Coğrafi Analiz Sistemi (CAS) ile Askeri Karar Verme Süreci Etkinliğinin Artırılması

Abstract

Geography is one of the most important subjects to be considered in military operations. Analysis of terrain is critical to deploy maneuvering troops, logistical installation and needed resources appropriately. The GIS has been widely used by military decision makers in operation planning. Decision makers critical information requirements have been increased as development of sensor systems. In this study, Geographical Analysis System (GeoAS), a system developed by General Command of Mapping (GKM), was used to asses the “geographical region” which has on importance in military decision making process (MDMP), intelligence preparation of battlefield (IPB) and intelligence summary for transmitting UAS images simultaneouly to geographical analysis system and air defence threat analysis. This method is aimed to improve the efficiency of the operations

Coğrafi Analiz Sistemi (CAS) ile Askeri Karar Verme Süreci Etkinliğinin Artırılması

Öz

Coğrafya, bir askeri birliğin yapacağı harekâtta değerlendirilmesi gereken en önemli konulardan birisidir. Manevra birlikleri, lojistik tesisler ve ihtiyaç duyulan kaynakların en uygun şekilde konuşlanması için arazinin analiz edilmesine ihtiyaç vardır. Coğrafi Bilgi Sistemleri (CBS), birçok alanda olduğu gibi, askeri karar vericiler tarafından harekât planlamasında kullanılmaya başlanmıştır. Sensör sistemlerinin gelişmesi, askeri karar vericilerin harekât alanıyla ilgili hassas bilgiye olan ihtiyacını artırmıştır.  Bu çalışmada Harita Genel Komutanlığı tarafından geliştirilen Coğrafi Analiz Sistemi (CAS), askeri harekâtın planlamasında önemli yere sahip “coğrafi bölge” değerlendirilmesi kapsamında; muharebe sahası istihbarat hazırlığı (MSİH), istihbarat özeti (İSÖZ), İHA görüntülerinin CAS’a anlık olarak aktarılması ve hava savunma tehdit analizinde kullanılmıştır. Bu sayede muhtemel harekâtın etkinliğinin artırılması hedeflenmiştir.

Anahtar Kelimeler

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References

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28. Chou, S. Y., Chang, Y. H.,Shen, C. Y., 2008, “A fuzzy simple additive weighting system under group decision-making for facility location selection with objective/subjective attributes”, European Journal of Operational Research,189(1), 132-145
29. Chauhan, A., Vaish, R., 2013, “Hard coating material selection using multi-criteria decision making”, Materials and Design, 44, 240-245
30. Özdağoğlu, A., 2014, “Normalizasyon Yöntemlerinin Çok Ölçütlü Karar Verme Sürecine Etkisi–Moora Yontemi Incelemesi”, Ege Academic Review,14(2), 283-294
31. Star J. ve Estes J., 1990, “Geographical Information Systems: An Introduction”, Prentice-Hall, New Jersey, 24-27
32. Longley P. A., Goodchild M. F., Maguire D. J., Rhind, D. W., 2000, “Geographic Information Systems and Science”, 38-43
33. Antenucci, J. C., Brown, K., Croswell, P. L., Kevany, M. J., Archer, H., 1991, “Geographic Information Systems: a guide to the technology” New York, NY
34. Coğrafi sistemlerin kullanıldığı büyük projeler, http://mapaktif.com/cografi-bilgi-sistemlerinin-kullanildigi-buyuk-projeler/, Erişim Tarihi: 21 Kasım 2014
35. Parker, S., Specialist III, G.I.S., 2008, “Geographic Information Systems”
36. Miller, H. J., Shaw, S. L., 2001, “Geographic information systems for transportation: principles and applications” Oxford University Press
37. Bonham-Carter, G., 1994, “Geographic information systems for geoscientists: modelling with GIS” (No. 13). Elsevier
38. Konecny, G., 2014, “Geoinformation: remote sensing, photogrammetry and geographic information systems”, CRC Press
39. Mackaness, W. A., Ruas, A., Sarjakoski, L. T. (Eds.). 2011, “Generalisation of geographic information: cartographic modelling and applications”, Elsevier
40. Fotheringham, S., Rogerson, P. (Eds.).,2013, “Spatial analysis and GIS”, CRC Press
41. Peng, Y., Zhang, Y., Tang, Y., Li, S., 2011, “An incident information management framework based on data integration, data mining, and multi-criteria decision making”, Decision Support Systems, 51(2), 316-327
42. Martin, D., 1996, “ Geographic information systems: socioeconomic applications” Psychology Press
43. CAS (Coğrafi Analiz Sistemi) Kullanım Kılavuzu, 2013, Harita Genel Komutanlığı, Ankara
44. Coğrafi Bilgi Sistemleri Kullanım Alanları, https://anahtar.sanayi.gov.tr/ tr/ news/ 1841, Erişim Tarihi: 19 Kasım 2014
45. US Army, U. S. Field Manual 101-5, 1997, “Staff Organization and Operations”, Washington, DC: US Government Printing Office (2 defa)
46. US Army, Field Manual. FM 100-5, 1986, “Operations”, Washington, DC. US Government Printing Office
47. US Army, Field Manuel, FM 2.0, 2014, “Intelligence Operations”, Washington, DC. US Government Printing Office
48. Zavadskas, E. K., Turskis, Z., Dejus, T., & Viteikiene, M. (2007). Sensitivity analysis of a simple additive weight method. International Journal of Management and Decision Making, 8(5-6), 555-574.
49. Shakouri, H., Nabaee, M., & Aliakbarisani, S. (2014). A quantitative discussion on the assessment of power supply technologies: DEA (data envelopment analysis) and SAW (simple additive weighting) as complementary methods for the “Grammar”. Energy, 64, 640-647.
50. Afshari, A., Mojahed, M., & Yusuff, R. M. (2010). Simple additive weighting approach to personnel selection problem. International Journal of Innovation, Management and Technology, 1(5), 511-515.