十月 2018

Model of Safeguards for Professional Rights of Attorneys

Project Head Mikhail Kirienko, Ph.D. (Law) Department Criminal and Penal Law, and Criminology Objective With active participation of SUSU students, summarising the available approaches to the issues of the existing counteractions to advocacy activity, violation of professional rights of attorneys in the process of their rendering legal assistance in criminal cases, elaboration of approaches to eliminate and fight against the cases of unlawful obstruction to and interference with advocacy activity Tasks Analysing the existing cases of counteractions to advocacy activity; Summarising the existing judicial practice of disputing the cases of counteractions to advocacy activity; Studying the legislative gaps in the regulations on professional rights and abilities of attorneys within rendering assistance in criminal cases; Studying the legislative gaps in the regulations on protection of the independence of advocacy activity; Preparing a project of introducing amendments to the current legislation in order to eliminate problems of obstruction to advocacy activity; Elaborating methodical recommendations on the tactics of behaviour in case of obstruction to advocacy activity Audience 6 Bachelor’s students of specialisation 40.03.01 Law Customer Chamber of Lawyers for the Chelyabinsk Region; Young Lawyers Council for the Chelyabinsk Region

Smart Electric Drive with the Industrial Internet of Things and Augmented Reality

Project Head Andrey Kachalov, Ph.D. (Engineering) Aleksandr Nesterov, Ph.D. (Engineering) Department Automated Electric Drive Objective Developing the smart electric drive equipped with software-hardware modules of the Industrial Internet of Things and augmented reality Tasks Developing a software and hardware complex of an automated electric drive for testing the algorithms of augmented reality and the Industrial Internet of Things; Creating scientific bases for the application of elements of augmented reality and the Industrial Internet of Things in the practice of setting up and operating electric drives; Ensuring that the Masters of Department of Automated Electric Drive receive the competencies in accordance with the relevant standard in the specialisation 13.04.02 Power Generation and Electrical Engineering Audience 4 Master’s students of the 1 year of study, and 1 Master’s student of the 2 year of study of specialisation 13.04.02 Power Generation and Electrical Engineering Customer Uctech-Profi Educational Equipment Manufacturer of SUSU

Object of Distributed Generation (Smart House) Based on Renewable Sources and Efficient Energy Consumption with an Intelligent Smart Grid System

Project Head Evgeny Solomin, D.Sc. (Engineering) Department Power Stations, Grids, and Electric Power Systems Objective Creating a demonstration working model of a smart house based on 100% of the energy supply from renewable energy sources, energy efficient technologies, intelligent monitoring and control Tasks Developing the following components: – a generating system based on a hybrid scalable power complex with a capacity of 1-10 kW, including wind power plants, a solar power station, a hydroelectric power station (optional), a bioelectric power station (optional); – an energy-efficient heating based on heat pumps, solar collectors; – a smart grid system with intelligent control (including remote access and monitoring). Implementing the finished object, bring it to trial performance together with industrial partners; Creating conditions for commercialization. Commercialising the project in accordance with the requirements and recommendations of Technopark SUSU; At all stages of the project, performing a 100% coverage of works by undergraduate students of the 1-2 years of study, with the involvement of graduate students, doctoral students, with a specific roadmap of foreign and third-party participants; Carrying out strict control over the work of life safety systems. Audience 5 Master’s students of specialisation 13.04.02 Power Generation and Electrical Engineering Customer Specialised Noncommercial Organisation – the Fund “Regional Operator of Major Repairs of the Apartment Blocks Common Property in the Chelyabinsk Region”

Evaluation of the Weldability and Performance of Mechanically Heterogeneous Welded Joints of the Ships Bodies

Project Head Mikhail Ivanov, Ph.D. (Engineering), Associate Professor Department Welding Engineering Objective The objective of the work is to improve the normative and methodological base of the Russian Maritime Register of Shipping, as well as the participants of International Association of Classification Societies (IACS), the international community of shipbuilders, in terms of the technological processes of welding ship-body structures made of high-tensile steel, including structures operating at low temperatures Tasks Achieving the goal of the research work it is necessary to solve the following tasks: to analyse information on the identified defects of welded joints and factors associated with their formation, in order to determine the causes of their occurrence; to analyse the welding materials used for welding high-tensile shipbuilding steels, to determine materials that provide high-quality welded joints when welding high-tensile steels operating at low temperatures; to analyse the local and foreign experience of technological processes of welding the welded joints of ship-body structures made of high-tensile steel, including structures operating at low temperatures; to analyse the local and foreign regulatory documents on the nomenclature of requirements for the quality of welded joints, taking into account the use of the product at low temperatures; to analyse information on the criteria and methods for evaluating the performance of the welded joint metal at low temperatures; to analyse the requirements of IACS and foreign classification societies for welding materials and technological processes for welding high-tensile steel; to develop requirements for welding technological processes; to develop requirements for the procedure of approval of welding technological processes; to develop requirements for the procedure of non-destructive acceptance inspection of welded joints Audience 5 Master’s students of specialisation 15.04.01 Machinebuilding Customer Federal Autonomous Institution “Russian Maritime Register of Shipping”

