MSME Zeus Numerix is working to make Indian warships invisible to radar

YB WEB DESK. Dated: 4/3/2021 1:07:59 PM


New Delhi, Apr 02 Zeus Numerix started from IIT Bombay in 2004 with a vision of developing simulation software and innovative engineering products. Zeus has completed more than 400 projects, with many of them being the first of its kind in India. Zeus has been awarded the first DST-FICCILockheed Martin India Innovation Growth Medal, is a DSIR certified R&D company and CEnter of MILitary Airworthiness and Certification (CEMILAC, Govt of India) certified Design Approval company. Stealth has become a strict design criterion for most of the airborne and naval systems that are being developed at our client organizations. In pursuit of a stealthy design, first level activity is basic shape optimization to minimize mono-static RCS for critical viewing angles. In terms of electric size, these configurations lie in optical region and therefore, methods based on PO and GO for RCS evaluation are best suited. However, results are sensitive to model preparation and choice of various options available to these methods. Being a critical design consideration, our customers desired an engagement by which all nuances of RCS prediction are accounted in a transparent manner. Zeus Numerix has developed a high frequency solver for RCS prediction of full scale configurations based on Physical Optics. Unlike GO method, no geometrical simplification is needed. By incorporating PTD and SBR modules, edge diffraction and multiple bounces are also accounted for. Large surface mesh sizes (~10 million), typical of full scale configuration, are easily handled as solver is optimized for exploiting parallel computing infrastructure. Feasibility has been established on airborne / naval systems that are under development. The software has been validated against experimental results. The software is now properly packaged and licensed to users. As part of the design improvement plan of the ship structure, Indian Navy wishes to optimize the hull for reduction in drag. As per the requirements of the user, the RCS of the ship is to be reduced to acceptable levels. Contribution of hull and superstructure on the ship must be studied where the problem in hull is coupled with hydrodynamics. Constraints of space and ship stability during the design changes are given by the customer. Multiple techniques were used for the simulation of hydrodynamics of the ship.

 

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