[ L’OPTIMISATION DE GESTION DE LA BANDE PASSANTE DANS UNE PROJECTION: CAS DE LA VIDEOSURVEILLANCE ]
Volume 27, Issue 1, October 2016, Pages 23–30
Germain FOMULAC MISIRAGENDA1
1 Licencié en Informatique, Assistant au département de Mathématique, Institut Supérieur Pédagogique d’Idjwi, RD Congo
Original language: French
Copyright © 2016 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
In this reflexion, we want to manage the transmission channels of images (increase, multiply, limit or decrease the access path or transmission), describe possible methods of transmission and access to the image in order to have an idea about the amount of frames to send per second to maximize the information of highway during a projection in a video surveillance; especially when several stations negotiate live image at the same time. We tempted to outline the procedure of optimization of bandwidth. Multicast, multiple streams and video compression are three innovative methods that we have offered to users in order to optimize bandwidth management in the application of video surveillance. With software of video management of his choice, the user can maximize the function of his camera installations, to further profit a reduction of bandwidth requirements.
Author Keywords: Optimisation, bandwidrh, projection, videosurveillance.
Volume 27, Issue 1, October 2016, Pages 23–30
Germain FOMULAC MISIRAGENDA1
1 Licencié en Informatique, Assistant au département de Mathématique, Institut Supérieur Pédagogique d’Idjwi, RD Congo
Original language: French
Copyright © 2016 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Abstract
In this reflexion, we want to manage the transmission channels of images (increase, multiply, limit or decrease the access path or transmission), describe possible methods of transmission and access to the image in order to have an idea about the amount of frames to send per second to maximize the information of highway during a projection in a video surveillance; especially when several stations negotiate live image at the same time. We tempted to outline the procedure of optimization of bandwidth. Multicast, multiple streams and video compression are three innovative methods that we have offered to users in order to optimize bandwidth management in the application of video surveillance. With software of video management of his choice, the user can maximize the function of his camera installations, to further profit a reduction of bandwidth requirements.
Author Keywords: Optimisation, bandwidrh, projection, videosurveillance.
Abstract: (french)
Dans cette réflexion, nous voulons gérer les canaux de transmission d’images (augmenter, multiplier, limiter ou diminuer le chemin d’accès ou de transmission), décrire les méthodes possibles de transmission et d’accès à l’image afin d’avoir l’idée sur la quantité de trames à envoyer par seconde pour maximiser l’autoroute de l’information lors d’une projection en vidéosurveillance ; surtout lorsque plusieurs stations sollicitent l’image en direct et au même moment. Nous avons tenté de schématiser la procédure d’optimisation de la bande passante. La multidiffusion, les flux multiples et la compression vidéo sont trois méthodes novatrices que nous avons offertes aux utilisateurs pour optimiser la gestion de la bande passante dans les applications de vidéosurveillance. Avec un logiciel de gestion vidéo de son choix, l’utilisateur peut ainsi maximiser les fonctions de ses installations caméra, pour profiter d'avantages une réduction des exigences de bande passante.
Author Keywords: Optimisation, Bande passante, projection, Vidéosurveillance.
How to Cite this Article
Germain FOMULAC MISIRAGENDA, “OPTIMISATION OF BANDWIDTH MANAGEMENT IN A PROJECTION: CASE OF A VIDEO SURVEILLANCE,” International Journal of Innovation and Scientific Research, vol. 27, no. 1, pp. 23–30, October 2016.