Jodra Luque Jose Luis

Jodra Luque, Jose Luis

Datos personales

Jodra Luque, Jose Luis

Dirección: Alda. de Urquijo s/n. C.P.: 48013. Bilbao
Despacho: 3A21
Email: joseluis.jodra@ehu.es
Teléfono: +34 94 601 3958
Fax: +34 94 601 4259

 

Títulos académicos

Titulación universitaria

Título: Ingeniería Informática
Centro: Universidad del País Vasco
Fecha de obtención: 2001

Doctorado

Título del programa: Tecnologías de la Información y Comunicaciones en Redes Móviles
Fecha de obtención DEA: 2005
Título de la tesis: -
Fecha de obtención: -

Masters

Título: Master en Administración y Gestión de Empresas (MBA)
Centro: Escuela de Administración de Empresas de Cataluña (EAE) adscrita a la Universidad Politécnica de Cataluña (UPC)
Fecha de obtención: Junio 2002

Artículos

Service Discovery Mechanism Over OLSR for Mobile Ad-hoc Networks

Autoría:
Jose Luis Jodra, Maribel Vara, Jose Ma Cabero, Josu Bagazgoitia
Año:
2006
Revista:
20th International Conference on Advanced Information Networking and Applications (AINA 2006). IEEE Computer Society - 18-20 April, Vienna, Austria
Descripción:

<span lang="en">This paper considers the subject of provisioning services in ad-hoc networks. Service discovery in these networks is challenging due to the lack of central infrastructure, limited resources and high mobility. We propose integrating this mechanism on the proactive OLSR (Optimized Link State Routing) protocol. A new message type, called Service Discovery Message (SDM), is added. This message will announce (servers) and request (clients) for services. Available local services will only be advertised once, with a specific lifetime, in order to avoid increasing the network overhead. These services will be stored in a local service cache that is maintained on each node. When a node wants to make use of a service, it will look on the cache. If it is not yet stored, it will send a query message. Simulation results are presented to demonstrate that the introduced packet overhead is insignificant compared with the standard OLSR protocol. These mechanisms must be efficient: every node should know the maximum number of services as possible. In networks with few nodes, the percentage of discovered services is around 90%. On the other hand, in bigger networks, was higher than the 80%. We believe that due to the obtained results, the following step consists on proving the protocol here presented in real scenarios using prototypes.</span>