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Contreras, Martha Fabiola
- Prototype for Consultation Cloud IoT Supported Medical Records on RFID Technology
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Authors
Affiliations
1 Escuela de Ciencias Basicas Tecnologia e Ingenieria (ECBTI), Universidad Nacional Abierta y a Distancia; Carrera 27 Nro. 40-43. Bucaramanga, CO
2 Universidad de Sucre, Cra 28 # 5-267, Sincelejo, CO
1 Escuela de Ciencias Basicas Tecnologia e Ingenieria (ECBTI), Universidad Nacional Abierta y a Distancia; Carrera 27 Nro. 40-43. Bucaramanga, CO
2 Universidad de Sucre, Cra 28 # 5-267, Sincelejo, CO
Source
Indian Journal of Science and Technology, Vol 11, No 42 (2018), Pagination: 1-18Abstract
Background/Objectives: Telemedicine can be considered IoT evolution of the telecommunications-oriented provision of health services remotely sector. This development implies that it is necessary to have specialized with ability to articulate a consultation service, monitoring or acquisition of information related to the health sector, with ongoing communication processes via Internet devices. The aim of this paper is to design a device capable of consulting the medical history of a patient, which is hosted in the cloud under a scheme of IoT is present. Methods: The prototype is supported under the use of a client / server architecture, which uses an Arduino as processing element, MFRC522 cards MIFIRE operating in the 13.56MHz band respectively. Results: The results obtained allowed to demonstrate the possibility of developing such solutions at low cost, thereby facilitating its use and overcrowding in all places where this service is required. Application/Improvements: The prototype developed can be considered as a strategy of technological innovation in the field of telemedicine supported in IoT, because that will reveal a fairly quick and efficient medical history of the patient way for any eventuality or routine procedure in order optimize service processes and delivery of services by health agencies. In future related work it is recommended to establish alternative mechanisms of connectivity and storage of information, which allow reaching higher levels of system performance on a large scale.References
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- Modeling and Characterization Traffic Voice, Video, Data and Telemetry under Pareto Distribution-Oriented Networks have on Power Line Communications
Abstract Views :212 |
PDF Views:0
Authors
Affiliations
1 Escuela de Ciencias Basicas Tecnologia e Ingenieria (ECBTI), Universidad Nacional Abierta y a Distancia; Carrera 27 Nro. 40-43. Bucaramanga, CO
2 Universidad de Sucre, Cra28 # 5-267, Sincelejo, CO
1 Escuela de Ciencias Basicas Tecnologia e Ingenieria (ECBTI), Universidad Nacional Abierta y a Distancia; Carrera 27 Nro. 40-43. Bucaramanga, CO
2 Universidad de Sucre, Cra28 # 5-267, Sincelejo, CO
Source
Indian Journal of Science and Technology, Vol 11, No 42 (2018), Pagination: 1-12Abstract
Background/Objectives: To date, it has not found a traffic model that allows characterizing different kinds of service, which describe one self-similar behavior HAN (Home Area Network) networks on PLC (Power Line Communications). The aim of the article is to propose a model to characterize traffic classes such as voice, video, data and telemetry, describing a behavior autosimilar supported on the Pareto distribution. Methods: The Pareto distribution is a distribution type that is well aligned with autosimilar type of traffic. Pareto distribution is used as a source of network traffic, which has a bursty behavior, which can be repeated continuously within the network. To estimate the parameters describing the Pareto distribution for each class of service, a theoretical and experimental analysis was performed to determine the minimum rate, average and maximum, required to describe a source of real traffic. Topic Relevance: Although there have been various PLC networks related to work, had not seen a traffic model that allows to represent different kinds of service HAN networks. Aspects that can be considered useful in scenarios requiring evaluate aspects related to QoS (Quality of Service). Results: The proposed model allowed mathematically adequately represent different kinds of service, looking for the best estimate of the self-similar behavior present in the networks have and model the behavior that packets may occur within the PLC network under an innovative multi-multiclass stage. Application/Improvements: The proposed model can be used in practical and research scenarios as a strategy to evaluate the performance of networks and estimating the bandwidth required for various classes of service, in order to provide adequate levels of QoS during the provision of services such as voice, video, data and telemetry. It is suggested to evaluate other probability distributions, with the aim of identifying new strategies for modeling the self-similar traffic.References
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