Abstract: Example apparatus and methods cause activation of target neural tissue through electrical stimulation of a connected white matter tract to reduce the hyper-excitability of the target neural tissue and thus reduce seizures while preserving memory in humans. Example apparatus and methods apply low frequency (e.g., <10 HZ) electrical stimulation to the forno-dorso-commissure (FDC), detect an electrical signal generated in an area connected to, innervated by, or that can be activated by the FDC in response to the stimulation, and reconfigure the stimulation based on the detected signal and a desired therapeutic effect. The stimulation may be reconfigured to produce an electrical stimulation waveform that will produce the desired therapeutic effect. The desired therapeutic effect may be, for example, reducing hyper-excitability of neural tissue in a target area, reducing hippocampal spikes, reducing seizure odds, or improving recall.

Abstract: Packaging for a ratchet tool is disclosed. The packaging comprises a display structure, a ratchet retaining portion and a securement portion. The display structure may be arranged to be mounted for display. The ratchet portion retaining structure may be configured to engage a ratchet portion of the tool in a manner that prevents rotation of the ratchet portion. The securement portion may be configured to secure the tool to the display structure to prevent removal of the tool from the display package, while permitting movement of a handle portion of the tool relative to the ratchet portion while the ratchet portion is fixed from movement by the retaining structure.

Abstract: Example apparatus and methods cause activation of target neural tissue through electrical stimulation of a connected white matter tract to reduce the hyper-excitability of the target neural tissue and thus reduce seizures while preserving memory in humans. Example apparatus and methods apply low frequency (e.g., <10 HZ) electrical stimulation to the forno-dorso-commissure (FDC), detect an electrical signal generated in an area connected to, innervated by, or that can be activated by the FDC in response to the stimulation, and reconfigure the stimulation based on the detected signal and a desired therapeutic effect. The stimulation may be reconfigured to produce an electrical stimulation waveform that will produce the desired therapeutic effect. The desired therapeutic effect may be, for example, reducing hyper-excitability of neural tissue in a target area, reducing hippocampal spikes, reducing seizure odds, or improving recall.

Abstract: A dynamically controllable force-generating device configured to be incorporated into a vehicle, such as an aircraft or a ship, or an energy-harvesting device, such as a wind turbine, is disclosed. The dynamically controllable force-generating device includes a force-generating motive surface, a motor operatively coupled to the force-generating motive surface to move at least a portion of the force-generating motive surface to generate a force, at least one controlling motive surface spaced apart from the force-generating motive surface, and a motor operatively coupled to the at least one controlling motive surface to move at least a portion of the controlling motive surface to change at least one of a direction and a magnitude of the force generated by the force-generating motive surface.

Abstract: Example apparatus and methods cause activation of target neural tissue through electrical stimulation of a connected white matter tract to reduce the hyper-excitability of the target neural tissue and thus reduce seizures while preserving memory in humans. Example apparatus and methods apply low frequency (e.g., <10 HZ) electrical stimulation to the forno-dorso-commissure (FDC), detect an electrical signal generated in an area connected to, innervated by, or that can be activated by the FDC in response to the stimulation, and reconfigure the stimulation based on the detected signal and a desired therapeutic effect. The stimulation may be reconfigured to produce an electrical stimulation waveform that will produce the desired therapeutic effect. The desired therapeutic effect may be, for example, reducing hyper-excitability of neural tissue in a target area, reducing hippocampal spikes, reducing seizure odds, or improving recall.

Abstract: A method of building classifiers for neurological assessment is described. The method comprises the steps of extracting quantitative features from a plurality of clinical features, and selecting a subset of features from the extracted pool of features to construct binary classifiers. A device for performing point-of-care neurological assessment using clinical features is also described.

Abstract: An electromagnetic valve comprises a yoke, a magnet having pole pieces defining a gap, a flexure assembly having one end attached to the yoke such that part of the flexure assembly extends into the gap, and a mechanism configured to polarize the magnetizable portion so that the extending part of the flexure assembly is attracted towards a pole piece by a magnetic force, thereby defining a valve state. The flexure assembly has at least one resilient portion and at least one magnetizable portion, wherein the extending part of the flexure assembly is movable between the pole pieces through an intermediate position towards which it is resiliently biased such that a resilient mechanical force is generated by deflecting the resilient portion from an undeflected position. The magnetizable portion and the resilient portion are configured such that the magnetic force defining the valve state is greater than the resilient mechanical force.

Abstract: A method of building classifiers for neurological assessment is described. The method comprises the steps of extracting quantitative features from a plurality of clinical features, and selecting a subset of features from the extracted pool of features to construct binary classifiers. A device for performing point-of-care neurological assessment using clinical features is also described.

Abstract: A mechanical overload sensor system for a planetary winch having a biasing means that when overcome by the force on a ring gear, opens an electric switch which terminates power to the winch.

Abstract: An improved self-engaging clutch having a carrier plate with one or more clutch actuator fingers formed into the carrier plate.

Abstract: An electromagnetic valve comprises a yoke, a magnet having pole pieces defining a gap, a flexure assembly having one end attached to the yoke such that part of the flexure assembly extends into the gap, and a mechanism configured to polarize the magnetizable portion so that the extending part of the flexure assembly is attracted towards a pole piece by a magnetic force, thereby defining a valve state. The flexure assembly has at least one resilient portion and at least one magnetizable portion, wherein the extending part of the flexure assembly is movable between the pole pieces through an intermediate position towards which it is resiliently biased such that a resilient mechanical force is generated by deflecting the resilient portion from an undeflected position. The magnetizable portion and the resilient portion are configured such that the magnetic force defining the valve state is greater than the resilient mechanical force.

