Research and development

"Intelligent system for identifying forgery of biometric features of handwriting" DOB-SZAFIR/06/A/042/01/2020

The project is financed by the National Center for Research and Development, implemented in the area of state defense and security, by a consortium consisting of:

Central Police Forensic Laboratory (CLKP) – consortium leader;
JAS Technologies (JAS);
Institute of Forensic Science of the Polish Forensic Society (IKPTK). 

The aim of the project is to develop a research method to determine that the manuscript was forged using a mechanical device. There are devices available on the market that support human work; entries are made on the basis of quasi-handwritten entries made using a writing tool attached to the machine’s handle. In this way, the original form is obtained. There are precise CNC machines controlled by a computer program that processes data in 3D technology. Appropriate configuration allows for recording with variable pressure, similar to the imitated manuscript. No one has ever been able to fake the pressure change feature. CNC allows you to set parameters so that the record produced like an authentic one has a variable depth, and thus allows for forgery with very high precision. Currently, there is no effective method of distinguishing typed writing from handwritten writing, which in practice means that every handwriting expert opinion may be questioned.

Project manager: Ministry of Interior and Administration;
Project Manager: M.Eng. Anna Przewor;
Total cost of the project: PLN 10,959,456;
Project duration: 48 months (2021-2024).

"Intelligent decision support system based on algorithmic image analysis in the activities of justice services" DOB-BIO10/16/02/2019

The project is financed by the National Center for Research and Development, implemented in the area of ​​state defense and security, by a consortium consisting of:
  • Warsaw University of Technology (PW) – consortium leader;
  • JAS Technologies (JAS);
  • University of Natural Sciences and Humanities in Siedlce (UPH).

The aim of the project is to create an IT system for processing and analyzing images from CCTV cameras in order to detect dangerous behavior of people detained in penitentiary facilities. The system will continuously process images from many cameras simultaneously and, using artificial intelligence methods, search for warnings of dangerous behavior of these people (such as an attack with a sharp instrument or an attempt to transfer drugs). The system will be equipped with a catalog of situations considered dangerous, developed on the basis of specialist knowledge in the field of forensics.

Project manager: Ministry of Justice of the Republic of Poland;
Project Manager: prof. Ph.D. Bruno Hołyst;
Total cost of the project: PLN 6,311,438;
Project duration: 36 months (2020-2023).

Projects currently underway

"iBorderCTRL" 700626, H2020-BES-2014-2015/H2020-BES-2015

The project is financed by the Research Executive Agency (REA) of the European Commission, implemented under the Horizon 2020 program, by a consortium composed of:
  • European Dynamics Luxembourg SA – consortium leader,
  • Institute of Communication and Computer Systems (Greece),
  • STREMBLE VENTURES LTD (Cyprus),
  • The Manchester Metropolitan University (GB),
  • ITTI sp. z o. o. (Poland),
  • JAS technologies (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).

The aim of the project is to build a multimedia, intelligent traveler control system (Big Data, Artificial Intelligence, Traveler facial and voice pattern analysis, Border Guard Avatar survey). It introduces a pre-registration system used to determine the risk of crossing the border by a traveler. In the process of identifying the traveler, it uses biometrics: hand – distribution of veins (palm vein recognition), fingerprints (fingerprints recognition) and face (facial recognition tools). The system verifies the traveler by comparing the data collected during the inspection with the data in the IBorderCtrl and databases. performs authorization of traveler’s documents (full passport reading: IR, VIS, UV, RFID). The system is designed to fully support stationary and mobile border crossing points.

Total project costs: 4,501,877 Euro.

Read more about the project: www.iborderctrl.eu

Read more: EC Cordis iBorderCtrl

"IT system for managing frequency resources and planning and recording radio networks for the needs of services subordinated to the Minister of Internal Affairs" (DOBR/BIO4/061/13197/2013).

The project is financed by the National Center for Research and Development, implemented in the area of ​​state defense and security, by a consortium consisting of:
  • Institute of Telecommunications (IŁ-PIB) – consortium leader.
  • JAS Technologie Spółka z o. o.
  • Medcore Limited Liability Company
The project was implemented for the Ministry of the Interior, which has frequency resources at its disposal, which it makes available to subordinate services such as the police, fire brigade, border guard, 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 improve this process. Its goal was to develop and implement an IT system demonstrator for use in the design, coordination, analysis and operation of radio networks and databases of radio systems and radio frequency resources in units subordinated to the Ministry of Internal Affairs. The system is a tool supporting the process of launching and then operating digital radio systems TETRA, DMR, dPMR. The scope of the project included, among others: development of computational algorithms, databases and methods of visualizing results, implementation of current high-accuracy digital maps, and other tasks. As part of the project, JAS developed and constructed a Mobile Research Laboratory, which, thanks to the measuring equipment, is intended to provide feedback information verifying in the field the data generated by the software.

