The Experts below are selected from a list of 318 Experts worldwide ranked by ideXlab platform
Kenneth Eagleson - One of the best experts on this subject based on the ideXlab platform.
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Proposed Application of automated biomonitoring for rapid detection of toxic substances in water supplies for permanent space stations
Journal of Environmental Sciences-china, 2006Co-Authors: Eric Morgan, Richard Young, Michael Smith, Kenneth EaglesonAbstract:The objective of this study was to present Proposed design characteristics and Applications of automated biomonitoring devices for real-time toxicity detection in drinking water supplies on-board permanent space stations. Tests in transmissions of automated biomonitoring data to earth-receiving stations were simulated using satellite data linkage from remote earth-based stations.Automated biomonitoring can provide real-time physiological response information resulting from cause/effect relationships between toxicants and selected aquatic animals. Because the reliability of information from a single-species or from specific physical/chemical water quality parameters may not provide comprehensive protection from a wide variety of potentially toxic compounds, a computer-assisted multiple species biosensing system designed for water quality monitoring was developed. Emphasis was placed on developing methods for detecting species-specific bioelectric potentials produced by unrestrained bivalve mussels and othe...
Eric Morgan - One of the best experts on this subject based on the ideXlab platform.
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Proposed Application of automated biomonitoring for rapid detection of toxic substances in water supplies for permanent space stations
Journal of Environmental Sciences-china, 2006Co-Authors: Eric Morgan, Richard Young, Michael Smith, Kenneth EaglesonAbstract:The objective of this study was to present Proposed design characteristics and Applications of automated biomonitoring devices for real-time toxicity detection in drinking water supplies on-board permanent space stations. Tests in transmissions of automated biomonitoring data to earth-receiving stations were simulated using satellite data linkage from remote earth-based stations.Automated biomonitoring can provide real-time physiological response information resulting from cause/effect relationships between toxicants and selected aquatic animals. Because the reliability of information from a single-species or from specific physical/chemical water quality parameters may not provide comprehensive protection from a wide variety of potentially toxic compounds, a computer-assisted multiple species biosensing system designed for water quality monitoring was developed. Emphasis was placed on developing methods for detecting species-specific bioelectric potentials produced by unrestrained bivalve mussels and othe...
Peter Fischer - One of the best experts on this subject based on the ideXlab platform.
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Single Channel Wireless EEG: Proposed Application in Train Drivers
African Journal of Information & Communication Technology, 2009Co-Authors: Surya Darma Ridwan, Robert Thompson, Budi Thomas Jap, Sara Lal, Peter FischerAbstract:Electroencephalography (EEG) can be used as an indicator of fatigue. Several studies have shown that slow wave brain activities, delta (0-4 Hz) and theta (4- 8 Hz), increase as an individual becomes fatigued, while the fast brain activities, alpha (8-13 Hz) and beta (13-35 Hz), decrease. However, an EEG is a complex piece of equipment that is generally used in laboratory based studies. In order to develop a fatigue countermeasure device for train drivers using EEG, there is a need for a simple and wireless EEG monitor. This paper explains the development of a single channel wireless EEG device.
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BroadCom - Single Channel Wireless EEG: Proposed Application in Train Drivers
2008 Third International Conference on Broadband Communications Information Technology & Biomedical Applications, 2008Co-Authors: Surya Darma Ridwan, Robert Thompson, Budi Thomas Jap, Sara Lal, Peter FischerAbstract:Electroencephalography (EEG) can be used as an indicator of fatigue. Several studies have shown that slow wave brain activities, delta (0-4 Hz) and theta (4-8 Hz), increase as an individual becomes fatigued, while the fast brain activities, alpha (8-13 Hz) and beta (13-35 Hz), decrease. However, an EEG is a complex piece of equipment that is generally used in laboratory based studies. In order to develop a fatigue countermeasure device for train drivers using EEG, there is a need for a simple and wireless EEG monitor. This paper explains the development of a single channel wireless EEG device.
Michael G Strintzis - One of the best experts on this subject based on the ideXlab platform.
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simulation of ancient technology works using haptic interaction and gesture recognition
IEEE Virtual Reality Conference, 2004Co-Authors: Georgios Nikolakis, Dimitrios Tzovaras, Sotiris Malassiotis, Michael G StrintzisAbstract:The objective of the Proposed Application is the development of a new interactive Application for the simulation of Ancient Greek Technology works, with the use of advanced virtual reality and computer vision technologies. In order to achieve these objectives haptic interaction mechanisms and a gesture recognition system were implemented in a virtual environment platform. A novel collision detection method was developed and virtual reality agents were used in order to achieve the desired results. The developed system was evaluated by real users and conclusions were drawn concerning the potentiality of the Proposed Application.
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VAST - Simulation of ancient technology works using haptic interaction and gesture recognition
2004Co-Authors: Georgios Nikolakis, Dimitrios Tzovaras, Sotiris Malassiotis, Michael G StrintzisAbstract:The objective of the Proposed Application is the development of a new interactive Application for the simulation of Ancient Greek Technology works, with the use of advanced virtual reality and computer vision technologies. In order to achieve these objectives haptic interaction mechanisms and a gesture recognition system were implemented in a virtual environment platform. A novel collision detection method was developed and virtual reality agents were used in order to achieve the desired results. The developed system was evaluated by real users and conclusions were drawn concerning the potentiality of the Proposed Application.
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VR - A geometry education haptic VR Application based on a new virtual hand representation
IEEE Virtual Reality Conference 2005 (VR'05), 1Co-Authors: Konstantinos Moustakas, Dimitrios Tzovaras, Georgios Nikolakis, Michael G StrintzisAbstract:The present paper describes an enhanced haptic virtual reality Application for geometry education. The Proposed Application allows the user to create and edit a scene that consists of three-dimensional geometrical objects in order to form and solve complex geometrical problems. The core of the Proposed scheme is based on a novel interference detection algorithm, which utilizes implicit surfaces, such as superquadrics, and their analytical description to speed up collision detection between the virtual hand and the virtual environment. Intersection tests are executed utilizing the implicit analytical formulae of the superquadrics. Experimental results demonstrate the high applicability of the Proposed Application and the huge gain in speed of the Proposed collision detection approach when compared to state of the art methods.
Michael Smith - One of the best experts on this subject based on the ideXlab platform.
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Proposed Application of automated biomonitoring for rapid detection of toxic substances in water supplies for permanent space stations
Journal of Environmental Sciences-china, 2006Co-Authors: Eric Morgan, Richard Young, Michael Smith, Kenneth EaglesonAbstract:The objective of this study was to present Proposed design characteristics and Applications of automated biomonitoring devices for real-time toxicity detection in drinking water supplies on-board permanent space stations. Tests in transmissions of automated biomonitoring data to earth-receiving stations were simulated using satellite data linkage from remote earth-based stations.Automated biomonitoring can provide real-time physiological response information resulting from cause/effect relationships between toxicants and selected aquatic animals. Because the reliability of information from a single-species or from specific physical/chemical water quality parameters may not provide comprehensive protection from a wide variety of potentially toxic compounds, a computer-assisted multiple species biosensing system designed for water quality monitoring was developed. Emphasis was placed on developing methods for detecting species-specific bioelectric potentials produced by unrestrained bivalve mussels and othe...
