Download Free Land Based Air Defense Mathematical Models And Simulation Techniques Book in PDF and EPUB Free Download. You can read online Land Based Air Defense Mathematical Models And Simulation Techniques and write the review.

The report represents a five weeks effort in reviewing and analyzing the existing air defense models used by Directorate for Plans and Analysis, U.S. Army Missile Command, Redstone Arsenal, Alabama. The existing simulation models are event oriented in the sense that a catalog of events and their time of occurrence are compiled purely on the geometry and time relationship of various targets and air defense units. These events are then sorted out by playing a simulated air defense game. The present report outlines an algorithm which is time oriented, and the interaction of the fire units and target is presented as the battle unfolds itself. The approach seems promising in that it may considerably reduce this central processor unit time and the bookkeeping. (Author).
This book, first published in 1981, offers a critical review of the techniques of mathematical modelling and their appropriate application to military operations research – the analysis of data (historical data, exercise and test results, and intelligence) in preparation for war. The virtues of sophistication via simplicity, and the beauty of the artful finesse, emerge as the signature of successful modelling.
In this book, the author deals with the mathematical modelling, nonlinear control and performance evaluation of a conceptual anti-aircraft gun based mobile air defence system engaging an attacking three-dimensional aerial target. This book is of interest to academic faculty, graduate students and industry professionals working in the fields of mathematical modelling and control, ground vehicles, mobile air defence systems and other related topics.
This book contains the proceedings of an interna tional symposium devoted to Modeling and Analysis of Defense Processes in the context of land/air warfare. It was sponsored by Panel VII (on Defense Applications of Operational Research) of NATO's Defense Research Group (DRG) and took place 27-29 July 1982 at NATO headquarters in Brussels. Except perhaps for the Theater-Level Gaming and Analysis Workshop, sponsored by the Office of united 1 states Naval Research in 1977 , this symposium was the first international scientific meeting on Operations Research/Systems Analysis in the area of land/air war fare since the conference on Modeling Land Battle Systems 2 for Military Planning sponsored by NATO's Special Pro gramme Panel on Systems Science in 1974. That conference dealt primarily with modeling small unit (company, bat talion) engagements and, to a lesser extent, large unit (corps, theater) campaigns with principal emphasis on attrition processes and movement in combat. It was considered as rather successful in that it revealed the state-of-the art around 1972 and identified problem areas and promising approaches for future developments. lWith regard to foreign attendance, this wo- shop was largely limited to participants from the United Kingdom and the Federal Republic of Germany (see L.J. Low: Theater-Level Gaming and Analysis Workshop for Force Planning, Vol II-Summary, Discus sion of Issues and Requirements for Research, SRI Report, May, 1981).
Annotation This text presents the various mathematical methods used in military operations research in one easy-to-use reference volume. The reader will find the calculations necessary to analyze all aspects of defense operations, from weapon performance to combat modeling. The text is so clearly written and organized that even newcomers to the field will find it useful. Included with the text is an updated version of Defense Analyses Software, a compendium of software subroutines that allow the reader to compute numerical values for functions or tables derived in the text. Each subroutine is provided with a detailed reference to the equation from which it was derived to ensure that its intended application is consistent with the assumptions used in the derivation. The third edition has a new chapter on theater missile defense based on the concept of layered defense with different strategies of allocating defense interceptors against short- or mid-range ballistic missiles.
The primary goal of this book is to assist the student to develop the skills necessary to effectively employ the ideas of mathematics to solve military problems. At the simplest level I seek to promote an understanding of why mathematics is useful as a language for characterizing the interaction and relationships among quantifiable concepts, or in mathematical terms, variables. The text explores models of terrorism, attrition, search, detection, missile defense, radar, and operational reliability Throughout the text I emphasize the notion of added value and why it is the driving force behind military mathematical modeling. For a given mathematical model to be deemed a success something must be learned that was not obvious without the modeling procedure. Very often added value comes in the form of a prediction. In the absence of added value the modeling procedure becomes an exercise not unrelated to digging a ditch simply to fill it back up again.
Defense Transportation: Algorithms, Models and Applications for the 21st Century contains papers divided into three general sections according to the title of this text: algorithms, models, and applications. The first section on algorithms contains papers that are theoretical in nature or contain new techniques that relate to Defense Transportation System (DTS) processes. A sampling of the papers contained in this section deals with group theoretic "tabu" search techniques, shortest path sailing distance algorithms, and strategic airlift model validation methods. The second section contains papers on various transportation models used throughout the DoD and transportation industry, as well as some newly developed transportation modelling methods that may eventually find their way into larger scale transportation models. A review of the major strategic mobility models is also contained in this section. The third section contains papers on various transportation applications that have been used to support various DTS studies and analyses. This section also contains a diverse set of topics, with articles ranging from a paper on North Atlantic Treaty Organization (NATO) strategic lift requirements to an analysis paper on theater reception, staging, onward movement, and integration. Preface by General John W. Handy, Commander, United States Transportation Command Focus on land, sea, and air transportation models and methods Manuscripts written by analysts and researchers active in the field and directly supporting the United States Defense Transportation System Research methods were instrumental in defining the in-place DTS that so efficiently deployed forces for Operation Enduring Freedom and Operation Iraqi Freedom
The use of force ratios is an extremely valuable planning tool for the U.S. Army. Analysis of force ratios provides planning staffs and commanders an indication of the required combat power for successful operations. While the use of force ratios is prevalent for analyzing maneuver force allocation, little effort has been made to apply this technique to air defense operations. The initial attempt at force ratio analysis within the air defense domain, Correlation of Forces Air (COFA), achieves limited success. However, the COFA process suffers from several shortcomings. This research develops a methodology that is a substantial improvement over COFA for air defense planning. Through the use of a designed experiment, the study demonstrates the possibility of modeling the modern air defense battle from simulation data. The experiment produced two distinct response equations modeling the effects of the various weapon systems on determining the remaining air defense and task force assets. The development of the means to assess these two success criteria serves as the basis for the construction of an alternative force allocation planning tool. This study introduces a spreadsheet based air defense force allocation planning tool. The tool rapidly produces point estimates of the responses for multiple combinations of air defense assets opposing an established air threat. Additionally, the tool generates the data needed to quickly construct prediction intervals for each predicted response. These capabilities mark a significant improvement in force ratio analysis for air defense operations. The spreadsheet planning tool equips the Air Defense Artillery commander with the information needed to make crucial force allocation decisions.