Abstract: Light weight fiber-reinforced polymeric (FRP) structural building panels and panel assemblies, sized and configured for construction of non-portable wall structures permanently fixed to the ground. Fibers in the panel are typically oriented within 15 degrees of a top-to-bottom, e.g. axial, direction in the panel providing, in part, enhanced top-to-bottom crush strength of a panel/wall. The panels typically have a bias to deflect toward the surface of the panel which faces outwardly of the building, toward the backfill soil which faces the panel on the outside the building. Panels of the invention typically have mass of no more than 18 pounds per foot height per linear foot length of the building panel, and vertical crush resistance capacity of at least 2000 pounds per linear foot length of the building panel, using a safety factor of 3.

Abstract: The present invention relates to a low-profile ultrasound transducer. The low-profile ultrasound transducer includes a piezoelectric component operative to receive a driving signal from an energy generating module and to emit the driving signal as ultrasonic energy. The piezoelectric component has a front surface and a back surface, and the energy generating module includes a plurality of electronic components. The low-profile ultrasound transducer also includes a lens component directly or indirectly deposited on the front surface of the piezoelectric component. The lens component includes a lens portion and a support portion. The lens portion of the lens component is configured to control the direction and wave pattern of the ultrasonic energy emitted from the piezoelectric component. The support portion of the lens component is configured to hold the piezoelectric component in place and to provide a chamber for housing at least one electronic component of the energy generating module.

Abstract: A method for identifying a best item among a plurality of respective different items includes selecting a current best score, identifying a set of attributes associated with each of the items, and for each of the sets of attributes: determining a best possible score for a subset of the set of attributes, if the best possible score is greater than the current best score, determining an actual score for the set of attributes, and if the actual score for the set of attributes is greater than the current best score, setting the current best score as the actual score for the set of attributes. After both of the determining steps and the setting step for each of the sets of attributes, the item associated with the current best score is identified.

Abstract: A system and method for determining a time of an event participant passing a detection point having a participant identifier number by a proximity detector at a detection point, a highly portable device with a transceiver and a location detector for selectively receiving a participant number read, and determining a location of the portable device, and a timing system having the geographic location of the proximity detector, receiving the geographic location of the handheld device, the handheld read participant number and a handheld determined time, determining that the timing system has not received a usable tag read time from the proximity detector and determining a time of passing of the participant by the detection point by determining a delta time between the proximity detector and the handheld device and an adjusted time of participant passing based on the determined delta time and handheld determined time.

Abstract: A carton (8) has a top wall (120), end walls and a strap carrying handle (16). The carrying handle (16) includes a strap section (72, 74) that is formed at least partially in a top wall (120) of the carton (8). The strap section (72, 74) is deployable above the top wall (120) and is attached to each end of the carton (8). The carrying handle (16) further includes a handle structure (6) affixed to the underside of the strap section (72, 74). The handle structure (6) includes a series of foldably interconnected panels that is foldable into a substantially tubular structure having three or more sides disposed at least partially beneath the strap section (72, 74) of the carrying handle (16).

Abstract: According to some embodiments, systems for energy delivery to targeted tissue comprise a catheter with an ablation member, a radiometer configured to detect temperature data from the targeted tissue, a processor configured to determine a calculated temperature (e.g., an extreme temperature, such as a peak or trough temperature) within the tissue by applying at least one factor to the temperature data detected by the radiometer, the processor configured to compare the calculated temperature to a setpoint and an energy source configured to energize the ablation member and to regulate delivery of ablative energy to the targeted tissue of the subject based at least in part on the comparison. In some embodiments, the factor depends on at least one characteristic of the targeted tissue. Information regarding a tissue characteristic can be provided using information from an imaging set (e.g., intracardiac echo) or an electrical signal of the subject (e.g., electrocardiogram).

Abstract: A packaging machine (10) for continuously packaging articles (B) comprising a first conveyor line (23), a second conveyor line (22a, 22b, 22c) and a transfer mechanism (26a, 26b) which transfers articles (B) from the first conveyor line to the second conveyor line into a primary or intermediate carton (C) or transfers primary or intermediate cartons (C) from a second conveyor line to the articles (B) and a second transfer mechanism which transfers packaged articles (B) in said primary or intermediate cartons (C) from the first conveyor line to the second conveyor line to be packaged in secondary or final cartons (T) or transfers articles (B) from the first conveyor to the second conveyor to be packaged directly in the secondary or final cartons (T) or which second transfer mechanism is adapted for reorientation of articles (B) or packaged articles (B) in said primary or intermediate cartons (C) or which second transfer mechanism is idle allowing primary or intermediate cartons to pass for further processing.

Abstract: The present invention discloses regulatory sequences, promoters and terminators, and their use in plants. The regulatory sequences can be used to make gene constructs that include a gene not natively associated with the regulatory sequences. Methods to use the regulatory sequences with antisense constructs or functional RNAs are disclosed. Methods to use the regulatory sequences, promoter or terminator, independently of each other are also disclosed. Methods to use the regulatory sequences to improve plant growth and production such as increased biomass, increased yield and increased tolerance to abiotic or biotic stresses are also disclosed.

