Abstract: A system and method is disclosed that enables the display of permits and/or permit information related to a specific location, collection of permitting data onsite, comparison of the onsite data to permitted constraints, and reporting the results of the inspection, as well as sending immediate notifications, as appropriate, to decision makers.

Abstract: Devices and methods for brain modulation are provided herein. A device may comprise a body and components for activating the brain. Such components include ultrasound transducers. The devices are used to provide ultrasound waves to brain structures in a subject wearing a device for methods to treat traumatic brain injury, affect postural control, affect wakefulness, attention, and alertness, to provide memory control, to alter cerebrovascular hemodynamics, to minimize stress, and to reinforce behavioral actions.

Abstract: A system and method for monitoring and verifying athlete attendance in a classroom is disclosed. An exemplary embodiment defines a GPS-based fence in association with a classroom as well as defines a class start time and a class end time. GPS coordinates associated with a portable computing device (“PCD”) associated with a given athlete are received and determined to be within a range of coordinates associated with the fence. Also, a time associated with the receiving of the GPS coordinates is determined to be within a window of time comprising the class start time. Subsequently, a picture of a user is captured with a camera of the PCD. Next, from the picture the user is verified to be the given athlete. Finally, the given athlete is marked as “present” within the class.

Abstract: A socket for mating with the eyelet of a hot line clamp, an eye nut, an eye bolt, and a wing nut, the socket defining two slots for straddling and axially-rotating a bolt of the hot line clamp to tighten or loosen the hotline clamp.

Abstract: A system and method for monitoring and verifying athlete attendance in a classroom is disclosed. An exemplary embodiment defines a GPS-based fence in association with a classroom as well as defines a class start time and a class end time. GPS coordinates associated with a portable computing device (“PCD”) associated with a given athlete are received and determined to be within a range of coordinates associated with the fence. Also, a time associated with the receiving of the GPS coordinates is determined to be within a window of time comprising the class start time. Subsequently, a picture of a user is captured with a camera of the PCD. Next, from the picture the user is verified to be the given athlete. Finally, the given athlete is marked as “present” within the class.

Abstract: The invention provides for an improved medical device used to remove gas and liquid from the plural cavity between the lung and the chest wall in both stationary and mobile applications. The present invention generally comprises a hollow needle with a hollow closed end stylet slidably received in the needle. The stylet is spring-biased to extend out of the needle end as a safety tip but when pressured is moved to a retracted position to allow for insertion through the chest wall. The pressure needed to insert the needle/stylet combination through the chest wall is applied by a housing at the end of the needle which is contoured for easy grip. While not being applied to the chest wall, the stylet comprises a safety tip, which makes the device safe to handle and apply in stationary or mobile applications. Further, the housing includes a one-way valve is configured permit only the passage of air and bodily fluid out of the pleural cavity without a secondary structure needed.

Abstract: A drilling system includes a multi-function sub configured to be coupled to a top drive of a drilling rig and configured to be coupled to a tubular in order to selectively transfer a torque from the top drive to the tubular. The multi-function sub includes a torque sensing component configured to measure the torque provided from the top drive to the tubular via the multi-function sub, a clutch configured to suspend a transfer of torque from the top drive to the tubular when the clutch is released, and a clutch actuator communicatively coupled to the torque sensing component and configured to release the clutch when the torque measured by the torque sensing component is greater than a threshold torque value. The multi-function sub also includes a compensator configured to enable the multi-function sub to move the tubular in an axial direction relative to the top drive.

Abstract: Apparatus and methods are provided whereby a component can be cleaned while the furnace is operational. Additionally, particulates that have accumulated on the component can be collected and retained. The apparatus may include a portable frame, a tubular lance supported by the frame and having a nozzle at a distal end thereof, and a suction generator operatively connected to a proximal end of the lance to generate a suction at the nozzle. Manipulation of the lance to move the nozzle across a component allows accumulated particulates to be removed therefrom through the lance.

