Browsing by Author "Tabish, Rohan"
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Item A 3G/WiFi-enabled 6LoWPAN-based U-healthcare system for ubiquitous real-time monitoring and data logging(IEEE Computer Society, 2014) Tabish, Rohan; Ghaleb, Abdulaziz M.; Hussein, Rima; Touati, Farid; Mnaouer, Adel Ben; Khriji, Lazhar; Rasid, Mohd Fadlee A.Ubiquitous healthcare (U-healthcare) systems are expected to offer flexible and resilient high-end technological solutions enabling remote monitoring of patients health status in real-time and provisioning of feedback and remote actions by healthcare providers. In this paper, we present a 6LowPAN based U-healthcare platform that contributes to the realization of the above expectation. The proposed system comprises two sensor nodes sending temperature data and ECG signals to a remote processing unit. These sensors are being assigned an IPv6 address to enable the Internet-of-Things (IoT) functionality. A 6LowPAN-enabled edge router, connected to a PC, is serving as a base station through a serial interface, to collect data from the sensor nodes. Furthermore, a program interfacing through a Serial-Line-Internet-Protocol (SLIP) and running on the PC provides a network interface that receives IPv6 packets from the edge router. The above system is enhanced by having the application save readings from the sensors into a file that can be downloaded by a remote server using a free Cloud service such as UbuntuOne. This enhancement makes the system robust against data loss especially for outdoor healthcare services, where the 3G/4G connectivity may get lost because of signal quality fluctuations. The system provided a proof of concept of successful remote U-healthcare monitoring illustrating the IoT functionality and involving 3G/4G connectivity while being enhanced by a cloud-based backup. © 2014 IEEE.Item A comparative analysis of BLE and 6LoWPAN for U-HealthCare applications(Institute of Electrical and Electronics Engineers Inc., 2013) Tabish, Rohan; Mnaouer, Adel Ben; Touati, Farid; Ghaleb, Abdulaziz M.For decades, there exist a variety of low-power wireless technologies deployed for healthcare applications such as Zigbee/IEEE802.15.4, Bluetooth, ANT, NFC, IrDA. However, the recently announced Bluetooth Low Energy (BLE) technology claims to offer many new compelling features and is expected to get wide adoption by many mobile manufacturers around the world and hence be included in daily life mobile devices. Therefore, it is important to provide future adopters with a thorough yet insightful evaluation of this technology as contrasted to competing ones in the market today. In this paper, we present such evaluation from an experimental point of view as well as referring to technical specifications from manufacturers. The discussion is geared toward assessing the extent to which theses technologies can meet the stringent requirements for u-healthcare applicability. BLE and 6LoWPAN showed greater potentials for such applicability in terms of power demand, bit rate and latency. Nevertheless, BLE was found to be most robust to obstacles and was operable using single coin cell. © 2013 IEEE.Item Towards u-health : an indoor 6LoWPAN based platform for real-time healthcare monitoring(Institute of Electrical and Electronics Engineers Inc., 2013) Touati, Farid; Tabish, Rohan; Mnaouer, Adel BenUbiquitous healthcare is the key to handle the challenges of the growing population around the world. A variety of u-healthcare systems have been developed using various short-range technologies and proprietary protocols which include Zigbee and bluetooth. With all these protocols, interoperability of smart devices remains a challenge. 6LoWPAN as an open standard has recently evolved to provide one common platform on the top of IEEE802.15.4 for low power devices and to mitigate this interoperability problem. In this paper, we present a novel 6LoWPAN based communication platform for next-generation u-healthcare system. The system integrates three nodes forwarding data to an edge router in order to provide real-time monitoring of the patient's ECG, temperature, and acceleration. A PC connected to the edge router acts as a two-directional Gateway between 6LoWPAN and internet. A new gateway application, listening to UDP packets from the 6LoWPAN nodes via the edge router along with any TCP client request from the internet, is developed. Thereby, any remote PC can connect to the gateway using TCP/IP by just connecting to the IP address and dedicated port of the gateway, fostering then ubiquity as well as Internet of Things. Nevertheless, the user can send instructions to any node where the application running on the gateway translates the command to a particular node. In our case, we used a Labview program to provide this connectivity. The whole system was tested successfully for different ECG rates using an ECG simulator. The received waveforms were found identical to those shown by a high-resolution scope wired to the ECG signals. © 2013 IEEE.