Estimation et Détection des Signaux Radar

Topic outline

• Fiche de contact

  Collapse all Expand all

  

  Enseignant: Pr. MEZACHE Amar

  Email: amar.mezache@univ-msila.dz

  Mobile: 0661 47 72 62
  

  Semestre 2 :
  

  Unité d’enseignement: UED 1.1
  Matière 1 : Estimation et détection des signaux radar
  VHS : 22h30 (Cours: 1h30)
  Crédits : 1
  Coefficient : 1

  
  

  
  

• objectifs du cours

  In recent decades, the  development of electronics has played
  

  an important role, in the development of telecommunications equipment and especially in the the military domain. This progress showed other prospects, which consisted in inventing the

  radar system to detect hostile air and sea or land targets with

  several primitive and advanced methods. The main goal is to determine their angle azimuth and their respective distances.

  
  

• Chapter 1: Radar Priciples
  • 

    File

    Chapter 1 File

    Mark as done
  • 

    File

    Questions File

    Mark as done

• Chapter 2: Targets Detection
  • 

    File

    Chapter 2 File

    Mark as done
  • 

    File

    Exercises File

    Mark as done

• References

  [1] Barkat. M (2005), “Signal detection and estimation“, Second Edition, Artech House, Boston, MA, SA.
  

  [2] Chabbi. S (2008), “Détection adaptative à censure automatique basée sur les statistiques d’ordre en milieux non-Gaussiens”, Mémoire de Magister, Université de Constantine, Algérie.

  [3] Finn. H. M and Johson. R. S (1968), ‘’Adaptive detection mode with threshold control as a function of spatially sampled clutter estimates,’’ RCA Reveiew, Vol. 29, n.°3, pp. 414-464.

  [4] Gandhi. P. P and Kassam. S. A (1988), “Analysis of CFAR processors in non homogeneous background”, IEEE Transactions on Aerospace and Electronic Systems, Vol. 24, pp. 427-445.

  [5] Hansen. V. G (1973), ’’Constant false alarm rate processing in search radars,’’ IEE Conference. Publ. 105,  IEE, London, pp. 325-332.

  [6] Hansen. V. G and J. H. Sawyers (1980), “Detectability Loss due to Greatest-of Selection in a Cell Averaging CFAR”, IEEE Transactions on Aerospace and Electronic Systems, Vol. AES-16, pp. 115-118.

  [7] Prastitis. L. A (1993), ‘’On adaptive censored CFAR detection’’, Phd Thesis, New Jersey Institute of Technology, University Heights Newark.

  [8] Rickard. J. T and Dillard. G. M (1977), ”Adaptive detection algorithms for multiple target situations,” IEEE Transactions on Aerospace and Electronic Systems, Vol. AES-13, pp. 338-343.

  [9] Rohling. H (1983), “Radar CFAR thresholding in clutter and multiple target situations,” IEEE Transactions on Aerospace and Electronic Systems, Vol. AES-19, pp. 608-621.

  [10] Sahed. M (2015), ‘’Détection automatique CFAR en environnement non Gaussien’’, Thèse de doctorat en sciences, Université Mohamed-Boudiaf M’sila, Département d’Electronique.

  [11] Swerling, P (1954), “Probability of Detection for Fluctuating Targets”, ASTIA Document Number AD 80638.

  [12] Weiss, M (1982), “Analysis of some modified Cell-Averaging processors in multiple target situations“, IEEE Transactions on Aerospace and Electronic  Systems, Vol. AES-18, n°. 1, pp. 102-114.