"Development of an environment for the Smart Borders concept" DOB-BI06/07/40/2014

Project financed by the National Centre for Research and Development, covered in the area of ​​national defence and security, by a consortium consisting of:
  • Military University of Technology (WAT) – consortium leader.
  • JAS Technologie Spółka z o.o.
  • Gemalto Polska Spółka z o.o.
The project was carried out for the Ministry of Internal Affairs. The aim of the project was to comprehensively analyze and develop a demonstrator of an ICT tool for implementing the Smart Borders package in the SG IT environment and to build a demonstrator of the system in operational conditions. The work included, in particular, the development of a conceptual design of a smart border illustrating the organization, equipment and operation of a smart border according to the guidelines of the EU Commission, taking into account the introduction of the Smart Borders package, i.e. entry and exit registration (EES – Entry/Exist System) and the traveler registration program (RTP – Registered Traveller Program) to the existing structure of checks at border crossings in our country, as a country on the eastern border of the Schengen area. Read more: “Demonstrator of the biometric entry/exit system to the Schengen area – experimental studies”

"Improving the process of border checks of persons using biometric devices for self-control of persons and control of means of transport crossing the EU external border" DOBR/0017/R/ID1/2012/03.

Project financed by the National Center for Research and Development, implemented in the area of ​​national defense and security, by a consortium consisting of:
  • Military University of Technology (WAT) – consortium leader.
  • JAS Technologie Spółka z o.o.
  • Przedsiębiorstwo Badawczo-Produkcyjne OPTEL Spółka z o.o.
  • Mlabs Spółka z o.o.
The project was implemented for the Ministry of Internal Affairs. The aim of the project was to build a system enabling automatic border checks of holders of biometric passports or other documents containing biometric data (face image and fingerprints) at road (pedestrian) and airport crossings, with simultaneous automatic control of the means of transport in the case of road crossings. Thanks to the use of facial biometrics tools and an innovative method of reading fingerprints using the ultrasonic method, developed as part of this task, the system enables the confirmation of the compliance of biometric data in the document with the features of the person being checked in an unattended manner. The use of ultrasound increases the effectiveness of this process due to the possibility of reading dirty or even damaged fingerprints. Subsequently, the reading of information from the passport is used to verify personal data in the relevant search/information databases of the Border Guard. At the same time, the passenger car of the people being checked is subjected to automatic checks in order to verify whether there are no people or unauthorized cargo hidden in closed spaces in the vehicle. Innovative ultrasonic technology was also used in this task.

"Development of an energy-saving biometric set for mobile document and person control using acoustic and facial imaging systems" PBS2/B3/22/2013.

Project financed by the National Center for Research and Development, implemented in the area of ​​national defense and security by a consortium consisting of:
  • Military University of Technology (WAT) – consortium leader.
  • JAS Technologie Spółka z o.o.
  • Przedsiębiorstwo Badawczo-Produkcyjne OPTEL Spółka z o.o.
  • Mlabs Spółka z o.o.

The subject of the project was related to the control and border clearance of persons carried out by the Border Guard in places such as trains, buses, etc., where the use of portable wearable terminals is required. The aim of the project was to develop a mobile device for identifying persons based on a personal document with a chip containing personal data such as: fingerprint signatures and facial signatures. The scope of the project included the development of the components of this device, i.e.: a document reader with the playback of personal and biometric data of the identified person, an acoustic fingerprint reader, a video camera enabling the taking of an appropriate quality photo of the face and an intelligent energy-saving power supply system for individual components together with the necessary terminal and server software.

"Mobile, turbine rescue and fire-fighting system" DOB-BIO6/06/113/2014.

Project financed by the National Centre for Research and Development, implemented in the area of ​​national defence and security, by a consortium consisting of:
  • Main School of Fire Service (SGSP) – consortium leader.
  • JAS Technologie Spółka z o.o.
  • Military Institute of Chemistry and Radiometry (WIChiR).
  • Scientific Research Centre for Fire Protection – (CNBOP-PIB).
The project was carried out at the request of the Ministry of Internal Affairs. The target user is the State Fire Service and Plant Fire Departments. The main objective of the project was to develop and implement an innovative system for extinguishing multi-space and large-volume fires using turbine engines. The developed solution increases the flexibility of using forces and resources in the area of ​​operations. The system is also responsible for securing the strategic infrastructure of the Polish state, mass decontamination and limiting the spread and elimination of contamination.

Projects completed

Mobile turbine rescue and fire extinguishing system

Adress

Tomcia Palucha 14/47
02-495 Warszawa
Polska

E-mail

biuro@jastechnologie.pl

Phone

+48 22 253 35 57

Company registration data

NIP: 522 29 97 410
REGON: 146172251
KRS: 0000424601
PIC: 928014715

Company registered by the District Court for the Capital City of Warsaw in Warsaw, XIII Commercial Division of the National Court Register under KRS number: 0000424601 

Share capital: PLN 100,000.

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