DOCSLIB.ORG

Su-30MKI PROGRAM the JOINT SUCCESS of RUSSIA and INDIA

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Su-30MKI PROGRAM the JOINT SUCCESS of RUSSIA and INDIA Su-30MKI PROGRAM THE JOINT SUCCESS OF RUSSIA AND INDIA www.irkut.com 2 MILESTONES www.irkut.com 1996 2000 2002 2004 2005 2007 2015 Aircraft samples of The flight Aircraft final configuration The first The first Contract for of the test aircraft samples The first aircraft delivered participation participation development Contract for of initial overhaul The first HAL- in international in international and delivery licensed configuration at HAL facility manufactured exercise in India exercise abroad production delivered aircraft delivered 3 PRIMACY www.irkut.com Joint efforts of Russia Leading companies Su-30MKI Su-30MKI and India have ensured of Russia, India, and is optimised to meet epitomises creation of the new other countries have cost/effectiveness the world benchmark fighter aircraft featuring been participating criterion of heavy multirole outstanding capabilities in creation of this fighter aircraft aircraft 4 MULTIFUNCTIONALITY www.irkut.com Su-30MKI is the first in the world fighter equipped with the phased-array radar, delivered for export Weapons control system provides: • reliable detection of aerial, ground, and water-surface targets beyond visual range • tracking of 15 aerial targets and simultaneous engagement of four of them Open architecture of avionics suite ensures enhancing its capabilities and expanding weapons set Two-pilots crew is able to perform air-to-air and air-to-ground combat tasks concurrently Front cockpit Aft cockpit 5 SUPERMANEUVERABILITY www.irkut.com Su-30MKI is the first in the world supermaneuverable combat aircraft in serial production Supermaneuverability: • is achieved due to engines with thrust vectoring and perfect fly-by-wire system • provides unmatched superiority of Su-30MKI in dog fight engagements • enhances flight safety 6 ACROBATIC 8 www.irkut.com 10 MANEUVERS 6 7 9 5 3 4 2 1 7 11 ACROBATIC www.irkut.com MANEUVERS 18 12 13 19 14 15 16 17 20 8 COMBAT LOAD www.irkut.com 12 11 10 9 8 7 6 5 12 hard points 4 3 Combat load of 8,000 kg 1 2 9 Su-30MKI is the best choice for the states FLIGHT RANGE with vast territory and/or vast water areas www.irkut.com Maximum flight range 8,000 km with two refuellings 3,000 km at high altitude 1,270 km at low altitude 5,200 km with one refuelling 10 MAKE IN INDIA www.irkut.com December 2000 November 2004 January 2015 The first license- HAL Corporation HAL Corporation production contract assembled completed the first is signed the first aircraft overhaul of Su-30MKI 11 MAKE IN INDIA www.irkut.com India: HAL Corporation • has mastered the full production cycle manufactures more than 80% of Su-30MKI aircraft • deliveres Su-30MKI’s high-tech avionics components for export • possesses exclusive overhaul infrastructure 12 INTERNATIONAL www.irkut.com SUCCESS Since 2005, Su-30MKIs have been demonstrating high effectiveness in international exercises • Regions: Asia, Europe, North America Su-30MKI contributes • States: USA, France, Great Britain, Singapore, UAE to the rise of international prestige • Aircraft: F-15, F-16, F/A-18, Tornado, of Indian Air Force Typhoon, Mirage 2000, Rafale 13 SUPERIORITY www.irkut.com AND PRESTIGE Indian Air Force has secured Su-30MKIs continuously Presidents of India its superiority against any