Abstract: An apparatus and method are disclosed for a biofunctional molecular imprint medical device configured to remain in permanent or temporary contact with a body comprising a supportive structure, a surface material that receives and retains a molecular imprint and that is positioned to contact a body tissue or other substance during use, a molecular imprint of a bioactive molecule wherein an imprinted cavity is of a bioactive molecule that catalyzes the promotion or suppression biological processes and at least one of a semiconductor, a nanoparticle quantum dot, a nano-island, and a quantum wire, wherein the nanoparticle quantum dot, nano-island, or quantum wire produces an electron wave function configuration that dynamically reconfigures the electron charge distribution within the molecular imprint, enabling tuning of the imprinted cavity.

Abstract: Provided herein are an apparatus, system, and method for a medical diagnostic and imaging forceps for determining the pathology of tissue in vivo during surgery, endoscopy, laparoscopy, or other medical procedure, the forceps comprising a platform for analyzing tissue pathology inside the body by way of sensors including without limitation conductivity, optical, tracking, and x-ray sensors.

Abstract: An system, and method are disclosed for harmonic modulation of standing wavefields for spatial focusing, manipulation, and patterning of particles, cells, powders, aerosols, colloids, and solids using a multifrequency wave source, a chamber a control module and an analysis module to generate standard wavefields useful for tissue engineering, micro fabrication, therapeutic treatment, and diagnostic tests.

Abstract: A method for academic engagement includes parsing answers from questions in a question group from completed questionnaires. Answers are discrete numbers. The method includes determining a transformed scale score as: {acute over (x)}=x?1, determining a POMP score as: p = x ? n and mapping a rescaled probability as: {acute over (p)}=?p+0.5(1??). ? is a scaling constant between 0.5 and 1. The method includes determining a modified logit as: t = ln ? ( p ? 1 - p ? ) , determining a mean for the modified logit values and determining a mean rescaled probability for each determined mean as: p ^ ? = e t ? 1 + e t ? . The method includes determining an estimated standard probability as: p ^ = p ^ ? + 0.

Abstract: Apparatuses, methods, systems, and program products are disclosed for nanotechnology fabrication in a virtual reality environment. An apparatus includes a simulation module configured to generate a virtual reality environment for simulating a nanotechnology fabrication line. An apparatus includes a task module configured to provide one or more tasks associated with nanotechnology fabrication for a user to complete during a simulation within a virtual reality environment. An apparatus includes an assessment module configured to assess a user's performance while completing one or more tasks during a simulation within a virtual reality environment.

Abstract: A transportable fire training apparatus includes a trailer frame having a rear raised section at a rear end of the trailer frame and an unraised section at a middle portion of the trailer frame, a shell attached to the trailer frame and partitioned into a plurality of training rooms, a rear multi-axle wheel set disposed below, and attached to, the rear raised section of the trailer frame via an air ride suspension system that raises the trailer frame relative to the a rear multi-axle wheel set in response to pressurization of the air ride suspension system. The unraised section of the trailer frame rides substantially above the ground when the air ride suspension system is in a pressurized state and rests on the ground when the air ride suspension system is in an unpressurized state. A method for deploying and using the transportable fire training apparatus is also disclosed herein.

Abstract: An apparatus, system, program product, and method are disclosed for determining the microstructure and properties of materials using acoustic signal processing. An apparatus includes a one or more sensors for sensing information describing a multiphase material using sound waves. The apparatus includes a processor operably coupled to the one or more sensors and a memory that stores code executable by the processor. The code is executable by the processor to receive sound-wave input from the one or more sensors, perform one or more quantitative analyses on the received sound-wave input in the frequency domain, and determine a microstructure of the multiphase material based on results from the one or more quantitative analyses.

Abstract: An apparatus includes an XY scanning mechanism, a first transducer configured to transmit a sound wave, a second transducer configured to receive the sound wave, and a tray configured to hold a material. The tray is coupled to the XY scanning mechanism and located beneath the first transducer and the second transducer is located on a bottom side of the tray below the material. The tray is moved in an XY pattern along an X axis and a Y axis in response to an XY scanning mechanism controller mechanically moving the XY scanning mechanism while the first transducer is positioned in a stationary location along a vertical axis perpendicular to the tray. The first transducer transmits sound waves into the material and the second transmitter receives the transmitted sound waves at each XY position.

