The Experts below are selected from a list of 79596 Experts worldwide ranked by ideXlab platform
Kedir Mamo Besher - One of the best experts on this subject based on the ideXlab platform.
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prioritizing health care Data traffic in a congested iot cloud network
Wireless Communications and Networking Conference, 2020Co-Authors: Sara Beitelspacher, Mohammad Mubashir, Kedir Mamo BesherAbstract:While routing through the Internet of Things (IoT) network, conventional healthcare Data packets do not get any special priority routing treatment. IoT is facing performance issues in packet Data transmission due to network congestion; with the conventional packet routing process, there is no guarantee that the patients’ health Data will be properly routed to doctors on time. This leaves the remote medical treatment at risk with possible threat to patients’ lives. In this paper, we studied the current healthcare packet transmission process in IoT and its performance issues in congested IoT networks, then proposed a solution to prioritize healthcare Data routing in congested IoT cloud networks. Our proposed system adds a healthcare Data Identifier in IP packet headers at the sensor level, modifies QoS software at the network router level, and prioritizes healthcare Data packet routing based on the healthcare Data Identifier seen at router QoS. Test Data shows promising results that may significantly benefit remote medical diagnostic process by reducing up to 80 percent latency. Additionally, it saves medical diagnostic cost, and more importantly, reduces the risk of losing human lives. From our analysis, further contribution includes opening up multiple avenues for research.
Binnemans Koen - One of the best experts on this subject based on the ideXlab platform.
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Manganese-containing ionic liquids: synthesis, crystal structures and electrodeposition of manganese films and nanoparticles
'Royal Society of Chemistry (RSC)', 2017Co-Authors: Sniekers Jeroen, Malaquias João, Van Meervelt Luc, Fransaer Jan, Binnemans KoenAbstract:Manganese(II)-containing ionic liquids were synthesized, in which the manganese atoms are coordinated by glymes (diglyme, triglyme, tetraglyme), pyridine-N-oxide, dimethylsulfoxide or N-alkylimidazoles (N-methylimidazole, N-butylimidazole and N-hexylimidazole). As anion, bis(trifluoromethanesulfonyl) imide (bistriflimide, Tf2N−), trifluoromethanesulfonate (triflate, OTf−) or methanesulfonate (mesylate, OMs−) were used. The compounds were characterized by CHN analysis, FTIR, DSC and single-crystal X-ray diffraction measurements. All manganese atoms were six-coordinate. It was found that the glymetype ligands were replaced by atmospheric water upon leaving the crystals open to the air for several days. The crystal structures of seven compounds were described in detail and the compounds with the lowest melting temperatures were tested as electrolytes for the electrodeposition of manganese (thin) films. An irreversible reduction wave from Mn(II) to Mn(0) and granular manganese deposits were observed for all compounds, except for liquid manganese salts with N-alkylimidazole ligands and bistriflimide anions, where the electrochemical formation of manganese nanoparticles was observed instead of the deposition of a manganese layer. However, for compounds with the same cation but with a triflate or methanesulfonate anion, manganese metal deposits were obtained, indicating that the nature of the anion has an important effect on the electrochemical properties of liquid metal salts.crosscheck: This document is CrossCheck deposited related_Data: Supplementary Information related_Data: Crystal Structure Data Identifier: Luc Van Meervelt (ORCID) Identifier: Koen Binnemans (ORCID) copyright_licence: The Royal Society of Chemistry has an exclusive publication licence for this journal history: Received 19 December 2016; Accepted 23 January 2017; Accepted Manuscript published 24 January 2017; Advance Article published 1 February 2017; Version of Record published 21 February 2017status: publishe
Sara Beitelspacher - One of the best experts on this subject based on the ideXlab platform.