participate in all national Mr Abdul Kalama and possible competitor in military parades and Mrs Pratibha Patil the region air shows performed flights on Su-30MKIs 14 CURRENT STATUS www.irkut.com Su-30MKI fleet HAL continues production is the backbone of new aircraft and overhaul of the Indian Air Force of initial batches of aircraft 15 Su-30MKI features OUTLOOK great growth potential www.irkut.com Major program trends in Russia and India: • overhaul infrastructure build-up in India, enhancement of after-sale support • integration of new weaponry • upgrading of weaponry and avionics 16 NEW CAPABILITIES OF Su-30MKI www.irkut.com ARMED WITH BrahMos MISSILE Unification of two most successful Russian-Indian projects: Su-30MKI and BrahMos HAL has customized initial aircraft. Flight tests of this aircraft with BrahMos missile started in 2016 Su-30MKI with integrated BrahMos missile: • has no equal in effectiveness • features enhanced strike capability • opens new horizons for export 17 Su-30MKI program: NEW LEVEL • allowed India and Russia to go on to jointly create weaponry www.irkut.com OF INDIAN-RUSSIAN • consolidated capabilities and competencies of the best enterprises COOPERATION and specialists of two countries • established mutual understanding and credibility • formed the basis for new joint programs 18 Su-30MK www.irkut.com IN THE WORLD MARKET Fighter aircraft of Su-30 family derived from Su-30MKI concept has been delivered to Russia, Malaysia, Algeria, Kazakhstan Deliveries are in progress New customers show interest THANK YOU FOR YOUR TIME ! www.irkut.com.
Load more

Recommended publications
  • Prepared by Textore, Inc. Peter Wood, David Yang, and Roger Cliff November 2020
    AIR-TO-AIR MISSILES CAPABILITIES AND DEVELOPMENT IN CHINA Prepared by TextOre, Inc. Peter Wood, David Yang, and Roger Cliff November 2020 Printed in the United States of America by the China Aerospace Studies Institute ISBN 9798574996270 To request additional copies, please direct inquiries to Director, China Aerospace Studies Institute, Air University, 55 Lemay Plaza, Montgomery, AL 36112 All photos licensed under the Creative Commons Attribution-Share Alike 4.0 International license, or under the Fair Use Doctrine under Section 107 of the Copyright Act for nonprofit educational and noncommercial use. All other graphics created by or for China Aerospace Studies Institute Cover art is "J-10 fighter jet takes off for patrol mission," China Military Online 9 October 2018. http://eng.chinamil.com.cn/view/2018-10/09/content_9305984_3.htm E-mail: [email protected] Web: http://www.airuniversity.af.mil/CASI https://twitter.com/CASI_Research @CASI_Research https://www.facebook.com/CASI.Research.Org https://www.linkedin.com/company/11049011 Disclaimer The views expressed in this academic research paper are those of the authors and do not necessarily reflect the official policy or position of the U.S. Government or the Department of Defense. In accordance with Air Force Instruction 51-303, Intellectual Property, Patents, Patent Related Matters, Trademarks and Copyrights; this work is the property of the U.S. Government. Limited Print and Electronic Distribution Rights Reproduction and printing is subject to the Copyright Act of 1976 and applicable treaties of the United States. This document and trademark(s) contained herein are protected by law. This publication is provided for noncommercial use only.