Additive Technologies

Project Head Marina Samodurova, Ph.D. (Engineering), Associate Professor Department Metal Forming Objective Optimising process regimes of laser cladding and detonation sputtering of functional coatings Tasks Choosing materials for coatings with consideration to the products operating conditions and the backing material; Studying the process properties of the chosen materials; Substantiation for the choice of the method of coating; Searching for process regimes of coating with consideration to the method of coating; Assessing physical, mechanical and operational properties of the applied coatings; Elaborating process guidelines on development of the coating processes using the methods of laser cladding and detonation sputtering Audience 3 Master’s students of specialisation 22.04.02 Metallurgy 3 Master’s students of specialisation 15.04.02 Technological Machines and Equipment Customer ChelPipe Group; Chelyabinsk Forge-and-Press Plant; PJSC Transneft; REM, JSC; SMS Group

Creation of an Energy-efficient and Environmentally Friendly Technology of Applying Hard Chromium Coatings on Rotary Bodies

Project Head Dmitry Ardashev, Ph.D. (Engineering), Associate Professor Department Technology for Automated Mechanical Engineering Objective Improving the energy efficiency and environmental friendliness of the process of the cylindrical shape parts chrome plating based on the development of a new technology of the closed cycle of coating Tasks Developing an energy-efficient and environmentally friendly technology for applying a hard chromium coating on rotary bodies; Developing the design of the laboratory facility of chrome plating with a fixed electrolytic bath; Developing the design of the laboratory facility with a mobile electrolytic bath; Developing the design of an industrial complex for the blank parts chrome plating – rotary bodies; Creating a laboratory site for applying a hard chromium coating on rotary bodies that meets the requirements of energy efficiency and environmental friendliness Audience 5 Master’s students of specialisation 15.04.05 Design and Technological Support of Machine-building Production Customer Ural Engineering Centre – an industrial partner

Development of Differential Steering Mechanism of Industrial Tractor

Project Head Sergey Kondakov, D.Sc. (Engineering), Associate Professor Department Wheeled and Tracked Vehicles Objective Developing engineering solutions for differential steering mechanism Tasks Developing techniques for calculation of steering mechanism; Elaborating the project and engineering drawings; Producing test samples of elements and units; Developing testing techniques; Carrying out stand testing Audience 12 Master’s students of specialisation 23.04.02 Surface Transport and Technology Complexes Customer OJSC Khodovye Systemy

Smart Transportation

Project Head Vladimir Shepelev, Ph.D. (Engineering), Associate Professor Department Automobile Transport Objective Creating a single intelligent system of monitoring and control of transport flows on the basis of simulation modelling Tasks Creating a digital platform for collection and processing of big data volumes of multimedia information on the basis of intelligent traffic lights, collection of data from street-road network, smart bus stations, sensors on automobile transport, adaptive tracking cameras and RFID marks; Creating macro- and mesomodels of road traffic of public and personal transport on the basis of simulation modelling, check-up of engineering hypotheses on road traffic organization, etc. using PTV VISSIM and VISSUM software; Developing a system of coordinated adaptive “Smart traffic lights” with integrated dynamic road signs (Transit Signal Prioriti) for monitoring and control over transport flows and pedestrian traffic; Developing an intelligent system for control over transport flows on the basis of data obtained from monitoring of road surface quality and ecological condition with the purpose to provide security of road traffic and reduce negative impact of automobile transport on the environment during unfavourable weather conditions Audience 5 Master’s students of specialisation 23.04.01 Technology of Transport Processes Customer UralDorProekt, LLC; OJSC SMEU GAI; Municipal State-funded Institution “Administration of Road Works in the City of Chelyabinsk”; Laboratory for Problem-Oriented Cloud Computing Environments

В ЮУрГУ состоялось официальное открытие курса «Политический консалтинг и менеджмент»

5 октября в ЮУрГУ состоялось официальное открытие и первое занятие обучающего курса по специальности «Политический консалтинг и менеджмент». В течение двух месяцев специалистами Южно-Уральского государственного университета составлялась образовательная программа. В ее основу лег опыт успешных избирательных кампаний. По итогам обучения в случае сдачи выпускной работы участники получат диплом установленного образца.

Electric Race Car

Project Head Aleksandr Vozmilov, D.Sc. (Engineering), Professor Department Automobile Transport Objective Independently designing and producing a maximally dynamic, power-saving, noiseless, efficient, and environmentally friendly electric race car in the frameworks of restrictions provided by regulations of Formula STUDENT, and defending the project in the format of annual engineering competition Tasks Developing the project of electric race car with justification of engineering solutions Compiling a report on the cost of electric race car Elaborating business plan for the market of non-professional race cars Testing and prepare the race car for undertaking dynamic tests on: acceleration manoeuvrability autocross endurance Presenting the race car at engineering competitions Audience 2 first-year Master’s students of specialisation 13.04.02 Electric Power Industry and Electrical Engineering, and 5 Master’s students of the 2nd year of study Customer SUSU (NRU)
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