Abstract: A system and method for determining and tracking a location of a participant traveling along a route wherein the participant being tracked with an RFID tag during an event. The system includes a tag reader system receiving one or more tag reads from the RFID tag, determining a time for each tag read, identifying the tag number of the RFID tag, and transmitting a tag read message including at least a portion of the received tag reads with the tag number and the determined times. A timing system is configured for receiving and storing the tag read message including the tag number from the tag reader. A location device that is associated with the RFID tag of the participant has a location data receiver for receiving location data from a location providing source, and a wireless communication interface. The location detection device receives location information from the location providing source, time stamps each received location information, and transmits tag location data over the wireless interface.

Abstract: According to some embodiments, a system for treating skin includes a handpiece assembly comprising a tip and a main body portion, the main body portion comprising an interior cavity and at least one canister configured to store at least one of a treatment material and a waste material. The treatment material and/or the waste material is in fluid communication with the tip.

Abstract: A washing machine soap and chemical dispenser having a housing bottom, a top having a plurality of water inlets, and a pull tray for receiving and dispensing soap and chemicals during a washing operation. The top has a plurality of passageways communicating between the water inlets and the compartments and a flush water passageway communicating about sides of the dispenser top adjacent the outer perimeter thereof for flushing the housing bottom and tray with water free of soap and chemicals during each washing operation. The dispenser further includes at least one flush passageway having an outlet port for directing flushing water between rear walls of the tray and housing.

Abstract: An underwater vehicle may be configured to perform vertical profiling and diagonal profiling. The vehicle may include a body having an elongated shape with a central longitudinal axis orthogonal to a central lateral axis. The vehicle may include lateral control surfaces. The lateral control surfaces may be disposed outside of the body and mechanically coupled with the body at a position proximal to the central lateral axis. The lateral control surfaces may be configured to rotate about a control axis parallel to the central lateral axis in order to control an attitude of the vehicle during ascent or descent. A given one of the lateral control surfaces may have a portion extend from the mechanical coupling in a direction perpendicular to the control axis.

Abstract: A method for installation and maintenance of cell site components on a cell tower with a robotic device includes causing the robotic device to traverse the cell tower to a desired location proximate to the cell site components; at the desired location and stabilized to the cell tower, causing manipulation components to perform one or more of installation and maintenance of the cell site components; and, subsequent to the one or more of installation and maintenance of the cell site components, causing the robotic device to scale down the cell tower.

Abstract: A close-out audit method performed at a cell site subsequent to maintenance or installation work includes, subsequent to the maintenance or installation work, obtaining video capture of cell site components associated with the work; subsequent to the video capture, processing the video capture to obtain data for the close-out audit, wherein the processing comprises identifying the cell site components associated with the work; and creating a close-out audit package based on the processed video capture, wherein the close-out audit package provides verification of the maintenance or installation work and outlines that the maintenance or installation work was performed in a manner consistent with an operator or owner's guidelines.

Abstract: An Unmanned Aerial Vehicle (UAV)-based installation method for equipment on cell towers includes flying the UAV with the equipment attached thereto upwards to a desired location on the cell tower, wherein the desired location comprises one or more horizontal support structures; positioning the equipment to the desired location on the cell tower; connecting the equipment to the desired location; and disconnecting the equipment from the UAV.

Abstract: A training system has one or more displays that simulate or mimic rear view mirrors, showing, for example, what is visible behind the simulated vehicle. The training system includes sensors, software, and related hardware for determining a position of a trainee's head within the simulated vehicle and calculating a viewing angle and/or distance between the trainee's eye(s) and the rear view mirrors. Based upon the viewing angle and/or distance, a rear image is panned/zoomed on each of the rear view mirrors corresponding to the viewing angle and/or distance.

Abstract: The present invention relates to an ultrasound coupling device for use with various ultrasound transducers, systems, and applications. The coupling device includes a coupling compartment comprising a chamber having a continuous side wall and an opening on a first end. The continuous side wall is configured to hold a low-profile ultrasound transducer within the chamber so that a front ultrasound emitting surface of the low-profile ultrasound transducer faces outward toward the chamber opening. The front ultrasound emitting surface is configured to control the direction and wave pattern of ultrasonic energy emitted from the transducer. The continuous side wall is also configured to hold a quantity of an ultrasound conductive medium within the chamber and is operative to keep the ultrasound conductive medium in simultaneous contact with a surface of a subject and with at least a portion of the front ultrasound emitting surface of the transducer.

Abstract: An automated system and method for managing a tracking and an automated real-time remote reporting thereof of a participant's participation in an event having a participant event management system (PEMS) that receives a request for tracking of the participant, a participant proximity detector detects the proximity of the participant to a detection point, a location detection system receiving and transmitting participant location data, the timing system receives the preorder request from the PEMS, determines a time of passing of the detection point of the participant, receives the location data and associates the participant event number with the participant identifier number, and transmits the location data forming at least a part of the participant tracking data to an output interface.