    [Show full text]
  • Pegasus Vectored-Thrust Turbofan Engine
    Pegasus Vectored-thrust Turbofan Engine Matador Harrier Sea Harrier AV-8A International Historic Mechanical Engineering Landmark 24 July 1993 International Air Tattoo '93 RAF Fairford The American Society of Mechanical Engineers I MECH E I NTERNATIONAL H ISTORIC M ECHANICAL E NGINEERING L ANDMARK PEGASUS V ECTORED-THRUST T URBOFAN ENGINE 1960 T HE B RISTOL AERO-ENGINES (ROLLS-R OYCE) PEGASUS ENGINE POWERED THE WORLD'S FIRST PRACTICAL VERTICAL/SHORT-TAKEOFF-AND-LANDING JET AIRCRAFT , THE H AWKER P. 1127 K ESTREL. USING FOUR ROTATABLE NOZZLES, ITS THRUST COULD BE DIRECTED DOWNWARD TO LIFT THE AIRCRAFT, REARWARD FOR WINGBORNE FLIGHT, OR IN BETWEEN TO ENABLE TRANSITION BETWEEN THE TWO FLIGHT REGIMES. T HIS ENGINE, SERIAL NUMBER BS 916, WAS PART OF THE DEVELOPMENT PROGRAM AND IS THE EARLIEST KNOWN SURVIVOR. PEGASUS ENGINE REMAIN IN PRODUCTION FOR THE H ARRIER II AIRCRAFT. T HE AMERICAN SOCIETY OF M ECHANICAL ENGINEERS T HE INSTITUTION OF M ECHANICAL ENGINEERS 1993 Evolution of the Pegasus Vectored-thrust Engine Introduction cern resulted in a perceived need trol and stability problems associ- The Pegasus vectored for combat runways for takeoff and ated with the transition from hover thrust engine provides the power landing, and which could, if re- to wing-borne flight. for the first operational vertical quired, be dispersed for operation The concepts examined and short takeoff and landing jet from unprepared and concealed and pursued to full-flight demon- aircraft. The Harrier entered ser- sites. Naval interest focused on a stration included "tail sitting" types vice with the Royal Air Force (RAF) similar objective to enable ship- exemplified by the Convair XFY-1 in 1969, followed by the similar borne combat aircraft to operate and mounted jet engines, while oth- AV-8A with the United States Ma- from helicopter-size platforms and ers used jet augmentation by means rine Corps in 1971.
    [Show full text]
  • Differential Throttling and Fluidic Thrust Vectoring in a Linear Aerospike
    International Journal of Turbomachinery Propulsion and Power Article Differential Throttling and Fluidic Thrust Vectoring in a Linear Aerospike Michele Ferlauto , Andrea Ferrero * , Matteo Marsicovetere and Roberto Marsilio Department of Mechanical and Aerospace Engineering, Politecnico di Torino, Corso Duca degli Abruzzi 24, 10129 Torino, Italy; [email protected] (M.F.); [email protected] (M.M.); [email protected] (R.M.) * Correspondence: [email protected] Abstract: Aerospike nozzles represent an interesting solution for Single-Stage-To-Orbit or clustered launchers owing to their self-adapting capability, which can lead to better performance compared to classical nozzles. Furthermore, they can provide thrust vectoring in several ways. a simple solution consists of applying differential throttling when multiple combustion chambers are used. An alternative solution is represented by fluidic thrust vectoring, which requires the injection of a secondary flow from a slot. In this work, the flow field in a linear aerospike nozzle was investigated numerically and both differential throttling and fluidic thrust vectoring were studied. The flow field was predicted by solving the Reynolds-averaged Navier–Stokes equations. The thrust vectoring performance was evaluated in terms of side force generation and axial force reduction. The effectiveness of fluidic thrust vectoring was investigated by changing the mass flow rate of secondary flow and injection location. The results show that the response of the system can be non-monotone with respect to the mass flow rate of the secondary injection. In contrast, differential throttling provides a linear behaviour but it can only be applied to configurations with multiple Citation: Ferlauto, M.; Ferrero, A.; combustion chambers.
