"Intelligent decision support system based on algorithmic image analysis in the activities of justice services"
The project is financed by the National Center for Research and Development, implemented in the field of national defense and security, by a consortium consisting of:
- Warsaw University of Technology - consortium leader
- JAS Technologie
- University of Natural Sciences and Humanities in Siedlce
The topic of the following project is the design of the information system to process and analyze the images from the CCTV cameras to detect dangerous behaviour of persons held captive in the prisons or wards. The system should process the images from multiple cameras at the same time. Also, by using Artificial Intelligence methods the system will search for the incoming events related with these specific people (such as the attack using the sharp knife, passing the illegal drug, etc.). The system will be equipped with the catalogue of situations considered dagnerous, prepared by using the knowledge from the criminal sciences.
Project Gestor: Ministry of Justice of the Republic of Poland
"iBorderCTRL" 700626, H2020-BES-2014-2015/H2020-BES-2015
The project is financed by the Research Executive Agency (REA) the European Commission, implemented in the field of H2020, by a consortium consisting of:
- European Dynamics Luxembourg SA - consortium leader,
- Institute of Communication and Computer Systems (Greece),
- STREMBLE VENTURES LTD (Cyprus),
- The Manchester Metropolitan University (GB),
- ITTI (Poland),
- JAS technologie (Poland),
- EVERIS AEROESPACIAL Y DEFENSA SL (Spain),
- BioSec Group Kft (Hungary),
- Gottfried Wilhelm Leibniz Universitaet Hannover (Germany) Orszagos Rendor-fokapitanysag (Hungary),
- TRAINOSE METAFORES-METAFORIKES YPIRESIES EPIVATON KAI FORTIOU AE (Greece),
- Latvian State Border Guard (Latvia).
iBorderCtrl envisages to enable faster thorough border control for third country nationals crossing the borders of EU, with technologies that adopt the future development of the Schengen Border Management. The project will present an optimal mixture of an enhanced, voluntary form of a Registered Traveller Programme and an auxiliary solution for the Entry/Exit System based on involving bona fide travellers. iBorderCtrl designs and implements a system that adopts mobility concepts and consists of a two-stage procedure, designed to reduce cost/time spent per traveller at the crossing station. It leverages software and hardware technologies ranging from portable readers/scanners, various emerging and novel subsystems for automatic controls, wireless networking for mobile controls, and secure backend storage and processing. The two-stage procedure includes: (A) the registration before the travel to gather initial personal, travel document and vehicle data, perform a short, automated, non-invasive interview with an avatar, subject to lie detection and link the traveller to any pre-existing authority data. Utilizing multifactor analytics and risk-based approach, the data registered is processed and correlated with publicly open data or external systems such as the SIS II. Processing will need the travellers consent as set in EU legislation and national law. (B) the actual control at the border that complements pre-registered information with results of security controls that are performed with a portable, wireless connected iBorderCtrl unit that can be used inside buses/trains or any point. Multiple technologies check validity and authenticity of parameters (e.g. travel documents, visa, face recognition of traveller using passport picture, real-time automated non-invasive lie detection in interview by officer, etc.). The data collected are encrypted, securely transferred and analysed in real time, providing an automated decision support system for the border control officers.
"IT system for managing frequency resources as well as planning and recording of radio networks for the needs of services subordinate to the Minister of the Interior"
The project is financed by the National Center for Research and Development, implemented in the field of national defense and security, by a consortium consisting of:
- Institute of Telecommunications - consortium leader
- JAS Technologie
- Medcore
The project was implemented for the Ministry of the Interior, which has at its disposal frequency resources, which it makes available to subordinate services such as police, fire brigade, border guards etc. throughout the country. This process is complex due to the geographical extent of the area and the number of subordinate institutions. This project will streamline this process. Its purpose was to develop and execute an IT system demonstrator with a view to using radio networks and radio system databases and radio frequency resources in units subordinate to the Ministry of Interior for design, coordination, analysis and operation. The system is a tool supporting the process of launching and then servicing the digital radio systems TETRA or DMR, dPMR. The scope of the project included development of computational algorithms, databases and results visualization methods, implementation of current high-accuracy digital maps, and other tasks. As part of the project, JAS has developed and constructed a Mobile Research Laboratory, which thanks to measuring equipment is designed to provide feedback in the field verifying data generated by the software.
"Development of the environment for the concept of Smart Borders"
The project is financed by the National Center for Research and Development, implemented in the field of national defense and security, by a consortium consisting of:
- Military University of Technology - consortium leader
- JAS Technologie
- Gemalto Poland
The project was implemented for the Ministry of the Interior. The aim of the project was to comprehensively analyze and develop an IT tool demonstrator for the implementation of the Smart Borders package in the SG IT environment and to build a system demonstrator in operational conditions. The work included, in particular, the development of a conceptual design of an intelligent border illustrating the organization, equipment and operation of an intelligent border according to the guidelines of the EU commission, including the introduction of the Smart Borders package, i.e. registration of entry, exit (EES - Entry / Exist System) and traveler registration program (RTP - Registred Traveler Program) to the existing structure of checks on persons at the border crossing points of our country as a country on the eastern border of the Schengen area.
"Improvement of the process of border checks on persons using biometric devices for self-monitoring of persons and control of means of transport crossing the external EU border"
The project is financed by the National Center for Research and Development, implemented in the field of national defense and security, by a consortium consisting of:
- Military University of Technology - consortium leader
- JAS Technologie
- OPTEL
- Mlabs
The project was implemented for the Ministry of the Interior. The aim of the project was to build a system enabling automatic border checks for biometric passport holders or other documents containing biometric data (facial image and fingerprints) on road (pedestrian) and air crossings, with automatic control of the means of transport in the case of road crossings. Thanks to the use of facial biometrics tools and the innovative, developed within this task, fingerprint reading method using the ultrasonic method, the system enables unattended confirmation of biometric data compliance
"Mobile, rescue and fire-fighting turbine system"
The project was financed by the National Center for Research and Development, implemented in the field of national defense and security, by a consortium consisting of:
- Main School of Fire Service - consortium leader
- JAS Technologie
- Military Institute of Chemistry and Radiometry
- Scientific and Research Center for Fire Protection
The project was carried out at the request of the Ministry of the Interior. The target user is the State Fire Service and Company Fire Service. The main goal of the project was to develop and implement an innovative multi-space and large-volume fire extinguishing system using turbine engines. The developed solution increases the flexibility of using forces and resources in the area of operations. The system's task is also to secure the strategic infrastructure of the Polish state, mass decontamination, and to limit the spread and liquidation of contamination.