Journal of Aerospace Engineering & Technology (JoAET)

This project paper says about advance planning and designing of multi-purpose system of army trench base of concrete bunkers is as-sort of most superior of and 24 hours activations functions of a line of controls. It’s the most purposes full planning evaluations of military defense barricades, these designed to prevent the soldier’s in high impact explosions systems. It the largest part of pre-effective functions can be used and large internal missile and ammunition storages. In our project plan is limit state design method is used. It's highly economical and safe. Plan is safe design for heavy projectiles. The design is done by according to IS (456–2000) the structural members are designed using HYSD rods with Fe-500 grade of steel and M-30 grade concrete. Here its followed by the framed rectangular planned structures is made up of the concrete wall and it's connected to raft foundation. And the required planning area of the plot is (57x22) sq feet. With a space of require capacity of storage ammunition and radar inspection. It’s a structural system, very strong and durable design propose and high lateral impact resistant and safety with invisible appearances.

Keywords: Ammunitions, aviation systems, defense radar systems, inertial guidance module, permanent bunkers, steel bunkers, trench bunkers, trench bunker concrete reinforcement detail

Benton-Short, L. (2007). Bollards, bunkers, and barriers: securing the National Mall in Washington, DC. Environment and Planning D: Society and Space, 25(3), 424-446.

Collins, J. M. (1998). Military geography for professionals and the public. Potomac Books, Inc..

Hesse, R. (2014). Geomorphological traces of conflict in high-resolution elevation models. Applied geography, 46, 11-20.

Carter, K. L. (2012). Technology Strategy Integration. NAVAL POSTGRADUATE SCHOOL MONTEREY CA.

Borén, M. (2002). Presentation of the BOFORS 3P and System Concept. Bofors Weapon Systems.

Lindskog, L. O. (1998). U.S. Patent No. 5,844,163. Washington, DC: U.S. Patent and Trademark Office.

Rottman, G. L. (2011). Browning. 50-Caliber Machine Guns. Bloomsbury Publishing.

Berg, R., Kato, K., Brown, K., Lowell, R., & Crouch, D. (2009). U.S. Patent No. 7,504,982. Washington, DC: U.S. Patent and Trademark Office.

Darnall, L. N. (2006). U.S. Patent No. 7,086,318. Washington, DC: U.S. Patent and Trademark Office.

Grip, H. F., Fossen, T. I., Johansen, T. A., & Saberi, A. (2015). Globally exponentially stable attitude and gyro bias estimation with application to GNSS/INS integration. Automatica, 51, 158-166.

Mohamed, A. H., & Schwarz, K. P. (1999). Adaptive Kalman filtering for INS/GPS. Journal of geodesy, 73(4), 193-203.

Shin, E. H., & El-Sheimy, N. (2004, April). An unscented Kalman filter for in-motion alignment of low-cost IMUs. In PLANS 2004. Position Location and Navigation Symposium (IEEE Cat. No. 04CH37556) (pp. 273-279). IEEE.

Greenspan, R. L. (1995). Inertial navigation technology from 1970–1995. Navigation, 42(1), 165-185.

MacDonald, H. C. (1969). GEOLOGIC EVALUATION OF RADAR IMAGERY FROM DARIEN PROVINCE, PANAMA (No. CRES-TR-133-6). KANSAS UNIV LAWRENCE CENTER FOR RESEARCH.

Khatoon, S., & Yadav, R. P. G. (2017). Design and Simulation of 8-Cavity-Hole Slot Type Magnetron on CST-Particle Studio (Doctoral dissertation).

Bernheim, E. (2002). U.S. Patent Application No. 09/845,468.

Barbarossa, S., & Farina, A. (1994). Space-time-frequency processing of synthetic aperture radar signals. IEEE Transactions on Aerospace and Electronic Systems, 30(2), 341-358.

Simpson, J. (1988, March). PRF set selection for pulse-Doppler radars. In IEEE Region 5 Conference, 1988:'Spanning the Peaks of Electrotechnology' (pp. 38-44). IEEE.

Speier, R. H., Nacouzi, G., Lee, C., & Moore, R. M. (2017). Hypersonic missile nonproliferation: hindering the spread of a new class of weapons. Rand Corporation.

Xiaohong, L., & Lingxiang, Z. (1996). Cruise Missile Launch Vehicle Automatic Positioning and Direction Finding Technology (No. NAIC-ID (RS) T-0086-96). NATIONAL AIR INTELLIGENCE CENTER WRIGHT-PATTERSON AFB OH.

Hagen, O. K., Ånonsen, K. B., & Mandt, M. (2010, September). The HUGIN real-time terrain navigation system. In OCEANS 2010 MTS/IEEE SEATTLE (pp. 1-7). IEEE.

Hastbacka, A. (2001, October). Fast pattern recognizer for autonomous target recognition and tracking for advanced naval attack missiles. In Automatic Target Recognition XI (Vol. 4379, pp. 316-325). International Society for Optics and Photonics.

Lee, T. W. (2008). Military Technologies of the World [2 volumes]. ABC-CLIO.

Dunkel, F. V. (1995). Applying current technologies to large-scale, underground grain storage. Tunnelling and Underground Space Technology, 10(4), 477-496.

Albright, D. (1994). South Africa and the affordable bomb. Bulletin of the Atomic Scientists, 50(4), 37-47.

Boyd, G. A., & Linehan, D. (2018). Becoming atomic: the bunker, modernity, and the city. arq: Architectural Research Quarterly, 22(3), 241-255.

Bakis, C. E., Bank, L. C., Brown, V., Cosenza, E., Davalos, J. F., Lesko, J. J., ... & Triantafillou, T. C. (2002). Fiber-reinforced polymer composites for construction—State-of-the-art review. Journal of composites for construction, 6(2), 73-87.

Ronza, A. (2007). Contributions to the risk assessment of major accidents in port areas. Universitat Politècnica de Catalunya.

Schwartz, S. I. (2011). Atomic audit: the costs and consequences of US nuclear weapons since 1940. Brookings Institution Press.

Standard, I. (2000). IS-456. 2000. Plain and Reinforced Concrete-Code of Practice”, Bureau of Indian Standards, Manak Bhawan, 9.

Protection, L. C., & Authority, R. (2013). Living Shoreline Demonstration Project.

Szabo, S., Toth, R., & Kovacs, Z. (2011). Force protection solutions with HESCO Bastion Concertainer. AARMS: Academic & Applied Research in Military Science, 10(1).

Byrnes, M. E., King, D. A., & Tierno Jr, P. M. (2003). Nuclear, chemical, and biological terrorism: Emergency response and public protection. CRC Press.

Harwell, M. A. (2012). Nuclear winter: the human and environmental consequences of nuclear war. Springer Science & Business Media.

Lewis, K. N. (1979). The prompt and delayed effects of nuclear war. Scientific American, 241(1), 35-47.