    [Show full text]
  • University of Kansas – MQM-1A Road Runner
    MQM-1A ROAD RUNNER Max Johnson Jacob Gorman Justin Matt Steven Meis Andrew Mills Nathan Sunnarborg 6 May 2020 Team Members Team Member AIAA Number Signature Max Johnson 1069044 Co-Author Jacob Gorman 998671 Co-Author Justin Matt 985135 Co-Author Steven Meis 985214 Co-Author Andrew Mills 980191 Co-Author Nathan Sunnarborg 1069091 Co-Author Dr. R. Barrett-Gonzalez 022393 Adviser Aerospace Engineering Department ii Table of Contents 1. Introduction .........................................................................................................................................................1 1.1 Mission Specifications & Profile ................................................................................................................1 1.2 Mission Profile ............................................................................................................................................1 1.3 Design Methods and Process ......................................................................................................................2 1.4 Conclusions and Recommendations �����������������������������������������������������������������������������������������������������������3 2. Historical Target Drone Relevant Designs ..........................................................................................................3 2.1 Orbital Sciences GQM-163 Coyote ............................................................................................................3 2.2 Lockheed Q-5/AQM-60 Kingfisher ...........................................................................................................3
    [Show full text]
  • INSTITUTE of AERONAUTICAL ENGINEERING (Autonomous) DUNDIGAL, HYDERABAD - 500 043 UNIT-I INTRODUCTION
    LECTURE NOTES ON LAUNCH VEHICLE MISSILE TECHNOLOGY IV B. Tech II semester (JNTUH-R13) Mr. Shiva Prasad U. Assistant Professor AERONAUTICAL ENGINEERING INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) DUNDIGAL, HYDERABAD - 500 043 UNIT-I INTRODUCTION 1.1 Introduction Launch vehicles are the rocket-powered systems that provide transportation from the earth's surface into the environment of space. In the early days of the U.S. civilian space program the term "launch vehicle" was used by NASA in preference to the term "booster" because "booster" had been associated with the development of the military missiles. "Booster" now has crept back into the vernacular of the Space Age and is used interchangeably with "launch vehicle." Space Launch Vehicles 1.2 TYPES 1. EXPANDABLE 2. REUSABLE Classification of Missile Missiles are generally classified on the basis of their Type, Launch Mode, Range, Propulsion, Warhead and Guidance Systems. Type: 1.CRUISE MISSILE 2. BALLISTIC MISSILE Launch Mode: Surface-to-Surface Missile Surface-to-Air Missile Surface (Coast)-to-Sea Missile Air-to-Air Missile Air-to-Surface Missile Sea-to-Sea Missile Sea-to-Surface (Coast) Missile 2 Anti-Tank Missile Range: Short Range Missile Medium Range Missile Intermediate Range Ballistic Missile Intercontinental Ballistic Missile Propulsion: Solid Propulsion Liquid Propulsion Hybrid Propulsion Ramjet Scramjet Cryogenic Warhead: Conventional Strategic Guidance Systems: Wire Guidance Command Guidance Terrain Comparison Guidance Terrestrial Guidance Inertial Guidance Beam Rider Guidance 3 Laser Guidance RF and GPS Reference 1.3 On the basis of Type: (i) Cruise Missile: A cruise missile is an unmanned self-propelled (till the time of impact) guided vehicle that sustains flight through aerodynamic lift for most of its flight path and whose primary mission is to place an ordnance or special payload on a target.
    [Show full text]
  • Thrust Vectoring Nozzle for Military Aircraft Engines
    ICAS 2000 CONGRESS Industria de Turbo Propulsores, S.A. THRUST VECTORING NOZZLE FOR MILITARY AIRCRAFT ENGINES Daniel Ikaza Industria de Turbo Propulsores S.A. (ITP) Parque Tecnológico, edificio 300 48170 Zamudio, Spain [email protected] number of actuators, which, in turn, leads to an optimized mass and overall engine efficiency. ITP has dedicated a research programme on Thrust Vectoring technology which started back in 1991, and which met an important milestone as is the ground testing of a prototype nozzle at ITP. Fig. 1.- CFD Model of a TVN ABSTRACT Even though Thrust Vectoring is a relatively new technology, it has been talked about for some time, and several programmes worldwide have explored its Fig. 2.- TVN ground tests at ITP application and benefits. Thrust Vectoring can provide modern military aircraft with a number of advantages The next major goal will be the realisation of a flight regarding performance and survivability, all of which has programme, in order to validate the system in flight, and an influence upon Life Cycle Cost. evaluate the capabilities and performance of the system as a means of primary flight control. There are several types of Thrust Vectoring Nozzles. For example, there are 2-D and 3-D Thrust Vectoring A decisive contribution is being done by ITP’s partner Nozzles. The ITP Nozzle is a 3-D Vectoring Nozzle. company MTU of Munich, Germany, by developing the Also, there are different ways to achieve the deflection of electronic Control System. the gas jet: the most efficient one is by mechanically This programme is making the Thrust Vectoring deflecting the divergent section only, hence minimizing technology available in Europe for existing military the effect on the engine upstream of the throat (sonic) aircraft such as Eurofighter, in which the introduction of section.
