Purpose. To improve flight safety in aviation by ensuring a guaranteed level of safety when preventing collisions of dynamic objects based on the development of new information technology for resolving conflict situations of dynamic objects in real time.
Specifications. Processor: 32-bit quad-core processor from 2.1GHz; RAM capacity: from 2 GB; Network interfaces: Ethernet. Universal ports for connecting to on-board equipment. Supply voltage: 5V.
Application area. Production of air and space aircraft, related equipment State Enterprise “Antonov”.
Advantages. Ensuring the divergence of dynamic objects relative to each other at a distance corresponding to separation standards in conditions of complex multiple conflicts, including a large (up to 50) number of dynamic objects and with extremely complex conflict geometry.
Technical and economic effect. Reducing the likelihood of emergency situations during conflict situations by 36.4% compared to existing analogues.
Description. A new method for resolving conflict situations between aircraft in real time and algorithms for its operation have been developed. An algorithm for determining a priority dynamic object in a conflict situation has been synthesized in order to ensure the operation of a new method for resolving them. A database has been developed for the operation of a subsystem for resolving conflict situations of dynamic objects, based on taking into account the zones of uncertainty of objects and constructing Euler-Venn diagrams. Prediction of the state and flight dynamics of a dynamic object in real time is provided by developing a synthesized model of the dynamic movement of the object and taking into account the distributed control environment.