The Experts below are selected from a list of 861 Experts worldwide ranked by ideXlab platform
V. Elamaran - One of the best experts on this subject based on the ideXlab platform.
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Exploring DNS, HTTP, and ICMP Response Time Computations on Brain Signal/Image Databases using a Packet Sniffer Tool
IEEE Access, 2018Co-Authors: V. Elamaran, G. Venkat Babu, V. S. Balaji, Cristhian Figueroa, Nivethitha Arunkumar, Jorge Gomez, Gustavo Ramirez-gonzalezAbstract:Neurological signal processing is of significance not only the physiologist doing research and the clinician investigating patients but also to the biomedical engineer who is needed to collect, process, and interpret the physiological signals by prototyping systems and algorithms for their manipulations. While it is a fact that there does hold immense stuff (material) on the subject of digital neurological signal processing, however, it is dispersed in various scientific, technological, and physiological journals, databases also in various international conference proceedings. Consequently, it is a quite hard, more time-consuming, and often tiresome job, especially to the stranger to the domain. Hence, this study concentrates on how much time would require to access the databases belong to the brain signal/image collections, neurological signals, etc. The sixteen US-based Servers, ten UK-based Servers, and the five Servers from other countries are included in this study. Mainly, the domain name system, hyper text transfer protocol, and the Internet control message protocol query/response times are analyzed using a popular Packet Sniffer called Wireshark.
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exploring dns http and icmp response time computations on brain signal image databases using a Packet Sniffer tool
IEEE Access, 2018Co-Authors: V. Elamaran, V. S. Balaji, Cristhian Figueroa, Nivethitha Arunkumar, Jorge Gomez, Venkat G Babu, Gustavo RamirezgonzalezAbstract:Neurological signal processing is of significance not only the physiologist doing research and the clinician investigating patients but also to the biomedical engineer who is needed to collect, process, and interpret the physiological signals by prototyping systems and algorithms for their manipulations. While it is a fact that there does hold immense stuff (material) on the subject of digital neurological signal processing, however, it is dispersed in various scientific, technological, and physiological journals, databases also in various international conference proceedings. Consequently, it is a quite hard, more time-consuming, and often tiresome job, especially to the stranger to the domain. Hence, this study concentrates on how much time would require to access the databases belong to the brain signal/image collections, neurological signals, etc. The sixteen US-based Servers, ten UK-based Servers, and the five Servers from other countries are included in this study. Mainly, the domain name system, hyper text transfer protocol, and the Internet control message protocol query/response times are analyzed using a popular Packet Sniffer called Wireshark.
Gustavo Ramirezgonzalez - One of the best experts on this subject based on the ideXlab platform.
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exploring dns http and icmp response time computations on brain signal image databases using a Packet Sniffer tool
IEEE Access, 2018Co-Authors: V. Elamaran, V. S. Balaji, Cristhian Figueroa, Nivethitha Arunkumar, Jorge Gomez, Venkat G Babu, Gustavo RamirezgonzalezAbstract:Neurological signal processing is of significance not only the physiologist doing research and the clinician investigating patients but also to the biomedical engineer who is needed to collect, process, and interpret the physiological signals by prototyping systems and algorithms for their manipulations. While it is a fact that there does hold immense stuff (material) on the subject of digital neurological signal processing, however, it is dispersed in various scientific, technological, and physiological journals, databases also in various international conference proceedings. Consequently, it is a quite hard, more time-consuming, and often tiresome job, especially to the stranger to the domain. Hence, this study concentrates on how much time would require to access the databases belong to the brain signal/image collections, neurological signals, etc. The sixteen US-based Servers, ten UK-based Servers, and the five Servers from other countries are included in this study. Mainly, the domain name system, hyper text transfer protocol, and the Internet control message protocol query/response times are analyzed using a popular Packet Sniffer called Wireshark.
Gustavo Ramirez-gonzalez - One of the best experts on this subject based on the ideXlab platform.
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Exploring DNS, HTTP, and ICMP Response Time Computations on Brain Signal/Image Databases using a Packet Sniffer Tool
IEEE Access, 2018Co-Authors: V. Elamaran, G. Venkat Babu, V. S. Balaji, Cristhian Figueroa, Nivethitha Arunkumar, Jorge Gomez, Gustavo Ramirez-gonzalezAbstract:Neurological signal processing is of significance not only the physiologist doing research and the clinician investigating patients but also to the biomedical engineer who is needed to collect, process, and interpret the physiological signals by prototyping systems and algorithms for their manipulations. While it is a fact that there does hold immense stuff (material) on the subject of digital neurological signal processing, however, it is dispersed in various scientific, technological, and physiological journals, databases also in various international conference proceedings. Consequently, it is a quite hard, more time-consuming, and often tiresome job, especially to the stranger to the domain. Hence, this study concentrates on how much time would require to access the databases belong to the brain signal/image collections, neurological signals, etc. The sixteen US-based Servers, ten UK-based Servers, and the five Servers from other countries are included in this study. Mainly, the domain name system, hyper text transfer protocol, and the Internet control message protocol query/response times are analyzed using a popular Packet Sniffer called Wireshark.
