RU111943U1 - COMPREHENSIVE SIMULATOR FOR THE CREW OF THE BATTLE OF THE SHIP BASIS - Google Patents

Abstract

 A complex simulator for the crew of a ship-based combat aircraft, containing the cockpit of the aircraft, equipped with video cameras, speakers and a set of equipment with an adapter system, the appearance of the elements of which, their relative positions repeat the appearance and arrangement of the equipment elements of the set of the cockpit of the aircraft, simulated cabin visual environment , a computer complex connected to the cockpit of an airplane, with a block simulating the cockpit visual environment and allowing th to simulate regular and abnormal flight modes of the aircraft, flight conditions and operating modes, modeling aerodynamic characteristics, navigation parameters, operation of the power plant, units and systems of the aircraft and equipped with a unit for simulating acoustic noise, as well as the instructor’s workstation, including a control panel and monitoring tools, connected to the computer complex, and equipped with a radio simulation unit, while the instructor’s workstation has video monitors connected to the video cameras of the cabin for years Aircraft physics, characterized in that the input unit for amendments to the computational complex is introduced, taking into account the influence of the satellite track from the carrier’s deck superstructures during take-off and landing of the aircraft when simulating an airplane’s flight, and the corrections input module for the computational complex taking into account the influence of the satellite track from the refueling aircraft when refueling the aircraft in the air, the outputs of which are connected to the corresponding inputs of the computer complex, and the simulation unit of the cockpit visual environment is made in the form of triples

Description

The utility model relates to aviation technology and can be used to create simulators for crews of ship-based aircraft, taking into account the influence of the satellite track from the deck of an aircraft carrier on the aerodynamic characteristics of the aircraft during take-off and landing and from a refueling aircraft when refueling in air.

Known aircraft simulator containing the cockpit of the aircraft, equipped with video cameras, speakers and a set of equipment with an adapter system, the appearance of the elements of which, their relative position repeat the appearance and arrangement of the equipment elements of the set of the cockpit of the aircraft, a simulator of the cockpit visual environment, including a visual environment generation unit and an in-display environment display unit made in the form of a system including projectors and a diorama screen; located in front of the cockpit, a computer complex designed to simulate normal and abnormal flight modes of the aircraft and equipped with a unit for simulating acoustic noise, while the computer complex contains a programmable block for modeling flight conditions and operating modes, the software of which is capable of modeling aerodynamic characteristics, navigation parameters, operation of the power plant, units and systems of the aircraft, the workplace of the simulator instructor, including the remote control boards and controls connected to the computer complex and equipped with a radio simulation unit, video monitors installed at the instructor's workplace and connected to the cabin’s video cameras. [RU 2294019, C1, G09B 9/46, 02.20.2007].

A disadvantage of the known technical solution is the relatively narrow functionality.

The closest in technical essence to the proposed is a simulator [RU 2230371, C2, G09B9 / 46, 2004], containing:

- the airplane’s cockpit, equipped with video cameras, speakers and an adapter system with a set of equipment, the appearance of the elements of which, their relative position repeats the appearance and arrangement of the equipment elements of the airplane’s cockpit set;

- a booth visual simulation unit, including a booth display unit and a visual environment generation unit, wherein the booth visual display unit may be a system comprising projectors and a diorama screen mounted in front of the cockpit;

- a computer system that allows you to simulate regular and abnormal flight modes of the aircraft and equipped with a unit for simulating acoustic noise. Moreover, the computing complex contains a programmable block for modeling flight conditions and operating modes, the software of which is capable of modeling aerodynamics, navigation parameters, operation of the power plant, units and systems of the aircraft;

- the workplace of the simulator instructor, including a control panel and control tools connected to the computer complex, and equipped with a radio simulation unit. At the instructor's workplace, video monitors are installed, connected to the video cameras of the cockpit of the aircraft.

The closest technical solution allows the training and training of the flight crew, simulate the operation of equipment in regular and special situations, simulate the visual environment depending on weather conditions, time of day and time of year, and also monitor the work of the crew.

However, the closest technical solution has relatively narrow functional capabilities, since it does not take into account the influence of the satellite track of the carrier’s deck superstructures on the aerodynamic characteristics of the aircraft during take-off and landing, as well as the possibility of simulating an aircraft refueling mode in the air. This does not allow for the effective training of flight crews of combat ship aircraft.