Abstract: An apparatus for teaching statistics concepts includes a simulation module that generates a simulation of subject elements moving from a first portion of a simulated space to a second portion of the simulated space, where the simulated space has a treatment path and a non-treatment path. A propensity module utilizes one or more propensity inputs to the simulation module to affect a propensity of the subject elements to move on the treatment path to have treatment functions applied. A treatment module applies the treatment functions to the subject elements moving on the treatment path, where the treatment functions are configured to affect at least one output measure of the subject elements. A display module displays the simulation of the subject elements having the propensity inputs applied, application of the treatment functions, and the at least one output measure.

Abstract: A mobile microalgae harvesting apparatus is disclosed. In one embodiment the mobile microalgae harvesting apparatus includes a harvesting boom coupled to a harvesting vessel, where the harvesting boom skims a microalgae mixture of microalgae and water from a surface of a body of water down to a predetermined depth below the surface. In the embodiment, the mobile microalgae harvesting apparatus also includes a separator aboard the harvesting vessel that separates water from the microalgae mixture and a microalgae collector that collects microalgae from the separator, wherein the microalgae collector deposits the collected microalgae on a transfer vessel coupled to the harvesting vessel. A mobile microalgae harvester and a system for harvesting microalgae are also disclosed.

Abstract: An apparatus is disclosed for a biofunctional molecular imprint apparatus comprising a supportive structure that cuts, punctures, retains, repairs, protects, interrogates, and/or supports the function of a body tissue or other substance; a surface material that receives and retains a molecular imprint and that is positioned to contact the body tissue or other substance during use; and a molecular imprint of a bioactive molecule that influences blood coagulation, tissue damage, pain, immune response, inflammation, infection, healing, tissue regeneration, cell adhesion, the formation of extracellular matrix, tumorigenesis, angiogenesis, bacterial growth, and/or side effects.

Abstract: Methods and kits for performing polymerase chain reaction (PCR) and melting analyses to determine copy number variation and/or gene expression are disclosed herein. Related uses of such methods and analyses are also disclosed herein.

Abstract: In one example, an apparatus for mounting accessories on a rifle includes a base that is mountable to a rifle, an accessory mounting bracket that is L-shaped, the accessory mounting bracket comprising an accessory mounting leg and a depth positioning leg. The depth positioning leg may include a plurality of attachment features disposed along a length thereof that enable attaching the depth positioning leg to the base at a plurality of depth positions. The accessory mounting leg may include a slot for mounting a photographic device at any lateral position within a lateral positioning range (e.g., 3 inches). In some embodiments, the base is mountable to both the left side and the right side of the rifle and the accessory mounting bracket is attachable to the base (on either side of the rifle) at each depth position for any of four orientations.

Abstract: An system, and method are disclosed for harmonic modulation of standing wavefields for spatial focusing, manipulation, and patterning of particles, cells, powders, aerosols, colloids, and solids using a multifrequency wave source, a chamber a control module and an analysis module to generate standard wavefields useful for tissue engineering, micro fabrication, therapeutic treatment, and diagnostic tests.

Abstract: Shock tools can include a rotary top drive box in threaded connection with an outer tube. A center plate tube can run through the center of the shock tool to provide a pathway for drilling fluid and/or mud to flow to the drill bit. A bottom tube socket box holding head can be attached to the outer tube and the center plate tube can be connected to a bottom drive socket. The bottom tube socket box holds a portion of the bottom drive socket within the outer tube. The center plate tube can be slidably engaged with the rotary top drive box. Multiple compression plates separated by compression pads are located in the tool to dampen the shock load by distributing the load across each of the multiple pads, thereby minimizing the load on any individual pad. This arrangement allows for higher load dampening lower failure rates.

Abstract: Exemplary drill tools for placement in a drill string may include a body; a plurality of reamer cutters; and a plurality of ball and socket connectors configured to attach the plurality of reamer cutters to the body. Each of the plurality of reamer cutters may be replaceable by removing at least one of the plurality of ball and socket connectors from the reamer body. Each of the ball and socket connectors may be attached to the reamer body with bolts. Each of the ball and socket connectors may include titanium dioxide and/or titanium carbide coatings where the connectors interface with the reamer cutters.

Abstract: A Dutch oven with an improved handle assembly is provided. The assembly may include a handle configured to removably engage a receiver on the lid of the Dutch oven. The handle may be used to transport a Dutch oven to a heating source and, once placed in the heating source, removed and stored so that the handle is not subject to heat while the Dutch oven is used for cooking. To remove the Dutch oven from the heating source, the handle may be reinserted into the receiver and used to lift the Dutch oven from the heating source. The Dutch oven may also include one or more retaining members to securely hold the Dutch oven's lid in place.