    [Show full text]
  • The Raf Harrier Story
    THE RAF HARRIER STORY ROYAL AIR FORCE HISTORICAL SOCIETY 2 The opinions expressed in this publication are those of the contributors concerned and are not necessarily those held by the Royal Air Force Historical Society. Copyright 2006: Royal Air Force Historical Society First published in the UK in 2006 by the Royal Air Force Historical Society All rights reserved. No part of this book may be reproduced or transmitted in any form or by any means, electronic or mechanical including photocopying, recording or by any information storage and retrieval system, without permission from the Publisher in writing. ISBN 0-9530345-2-6 Printed by Advance Book Printing Unit 9 Northmoor Park Church Road Northmoor OX29 5UH 3 ROYAL AIR FORCE HISTORICAL SOCIETY President Marshal of the Royal Air Force Sir Michael Beetham GCB CBE DFC AFC Vice-President Air Marshal Sir Frederick Sowrey KCB CBE AFC Committee Chairman Air Vice-Marshal N B Baldwin CB CBE FRAeS Vice-Chairman Group Captain J D Heron OBE Secretary Group Captain K J Dearman Membership Secretary Dr Jack Dunham PhD CPsychol AMRAeS Treasurer J Boyes TD CA Members Air Commodore H A Probert MBE MA *J S Cox Esq BA MA *Dr M A Fopp MA FMA FIMgt *Group Captain N Parton BSc (Hons) MA MDA MPhil CEng FRAeS RAF *Wing Commander D Robertson RAF Wing Commander C Cummings Editor & Publications Wing Commander C G Jefford MBE BA Manager *Ex Officio 4 CONTENTS EARLY HISTORICAL PERSPECTIVES AND EMERGING 8 STAFF TARGETS by Air Chf Mshl Sir Patrick Hine JET LIFT by Prof John F Coplin 14 EVOLUTION OF THE PEGASUS VECTORED
    [Show full text]
  • ORI( Tnalpage'l$ Pooe Oualn' 292 Proceedings of the NA3A/USRA Advanced Design Program 6Th Summer Conference
    t P,/o 291 PRELIMINARY DESIGN OF A SUPERSONIC SHORT-TAKEOFF AND VERTICAL-LANDING (STOVL) FIGHTER MRCRAFT UNIVERSITY OF KANSAS, LAWRENCE N 91-18165 A preliminary design study of a supersonic short-takeoff and vcrticaHanding (STOVL) fighter is presented. Three configurations (a lift + lift/cruise concept, a hybrid fan-vectored thrust concept, and a rnLxed-flow-vectored thrust concept) were initially investigated with one configuration .selected for further design analysis. The selected configuration (the lift + lift/cruise concept) was successfully integrated to accommodate the powered-lift short takeoff and vertical landing requirements as well a,s the demanding supersonic cruise and point performance requirements. A supersonic fighter aircraft with a short takeoff and vertical landing capabilit T using the lift + lift/cruise engine concept seems a viable option for the next generation fighter. NOMENCIATImE PHASE I AIRCRAFT STUDY BAi Battlefield Air Interdiction Mission Prof'des and Specification CA Counter Air e.g. Center of Gravity, The mission profiles for the Phase I study (Figs. I and 2) FS Fuselage Station show the design defensive counter air superiority mission and HFVT Hybrid Fan-Vectored Thrust the fallout battlefield air interdiction mis,sion. The mis.sion LIFT I.ift + IJft/Crui_ specification (Table l ) shows the armament carried for each MFVT Mixed-Flow-Vectored Thrust mission and the point performance requirements. n.m Nautical Mile STOVL Short Takeoff, Vertical Landing 8 INTRODUCTION 5 6 7 9 I0 The sur_ivability of long, hard-surface runways at Air Force Main Operating Bases is fundamental to the current operations • I . 2 3_ -- 151) NM_50 NMi [50 NMb_---_IS0 NM_ of the Air Force Tactical Air Command.
