MEDIA SOSIAL BROADCAST SEBAGAI MULTIMEDIA TERINTEGRASI INDUSTRI KREATIF BAGI DIGITAL NATIVE GENERASI Z

<p><em>This study aims to determine the Z generation digital native of Instagram social media account owners with public features that have a tendency to develop integrated account owners, through the use of multimedia broadcasts and the potential to promote visual works in the creative industry. The data collection period was observed by observing the posting of the respondent's portfolio on the feed from May - September 2020. The research design was correlational quantitative research between the Characteristics of Generation Z (X1), Social Media Broadcast (X2) and Creative Industry Integrated Development Multimedia (Y) variables. The purpose of this study was to determine the relationship between the ability of Generation Z Characteristics in processing learning outcomes with the use of social media. Broadcast is integrated into a part of promoting portfolios in Creative Industry Integrated Development. Research data from a population of 180, of which there are 91 generation Z, and 20 accounts with Digital Native characteristics with public settings, taken as the research sample. The results obtained 1) Generation Z tends to have Digital Native Characteristics obtained as much as 84%, 2) Generation Z tends to have digital native characteristics that carry out the activity of Social Media Broadcast as much as 84%, 3) There is a native digital indicator of Generation Z doing Integrated Creative Industry Development for 88%. 4) Producing an accredited national publication research journal indexed.</em><em></em></p><p><strong><em>Keywords</em></strong><em>: Sosial Media broadcast, Multimedia, Creative Industry, Digital Native, Z Generation</em></p>

Digital services in Poland and the Far East - comparative analysis

The following article focuses on ilustrating the content of the master thesis with the same title. The methodology of developed by author digital indicator will be presented, as well as the results and conclusions based on the comparative analysis. The research concerns the comparative analysis between digital services in Poland, Japan and China, based on the IDI, WDC and ITC digital indicators. The analysis is based on publicly available data of digitization.

Snow-pillow: creation experience and prototype operation

A snow-pillow (or snow-measuring pillow) is a device designed to directly determine the snow water equivalent in the snow cover by measuring the weight or pressure of the snowfall. Snow-pillows allow collecting, accumulating and transmitting information about snow accumulation and snow melting with high discreteness, accuracy and promptness. Within the framework of implementing the initiated project, a snow-pillow prototype was created based on analogue strain-measuring sensors working in conjunction with an accumulating mechanism and a digital indicator run via a microcontroller. Subject to agreement with the directorate of the Federal State Budgetary Institution “Bashkir UGMS”, the snow-pillow prototype was installed on the territory of the meteorological station Ufa-Dema in November 2019. Placing the pillow at the active weather observation station allows comparing the results obtained from the prototype with the data obtained at the station. Comparing the observation results for the autumn-winter season of 2019 has allowed us to conclude that the results obtained at the snow pillow are in line with the data of instrumental observations. The operating experience of the snow pillow shows that the prototype created under the project is applicable for evaluating the snow water equivalent, provided some minor changes are introduced into the design. In the future, observation results obtained from a network of snow pillows can be used for adjusting analytical models of snow accumulation and melting within the territory.

Measurement of industrial robot pose repeatability

The article deals with measurement of pose repeatability of industrial robot Fanuc LR Mate 200iC. Laser interferometer Renishaw XL-80 and digital indicator Mitutoyo Absolute Digimatic ID-F are used for the measurement. The measurement methodology is based on so-called ISO cube placed in the most used part of robot workspace. Individual steps of the solution, the analysis of measurement data and results are presented in the article.

Marine diesel engine – a novel approach of indicated power determination and related uncertainty level

A proposal of a new method for marine engine indicated power determination, based on direct piston position, instead of crankshaft angular position measurement, was presented. With the aid of bond graph theory, it was proved, that the new method is equivalent to conventional method. To verify hypothesis, that the new method has potential of determined indicated power uncertainty reduction, simulated calculations were carried out. Results of calculations for two marine diesel engines: medium-speed, four stroke and slowspeed two stroke type, at assumption of engine crankshaft constant speed, were compared with results obtained by a conventional method. Data, collected by means of a typical portable, industrial, digital indicator on engines in service, were used for simulation. The uncertainties of engines indicated power determined by means of two methods were analysed. The indicated power uncertainty, achieved for conventional method, was nearly twice higher than for new proposed method. Finally, uncertainty structure was analysed and evaluated for both: new and conventional method of engine indicated power determination.

Determination of the Suitability of the Method Used for Evaluation Measurement Equipment Capability

Complex quality evaluation of manufacturing and control process is based on assessment of capability of measuring equipment. Substantiation of measuring equipment capability is evoked by constantly growing need to prove suitability of chosen inspection method from a view of global approach to inspection process. The contribution described evaluation of capability of digital indicator within its entire measuring range (0 to 12.7 mm) by the means of measurement equipment index Cgm and Measurement equipment index Golden Device Cgmk. Evaluation of capability of the given measuring equipment digital indicator Mitutoyo was carried out by repeated measurements of standards with dimensions representing lower, middle and upper range of the measuring instrument at given accuracy of measuring equipment 2μm.

Traffic Signal Indicator Classification Based on Color-Shape Feature

Traffic signal lights are generally composed by digital indicator and direction indicator. Its identification and classification is to analysis image content on the base of the semaphores characteristics, to identify the semaphores goals and classify them, including pre-processing, positioning, segmentation and classification. Based on image preprocessing, global threshold processing is used in the HSI color space to find the location of traffic signal lights; then to get each indicator through the projection method dividing; finally to distinguish digital processing and direction indicator by target detection algorithm based on the shape features of traffic signal lights. Simulation experiments show that the algorithm is reliable and executes efficiently with high accuracy.