Abstract: A method for generating data indicative of lung function of a subject. The method comprises receiving first data which has been obtained from the subject, and inputting said first data to a model of lung function to generate said data indicative of lung function. The model of lung function comprises a first model component modelling transfer of gaseous oxygen from a gaseous space within the lung to biological material within the lung based upon quantitative data indicative of oxygen content in the inhaled gases and oxygen content in the biological material and a second model component modelling the transfer of oxygen from the lungs by oxygenation of venous blood to create oxygenated blood based upon quantitative data indicative of oxygen content in the venous blood.

Abstract: A method for generating data indicative of lung function of a subject. The method comprises receiving first data which has been obtained from the subject, and inputting said first data to a model of lung function to generate said data indicative of lung function. The model of lung function comprises a first model component modelling transfer of gaseous oxygen from a gaseous space within the lung to biological material within the lung based upon quantitative data indicative of oxygen content in the inhaled gases and oxygen content in the biological material and a second model component modelling the transfer of oxygen from the lungs by oxygenation of venous blood to create oxygenated blood based upon quantitative data indicative of oxygen content in the venous blood.

Abstract: The present invention relates to a method of characterising tissue function in a subject in need of such characterization. The method comprises performing an imaging technique, on a voxel defined within a tissue space of interest, wherein image data is generated over a time period during which the subject inhales gases with at least two different partial pressures of a paramagnetic gas. A compartmental model algorithm is applied to the image data generated for the voxel to provide information on metabolic function of the tissue.

Abstract: A functional electrical stimulation system for moving at least a portion of a body of a subject, e.g., legs. Such a system includes: a stimulator that can provide a plurality of sets of functional electrical stimulation to the legs, one or more transducers that outputs signals representative of the movement made by the legs in response to the functional electrical stimulation provided thereto, and a controller. The controller compares the output signals of the transducers resulting from the provision of two or more substantially equivalent sets of electrical stimulation to the legs and provide an output indicative of variation in the movement. The controller also, e.g., can compare the level of electrical stimulation output by the stimulator to achieve an equivalent movement of the legs so as to recognize an increase in such stimulation, where an increase can be indicative of fatigue in the leg muscles.

Abstract: The present invention relates to a method of characterizing lung function in a subject in need of such characterization. The method comprises performing an imaging technique, on a voxel defined within a lung space of interest. Image data is generated over a time period during which the subject inhales gases with at least two different partial pressures of a paramagnetic gas. A compartmental model algorithm is applied to the image data generated for the voxel to provide information on ventilation, diffusion and perfusion of a lung. The paramagnetic gas is preferably Oxygen. The imaging technique is preferably Oxygen Enhanced Magnetic Resonance Imaging (OE-MRI).

Abstract: A method for generating data indicative of lung function of a subject. The method comprises receiving first data which has been obtained from the subject, and inputting said first data to a model of lung function to generate said data indicative of lung function. The model of lung function comprises a first model component modelling transfer of gaseous oxygen from a gaseous space within the lung to biological material within the lung based upon quantitative data indicative of oxygen content in the inhaled gases and oxygen content in the biological material and a second model component modelling the transfer of oxygen from the lungs by oxygenation of venous blood to create oxygenated blood based upon quantitative data indicative of oxygen content in the venous blood.

Abstract: The present invention relates to a method of characterising tissue function in a subject in need of such characterisation. The method comprises performing an imaging technique, on a voxel defined within a tissue space of interest, wherein image data is generated over a time period during which the subject inhales gases with at least two different partial pressures of a paramagnetic gas. A compartmental model algorithm is applied to the image data generated for the voxel to provide information on metabolic function of the tissue.

Abstract: The present invention relates to a method of characterising lung function in a subject in need of such characterisation. The method comprises performing an imaging technique, on a voxel defined within a lung space of interest. Image data is generated over a time period during which the subject inhales gases with at least two different partial pressures of a paramagnetic gas. A compartmental model algorithm is applied to the image data generated for the voxel to provide information on ventilation, diffusion and perfusion of a lung. The paramagnetic gas is preferably Oxygen. The imaging technique is preferably Oxygen Enhanced Magnetic Resonance Imaging (OE-MRI).

Abstract: A functional electrical stimulation system (30) for moving at least a portion of a body of a subject (12), such as their legs (13, 13a). The system is adapted to monitor its performance and/or the outcome of the provision of stimulation to the subject (12) and assess whether the body portion is showing evidence of fatigue. The system (30) comprises a stimulator (35) that can provide a plurality of sets of functional electrical stimulation to the legs, one or more transducers (60, 61) that outputs signals representative of the movement made by the legs in response to the functional electrical stimulation provided thereto, and a control means (32). The control means (32) receives and processes the signals output by the transducers (60, 61) and includes a comparator adapted to compare the output signals of the transducers resulting from the provision of two or more substantially equivalent sets of electrical stimulation to the legs and provide an output indicative of variation in the movement.