Abstract: A system and method is disclosed that enables the display of permits and/or permit information related to a specific location, collection of permitting data onsite, comparison of the onsite data to permitted constraints, and reporting the results of the inspection (as required under the appropriate regulatory policy or as requested by the organization or entity being inspected), as well as sending immediate notifications, as appropriate, to decision makers. In certain embodiments, the system and method may also offer predictions on the likelihood of an enforcement action against the organization given factors such as, but not limited to, the type of violation, degree of violation, and enforcement actions against others for similar violations. In other embodiments, the system and method allows the permittee to mitigate the risk of a violation by notifying emergency personnel in addition to decision makers within the organization.

Abstract: Various embodiments of methods and systems for continuous transdermal monitoring (“CTM”) are disclosed. One exemplary embodiment of a continuous transdermal monitoring system comprises a sensor package. The sensor package may include a pulse oximetry sensor having a plurality of light detectors arranged as an array. One exemplary method for continuous transdermal monitoring begins by positioning a pulse oximetry sensor system, similar to the system described immediately above, adjacent to a target tissue segment. Then, the method continues by detecting a light reflected by the target tissue segment. Then, the method continues by transmitting a pulse oximetry reading(s), based at least in part on the light reflected by the target tissue segment, of the target tissue segment. Then, the method continues by analyzing the pulse oximetry reading(s).

Abstract: Various embodiments of methods and systems for continuous transdermal monitoring (“CTM”) are disclosed. One exemplary method for CTM begins by monitoring an output signal from an accelerometer. The accelerometer output signal may indicate acceleration and deceleration of a body part of a user, such as the user's wrist. Based on the accelerometer output signal, it may be determined that the body part of the user has decelerated to a minimum, e.g., substantially zero. With a determination that the body part has decelerated to the minimum, e.g., substantially zero, or has not accelerated beyond the minimum, e.g., substantially zero, the method may determine a reading from a pulse oximeter associated with the accelerometer. Advantageously, the pulse oximetry reading, or a reading from other sensors associated with the accelerometer, may be optimally accurate as motion artifact may be minimized. The pulse oximetry reading may be recorded for later query and/or rendered for the benefit of the user.

Abstract: A system and method is disclosed that enables the display of permits and/or permit information related to a specific location, collection of permitting data onsite, comparison of the onsite data to permitted constraints, and reporting the results of the inspection (as required under the appropriate regulatory policy or as requested by the organization or entity being inspected), as well as sending immediate notifications, as appropriate, to decision makers. In certain embodiments, the system and method may also offer predictions on the likelihood of an enforcement action against the organization given factors such as, but not limited to, the type of violation, degree of violation, and enforcement actions against others for similar violations. In other embodiments, the system and method allows the permittee to mitigate the risk of a violation by notifying emergency personnel in addition to decision makers within the organization.

Abstract: An automated website analysis system includes mechanisms for automatically auditing a website to validate that the scanned web page information conforms to validation rules. In one implementation, an auditing system requests web pages of an identified website pursuant to validating at least a portion of each requested web page. Embodiments include scanning page code of at least one of the web pages to identify scanned web page information, including a page tag. The scanned web page information is validated to determine whether is conforms to at least one validation rule by validating variables of the page tag against validation rules, including a vendor validation rule. Results of the validation are reported.

Abstract: Various embodiments of methods and systems for continuous transdermal monitoring (“CTM”) are disclosed. One exemplary embodiment of a continuous transdermal monitoring system comprises a sensor package. The sensor package may include a pulse oximetry sensor having a plurality of light detectors arranged as an array. One exemplary method for continuous transdermal monitoring begins by positioning a pulse oximetry sensor system, similar to the system described immediately above, adjacent to a target tissue segment. Then, the method continues by detecting a light reflected by the target tissue segment. Then, the method continues by transmitting a pulse oximetry reading(s), based at least in part on the light reflected by the target tissue segment, of the target tissue segment. Then, the method continues by analyzing the pulse oximetry reading(s).

