Transmission Performance Analysis for Live Broadcasting over IPTV Service in Telemedicine Applications
The health care must be a right for people around the
world, but in order to guarantee the access to all, it is necessary to
overcome geographical barriers. Telemedicine take advantage of
Information Communication Technologies to deploy health care
services around the world. To achieve those goals, it is necessary to
use existing last mile solution to create access for home users, which
is why is necessary to establish the channel characteristics for those
kinds of services. This paper presents an analysis of network
performance of last mile solution for the use of IPTV broadcasting
with the application of streaming for telemedicine apps.
[1] World Health Organization, Telemedicine: opportunities and
developments in Member States: report on the second global survey on
eHealth 2009, ISBN 978 92 4 156414 4
[2] Guillen, E., Estupiñan, P., Lemus, C., Ramirez, L. “Analysis of security
requirements in telemedicine networks”. vol.21, n.2 , pp. 57-89, 2011
[3] Rong-Yu Qiao; Bengston, K.; Krumm-Heller, A.; Hogan, M., "A
Critical Care Telemedicine System on Broadband IP Networks,"
Communications, 2005 Asia-Pacific Conference on, pp.852,856 Oct.
2005
[4] Sangal, A.K.; Satyamurthy, L.S.; Bhatia, B.S.; Bhaskarnarayana, A.,
"Communication satellite based network for telemedicine in India,"
Enterprise Networking and Computing in Healthcare Industry, 2004.
HEALTHCOM 2004. Proceedings. 6th International Workshop on , vol.,
no., pp.149,151, 28-29 June 2004
[5] F. Lin Lai, X. Shao, R. Kanagasabai "Semantic IPTV Service Discovery
System," in IEEE Eighth World Congress on Services, 2012
[6] ITU-T IPTV standard, H.770, "Mechanisms for service discovery and
selection for IPTV services ", 2009.
[7] A. los Santos Aransay “Estado del arte en IPTV”, Universidad De Vigo:
Multimedia E Internet, Junio de 2009
[8] Zeadally, S.; Moustafa, H.; Siddiqui, F., "Internet Protocol Television
(IPTV): Architecture, Trends, and Challenges," Systems Journal, IEEE ,
vol.5, no.4, pp.518,527, Dec. 2011
[9] Vargas, A. "Tecnologia y Arquitectura de las Redes Òpticas GPON”
2009.
[10] A.N Zainal Abidin, W.R Wan Abdullah, A.Ramli, M.Z.M Jenu
“Interference Limit Proposal for ADSL2+ Using APD Methodology,”
Conference on Applied Electromagnetics, 2010
[11] Kiang, Jean-Fu. "Analysis of linear coaxial antennas." Antennas and
Propagation, IEEE Transactions on 46.5 (1998): 636-642.
[12] Chen, Walter Y., and Kenneth Kerpez. "Coaxial cable distribution plant
performance simulation for interactive multimedia TV." Global
Telecommunications Conference, 1995, IEEE. Vol. 1, 1995
[13] Skubic, Bjorn, et al. "A comparison of dynamic bandwidth allocation for
EPON, GPON, and next-generation TDM PON." Communications
Magazine, IEEE47.3 (2009): S40-S48.
[14] Goncalves, Glauco Estacio, et al. "On the use of an ADSL2+ testbed for
video quality assessment." Communications, 2009. ICC'09. International
Conference on. IEEE, 2009.
[15] Mikac, Vedran, Alen Bažant, and Z. Ilic. "Downstream bit rate
calculation for ADSL2+ loops limited with far-end crosstalk." Software,
Telecommunications and Computer Networks, SoftCOM 2007. 15th
International Conference on. IEEE, 2007.
[16] Ra, Sang-Jung, Dong-Joon Choi, and Namho Hur. "Design and
implementation of 6/12MHz switchable QAM modulator based on
DOCSIS 3.0." ICT Convergence (ICTC), 2011 International Conference
on. IEEE, 2011.
[17] Sdralia, Vaia. "Optimized recovery of DOCSIS networks using reserved
persistent ranging." Global Telecommunications Conference, 2001.
GLOBECOM'01. IEEE. Vol. 1, 2001.
[18] DATA, T. & RG6-CATV, S. (1000), 75 Ohm Flexible RG6-CATV
Coax Cable Triple Shielded with Black PVC (NC) Jacket,
www.pasternack.com.
