The Simulation Training Platform of the PADO platform, STP PADO, is an innovative technical solution that allows for future system operators' demonstration and training. Its job is mapping modes of a real system through the availability of data from many different observing systems of Border Guard, BG. The primary function of the STP is to train and familiarize staff with optoelectronic technology adequately. The article discusses the proposed solution concept, hardware architecture construction, and STP training functionality. The idea is to give up the high and ego level of mapping the host system and appropriate efficiency and training capacity. The system assumptions correspond to the Table Top Trainer series simulator, TTT, in the client-server architecture.
The concept of the Innovative System for Detecting Hidden People in Transport (ISDHPT) is an attempt to create an innovative platform to increase the detection of illegal smuggling of people and unauthorized objects. For this purpose, various types of detectors will be integrated into the system: based on measurements in the terahertz band, the X-ray radiation band, and using a set of various chemical sensors. The proposed solution is a world-first that includes the fusion of data from terahertz cameras operating in different bands and different imaging modes, a set of different chemical sensors, and X-ray back-scatter sensors. The system will be used when carrying out checks on means of transport to detect people trying to cross the state border illegally. It is assumed that the system's implementation will improve the level of public safety by increasing the effectiveness of actions taken in the area of transport means control.
The Operational Data Aggregation Platform (PADO) is an innovative technical solution that integrates modern ICT techniques with advanced hardware architecture based on a modular design. Its task is to integrate data from many different observational systems of the Border Guard (BG). The basic function of PADO is to increase the safety and effectiveness of BG activities effectively. The article discusses the proposed solutions for the construction of hardware architecture for the PADO platform, which enable the integration of data obtained from various systems and devices used in BG tactics. The system must ensure high reliability of work in severe propagation conditions, ICT performance in the area of information through a variety of communication channels mutually cooperating and low latency. One of the critical aspects of the system is the ability to modify the hardware layer through the implementation of modular construction and solutions based on modern standards and technologies.