The Experts below are selected from a list of 18 Experts worldwide ranked by ideXlab platform
A.b.m. Alim Al Islam - One of the best experts on this subject based on the ideXlab platform.
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NSysS - Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
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Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
Kazi Sinthia Kabir - One of the best experts on this subject based on the ideXlab platform.
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NSysS - Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
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Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
Iftakhar Ahmad - One of the best experts on this subject based on the ideXlab platform.
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NSysS - Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
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Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
Akhter Al Amin - One of the best experts on this subject based on the ideXlab platform.
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NSysS - Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
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Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
Maruf Zaber - One of the best experts on this subject based on the ideXlab platform.
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NSysS - Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
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Q-Nerve: Propagating Signal of a damaged nerve using quantum networking
2015 International Conference on Networking Systems and Security (NSysS), 2015Co-Authors: Kazi Sinthia Kabir, Iftakhar Ahmad, Akhter Al Amin, Maruf Zaber, Tanzila Choudhury, Bashir Sabquat Bahar M. Talukder, A.b.m. Alim Al IslamAbstract:Aiding paralyzed people through using technology to transmit Signals from brain to paralized part of a body has been a matter of great interest in recent times. Classical approaches in this regard still experience several limitations and sometimes become hazardous to living bodies. Besides, existing literature points out that there are many nerve Signals that are not amenable to the classical approaches, however, can be amenable to quantum approaches. By addressing these two points, we propose a new system to Propagate Signal of a damaged nerve using quantum networking. We name our proposed system Q-Nerve. Q-Nerve exploits quantum network based artificial connection between brain and other organs to bypass a damaged nerve. Subsequently, we propose a more sophisticated version of Q-Nerve that aims to exploiting a synergy between the ability of quantum computing to accumulate neural Signal and the ability of quantum networking to pass the Signal instantaneously. Further, we extend the proposed system for other brain and nerve related problems that require numerous logical computations.