[19] DATA, T. & RG59, S. (1000), 75 Ohm Flexible RG59 Coax Cable
Single Shielded with Black PVC (NC) Jacket, www.pasternack.com.
[20] Selmanovic, F.; Skaljo, E., "GPON in Telecommunication Network,"
Ultra Modern Telecommunications and Control Systems and Workshops
(ICUMT), 2010 International Congress on , vol., no., pp.1012,1016, 18-
20 Oct. 2010
[21] Townsley, W., et al. Layer Two Tunneling Protocol’L2TP’, August
1999. IETF Request for Comments. RFC 2661.
[22] Specification, Radio Frequency Interface. "Data-Over-Cable Service
Interface Specifications. DOCSIS 3.0" CM-SP-MULPI v3.0-I15-
110210, 2006.
[23] Fernando Boronat Seguí, Miguel García Pineda, Jaime Lloret Mauri
“IPTV: la televisión por Internet”
[24] Jiang, A. L. J.; Hooi, L. C. & Budiarto, R. “Performance of Qos
Mechanism for HD IPTV in Jumbo Ethernet Frame Ipv6~Network”
Second International Conference on Network Applications, Protocols
and Services, IEEE, 2010
[25] Mezzavilla, Marco, et al. "Evaluation of Jumboframes feasibility in LTE
access networks." Communications (ICC), 2013 IEEE International
Conference on. IEEE, 2013.
[26] D. Borman, S. Deering, and R. Hinden, RFC 2675: Ipv6 jumbograms,"
1999. 2.3.2
[27] Rodríguez Bejarano, Ivonne Stephanne. "Análisis del rendimiento a
nivel de enlace en los canales Wifi de siguiente generación y gigabit
ethernet, para jumbogramas IPV6." (2012).
[28] Lin, S., Costello, D. J., & Miller, M. J. "Automatic-repeat-request errorcontrol
schemes." IEEE Communications Magazine, 1985. pp 5-17.
[29] Schwartz, Mischa. Redes de telecomunicaciones: protocolos, modelado
y análisis. Addison-Wesley Iberoamericana, 1994.
[1] World Health Organization, Telemedicine: opportunities and
developments in Member States: report on the second global survey on
eHealth 2009, ISBN 978 92 4 156414 4
[2] Guillen, E., Estupiñan, P., Lemus, C., Ramirez, L. “Analysis of security
requirements in telemedicine networks”. vol.21, n.2 , pp. 57-89, 2011
[3] Rong-Yu Qiao; Bengston, K.; Krumm-Heller, A.; Hogan, M., "A
Critical Care Telemedicine System on Broadband IP Networks,"
Communications, 2005 Asia-Pacific Conference on, pp.852,856 Oct.
2005
[4] Sangal, A.K.; Satyamurthy, L.S.; Bhatia, B.S.; Bhaskarnarayana, A.,
"Communication satellite based network for telemedicine in India,"
Enterprise Networking and Computing in Healthcare Industry, 2004.
HEALTHCOM 2004. Proceedings. 6th International Workshop on , vol.,
no., pp.149,151, 28-29 June 2004
[5] F. Lin Lai, X. Shao, R. Kanagasabai "Semantic IPTV Service Discovery
System," in IEEE Eighth World Congress on Services, 2012
[6] ITU-T IPTV standard, H.770, "Mechanisms for service discovery and
selection for IPTV services ", 2009.
[7] A. los Santos Aransay “Estado del arte en IPTV”, Universidad De Vigo:
Multimedia E Internet, Junio de 2009
[8] Zeadally, S.; Moustafa, H.; Siddiqui, F., "Internet Protocol Television
(IPTV): Architecture, Trends, and Challenges," Systems Journal, IEEE ,
vol.5, no.4, pp.518,527, Dec. 2011
[9] Vargas, A. "Tecnologia y Arquitectura de las Redes Òpticas GPON”
2009.
[10] A.N Zainal Abidin, W.R Wan Abdullah, A.Ramli, M.Z.M Jenu
“Interference Limit Proposal for ADSL2+ Using APD Methodology,”
Conference on Applied Electromagnetics, 2010
[11] Kiang, Jean-Fu. "Analysis of linear coaxial antennas." Antennas and
Propagation, IEEE Transactions on 46.5 (1998): 636-642.