    [Show full text]
  • Post Cold War Air to Air Missile Evolution
    Post Cold War Air to Air Missile evolution Dr Carlo Kopp defence focus THE AIR-TO-AIR MISSILE (AAM) IS THE BACKBONE OF MODERN WEAPON SUITES CARRIED BY FIGHTER AIRCRAFT. THERE HAS BEEN considerable evolution since the first AAMs deployed operationally in the late 1950s, and that evolution continues unabated. The past decade has been especially important, with the shift away from analogue guidance systems to digital, the appearance of Focal Plane Array imaging seekers, the commodification of Gallium Arsenide technology monolithic microwave integrated circuits, and the emergence of solid propellant ramjet engines – all impacting on the capabilities of these missiles. The matter of AAM effectiveness and lethality remains controversial and steeped in as much mythology as fact, as competing players and Services market the virtues of their favoured designs. Little has changed since the early 1960s when guided missile proponents declared that fighter performance was irrelevant in the face of the then new US AIM-9B Sidewinder missile and its UK sibling, the DH Firestreak. But the Vietnam war proved this prediction to be just fantasy. Today we see the same arguments, now peddled by bureaucratic and industry proponents of aerodynamically or stealth-wise underperforming fighters. The most widely used Beyond Visual Range missile in the Western world, the US AIM-120A/ B/C AMRAAM, has achieved a success rate in real combat of around 50 per cent, but this has been against Third World targets without modern countermeasures, modern warning systems, MBDA Meteor. or indeed pilot evasive skills. While test range claims for the latest AIM-120 variants sit around 85 per cent, these involved shots against QF-4 drones, which are not representative in turning target performs a major change in trajectory, which technologies used in the design of missiles, as performance of today’s targets, such as Sukhoi puts it outside of the kinematic envelope while the they reflect the competitive pressures of defeating Flanker fighters.
    [Show full text]
  • Test and Evaluation Trends and Costs for Aircraft and Guided Weapons
    CHILD POLICY This PDF document was made available CIVIL JUSTICE from www.rand.org as a public service of EDUCATION the RAND Corporation. ENERGY AND ENVIRONMENT HEALTH AND HEALTH CARE Jump down to document6 INTERNATIONAL AFFAIRS NATIONAL SECURITY The RAND Corporation is a nonprofit POPULATION AND AGING research organization providing PUBLIC SAFETY SCIENCE AND TECHNOLOGY objective analysis and effective SUBSTANCE ABUSE solutions that address the challenges TERRORISM AND facing the public and private sectors HOMELAND SECURITY TRANSPORTATION AND around the world. INFRASTRUCTURE Support RAND Purchase this document Browse Books & Publications Make a charitable contribution For More Information Visit RAND at www.rand.org Explore RAND Project AIR FORCE View document details Limited Electronic Distribution Rights This document and trademark(s) contained herein are protected by law as indicated in a notice appearing later in this work. This electronic representation of RAND intellectual property is provided for non- commercial use only. Permission is required from RAND to reproduce, or reuse in another form, any of our research documents. This product is part of the RAND Corporation monograph series. RAND monographs present major research findings that address the challenges facing the public and private sectors. All RAND mono- graphs undergo rigorous peer review to ensure high standards for research quality and objectivity. Test and Evaluation Trends and Costs for Aircraft and Guided Weapons Bernard Fox, Michael Boito, John C.Graser, Obaid Younossi Prepared for the United States Air Force Approved for public release, distribution unlimited The research reported here was sponsored by the United States Air Force under Contract F49642-01-C-0003.
