Servicios en comunicaciones de emergencia
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DECLARATION OF ORGINIALITY OF SUBMITTED ARTICLE
With this document, I/We certify that the article submitted for possible publication in the institutional journal INGENIO MAGNO of the Research Center Alberto Magno CIIAM of the University Santo Tomás, Tunja campus, is entirely of my(our) own writing, and is a product of my(our) direct intellectual contribution to knowledge.
All data and references to completed publications are duly identified with their respective bibliographical entries and in the citations thus highlighted. If any adjustment or correction is needed, I(we) will contact the journal authorities in advance.
Due to that stated above, I(we) declare that the entirety of the submitted material is in accordance with applicable laws regarding intellectual and industrial property, and therefore, I(we) hold myself(ourselves) responsible for any complaint related to it.
If the submitted article is published, I(we) declare that I(we) fully relinquish publishing rights of the article to the University Santo Tomás, Tunja campus. As remuneration for this relinquishment of rights, I(we) declare my(our) agreement to receive two (2) copies of the edition of the journal in which my(our) article appears.
References
Stephan, K. D. (2007). We ́ve got to Talk Emergency Comunications and Engineering Ethics. IEEE.
Cicconeti, C., Akyildiz, I. F., & Lenzini, L. (2007). Bandwidth Balancing in Multi - Channel IEEE 802.16 Wireless Mesh Networks. IEEE Infocom, 2108-2116.
Wódczak, M. (2012). Cooperative Emergency Communications. IEEE.
Cicconetti, C., Akyildiz, I. F., & Lenzini, L. (2009). WiMsh: Asimple and Efficiente Tool for Simulating IEEE 802.16 Wireless Mesh Networks in Ns2. SIMU Tools.
Deqiang, F., & Yingying, F. (2010). Emergency Communications Specifications under Large- scale Disaster. IEEE.
Dilmaghani, R. B., & Rao, R. R. (2006). On Designing Communication Networks for Emergency situations. IEEE.
FOLTS, H. (2002). STANDARS INITIATIVES FOR EMERGENCY TELECOMMUNICACIONS SERVICE (ETS). IEEE COMMUNICATIONS MAGAZINE.
Gabrilovska, L. M., & Atanasovski, v. M. (2007). Enabling Communications in Emergency Scenarios. IEEE.
Gyoda, K., Nguten, N. H., Okada, K., & Takizawa, O. (2008). Analysis of Ad- Hoc Network Perfomance performance in emergency communication Models. IEEE 12 International Conference on Advanced Information Networking Applications, 1083-1088.
Wódczak, M. (2012). Deployment Aspects of Autonomic Cooperative Communications in emergency Networks. IEEE.
XING, B., DESHPANDE, M., MEHROTRA, S., & VENTKATASUBRAIMANIAN, N. (2010). GATEWAY DESIGNATION FOR TIMELY COMMUNICATIONS IN INSTANT MESH NETWORKS. IEEE.
YURALI, A., AHSANT, B., & RAHMAN, S. (2009). WIRELESS MESH NETWORKING: A KEY SOLUTION FOR EMERGENCY AND RURAL APPLICATIONS. SECOND CONFERENCE ON ADVANCES IN MESH NETWORKS. KENTUCKY.
Zárate, H. (2013). Guia para elaborar Planes Telecomunicaciones. Bogotá, Colombia: FOPAE. de
Zárate, H., & Ortiz, J. (2012). MESH NETWORKS, COMMUNICATIONS EMERGENCY RESPONSE. Ijet, 2.
Zhu, K., Zang, H., & Mukherjee, B. (2002). Design of WDM Mesh Network with Spane grooling Capability. IEEE.
JIN, Y., JO, J.-Y., KIM, Y., JIANG, Y., & GOWENS, J. (2009). A HYBRID TEMPORAL SPATIAL MULTICHANNEL ASSIGMENT SCHEME IN HETEROGENEOUS WIRELESS MESH NETWORKS. IEEE.