As a result of the noted shortcomings, the closest technical solution does not allow to ensure the accuracy of modeling the environment and the state of the controls close enough to real, which reduces the effectiveness of the training of crews on the simulator.

The required technical result is to increase the accuracy of modeling and expand the functionality, which is aimed at improving the efficiency of training crews of ship aircraft on the simulator.

The required technical result is achieved by the fact that in the simulator containing the cockpit of the aircraft, equipped with video cameras, speakers and a set of equipment with a system of adapters, the appearance of the elements of which, their relative position repeat the appearance and arrangement of the equipment elements of the set of the cockpit of the aircraft, block simulated cockpit visual environment, a computing system connected to the cockpit of the aircraft, with a simulated cockpit visual environment unit and allowing the model to establish regular and abnormal flight modes of the aircraft, flight conditions and operating modes, modeling aerodynamic characteristics, navigation parameters, the operation of the power plant, units and systems of the aircraft and equipped with a unit for simulating acoustic noise, as well as the instructor's workplace, including a control panel and monitoring tools, connected with a computer complex, and equipped with a radio simulation unit, at the same time, video monitors are installed at the instructor’s workplace, connected to the video cameras of the cockpit itself In summer, an input block was introduced into the computer complex that takes into account the influence of the satellite track from the deck of the aircraft carrier during take-off and landing of the aircraft when simulating an airplane’s flight, and a block is introduced into the computer complex of amendments that take into account the influence of the satellite track from the tanker aircraft when refueling air, the outputs of which are connected to the corresponding inputs of the computer complex, and the simulation unit of the downhole visual environment is made in the form of a three-window optical collimation devices with a viewing angle of 120 ° × 30 °.

The drawing shows a functional diagram of an integrated simulator for a crew of a ship-based combat aircraft.

The complex simulator for the crew of a ship-based combat aircraft contains a cockpit of 1 pilot of the aircraft, equipped with video cameras, speakers and a set of equipment with an adapter system, the appearance of the elements of which, their relative positions repeat the appearance and arrangement of the equipment elements of the set of the cockpit of a pilot ship of a military-based aircraft.

In addition, the complex simulator for the crew of a ship-based combat aircraft contains a block 2 simulating the cockpit visual environment, a computer complex 3, connected to the cockpit 1 of the pilot of the aircraft and with the block simulating the cockpit visual environment. Computing complex 3 allows you to simulate regular and abnormal flight modes of the aircraft, flight conditions and operating modes, simulate aerodynamic characteristics, navigation parameters, the operation of the power plant, units and systems of the aircraft. Computing complex 3 is equipped with a unit for simulating acoustic noise.

The complex simulator for the crew of a ship-based ship of a ship-based aircraft also contains a workplace of 4 instructors, including a control panel and control equipment connected to a computer complex 3, and equipped with a radio simulation unit, while at the workplace of 4 instructors video monitors are installed connected to the video cameras of the airplane cockpit .

In the complex simulator for the crew of a ship-based combat aircraft, there is also a block 5 for entering corrections into the computer complex, taking into account the influence of the satellite track from the deck of the aircraft carrier during take-off and landing of the aircraft when simulating an airplane’s flight, as well as block 6 for entering corrections into the computer complex taking into account the influence of satellite trace from the refueling aircraft when refueling the aircraft in the air, the outputs of which are connected to the corresponding inputs of the computer complex 3.

In addition, in the integrated simulator for the crew of a ship-based combat aircraft, the unit for simulating the cockpit visual situation is made in the form of a three-window optical collimation device with a viewing angle of 120 ° × 30 °.

The use of block 2 in the form of a three-window optical collimation device with a viewing angle of 120 ° × 30 ° allows for the training of pilots with a wide plan of images of the deck structures of an aircraft carrier and a refueling aircraft.

All the necessary source data for modeling regular and abnormal flight modes of the aircraft, flight conditions and operating modes, aerodynamic characteristics, navigation parameters, the operation of the power plant, units and systems of the aircraft, as well as simulating acoustic noise for computer complex 3 are taken from training options for using weapons in the real situation (images of targets, an outside environment, noise, the process of hitting targets, the state of governing bodies and the results of using weapons).