    [Show full text]
  • Thrust Vector Control for Nuclear Thermal Rockets
    NASA/TM—2013-218087 AIAA–2013–4075 Thrust Vector Control for Nuclear Thermal Rockets Clinton B.F. Ensworth Glenn Research Center, Cleveland, Ohio October 2013 NASA STI Program . in Profi le Since its founding, NASA has been dedicated to the • CONFERENCE PUBLICATION. Collected advancement of aeronautics and space science. The papers from scientifi c and technical NASA Scientifi c and Technical Information (STI) conferences, symposia, seminars, or other program plays a key part in helping NASA maintain meetings sponsored or cosponsored by NASA. this important role. • SPECIAL PUBLICATION. Scientifi c, The NASA STI Program operates under the auspices technical, or historical information from of the Agency Chief Information Offi cer. It collects, NASA programs, projects, and missions, often organizes, provides for archiving, and disseminates concerned with subjects having substantial NASA’s STI. The NASA STI program provides access public interest. to the NASA Aeronautics and Space Database and its public interface, the NASA Technical Reports • TECHNICAL TRANSLATION. English- Server, thus providing one of the largest collections language translations of foreign scientifi c and of aeronautical and space science STI in the world. technical material pertinent to NASA’s mission. Results are published in both non-NASA channels and by NASA in the NASA STI Report Series, which Specialized services also include creating custom includes the following report types: thesauri, building customized databases, organizing and publishing research results. • TECHNICAL PUBLICATION. Reports of completed research or a major signifi cant phase For more information about the NASA STI of research that present the results of NASA program, see the following: programs and include extensive data or theoretical analysis.
    [Show full text]
  • Master's Thesis
    MASTER'S THESIS Design, Analysis and Fabrication of a Rocket Simulator Prototype For Thrust Vectoring Stabilization Lekha Ananda Kumar Sumathy 2015 Master of Science (120 credits) Space Engineering - Space Master Luleå University of Technology Department of Computer Science, Electrical and Space Engineering MASTER THESIS Design, Analysis and Fabrication of a Rocket Simulator Prototype for Thrust Vectoring Stabilization SUBMITTED BY LEKHA ANANDA KUMAR SUMATHY Würzburg March 31st, 2015 Design, Analysis and Fabrication of a Rocket Simulator Prototype For Thrust Vectoring Stabilization Master of Science (120 credits) Space Engineering - Space Master Luleå University of Technology Department of Computer Science, Electrical and Space Engineering Design, Analysis and Fabrication of a Rocket Simulator Prototype For Thrust Vectoring Stabilization Master Thesis in Space Science and Technology written by Lekha Anandakumar Sumathy performed at University of Würzburg Faculty of Computer Science Informatik VIII Examiner External Examiner (LTU) Supervisor Prof. Dr.-Ing. Sergio Montenegro Prof. Dr. Johnny Ejemalm Dipl.-Ing. Thomas Walter Examiner I Prof. Dr.-Ing. Sergio Montenegro Professor and Chair Computer Science VIII: Aerospace Information Technology Julius-Maximilians-University Würzburg, Germany. E-mail: [email protected] Examiner II Prof. Dr. Johnny Ejemalm Senior Lecturer Department of Computer Science, Electrical and Space Engineering Luleå University of Technology, Sweden Email: [email protected] Supervisor Dipl.-Ing. Thomas Walter Research Assistant Computer Science VIII: Aerospace Information Technology Julius- Maximilians- University Würzburg, Germany. Email: [email protected] DECLARATION OF ORIGINAL WORK I hereby declare that I have developed and written the enclosed Master Thesis completely by myself, and have not used sources or means without declaration in the text.
    [Show full text]