The purpose of the article is to study the principles of managing staff working time to reduce costs and increase efficiency, optimize labor processes, manage and predict the workload of staff, and implement methods and tools to improve efficiency. The article describes the main prerequisites for the implementation of the Workforce Management system (WFM), which is a methodology for planning employees’ working hours, which is a component of the personnel management concept. As a metric for evaluating the effect of using WFM systems, the planned or actual number of employees` hours per month is used – a comparison of the planned schedules before and after using the system is made. The effect of implementing WFM is as follows: increased staff efficiency, improved service level, revenue growth as a result of lower costs and more competent traffic coverage, increased staff involvement and saving management time.
The article discusses the consequences of the development of the economy, processes and services, expressed in a sharp increase in the number of operating electronic equipment, which directly leads to an increase in the generated volumes of waste electrical and electronic equipment (WEEE) and the problems of their disposal. Various types of electronic equipment containing substances that constitute a serious threat to the ecology and human health, especially with improper disposal, are analyzed. The existing foreign and domestic experience in the field of electronic waste disposal is considered. The system of recycling electronic waste adopted in the EU countries and regulatory documents operating abroad and in the Russian Federation was studied. Practical recommendations are proposed for creating a real WEEE management system taking into account the actual situation in Russia and world experience in this area.
The essence of the processes of digitalization in the field of science of Russia has been considered, the specific issues of adaptation of science to the demands of the information society have been revealed, the readiness of the Informatization process of the Russian scientific sphere has been assessed. The criteria for the formation of the potential of digital technologies used in scientific and design work have been evaluated. The statistics of the state of development of high and knowledge-intensive technologies in General and information and communication technologies used in research and development, in particular, has been adduced.The complexities of determining indicators and classification of information and communication technologies used have been reviewed. The approaches to determining the statistics of the number of employees employed in computer science and related industries have been presented. The indicators of development of research and developments in the field of digital technologies have been investigated. The distribution of the employed in various sectors of the national economy has been given. An increase in the cost of importing technologies has been noted, which indicates a rise in the country’s technological dependence on sources of external (foreign) technologies. It has been noticed, that in the field of information and communication technologies, Russia had a significant profit from technology exports, which indicates the progressiveness of scientific developments in the field of digital technologies. The issues of financing research and development, shortcomings in the incentive mechanisms of the methods used and sources of funding have been considered. The state of educational processes, that form the personnel component of the digitalization of the economy, has been analysed.The results of information activity in the field of research and development will allow us to draw a conclusion about the lack of readiness of the sphere of research and development in the field of information and communication technologies in the organization of promotion and dissemination of digital technologies in the scientific field.
Modern treatment of foot deformities made it possible to increase the positivity of the outcomes of their surgical treatment. Surgical correction of anatomical distortions significantly improves the supporting and motor functions of the foot. To achieve this goal are widely used in various corrective interventions on the anterior section of the foot. The abundance of methods for these operations indicates that there are no optimal standards to date. The influence of bone and articular changes to locomotion and dynamics of movements of the lower extremities remains largely unexplored. Expanding the diagnosis of dynamic changes in the gait cycle as a result of deformity of the forefoot can help optimize the choice of correction method. This will give the potential to determine the indications for a particular method of restoring the correctness of anatomical relationships. Therefore, diagnostics of the transformation of the gait cycle with deformations of the forefoot is of undoubted interest. The purpose of the study is to evaluate the biomechanical features of movement of a person with anterior foot deformity, pain syndrome caused by deformity, and to explain the influence of the deformed foot shape on the change of individual phases of the gait cycle. To find out the changes in the walking function, we used a three-dimensional video analysis method. The main group was represented by 29 patients with anterior deformity of feet. The research was organized in 2018-2020. The average age was 51.3±16.5 years (from 20 to 80 years female patients were 29 (96.7%)). The control group consisted of 22 healthy women without foot deformities, with an average age of 45.4±15.5 years. The tool base of the research was the Vicon motion capture system (digital infrared cameras Vicon T40-10 PCs., video cameras Vicon bonita 720-2 PCs., dynamometer platform AMTI – 2 PCs., software Vicon Nexus, Vicon Polygon). The study used a full Body Plugin Gate (URM-FRM) skeletal model consisting of 39 reflective markers arranged in a certain order on the human body. The analysis of kinematic data revealed that all 29 studied patients had violations of biomechanics of movements in the joints of the lower extremities. There was an increase in the time of double support by 22.2% from 0.21±0.057 s for the control group to 0.27±0.064 s for the main group. Video analysis allowed us to combine the data obtained using computer graphical visualization of movements with the indicators of the support reaction force and the speed of movement of the lower extremities in patients with foot deformities, as well as to reveal the internal architecture of the gait cycle.
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