Unit 5 for entering into the computer complex corrections that take into account the influence of the satellite track from deck superstructures of an aircraft carrier during take-off and landing of the aircraft when simulating aircraft flight, and also block 6 for entering the computer complex of amendments that take into account the influence of the satellite track from the refueling aircraft when refueling the aircraft in air can be made in the form of small-sized computers, into which specialists enter the relevant information obtained during actual flight of the aircraft, which is translated into the training complex 3 also allows one to take into account during simulator training the influence of the satellite track from the deck superstructures of an aircraft carrier during take-off and landing of the aircraft, as well as the influence of the satellite track from the refueling aircraft when refueling the aircraft in the air.

Training on a complex simulator for a crew of a ship-based combat ship is carried out as follows.

The trained pilot takes his workplace in cockpit 1, and the instructor - at the workplace of 4 instructors.

The instructor from the workplace of 4 instructors loads a flight task into the computer complex 3 (sets the initial conditions, weather conditions, weapon system parameters, the target situation on the route, and other necessary source data). In accordance with the programs laid down in computer complex 3, information from blocks 5 and 6 is input and the simulation of the flight of a ship-based combat aircraft begins, taking into account the characteristics of a particular aircraft carrier and refueling aircraft.

In block 2, the cockpit visual environment for the pilot is reproduced, as close as possible to the real one. The use of block 2 in the form of a three-window optical collimation device with a viewing angle of 120 ° × 30 ° allows us to provide a wide range of images of the deck structures of an aircraft carrier and a tanker aircraft when training pilots.

In addition, acoustic systems that reproduce the noise of the power plant and aircraft systems are turned on, radio communication is turned on, and the instructor transmits to the pilot commands similar to those transmitted from the ship's flight control command center.

The pilot performs a training flight in accordance with the assignment, acting on simulators of the airplane’s controls, the signals from which through the adapters go to the computer complex 3 of the simulator and are used to simulate the flight.

The instructor on his video monitors monitors the progress of the training flight, through the intercom, gives commands to the pilot, if necessary, changes the flight conditions using the control panel, for example, introduces system failures or changes the target situation, weather conditions, etc.

All information about the training flight is archived in the computer complex 3 simulators for subsequent analysis and analysis of the actions of the pilot.

The proposed technical solution expands the simulator's functionality, since in addition to educating and training the pilot in a normal environment, conditions that are close to realistic for taking off and landing the aircraft on the deck of an aircraft carrier, as well as for refueling the aircraft in the air, are additionally provided. This allows for effective training of flight crews. In addition, in the proposed technical solution, the block 2 simulations of the outside environment is made in the form of a three-window optical collimation device with a viewing angle of 120 ° × 30 °, which provides real viewing conditions. All this increases the accuracy of modeling and the expansion of functionality, which is aimed at improving the efficiency of training flight crews on the simulator.

Claims (1)

A complex simulator for a crew of a military aircraft based on a ship, containing the cockpit of the aircraft, equipped with video cameras, speakers and a set of equipment with an adapter system, the appearance of the elements of which, their relative position repeat the appearance and arrangement of the equipment elements of the set of the cockpit of the aircraft, simulated cabin visual environment , a computer complex connected to the cockpit of an airplane, with a block simulating the cockpit visual environment and allowing th to simulate regular and abnormal flight modes of the aircraft, flight conditions and operating modes, modeling aerodynamic characteristics, navigation parameters, the operation of the power plant, units and systems of the aircraft and equipped with a unit for simulating acoustic noise, as well as the instructor's workplace, including a control panel and monitoring tools, connected to the computer complex, and equipped with a radio simulation unit, while the instructor’s workstation has video monitors connected to the video cameras of the cabin for years Aircraft physics, characterized in that the input unit for entering into the computer complex corrections that take into account the influence of the satellite track from the deck superstructures of the aircraft carrier when taking off and landing the aircraft when simulating the flight of the aircraft, and the input unit for the computer complex of amendments taking into account the influence of the satellite track from the refueling aircraft are introduced when refueling an aircraft in the air, the outputs of which are connected to the corresponding inputs of the computer complex, and the simulation unit of the cockpit visual environment is made in the form of triples nnogo-optical collimation device with a viewing angle of 120 ° × 30 °.