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prioritizing health care Data traffic in a congested iot cloud network
Wireless Communications and Networking Conference, 2020Co-Authors: Sara Beitelspacher, Mohammad Mubashir, Kedir Mamo BesherAbstract:While routing through the Internet of Things (IoT) network, conventional healthcare Data packets do not get any special priority routing treatment. IoT is facing performance issues in packet Data transmission due to network congestion; with the conventional packet routing process, there is no guarantee that the patients’ health Data will be properly routed to doctors on time. This leaves the remote medical treatment at risk with possible threat to patients’ lives. In this paper, we studied the current healthcare packet transmission process in IoT and its performance issues in congested IoT networks, then proposed a solution to prioritize healthcare Data routing in congested IoT cloud networks. Our proposed system adds a healthcare Data Identifier in IP packet headers at the sensor level, modifies QoS software at the network router level, and prioritizes healthcare Data packet routing based on the healthcare Data Identifier seen at router QoS. Test Data shows promising results that may significantly benefit remote medical diagnostic process by reducing up to 80 percent latency. Additionally, it saves medical diagnostic cost, and more importantly, reduces the risk of losing human lives. From our analysis, further contribution includes opening up multiple avenues for research.
Sniekers Jeroen - One of the best experts on this subject based on the ideXlab platform.
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Manganese-containing ionic liquids: synthesis, crystal structures and electrodeposition of manganese films and nanoparticles
'Royal Society of Chemistry (RSC)', 2017Co-Authors: Sniekers Jeroen, Malaquias João, Van Meervelt Luc, Fransaer Jan, Binnemans KoenAbstract:Manganese(II)-containing ionic liquids were synthesized, in which the manganese atoms are coordinated by glymes (diglyme, triglyme, tetraglyme), pyridine-N-oxide, dimethylsulfoxide or N-alkylimidazoles (N-methylimidazole, N-butylimidazole and N-hexylimidazole). As anion, bis(trifluoromethanesulfonyl) imide (bistriflimide, Tf2N−), trifluoromethanesulfonate (triflate, OTf−) or methanesulfonate (mesylate, OMs−) were used. The compounds were characterized by CHN analysis, FTIR, DSC and single-crystal X-ray diffraction measurements. All manganese atoms were six-coordinate. It was found that the glymetype ligands were replaced by atmospheric water upon leaving the crystals open to the air for several days. The crystal structures of seven compounds were described in detail and the compounds with the lowest melting temperatures were tested as electrolytes for the electrodeposition of manganese (thin) films. An irreversible reduction wave from Mn(II) to Mn(0) and granular manganese deposits were observed for all compounds, except for liquid manganese salts with N-alkylimidazole ligands and bistriflimide anions, where the electrochemical formation of manganese nanoparticles was observed instead of the deposition of a manganese layer. However, for compounds with the same cation but with a triflate or methanesulfonate anion, manganese metal deposits were obtained, indicating that the nature of the anion has an important effect on the electrochemical properties of liquid metal salts.crosscheck: This document is CrossCheck deposited related_Data: Supplementary Information related_Data: Crystal Structure Data Identifier: Luc Van Meervelt (ORCID) Identifier: Koen Binnemans (ORCID) copyright_licence: The Royal Society of Chemistry has an exclusive publication licence for this journal history: Received 19 December 2016; Accepted 23 January 2017; Accepted Manuscript published 24 January 2017; Advance Article published 1 February 2017; Version of Record published 21 February 2017status: publishe
Mohammad Mubashir - One of the best experts on this subject based on the ideXlab platform.
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prioritizing health care Data traffic in a congested iot cloud network
Wireless Communications and Networking Conference, 2020Co-Authors: Sara Beitelspacher, Mohammad Mubashir, Kedir Mamo BesherAbstract:While routing through the Internet of Things (IoT) network, conventional healthcare Data packets do not get any special priority routing treatment. IoT is facing performance issues in packet Data transmission due to network congestion; with the conventional packet routing process, there is no guarantee that the patients’ health Data will be properly routed to doctors on time. This leaves the remote medical treatment at risk with possible threat to patients’ lives. In this paper, we studied the current healthcare packet transmission process in IoT and its performance issues in congested IoT networks, then proposed a solution to prioritize healthcare Data routing in congested IoT cloud networks. Our proposed system adds a healthcare Data Identifier in IP packet headers at the sensor level, modifies QoS software at the network router level, and prioritizes healthcare Data packet routing based on the healthcare Data Identifier seen at router QoS. Test Data shows promising results that may significantly benefit remote medical diagnostic process by reducing up to 80 percent latency. Additionally, it saves medical diagnostic cost, and more importantly, reduces the risk of losing human lives. From our analysis, further contribution includes opening up multiple avenues for research.
