Buradasınız

Anasayfa » Content

ADAPTİF TAHMİN ALGORİTMA-TABANLI HEDEF İZLEME

ADAPTIVE ESTIMATION ALGORITHM-BASED TARGET TRACKING

Journal Name:

  • Deniz Harp Okulu Deniz Bilimleri ve Mühendisliği Dergisi

Publication Year:

  • 2009

Key Words:

Keywords (Original Language):

Author NameUniversity of Author
Abstract (2. Language): 
This study aimed at developing software that can detect moving target’s orbits by processing the images provided by a camera. This algorithm was used to estimate their future movements. Systems codes were developed in the Visual Basic programming language.
Bookmark/Search this post with
Abstract (Original Language): 
Bu çalışmada, kameradan gelen görüntüyü işleyerek, hareketli hedeflerin yörüngesini tespit eden bir yazılım geliştirilmiştir. Bu algoritma, hedeflerin gelecekteki hareketlerinin tahmininde kullanılmıştır. Sistem kodları Visual Basic ortamında geliştirilmiştir.
FULL TEXT (PDF): 
PDF icon arastirmax-adaptif-tahmin-algoritma-tabanli-hedef-izleme.pdf
  • 3
16-25
  • English

REFERENCES

References: 

[1] Economic Commission for Europe, World 2004 Robotics, Oxford University Press
(2004).
[2] Z. Yanning, Z. Jiangbin, Z. Rongchun, A Hybrid Method For Efficient Target
Recognition, Journal of Electronics, Vol. 20, No. 1, Jan, (2003).
[3] G. Edwards, P.T. Jeffrey, Target Recognition and Classification Using Neural
Networks, IEEE, 0-7803-7625-0/02 (2002).
[4] M. A. Glover, P.C. Haynes, C. J. Hollier, D.J. Lees, Temporal Sensors for Long Range
Target Recognition and Identification, 3rd EMRS DTC Techinical Conference, Edinburgh,
(2006).
[5] E. W. Libby, P. S. Maybeck, Application of Sequence Comparison Techniques to
Multisensor Data Fusion and Target Recognition, Proceedings of the 32nd Conference on
Decision and Control, San Antonio, Texas, December, (1993).
[6] Y. Nakabo, I. Ishii, M.Ishikawa, Moment Feature-Based Three-Dimensional Tracking
Using Two High Speed Vision Systems, Advanced Robotics,Vol. 17, Number 10, pp. 1041-
1056, (2003).
[7] M. Y. Cheng, M. C. Tsai, C. Y. Sun, Dynamic Visual Tracking Based on Multiple
Feature Matching and g-h Filter, Advanced Robotics, Vol. 20, Number 12, pp. 1401-1423,
(2006).
[8] S. Plermkamon, N. Afzulpurkar, An Intelligent Real-Time Tracking and Grasping
Systm for a Robotic Work Cell, Advanced Robotics, Vol. 17, Number 5, pp. 403-425,
(2003).
[9] T. S. .Li, S. Chang, W. Tong, Fuzzy Target Tracking Control of Autonomous Mobile
Robots by Using Infrared Sensors, IEEE Transactions on Fuzzy Systems, Vol. 12, No. 4,
1063-6706/04, August, (2004).
[10] C. Kia, M. R. Arshad, P. A. Wilson, Supervisory Fuzzy Learning Control for
Underwater Target Tracking, Proceedings of World Academy of Science, Engineering and
Technology, Vol. 6, 1307-6884, June, (2005).
[11] M. K. Ciliz, Combined Direct and Indirect Adaptive Control of Robot Manipulators
Using Multiple Models, Advanced Robotic,Vol. 20, Number 4, pp. 483-497 (2006).
[12] O. Parlaktuna, M. Ozkan, Adaptive Control of Free-Floating Space Robots in
Cartesian Coordinates, Advanced Robotics, Vol. 18, Number 9, pp. 943-959, (2004).
[13] M. Yağımlı, H. S. Varol, Low Cost Target Recognising and Tracking Sensory System
Mobile Robot, Journal of Naval Science and Engineering, Vol. 4, No. 1, pp. 17-26, (2008).
[14] A. Bedford, W. Fowler, Engineering Mechanics Statics, Addison-Wesley Publishing
Company, Inc, ISBN: 0-201-58193-0, p. 336, (1994).
[15] C. Grönwall, F. Gustafsson, M. Millnert, Ground Target Recognition Using Rectangle
Estimation, IEEE Transaction on Image Processing, Vol. 15, No. 11, November, (2006).
[16] K.J. Astrom, B. Wittenmark, Adaptive Control, Addison-Wesley Publishing Company,
Sweden.

Thank you for copying data from http://www.arastirmax.com