Abstract: A method of building classifiers for neurological assessment is described. The method comprises the steps of extracting quantitative features from a plurality of clinical features, and selecting a subset of features from the extracted pool of features to construct binary classifiers. A device for performing point-of-care neurological assessment using clinical features is also described.

Abstract: Aspects of the present disclosure are directed to a method and system for customers with an account associated with a financial entity to access their accounts and stay on top of one or more financial markets. In accordance with one or more aspects of the present disclosure, customers can review balances, and review holdings. Customers also can stay on top of trades and transactions while still being mobile, e.g., on the go utilizing a handheld computing device. Customers may utilize one or more aspects of the present disclosure to review research reports as well as third-party ratings for potential financial transactions. Customers may receive up-to-the-minute news on one or more financial markets, including real-time quotes, in addition to the ability to see only those research reports, third-party ratings, news on financial markets, and/or particular assets, that the customer has customized to see.

Abstract: A system and method for generating a custom revenue cycle model with automated lead movement are disclosed. According to one embodiment, a computer-implemented method comprises receiving user input, wherein the user input comprises at least one of data related to a stage, data related to a success path definition, and data related to transition rules for lead movement, wherein the stage is a revenue stage or a detour stage; generating a custom revenue cycle model based on the user input; storing the custom revenue cycle model; providing for automated lead movements based on the transition rules; and providing for automated tracking of lead movements in the custom revenue cycle model.

Abstract: Example apparatus and methods cause activation of target neural tissue through electrical stimulation of a connected white matter tract to reduce the hyper-excitability of the target neural tissue and thus reduce seizures while preserving memory in humans. Example apparatus and methods apply low frequency (e.g., <10 HZ) electrical stimulation to the forno-dorso-commissure (FDC), detect an electrical signal generated in an area connected to, innervated by, or that can be activated by the FDC in response to the stimulation, and reconfigure the stimulation based on the detected signal and a desired therapeutic effect. The stimulation may be reconfigured to produce an electrical stimulation waveform that will produce the desired therapeutic effect. The desired therapeutic effect may be, for example, reducing hyper-excitability of neural tissue in a target area, reducing hippocampal spikes, reducing seizure odds, or improving recall.

Abstract: A vacuum cleaner bag assembly is adapted to be removably disposed within a tank of a vacuum cleaner, and the bag assembly includes a panel assembly made from a first material and forming an enclosure having an interior volume, and an aperture extends through the panel assembly. A shield member may be disposed within the interior volume and secured to one or more portions of the panel assembly, and the shield member may comprise a second material that is different than the first material. The shield member is adapted to protect a portion of the panel assembly when the vacuum cleaner bag assembly is disposed within the tank.

Abstract: A vacuum cleaner bag assembly is adapted to be removably disposed within a tank of a vacuum cleaner, and the bag assembly includes a panel assembly made from a first material and forming an enclosure having an interior volume, and an aperture extends through the panel assembly. A shield member may be disposed within the interior volume and secured to one or more portions of the panel assembly, and the shield member may comprise a second material that is different than the first material. The first material may have a wicking barrier that inhibits wicking when the bag assembly becomes wet. The shield member is adapted to protect a portion of the panel assembly when the vacuum cleaner bag assembly is disposed within the tank and, together with the wicking barrier and a properly chosen first material, enhances performance of the vacuum bag assembly when wet.

Abstract: An EEG monitor with sensors placed to detect signals and analyze the signals to determine if a frequency below 12 Hz, and more particularly between 3 Hz and 8 Hz, called theta waves, are present. Theta waves are generated when the brain is entering a drowsy or sleep mode. The sensors detect brain wave signals and transmit the signals to a microprocessor which analyzes the signals and determines the brain waves being detected. The brain waves are continuously monitored and the data is continuously transmitted to a microprocessor. If brain waves are detected in the predetermined range of between 3 Hz and 8 Hz the microprocessor activates a stimulus, to wake up the person wearing the device. The stimulus may be visual, auditory or tactile, such as an actuator, a phone call or any other stimulus.

Abstract: An electromagnetic valve comprises a yoke, a magnet having pole pieces defining a gap, a flexure assembly having one end attached to the yoke such that part of the flexure assembly extends into the gap, and a mechanism configured to polarize the magnetizable portion so that the extending part of the flexure assembly is attracted towards a pole piece by a magnetic force, thereby defining a valve state. The flexure assembly has at least one resilient portion and at least one magnetizable portion, wherein the extending part of the flexure assembly is movable between the pole pieces through an intermediate position towards which it is resiliently biased such that a resilient mechanical force is generated by deflecting the resilient portion from an undeflected position. The magnetizable portion and the resilient portion are configured such that the magnetic force defining the valve state is greater than the resilient mechanical force.

Abstract: A system and method for generating a custom revenue cycle model with automated lead movement are disclosed. According to one embodiment, a computer-implemented method comprises receiving user input, wherein the user input comprises at least one of data related to a stage, data related to a success path definition, and data related to transition rules for lead movement, wherein the stage is a revenue stage or a detour stage; generating a custom revenue cycle model based on the user input; storing the custom revenue cycle model; providing for automated lead movements based on the transition rules; and providing for automated tracking of lead movements in the custom revenue cycle model.