[12] Chen, Walter Y., and Kenneth Kerpez. "Coaxial cable distribution plant
performance simulation for interactive multimedia TV." Global
Telecommunications Conference, 1995, IEEE. Vol. 1, 1995
[13] Skubic, Bjorn, et al. "A comparison of dynamic bandwidth allocation for
EPON, GPON, and next-generation TDM PON." Communications
Magazine, IEEE47.3 (2009): S40-S48.
[14] Goncalves, Glauco Estacio, et al. "On the use of an ADSL2+ testbed for
video quality assessment." Communications, 2009. ICC'09. International
Conference on. IEEE, 2009.
[15] Mikac, Vedran, Alen Bažant, and Z. Ilic. "Downstream bit rate
calculation for ADSL2+ loops limited with far-end crosstalk." Software,
Telecommunications and Computer Networks, SoftCOM 2007. 15th
International Conference on. IEEE, 2007.
[16] Ra, Sang-Jung, Dong-Joon Choi, and Namho Hur. "Design and
implementation of 6/12MHz switchable QAM modulator based on
DOCSIS 3.0." ICT Convergence (ICTC), 2011 International Conference
on. IEEE, 2011.
[17] Sdralia, Vaia. "Optimized recovery of DOCSIS networks using reserved
persistent ranging." Global Telecommunications Conference, 2001.
GLOBECOM'01. IEEE. Vol. 1, 2001.
[18] DATA, T. & RG6-CATV, S. (1000), 75 Ohm Flexible RG6-CATV
Coax Cable Triple Shielded with Black PVC (NC) Jacket,
www.pasternack.com.
[19] DATA, T. & RG59, S. (1000), 75 Ohm Flexible RG59 Coax Cable
Single Shielded with Black PVC (NC) Jacket, www.pasternack.com.
[20] Selmanovic, F.; Skaljo, E., "GPON in Telecommunication Network,"
Ultra Modern Telecommunications and Control Systems and Workshops
(ICUMT), 2010 International Congress on , vol., no., pp.1012,1016, 18-
20 Oct. 2010
[21] Townsley, W., et al. Layer Two Tunneling Protocol’L2TP’, August
1999. IETF Request for Comments. RFC 2661.
[22] Specification, Radio Frequency Interface. "Data-Over-Cable Service
Interface Specifications. DOCSIS 3.0" CM-SP-MULPI v3.0-I15-
110210, 2006.
[23] Fernando Boronat Seguí, Miguel García Pineda, Jaime Lloret Mauri
“IPTV: la televisión por Internet”
[24] Jiang, A. L. J.; Hooi, L. C. & Budiarto, R. “Performance of Qos
Mechanism for HD IPTV in Jumbo Ethernet Frame Ipv6~Network”
Second International Conference on Network Applications, Protocols
and Services, IEEE, 2010
[25] Mezzavilla, Marco, et al. "Evaluation of Jumboframes feasibility in LTE
access networks." Communications (ICC), 2013 IEEE International
Conference on. IEEE, 2013.
[26] D. Borman, S. Deering, and R. Hinden, RFC 2675: Ipv6 jumbograms,"
1999. 2.3.2
[27] Rodríguez Bejarano, Ivonne Stephanne. "Análisis del rendimiento a
nivel de enlace en los canales Wifi de siguiente generación y gigabit
ethernet, para jumbogramas IPV6." (2012).
[28] Lin, S., Costello, D. J., & Miller, M. J. "Automatic-repeat-request errorcontrol
schemes." IEEE Communications Magazine, 1985. pp 5-17.
[29] Schwartz, Mischa. Redes de telecomunicaciones: protocolos, modelado
y análisis. Addison-Wesley Iberoamericana, 1994.
@article{"International Journal of Electrical, Electronic and Communication Sciences:71243", author = "Jenny K. Ubaque and Edward P. Guillen and Juan S. Solórzano and Leonardo J. Ramírez", title = "Transmission Performance Analysis for Live Broadcasting over IPTV Service in Telemedicine Applications", abstract = "The health care must be a right for people around the
world, but in order to guarantee the access to all, it is necessary to
overcome geographical barriers. Telemedicine take advantage of
Information Communication Technologies to deploy health care
services around the world. To achieve those goals, it is necessary to
use existing last mile solution to create access for home users, which
is why is necessary to establish the channel characteristics for those
kinds of services. This paper presents an analysis of network
performance of last mile solution for the use of IPTV broadcasting
with the application of streaming for telemedicine apps.", keywords = "Telemedicine, IPTV, GPON, ADSL2+, COAXIAL,
Jumbogram.", volume = "9", number = "10", pages = "1183-5", }
