Educational Activities
Service Telematics is considered a practice-oriented field integrating:
- telecommunication technologies;
- network and distributed systems;
- software platforms and services;
- Internet of Things (IoT) technologies.
This field provides the link between engineering telematics infrastructure and end-user digital services for individuals and organizations.
Expected Learning Outcomes
Field: Telematics, Profile: Service Telematics
Upon completion of the educational program, the graduate will be able to:
- Apply fundamental knowledge in telecommunications, information technologies, network systems, and telematic services to solve professional tasks.
- Design, implement, and maintain telematic and infocommunication systems and services, including mobile, Internet, and navigation services.
- Develop software components of telematic services, including for network, web, and mobile platforms.
- Use microprocessor and embedded systems, programmable logic controllers, and real-time systems in telematic and automated solutions.
- Analyze, process, and transmit data in telematic systems using modern network technologies and protocols.
- Apply digital signal processing, geographic information systems, and global navigation satellite systems in applied telematic tasks.
Qualification Awarded
Upon completion of the higher education program in Telematics, the graduate is awarded the qualification “Bachelor” in accordance with the requirements of the National Qualifications Framework.
The awarded qualification corresponds to the Qualifications Framework of the European Higher Education Area (QF-EHEA) at the first (Bachelor’s) cycle, ensuring comparability of learning outcomes, academic and professional mobility of graduates, and the possibility of further study in master’s and doctoral programs.
The qualification confirms the graduate’s readiness for professional activities in telematic, infocommunication, and information services, as well as for engineering, design, and operational tasks in accordance with labor market requirements.
List of Disciplines in the “Service Telematics” Program
- Programming — development of software for telematic systems; programming of data-processing algorithms.
- Network Databases — design and use of distributed databases for telematic services; storage and processing of large data flows.
- Telematics — fundamentals of telematic systems; integration of hardware and software.
- Microprocessor Systems Engineering — work with microcontrollers and embedded systems; core of telematic devices.
- Mobile Communications — data transmission through cellular networks and mobile protocols.
- Telecommunication Networks and Services — fundamentals of network technologies, protocols, QoS, and network services.
- Internet Communications — TCP/IP, HTTP, MQTT protocols; interaction of devices via the Internet.
- Internet Programming — development of client-server applications and web services for telematic systems.
- Mobile Device Programming — development of Android/iOS applications for telematic services.
- Digital Signal Processing — analysis, filtering, and interpretation of data from sensors and telematic devices.
- Information Systems Design — modeling, design, and integration of telematic and IoT systems.
- Electronic Business — management of telematic services, digital platforms, and business models.
- Geographic Information Systems (GIS) — collection, analysis, and visualization of spatial data.
- Global Navigation Satellite Systems (GNSS) — positioning, navigation, and integration with telematics.
- Programmable Logic Controllers (PLC) — control of embedded systems and industrial facilities.
Employment Opportunities for Graduates
During the study of the Service Telematics program, students develop strong practical skills required for professional work in telematic and infocommunication services:
- Development of software for telematic and IoT systems, mobile and web applications.
- Design and operation of distributed systems for data collection, processing, and visualization.
- Integration of telematic services with network, mobile, and cloud platforms.
- Application of GIS spatial analysis methods and GNSS data for practical tasks.
Examples of Job Positions
| Position | Core Responsibilities | Organizations / Employers |
|---|---|---|
| Automation and Industrial Control Systems Engineer | Development and implementation of automated control systems; work with PLC and SCADA; application of microprocessor systems in industry. | National Electric Grid of Kyrgyzstan; Electric Power Plants; Shoro LLC; Coca-Cola Bishkek Bottlers; Kaindy-Kant JSC |
| Software Developer (Mobile / Web / IoT) | Development of mobile and web applications, integration of digital and IoT services. | Mad Devs; Codify; Akvelon Kyrgyzstan; High Technology Park of Kyrgyzstan; IT companies and outsourcing centers |
| Network Engineer / System Administrator | Network configuration, administration of telecommunications and banking systems. | Megacom; Beeline; Huawei; Kyrgyztelecom; Optima Bank; RSK Bank |
| Data Analyst / GIS / GNSS Specialist | Data analysis and visualization; work with spatial and navigation data. | Optima Bank; RSK Bank; Asia Bank; Demir Bank; GeoSolutions; GIS-KG; Kyrgyz Express |
| E-Business Specialist / Product & Project Manager | Development and management of digital services and platforms; integration of e-business into business processes. | Fintech: O!Pay, Elsom; IT companies: SmartApps, ITC; Huawei |
| Fintech Engineer / Banking Services Developer | Development of mobile and online payment systems; integration of financial platforms. | Optima Bank; RSK Bank; Fintech: O!Pay, Elsom |
Opportunities for Master’s Studies in Germany
Graduates may continue their education in German master’s programs, including:
- TH Köln – University of Applied Sciences — Master’s programs in Automation and IT, Communication Systems and Networks, and other engineering and IT fields.
- Technical University of Applied Sciences Wildau (TH Wildau) — specialized Master’s programs in telematics and related ICT fields.
- Universität Hamburg — major research university with programs in computer science, information systems, and related areas.
- Technical University of Munich (TUM) — one of Germany’s leading technical universities in computer science, engineering, and communications.
- RWTH Aachen University — leading technical university with strong engineering and IT programs.
- Hamburg University of Technology (TUHH) — engineering and IT-focused technical university.
- Hochschule Bonn-Rhein-Sieg (H-BRS) — practice-oriented university of applied sciences in computer science, electrical engineering, and IT.
and others.
