer race dan ball bearing secara bertingkat sehingga dapat ditentukan jenis dan tingkat kerusakan pada bearing tersebut. Hasil penelitian menunjukan bahwa sinyal vibrasi yang dihasilkan dari getaran bearing yang baik mendekati harmonik (sinusoidal), sedangkan yang rusak sinyal getarannya berbentuk stokastik (random). Untuk menentukan jenis kerusakan inner race, outerrace dan ball bearing harus disinkronkan antara frekuensi getaran dan perhitungan yang berdasarkan data aquisi dari parameter bantalannya, yaitu diameter lintasan innering dan outering, jumlah ball bearing dan putaran poros.
Abstract
The goal of Industry 4.0 is to maximize efficiency and reduce human efforts. Artificial Intelligence, Cloud Computing, Robotics, Mobile Technologies and many other technological advances ...generate Industry 4.0. Humanoid robots resemble humans and their primary goal is to perform any task programmed by the user. Our goal is to create a portable and safer system that can be used in any dynamic environment to control the robot and avoid any sort of complexity. With the rapid technological advances, there is no need to worry about unemployment since it requires a technical expert in the field to control the robot. This paper discusses how this control system processes gesture data along with a brief discussion of certain useful applications.
Industry 4.0 was born in the 2010 decade under the automotive sector, in what would be known as smart manufacturing, the fourth industrial revolution, and the industry digital transformation through ...the data acquisition in industrial processes. It was a change in the goods production methods and generated a new social-economic dynamics. For this reason, the objective of this research is the “Simulation in the temperature parameters control in the yogurt manufacturing process” by using the National Instruments’ LabView v20 software, which allows the control of temperature parameters in fermentation tanks for yogurt manufacture. The yogurt manufacture comprises operations such as pasteurization (80 to 85 °C), followed by cooling (45 °C) of milk, and bacterial fermentation of milk, which provides the texture and flavor that characterize yogurt. To achieve this, a controlled temperature is required between 42 and 45 °C, being 43 °C the optimal temperature (set point). After the fermentation, the yogurt is cooled to a temperature of 5-10 °C for storage. It was necessary to place the thermometer, graph indicator, LED diodes, speed adjustment dial, and stop button in the front panel; on the other hand, VI, random number, multiplier factor, scan rate timer, and the Constant Indicator were placed in the block diagram. The diodes for every temperature parameter in the manufacturing process were enabled (on-off). As a result, by means of the LabView software, the temperature parameters’ control could be simulated in the yogurt manufacturing stages, namely, pasteurization, cooling to 45 °C, fermentation, and yogurt cooling. With this simulation, graphs and numeric data on the yogurt manufacture could be obtained.
•Photovoltaic power systems.•Wind power system.•Battery storage.•Power control is introduced, by using LabVIEW Software.
In this paper, the model and the control of hybrid power system is presented. ...It comprises wind and photovoltaic sources with battery storage supplying a load via an inverter. First, the design and the identification of the hybrid power system components has been made, then the proposed system is modeled and simulated under Matlab/Simulink Package. Finally, the power control of the hybrid system is introduced, by using LabVIEW Software. The proposed control strategy has been experimentally implemented and practical results are presented to show the effectiveness of the proposed hybrid system.
LabVIEW (Laboratory Virtual Instrumentation Engineering Workbench) developed by National Instruments is a graphical programming environment. Its ease of use allows engineers and students to ...streamline the creation of code visually, leaving time traditionally spent on debugging for true comprehension of DSP. This book is perfect for practicing engineers, as well as hardware and software technical managers who are familiar with DSP and are involved in system-level design. With this text, authors Kehtarnavaz and Kim have also provided a valuable resource for students in conventional engineering courses. The integrated lab exercises create an interactive experience which supports development of the hands-on skills essential for learning to navigate the LabVIEW program. Digital Signal Processing System-Level Design Using LabVIEW is a comprehensive tool that will greatly accelerate the DSP learning process. Its thorough examination of LabVIEW leaves no question unanswered. LabVIEW is the program that will demystify DSP and this is the book that will show you how to master it.* A graphical programming approach (LabVIEW) to DSP system- level design * DSP implementation of appropriate components of a LabVIEW designed system * Providing system-level, hands-on experiments for DSP lab or project courses
DC Motors are widely used in industries because they provide better quality with high torque and low volume. A individual PID Controller and A Fuzzy Based PID Controller is proposed to design in this ...paper. By a comparison between both the Controllers an overview of performance of both the Controllers is provided. By the literature review it is found that many of the researchers used fuzzy controller with some algorithms to tune the parameters of the PID Controller so here for the tuning of the PID parameters Fuzzy Controller itself used. In Conventional PID Controller there is a difficulty to control the value of the parameters and get good suitable characteristic. In the Fuzzy-Controller to satisfy the control characteristics of the parameters there is special ability and that is to provide an easy computing, to control for Motor. By comparing the responses for both the controllers, Fuzzy based PID Controller presents better performance than PID Controller. To Model the DC Motor and for the simulation purpose LabVIEW software has been used.
Cardiovascular diseases increase due to factors such as obesity, an inadequate diet, and are a problem due to shortages of medical personnel and hospitals. In this case, the implementation of ...technological solutions is presented as a necessity to prevent heart diseases. Various approaches are used to design low-cost electrocardiogram (ECG) devices, from the use of Bluetooth technology to facilitate data transmission, to the development of wearable ECG devices that use artificial intelligence. The objective is to develop a monitoring system in LabVIEW to visualize the heart rhythms of older adults in the city of Lima (Peru), focusing on ease of use and adaptation to their needs, with the purpose of collaboration between health professionals. A development approach is used that encompasses design, implementation, and iterative testing, as well as practical evaluations and pilot testing. As a result, the correct functioning of the ECG device was validated. Electronic components and electrodes were integrated into the board to capture cardiac signals, energized with batteries and sending the information to an interface in LabVIEW. In conclusion, a portable ECG device has been developed that uses operational amplifiers (Op-amps) and analog filters to reduce noise in cardiac measurements and an intuitive interface in LabVIEW
This article presents a remote monitoring and control system for an AC motor using a mobile device. A tool for registering and visualizing motor speed is developed through LabVIEW which is easy to ...access and understand. Its design is detailed using a block diagram, on which the implemented hardware devices are described. The programming stages of both the server and the mobile are also described. Motor control is performed by comparing the revolutions per minute (RPM) delivered by the motor and those desired by the remote operator. As a result, the data shows efficient tracking at the reference speed with low error.