The aim of this project is to support the administrative model of the work of forensics experts by establishing a horizontal framework and a sample system in the area of forensic medicine through the use of cutting-edge 3D modeling and data recording technologies.
We were tasked with creating a web-based system that provides a more complex and comprehensive solution (as compared to programs currently in the market) for teachers, students, schools, and educational institutions, or even for cross-border school partnerships.
In the SziMe3D project, we delivered 5 innovative developments aimed at improving 3D technology. 3DAR improved techniques of the three-dimensional digital preservation of national monuments and national memorabilia of key importance. Within the framework of 3DSyllabus, a software system providing support for teachers with educational processes by preparing 3D educational materials has been developed. We have developed SmartTravel, an integrated IT system for travel agencies, while FootballAvatar simulates future behavioral patterns, thus assisting the work of coaches as a decision supporting system. Finally, a 3D studio making the recording, editing, educational presentation, and processing of 3D moving image-based information for other purposes possible has also been developed.
A public transport service optimization system, SZIMETOUR is a development project in the area of e-Transport which fits in with the strategic and action plan of the Silicon Field Regional IT Cluster.
Within the framework of this project, we have developed a 24-hour portable video surveillance system which offers features like simple on-site installation, automated data storage, and an alarm system based on the same.
We were tasked with developing a complex ERP system capable of supporting all the production and operational processes of agricultural manufacturing and processing firms.
The aim of this research was the development of a software prototype that enables firms in the primary food processing and manufacturing sector to improve their food safety performance related to food protection in order to develop new and complex practice for food production.
The project goal is to develop a new technology for taking samples from production, forwarding and evaluating data and the operating environment for organising agricultural operations and sales; the AgroN2 prototype system to be created in the course of the development will offer plant protection, nutrient management, watering forecasting and decision support services based on market price information by collecting and processing information from agricultural lots in order to stabilise more economical and predictable operation and to enhance profit-generating abilities.
The goal of the consortium implementing the project is to extend the scope of users of videoconferencing services to support co-operation, in the course of which the scope of multimedia client devices will be extended in line with contemporary user trends (such as mobile devices), and the storage of video materials stored in rich content repositories will become more structured, with a greater degree of processing and more autThe project goal is to develop a new technology for taking samples from production, forwarding and evaluating data and the operating environment for organising agricultural operations and sales; the AgroN2 prototype system to be created in the course of the development will offer plant protection, nutrient management, watering forecasting and decision support services based on market price information by collecting and processing information from agricultural lots in order to stabilise more economical and predictable operation and to enhance profit-generating abilities.omated handling, in addition to which multimedia devices used in education will become more efficient.
Mobile Device Management
This system is indispensable for IT security, as it regulates the kinds of critical company information that may be delivered to the employees’ mobile devices.
3D scanning and surveying
We offer precision 3D surveying and related services which facilitate the creation of digital models, models of surfaces and surroundings, as well as follow-up investigations and analyses accurate to a millimetre.
CryoREV - GOP-1.1.1-11-2012-0306
Development of a complex system capable of classifying and cryopreservation of fish semen and sorting the cryopreserved semen
Summary of project contents: The main goal within the framework of the application is to create a complex fish semen classification and cryopreservation system primarily to serve the needs of international fisheries management. The system will consist of three main components. The first element is a Hungarian-developed semen classification software offering users online access from any computer connected to the internet. The second component is a state-of-the-art semen refrigerating and storage equipment fleet enabling safe processing of samples, and guaranteeing preserved quality throughout the entire technological process. The third element is a database managment software enabling the accurate sorting of up to several tens of thousands of cryopreserved semen samples, facilitating their use and accessibility for practical use and trading purposes.
Amount of support granted by the European Union and the State of Hungary: HUF 292,760,000.00
Total project cost: HUF 594,000,000.00
The project will be implemented with support from the European Union and co-financing from the European Regional Development Fund.
Envirotox - KMR_12-1-2012-0221
Development of a unique methodology for the ecological toxicology testing of environmental samples in a fish model system
4iG Nyrt. was awarded support funds in response to an application submitted by the consortium headed by Trilobita Informatikai Zrt., together with the Budapest University of Technology and Economy and ’Szent István’ University for financing market-oriented research and development activities in the Central Hungary region.
Project title: Development of a unique methodology for the ecological toxicology testing of environmental samples in a fish model system
Amount of support granted by the Research and Technological Innovation Fund: HUF 293,542,946.00
Total project cost: HUF 392,279,000.00
The project will be implemented with the support of the Government of Hungary and with funding from the Research and Technological Innovation Fund.
During this 3-year R&D project we developed a telemedicine service providing system and its functional prototype.