Purpose of the development: A number of high-precision opto-electronic sensors that can operate in modes - a shock to delay the impact of instant action, remote and proximity, and have high performance and reliability are working on to develop an optimal algorithm in a dynamic mode under artificial and natural disturbances, in particular opto-electronic sensor equipment for the purpose of fuse burning the cumulative ammunition.

Recommended application field: Research and production enterprises of the defense-industrial complex.

Advantages over analogues: HEDP systems MLRS allows you to replace the contact to non-contact sensors, which operate in a time-dependent optical interference in the atmospheric channel (artificial and natural origin) and triggered by a predetermined distance regardless of the state and the reflectance of the underlying surface, are protected from false operation of the munition. Operating distance is determined depending on the destination.

The development stage readiness: Pre-production model is made

Description of the development:
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With the development of modern types of ammunition (BP), considerable attention is paid to improving their efficiency through the use of remote detonation. Along with this current problem is the exact definition of the parameters of motion BP - target distance, speed and angle of approach to it. The solution to this problem requires the creation of modern intellectualized sensors (contact and non-contact) that satisfy substantially increased tactical and technical requirements. We have developed optical-electronic sensor target (OEDTS) remotely measures the performance closer to the target: range, speed approximation, the spatial angle of approach, the state of its surface and selects the optimum distance initiation fuse shaped charge and eliminates the possibility of making wrong decisions. The range is determined by the range of OEDTS using ammunition with burning the cumulative approach at high speed with the corresponding angle approach. The sensor operates on an adaptive algorithm, which eliminates the impact on its operation unsteady optical interference in the atmospheric channel protects against false triggering of ammunition. OEDTS performed in overall dimensions, the relevant standard fuse. Designed as simulation and test facility designed to simulate the movement of optoelectronic sensors goals and measuring their dynamic characteristics. The technique of dynamic testing and its software, which significantly reduces the time required for cyclic operation and reduces costs compared with full-scale tests. Installation allows technical diagnostics in the design and laboratory testing non-destructive methods, as well as to test the operation of the sensor target. The unit can be used on stages of mining optoelectronic speed sensor nodes goals and their dynamic parameters.

corresponds technical description
Conforms to technical characteristic

Possibility of transfer abroad:
Combinated reduction to industrial level

Photo

Country Ukraine

For additional information turn to:
E-mail: gal@uintei.kiev.ua