Abstract: Various embodiments of methods and systems for continuous transdermal monitoring (“CTM”) are disclosed. One exemplary method for CTM begins by monitoring an output signal from an accelerometer. The accelerometer output signal may indicate acceleration and deceleration of a body part of a user, such as the user's wrist. Based on the accelerometer output signal, it may be determined that the body part of the user has decelerated to a minimum, e.g., substantially zero. With a determination that the body part has decelerated to the minimum, e.g., substantially zero, or has not accelerated beyond the minimum, e.g., substantially zero, the method may determine a reading from a pulse oximeter associated with the accelerometer. Advantageously, the pulse oximetry reading, or a reading from other sensors associated with the accelerometer, may be optimally accurate as motion artifact may be minimized. The pulse oximetry reading may be recorded for later query and/or rendered for the benefit of the user.

Abstract: Devices and methods for brain modulation are provided herein. A device may comprise a body and components for activating the brain. Such components include ultrasound transducers. The devices are used to provide ultrasound waves to brain structures in a subject wearing a device for methods to treat traumatic brain injury, affect postural control, affect wakefulness, attention, and alertness, to provide memory control, to alter cerebrovascular hemodynamics, to minimize stress, and to reinforce behavioral actions.

Abstract: Various embodiments of methods and systems for continuous transdermal monitoring (“CTM”) are disclosed. One exemplary method for CTM begins by monitoring an output signal from an accelerometer. The accelerometer output signal may indicate acceleration and deceleration of a body part of a user, such as the user's wrist. Based on the accelerometer output signal, it may be determined that the body part of the user has decelerated to a minimum, e.g., substantially zero. With a determination that the body part has decelerated to the minimum, e.g., substantially zero, or has not accelerated beyond the minimum, e.g., substantially zero, the method may determine a reading from a pulse oximeter associated with the accelerometer. Advantageously, the pulse oximetry reading, or a reading from other sensors associated with the accelerometer, may be optimally accurate as motion artifact may be minimized. The pulse oximetry reading may be recorded for later query and/or rendered for the benefit of the user.

Abstract: Various embodiments of methods and systems for continuous transdermal monitoring (“CTM”) are disclosed. One exemplary embodiment of a continuous transdermal monitoring system comprises a sensor package. The sensor package may include a pulse oximetry sensor having a plurality of light detectors arranged as an array. One exemplary method for continuous transdermal monitoring begins by positioning a pulse oximetry sensor system, similar to the system described immediately above, adjacent to a target tissue segment. Then, the method continues by detecting a light reflected by the target tissue segment. Then, the method continues by transmitting a pulse oximetry reading(s), based at least in part on the light reflected by the target tissue segment, of the target tissue segment. Then, the method continues by analyzing the pulse oximetry reading(s).

Abstract: A drilling system includes a multi-function sub configured to be coupled to a top drive of a drilling rig and configured to be coupled to a tubular in order to selectively transfer a torque from the top drive to the tubular. The multi-function sub includes a torque sensing component configured to measure the torque provided from the top drive to the tubular via the multi-function sub, a clutch configured to suspend a transfer of torque from the top drive to the tubular when the clutch is released, and a clutch actuator communicatively coupled to the torque sensing component and configured to release the clutch when the torque measured by the torque sensing component is greater than a threshold torque value. The multi-function sub also includes a compensator configured to enable the multi-function sub to move the tubular in an axial direction relative to the top drive.

Abstract: The invention provides for an improved medical device used to remove gas and liquid from the plural cavity between the lung and the chest wall in both stationary and mobile applications. The present invention generally comprises a hollow needle with a hollow closed end stylet slidably received in the needle. The stylet is spring-biased to extend out of the needle end as a safety tip but when pressured is moved to a retracted position to allow for insertion through the chest wall. The pressure needed to insert the needle/stylet combination through the chest wall is applied by a housing at the end of the needle which is contoured for easy grip. While not being applied to the chest wall, the stylet comprises a safety tip, which makes the device safe to handle and apply in stationary or mobile applications. Further, the housing includes a one-way valve is configured permit only the passage of air and bodily fluid out of the pleural cavity without a secondary structure needed.