Science and Technology Park

The Science and Technology Park includes a section for unmanned control systems and predictive analysis, as well as a section for prototyping and reverse engineering for 3D scanning, digital modeling, prototyping, and engineering verification of solutions.

Prototyping and digital models

3D scanning, CAD modeling, reverse engineering, and fabrication of experimental prototypes for engineering validation of solutions.

Unmanned monitoring and analysis

Use of UAVs/drones for crop monitoring, assessment of territorial parameters, mapping, and specialized applied research.

Engineering validation and applied testing

Support for scientific research, equipment modernization, and development of experimental prototypes, including data analysis and validation of working hypotheses.

ey areas of the science and technology park

The structure of the park is built around two applied areas: an engineering hub for digitalization and prototyping, and a technological hub for unmanned monitoring, spatial analysis, and intelligent data processing.

Unit 01

Prototyping and reverse engineering unit

This unit is designed for the development, analysis, and reproduction of parts and assemblies based on digital models. Its purpose is to enable a rapid transition from a physical sample or engineering concept to a functional prototype and its experimental validation.

3D scanning of objects

Acquisition of digital models of parts and structures for subsequent analysis, geometric digitization, and engineering interpretation of objects.

CAD modeling and reverse engineering

Reconstruction of product geometry, creation of CAD models, and analysis of structural features in the absence of original design documentation.

Prototype manufacturing and validation

3D printing, laser processing, and fabrication of experimental samples for verifying design, dimensions, and assembly solutions.

Жұмыстардың толық циклі: объектілерді цифрландыру, цифрлық модельдер жасау, прототиптерді өндіру және инженерлік шешімдерді тексеру.

Unit 02

Unmanned systems for monitoring and predictive analysis unit

This unit is focused on the implementation of unmanned monitoring systems, intelligent data analysis, and predictive diagnostics of technical conditions. The unit’s equipment enables the use of UAVs/drones and unmanned bathymetric surveying systems for applied research, geodesy, and agrotechnological tasks.

Monitoring of agricultural areas

Assessment of vegetation cover density, crop germination rate, soil moisture levels, and support for operational agrochemical treatment of agricultural land.

Geodetic and cartographic studies

Field geodetic measurements, territory mapping, and collection of spatial data for engineering and applied analysis.

Bathymetric and predictive analysis

Bathymetric studies of underwater relief in water bodies and the application of analytical approaches for assessing and predicting technical conditions.

Key profile of the unit: unmanned monitoring, data collection, intelligent analysis, and applied forecasting.

Technological capabilities and applied profile

The park integrates digital engineering design, prototype development, unmanned monitoring, and applied data analysis to address research, production, and experimental tasks.

3D scanning of objects

CAD modeling

Reverse engineering

3D prototyping

Laser processing and engraving

Unmanned monitoring

Geodetic studies

Bathymetric surveying

Territorial mapping

Predictive analysis

Scientific Leadership and Park Staff

Head and Team of the Science and Technology Park

Nauyrzbayev Zhanibek

Head, Master of Physics

nauryzbayev.zh@ksu.edu.kz

Engineering and research infrastructure and technological equipment

The science and technology park is equipped with modern, high-tech systems for prototyping, reverse engineering, geospatial measurements, unmanned monitoring, engineering diagnostics, and sample preparation for applied research.

Quattro S (FEG-SEM)

Scanning electron microscope with EDS system and STEM detector

A high-tech research system for analyzing morphology, microstructure, and elemental composition of materials at the micro- and nanoscale. It is used in engineering, materials science, and applied research studies.

Revopoint handheld 3D scanner

Handheld 3D scanner for digital modeling

Used for generating accurate 3D digital models, reverse engineering, geometric inspection, and preparation for CAD modeling.

QIDI Q2 FDM 3D printer

FDM 3D printer for prototyping

Used for rapid fabrication of parts, housings, models, and experimental prototypes.

TTC 450 PRO laser engraving machine

A machine for engraving and material processing

Used for precise engraving, material processing, and fabrication of parts and prototypes.

Apache 3 unmanned surface vehicle (USV)

Unmanned platform for bathymetric research

Used for bathymetric surveying, hydrographic studies, and inspection of underwater objects.

DJI Mavic 3 Multispectral quadcopter

A multispectral UAV for territorial monitoring

Used for vegetation monitoring, crop health assessment, soil moisture analysis, and mapping.

i80 GNSS geodetic satellite receiver

A geodetic satellite receiver for high-precision measurements

Used for accurate geodetic surveying, mapping, and spatial data referencing.

Bosch GTC 400 C thermal imager

A thermal imaging device for technical diagnostics

Used for thermal inspection, detection of anomalies, and technical monitoring within a predictive maintenance framework.

JC7, PowTeq

Jaw crusher for preliminary material preparation

Used for controlled crushing of hard and brittle materials prior to laboratory analysis, testing, and experimental engineering work. It ensures consistent sample preparation for subsequent research.

SS2000, PowerTeq

Vibratory sieve shaker for particle size analysis

Used for dry and wet sieving of granular and powdered materials, producing fractionated samples and preparing specimens for physicomechanical, technological, and analytical studies.

Science and Technology Park

Prototyping and digital models

Unmanned monitoring and analysis

Engineering validation and applied testing

ey areas of the science and technology park

Prototyping and reverse engineering unit

3D scanning of objects

CAD modeling and reverse engineering

Prototype manufacturing and validation

Unmanned systems for monitoring and predictive analysis unit

Monitoring of agricultural areas

Geodetic and cartographic studies

Bathymetric and predictive analysis

Technological capabilities and applied profile

Scientific Leadership and Park Staff

Engineering and research infrastructure and technological equipment

Quattro S (FEG-SEM)

Revopoint handheld 3D scanner

QIDI Q2 FDM 3D printer

TTC 450 PRO laser engraving machine

Apache 3 unmanned surface vehicle (USV)

DJI Mavic 3 Multispectral quadcopter

i80 GNSS geodetic satellite receiver

Bosch GTC 400 C thermal imager

JC7, PowTeq

SS2000, PowerTeq

Continue your acquaintance with the scientific infrastructure of NII T

Laboratory of Physical and Chemical Research and Materials Science

Laboratory for control of food products and raw materials of biological origin