AN ELECTRO-PNEUMATIC PROJECTILE LAUNCHING TRAINING SYSTEM

AN ELECTRO-PNEUMATIC PROJECTILE LAUNCHING TRAINING SYSTEM

The present disclosure envisages a computer-implemented elector-pneumatic projectile launching training system (1000) for real-time simulation, which is easily reconfigurable for a variety of indoor and outdoor applications. The training system (1000) is configured for training at least one trainee...

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Bibliographische Detailangaben
Hauptverfasser: KUMAR, Narendra, L., Jayanthi, N., Ramachandran, C., Narmadha, K., Amirtha Ganesh, C., Ramachandradurai, GUPTA, Atul, R., Kathiravan, J., Kesavan, SHUKLA, Rahul, V., Hamsadhwani, PRASAD, Kamlesh, SINGH, Satya Pal, M., Jeyakumar, J., Jeyandran, I., Karthic Subramaniyan, R., Rakesh, SINGH, Abhay Kumar, L., Sarojini
Format: Patent
Sprache:eng ; fre
Schlagworte:
ADVERTISING
AIMING
APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND,DEAF OR MUTE
BLASTING
CRYPTOGRAPHY
DIAGRAMS
DISPLAY
EDUCATION
EDUCATIONAL OR DEMONSTRATION APPLIANCES
GLOBES
HEATING
LIGHTING
MECHANICAL ENGINEERING
PHYSICS
PLANETARIA
SEALS
WEAPON SIGHTS
WEAPONS
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Beschreibung
Zusammenfassung:The present disclosure envisages a computer-implemented elector-pneumatic projectile launching training system (1000) for real-time simulation, which is easily reconfigurable for a variety of indoor and outdoor applications. The training system (1000) is configured for training at least one trainee by at least one instructor which can also be expanded to train three sets of trainees and instructors. The training system (1000) comprises of a computer- implemented simulation system employing electro-optical sensors (230) networked in wired and wireless means. This system employs scaled model of target mounted on an automated battery operated vehicle (260) and/or remotely controlled or real aerial simulated target system, a simulated projectile and a target, an electro-mechanically actuated motion simulator projectile launching mechanism (100), means for locking of the projectile inside the launching mechanism, a control unit, a trigger, a sensor, a repository 250 and a performance monitoring module (310). The trigger releases the pneumatic lock thereby letting the hydraulically compressed spring, launching the dummy projectile. The control unit (200) in combination with the performance monitoring and report generator module (310) is the nerve centre of the entire training system (1000), which is operable by one or more instructor(s) to generate any type of simulation or audio visual indications including emergencies associated with the simulated launching of projectile at the said target system (260) and store the results in the repository post processing by the performance monitoring and report generator (310). The array of networked optical tracking sensors (230) capture an image/video of the target and transmit it over the wireless trans-receiver (240) module to the display unit (220) of the said control unit (200) which in turn transfers it to the performance monitoring and report generator (310) for analysis and report generation. The repository 250 stores the image and the video. The crossover range trans-receiver (280) transmits the positional data of the target including the programmable aerial target (270), to the digital control unit (200) which is combined with the inputs of standalone and integrated optical tracking module (230) received via voice a wireless trans-receiver module (240). The Portable Indoor Training System (300) comprises of the Performance Monitoring and Report Generator Module (310) which is common to all the indoor and outdoor