The following courses were elaborated by Russian, Uzbek and Mongolian universities for the project:

Metering systems in smart buildings - ASUACE

The following is described within: а competent and comprehensive survey of sensors and sensor sys-tems currently applied in the intelligent building industry.

Course outcomes:

• the fundamentals of elaboration of automation systems for intelligent buildings,
• the basic standards (Zigbee, Lonworks, HDL Bus, Clipsal C-Bus, KNX)
• principles of elaboration of automated control systems based on microprocessor technology, their features and selection criteria
• methods of synthesis and analysis of physical principle of action of technical devices
• foreign experience in the use of intelligent building automation systems

Students willl be able:to formulate, solve problems and carry out selection of equipment for control of light and electric loads, climate systems, security systems and multimedia systems of a building, analyze of physical principle of action of technical devices.

Students will have experience in: methods of performance calculating and selecting of high-tech equipment for intelligent buildings, methods of synthesis of parametric block diagram which describes the tech-nical device.

Links:Dictionary(EN-RU)

Preservation of the heritage in the conditions of the development of modern architecture - ASUACE

Course outcomes:

As a result of studying the discipline, the student must know:

• the system of normative documentation for solving the problems of placing modern architecture in a historical environment
• the feature of urban space for performance modern architecture in a historical environment
• the basic principles of the organization of protection zones of cultural heritage sites
• the methods of reconstruction of historic buildings and restoration of architectural monuments
• the environmental requirements for the protection of architectural monuments

After finishing of the course students will be able: correctly evaluate the historical architectural environment in the design of new architectural buildings, to conduct a thoughtful analysis of the prospects for new construction.

To have experience in: Apply the technique of composite visual perception, to use computer-aided design as a means of visual demonstration when solving a harmonious perception of the environment.

Links:Dictionary(EN-RU)

Smart BIM in HVAC - KSUAE

The following is described within: a Building information modeling (BIM) basics and its application in heating and ventilation systems of smart homes.

Course outcomes:

On successful completion of this module, the student should Identify, formulate, model, and design components of smartengineering systems and building information modeling processes with using of AIS/CAD information technologies (BIM - Autodesk Revit MEP; AutoCAD Civil 3D; nanoCAD Plus, nanoCAD BIM, MIDAS Civil, or their analogues)

Architectural design for urban architecture - KSUAE

On successful completion of this module, the student should be able to design complex farming systems including the innovative constructions and technologies and implement it in the existing environmental and social conditions of specific territory. Bilding information modeling processes with using information technologies (BIM - Autodesk Revit; AutoCAD, Rhinoceros, Grasshopper, or their analogues)

Building information modeling (BIM) - MGSU

The following is described within: а competent and comprehensive survey of sensors and sensor systems currently applied in the intelligent building industry.

Course outcomes:

As a result of studying the discipline, the student must know:

• the fundamentals of elaboration of automation systems for intelligent buildings,
• the basic standards (Zigbee, Lonworks, HDL Bus, Clipsal C-Bus, KNX)
• principles of elaboration of automated control systems based on microprocessor technology, their features and selection criteria
• foreign experience in the use of intelligent building automation systems

To be able: to formulate, solve problems and carry out selection of equipment for control of light and electric loads, climate systems, security systems and multimedia systems of a building To have experience in: methods of performance calculating and selecting of high-tech equipment for intelligent buildings.

Automation of life cycle management of residential and public buildings - MGSU

These guidelines are intended for use by students, novice specialists, the necessary knowledge in the field of automation, for solving problems of modeling automatic building control systems implemented on the basis of technology.

The purpose of the guidelines is to assist in the development and consolidation of practical skills necessary for the development of an automatic building management system.

To be able: to formulate, solve problems and carry out selection of equipment for control of light and electric loads, climate systems, security systems and multimedia systems of a building

To have experience in: methods of performance calculating and selecting of high-tech equipment for intelligent buildings.

Intelligent building systems - MRSU

The following is described within: resource and energy efficiency, build-ing automation systems, new materials, structures and technologies in the intelligent building industry.

Course outcomes:

On successful completion of this module, the student should:

• to investigate and analyze advanced foreign experience in the field of eco-construction, energy and resources, design of intelligent building man-agement systems,
• apply technologies and methods proper selection and use of construc-tion materials, products and structures, machinery and equipment used in intelligent buildings and environmental engineering,
• to integrate knowledge of standards and regulations for green building and to develop projects of intelligent buildings, use of the "smart city" in urban planning,
• to determine the cost of different variants of design solutions in the field of green building

Sustainable Building and urban desugn - MRSU

The main objectives of this course are develop skills for analyzing, synthesizing and coordinating complex planning and design tasks, integrate sustainable buildings into the urban environment.

Course outcomes:

On successful completion graduates should have developed:

• Understanding of the key factors of smart-building performance including energy saving and ecological aspects;
• Effective communication, collaboration and presentation skills;
• Ability to plan, calculate, model and elaborate of the elements of technical project, involving constructions processes, methods, systems; equipment; life-cycle; safety; cost analysis and cost control; labor issues

Advanced Enegry Conversion Systems - TUIT

Suffice it to recall that renewable and resource-saving technologies for obtaining electricity are becoming cheaper year by year, while traditional ones, due to their remoteness from industrial and transport facilities, are becoming more expensive every year.

In addition, in our country, most of which are located in the high-latitude zone, it is necessary to conscientiously consume non-renewable sources (oil, gas, coal, etc.) that are necessary for future generations to operate mobile vehicles.

Considering the importance of this problem in the current conditions of transport development, the specialists of the scientific research institutes and higher educational institutions of railway transport developed a program for resource saving, which was the stimulating factor for the preparation of this manual.

Metrology, Standartization and Sertification - TUIT

Modern information and communication technologies require the receipt of accurate reliable measurement results, wide application of measuring tools. Therefore, in the Higher State Educational Standard, discipline "Metrology, standardization and certification" is given a wide place.

The program of the discipline "Metrology, standardization and certification" consists of sections that include the initial concepts of ensuring the uniformity of measurements required for information and communication technologies, the unity of measurements, measurement errors and inaccuracies, types of standardization, categories of regulatory documents, types and schemes of certification, the quality of the product and safety and their implementation in practice.

Occupational safety and health issues in buildings - TUIT

The purpose of life safety is to provide comfortable conditions for human activities at all stages of its life cycle and the normatively permissible levels of negative factors affecting humans and the natural environment.

The tasks of life safety are reduced to theoretical analysis and development of identification methods (recognition and quantification) of hazardous and harmful factors generated by environmental Themes (technical means, technological processes, materials, buildings and structures, technosphere Themes, natural phenomena).