Abstract: An exercise system (10) for exercising at least one limb, such as the legs, of a subject with spinal cord injury or deficiency. The system (10) comprises an exercise bicycle (20) having a crank (17) and pedals (16) to which the feet of the subject can be mounted, and a functional electrical stimulation (FES) system (30). The FES system (30) stimulates the muscles of the legs and includes a transducer (51) mountable to at least one of the legs of the subject (12) that outputs signals representative of the position and/or movement of the leg when performing the exercise. The FES system (30) further includes a control means that receives and processes the signals output by the transducer (51) and outputs control signals to a stimulator (35) that through electrodes (53) provides electrical stimulation to the legs of the subject (12) so as to cause the legs to drive the crank (17) of the bicycle (20).

Abstract: A functional electrical stimulation system for controlling the movement of a portion of a body of a subject, such as the subject's legs. The system comprises a sensor that in one arrangement is mountable to a portion of the subjects' body other than the legs, for example the torso. In another arrangement, the sensor can be mountable to a walking aid, such as a crutch. The sensor outputs signals representative of the position and/or movement of the torso or walking aid. The system also comprises a control means that receives and processes the signals output by the sensor and outputs control signals to a stimulator adapted to provide electrical stimulation to the legs via electrodes in response to the position and/or movement of the torso or walking aid as determined by the sensor.

Abstract: An exercise system for exercising at least one limb, such as the legs, of a subject with spinal cord injury or deficiency. The system comprises an exercise bicycle having a crank and pedals to which the feet of the subject can be mounted, and a functional electrical stimulation (FES) system. The FES system stimulates the muscles of the legs and includes a transducer mountable to at least one of the legs of the subject that outputs signals representative of the position and/or movement of the leg when performing the exercise. The FES system further includes a control means that receives and processes the signals output by the transducer and outputs control signals to a stimulator that through electrodes provides electrical stimulation to the legs of the subject so as to cause the legs to drive the crank of the bicycle.

Abstract: A functional electrical stimulation system (30) for controlling the movement of a portion of a body of a subject (12), such as the subject's legs. The system (30) comprises a sensor (60) that in one arrangement is mountable to a portion of the subjects' body other than the legs, for example the torso (14). In another arrangement, the sensor (60) can be mountable to a walking aid, such as a crutch (20). The sensor (60) outputs signals representative of the position and/or movement of the torso (14) or walking aid (20). The system (30) also comprises a control means (32) that receives and processes the signals output by the sensor (60) and outputs control signals to a stimulator (35) adapted to provide electrical stimulation to the legs via electrodes (53) in response to the position and/or movement of the torso (14) or walking aid (20) as determined by the sensor (60).

Abstract: An interactive gaming system is described in which characters are generated and controlled to model human behavior in an accurate manner. The behaviors of the characters are contextually accurate because the behaviors adapt to accurately reflect the attitudes of the characters toward the user. A database stores relationship data representing the attitudes of the characters. A gaming engine executing on a computer is coupled to the database and receives input representing the user's interaction with the character and updates the relationship data. The gaming engine generates media for display to the user based on the relationship data. The media may include text-based dialogue, digital photographs of the character, video, audio and the like. The database stores data defining one or more behavior patterns by which the gaming engine dynamically generates the gaming environment and controls the character so as to model human nature.

Abstract: Traps, and more particularly collapsible traps used to capture crabs or other live animals. More particularly still, collapsible live animal traps that utilize one or more support members that are stable when assembled, yet easily collapsible.

Abstract: An improved processing approach is disclosed in order to allow for different rates of stimulation to be used for different electrodes in a multi-electrode cochlear implant. When the incoming signal is processed by filter array (35), each channel is processed to determine amplitude (37) and to estimate the period of the signal in that channel (39). The amplitude and period information is used to determine which electrode is stimulated, and the timing of that stimulation.

Abstract: Traps, and more particularly collapsible traps used to capture crabs or other live animals. More particularly still, collapsible live animal traps that utilize one or more support members that are stable when assembled, yet easily collapsible.

Abstract: A method of playing a card game including steps of selecting a combination of cards in an at least apparently random manner, the combination including zero or more special cards (not a conventional wild card such as a joker), and determining whether the combination results in a win or lose state.

Abstract: An interactive gaming system is described in which characters are generated and controlled to model human behavior in an accurate manner. The behaviors of the characters are contextually accurate because the behaviors adapt to accurately reflect the attitudes of the characters toward the user. A database stores relationship data representing the attitudes of the characters. A gaming engine executing on a computer is coupled to the database and receives input representing the user's interaction with the character and updates the relationship data. The gaming engine generates media for display to the user based on the relationship data. The media may include text-based dialogue, digital photographs of the character, video, audio and the like. The database stores data defining one or more behavior patterns by which the gaming engine dynamically generates the gaming environment and controls the character so as to model human nature.

Abstract: A method and apparatus for playing a game including steps of: