Inhalt des Dokuments
Graduated: 2007, Higher Institute of Industry (HII)-Libya, M.Sc.
Asma Elmangoush received her Msc in Electronic and Computer Engineering form the Higher Institute of Industry (HII) -Libya, where she works as an Assistant Lecturer since 2007 responsible in teaching various courses (e.g Computer Networks, C++ Programmming). Also she is a member of the communication research group@ HII. She has been active in various projects within this group in NGN topics. Her research interests are Quality of Service and IMS. In addition she was a member of consulting team for the Misurata Free Zone (MFZ) Company, the team was responsible to and follow-up the project of building the communication networks and security system in MFZ.
She has joined the team of Prof. Magedanz since October 2011.
For the last decades, we have witnessed new
technological evolutions in the Internet, wireless networks, and
sensors fields. Providing the ablity to build smart systems that
improve quality of life and enhance environment management. However,
most available smart systems are implemented based on proprietary
hardware/software solutions, restricting interoperation, which is
required for large-scale Smart City solutions. To enable the
implementation of a general Smart City solution, a platform is needed
to fulfill the communication requirements between heterogeneous access
technologies. Machine-to-Machine (M2M) communication platforms will
take the role of controlling the communication between all connected
objects and systems, constructing the Internet of Things (IoT).
Currently Asma is member of the OpenMTC team at the Fraunhofer Institute FOKUS competence center NGNI, devolping a prototype implementation of an M2M middleware aiming to provide a standard-compliant platform for Smart City and M2M services.
She is implementing a Software development kit (SDK) for the OpenMTC toolkit, that make the core assets and service capabilities available to third party developers. The OpenMTC SDK consists of a set of high-level APIs which hide internal system details and allow the developer to concentrate on implementing functional M2M application logic.
|Author||Corici, Andreea Ancuta and Shrestha, Ranjan and Carella, Giuseppe and Elmangoush, Asma and Steinke, Ronald and Magedanz, Thomas|
|Title of Book||2015 3rd International Conference on Information and Communication Technology (ICoICT)|
|Abstract||The current trend of running software components on top of virtual machines in cloud platforms is gaining more momentum as it reduces the deployment time and operational costs in comparison to running them on dedicated hardware. By providing elasticity through orchestration, this approach brings even more value taking advantage of the resources on peak times and saving energy when the load is not significant. However, such an approach brings some challenges due to the dynamic instantiation of new service components: it is necessary to always announce clients changes in the backend infrastructure. In this paper, we propose a solution for dynamically communicating parameters provisioning between M2M endpoints using a device management protocol. Two device management protocols were compared and OMA LWM2M was chosen for its energy efficiency. The proposed solution is based on the OpenMTC toolkit and enables safe and reliable communication establishment from one M2M endpoint to another one elastically deployed in the cloud.|