Jorge Gomez - One of the best experts on this subject based on the ideXlab platform.
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Exploring DNS, HTTP, and ICMP Response Time Computations on Brain Signal/Image Databases using a Packet Sniffer Tool
IEEE Access, 2018Co-Authors: V. Elamaran, G. Venkat Babu, V. S. Balaji, Cristhian Figueroa, Nivethitha Arunkumar, Jorge Gomez, Gustavo Ramirez-gonzalezAbstract:Neurological signal processing is of significance not only the physiologist doing research and the clinician investigating patients but also to the biomedical engineer who is needed to collect, process, and interpret the physiological signals by prototyping systems and algorithms for their manipulations. While it is a fact that there does hold immense stuff (material) on the subject of digital neurological signal processing, however, it is dispersed in various scientific, technological, and physiological journals, databases also in various international conference proceedings. Consequently, it is a quite hard, more time-consuming, and often tiresome job, especially to the stranger to the domain. Hence, this study concentrates on how much time would require to access the databases belong to the brain signal/image collections, neurological signals, etc. The sixteen US-based Servers, ten UK-based Servers, and the five Servers from other countries are included in this study. Mainly, the domain name system, hyper text transfer protocol, and the Internet control message protocol query/response times are analyzed using a popular Packet Sniffer called Wireshark.
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exploring dns http and icmp response time computations on brain signal image databases using a Packet Sniffer tool
IEEE Access, 2018Co-Authors: V. Elamaran, V. S. Balaji, Cristhian Figueroa, Nivethitha Arunkumar, Jorge Gomez, Venkat G Babu, Gustavo RamirezgonzalezAbstract:Neurological signal processing is of significance not only the physiologist doing research and the clinician investigating patients but also to the biomedical engineer who is needed to collect, process, and interpret the physiological signals by prototyping systems and algorithms for their manipulations. While it is a fact that there does hold immense stuff (material) on the subject of digital neurological signal processing, however, it is dispersed in various scientific, technological, and physiological journals, databases also in various international conference proceedings. Consequently, it is a quite hard, more time-consuming, and often tiresome job, especially to the stranger to the domain. Hence, this study concentrates on how much time would require to access the databases belong to the brain signal/image collections, neurological signals, etc. The sixteen US-based Servers, ten UK-based Servers, and the five Servers from other countries are included in this study. Mainly, the domain name system, hyper text transfer protocol, and the Internet control message protocol query/response times are analyzed using a popular Packet Sniffer called Wireshark.
Cristhian Figueroa - One of the best experts on this subject based on the ideXlab platform.
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Exploring DNS, HTTP, and ICMP Response Time Computations on Brain Signal/Image Databases using a Packet Sniffer Tool
IEEE Access, 2018Co-Authors: V. Elamaran, G. Venkat Babu, V. S. Balaji, Cristhian Figueroa, Nivethitha Arunkumar, Jorge Gomez, Gustavo Ramirez-gonzalezAbstract:Neurological signal processing is of significance not only the physiologist doing research and the clinician investigating patients but also to the biomedical engineer who is needed to collect, process, and interpret the physiological signals by prototyping systems and algorithms for their manipulations. While it is a fact that there does hold immense stuff (material) on the subject of digital neurological signal processing, however, it is dispersed in various scientific, technological, and physiological journals, databases also in various international conference proceedings. Consequently, it is a quite hard, more time-consuming, and often tiresome job, especially to the stranger to the domain. Hence, this study concentrates on how much time would require to access the databases belong to the brain signal/image collections, neurological signals, etc. The sixteen US-based Servers, ten UK-based Servers, and the five Servers from other countries are included in this study. Mainly, the domain name system, hyper text transfer protocol, and the Internet control message protocol query/response times are analyzed using a popular Packet Sniffer called Wireshark.
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exploring dns http and icmp response time computations on brain signal image databases using a Packet Sniffer tool
IEEE Access, 2018Co-Authors: V. Elamaran, V. S. Balaji, Cristhian Figueroa, Nivethitha Arunkumar, Jorge Gomez, Venkat G Babu, Gustavo RamirezgonzalezAbstract:Neurological signal processing is of significance not only the physiologist doing research and the clinician investigating patients but also to the biomedical engineer who is needed to collect, process, and interpret the physiological signals by prototyping systems and algorithms for their manipulations. While it is a fact that there does hold immense stuff (material) on the subject of digital neurological signal processing, however, it is dispersed in various scientific, technological, and physiological journals, databases also in various international conference proceedings. Consequently, it is a quite hard, more time-consuming, and often tiresome job, especially to the stranger to the domain. Hence, this study concentrates on how much time would require to access the databases belong to the brain signal/image collections, neurological signals, etc. The sixteen US-based Servers, ten UK-based Servers, and the five Servers from other countries are included in this study. Mainly, the domain name system, hyper text transfer protocol, and the Internet control message protocol query/response times are analyzed using a popular Packet Sniffer called Wireshark.
