Abstract: A method includes: receiving a script configured to modify the audio-video file; calculating a performance metric based on execution of the script on a set of test files; classifying the script as performant based on the performance metric; defining a metadata store associated with the script and the audio-video file; receiving a playback request specifying a rendition of the audio-video file from a computational device; in response to receiving the playback request: accessing a set of data inputs from the metadata store; executing the script on a frame of the audio-video file based on the set of data inputs to generate a modified frame of the audio-video file; transcoding the modified frame of the audio-video file into the rendition to generate an output frame of the audio-video file; and transmitting the output frame of the audio-video file to the computational device for playback at the computational device.

Abstract: A canine respirator comprising a hood comprising: a viewing window, an air entry port for receiving fresh air; and an intake air manifold for distributing the fresh air into one or more channels, an air supply unit comprising: a controller, at least one filter for drawing in and filtering air from an environment, an air tube for delivering fresh air to the hood; and a mounting assembly, wherein the air supply unit is attached to a portion of a canine away from a body of the canine via the mounting assembly.

Abstract: The disclosure relates to systems, devices and methods for at least one of cell and gene therapy manufacture. In some embodiments, a cell processing unit is provided and comprises a housing defining an enclosure into which a cell processing platform can be mounted, a platform mounting bracket within the housing and configured and arranged to receive and retain a cell processing platform, a drive apparatus configured and arranged to operatively engage and act upon a cell processing platform so as to move same with respect to the platform mounting bracket, and an actuator configured and arranged to exert a force on a container mounted into the cell processing platform so as to expel a contents from the container.

Abstract: Techniques are provided for visualizing a run of a workflow on a GUI. The techniques include: (a) rendering an origin node of the workflow at a central position and an innermost ring therearound; (b) adding to the first ring, independent nodes representing respective tasks invoked by the workflow that are not dependent on any other task in order of invocation in a distributed manner, together with edges drawn from the origin node to respective added independent nodes; (c) rendering one or more outer rings around the innermost ring; and (d) adding to each of the outer rings, dependent nodes representing respective tasks invoked by the workflow that are dependent on another task represented by another node on another ring closer to the origin node in order of invocation in a distributed manner together with edges drawn to each added dependent node from all nodes representing tasks upon which the respective task represented by that dependent node is dependent.

Abstract: A water purification electrolytic generator apparatus provides clean drinking water to users. An electrolyte is added to water/other liquid exposed to the electrolytic generator apparatus in order to create an environment suitable for the apparatus to function . Residing in a housing of the apparatus is an enclosed first electrode (cathode) printed on a printed circuit board, a second electrode (anode), and a membrane separating the cathode and anode/printed circuit board. A control circuit including the printed circuit board electrically connects the anode and cathode to a power source, which is located external to the interior of the container. The incorporation of the printed circuit board reduces costs and improves portability so that the water purification system can provide drinkable water to users in different circumstances. A system including the apparatus may further include a container housing the electrolytic generator apparatus, a lid, and a stand.

Abstract: A guidewire and catheter are disclosed which are configured together so that it is not possible to advance the guidewire into the patient where it may be undesirably retained in the patient. The improved safety is achieved by protrusions on each of the guidewire and catheter which coordinate with one another. Novel methods of catheterization are also disclosed.

Abstract: The disclosure relates to a cell processing unit for cell and gene therapy manufacture comprising a housing defining an enclosure into which a cell processing platform can be mounted, a platform mounting bracket within the housing and configured and arranged to receive and retain a cell processing platform, a drive apparatus configured and arranged to operatively engage and act upon a cell processing platform to move same with respect to the platform mounting bracket, and an actuator configured and arranged to exert a force on a container mounted into the cell processing platform to expel a contents from the container.

Abstract: The present disclosure relates to a cell processing container for use in one or more unit operations in cell and/or gene therapy manufacture, the container having a base section, a top section arranged substantially in parallel with the base section and a wall element arranged between the top section and the base section and defining an internal lumen of the container, in which the wall element of the cell culture container preferably is compressible with respect to the top and base section and the wall element of the cell culture container is composed of a flexible material, wherein the cell processing container comprises at least one sterile connector end configured to operatively couple with a further sterile connector end to form a sterile connector between the cell processing container and a further container to which the cell processing container is to be fluidly connected.

Abstract: The present disclosure relates to a cell processing platform for use in one or more unit operations in cell and/or gene therapy manufacture, the platform comprising a body portion comprising at least one fluid inlet fluidly connected to a fluid outlet, and an auxiliary container port fluidly coupled to the at least one fluid inlet of the body portion, wherein the auxiliary container port is configured and arranged to receive and sealingly engage with an auxiliary container and to fluidly connect the auxiliary container lumen with the at least one fluid inlet of the body portion, and a primary container port configured and arranged to sealingly engage with a primary container and to fluidly connect the primary container lumen with the fluid outlet of the body portion.

Abstract: A cell processing device for use in performing one or more unit processes in one or more of cell or gene therapy manufacturing, comprising a cell processing platform fluidly coupled to at least one auxiliary container and to at least one primary container, the cell processing platform comprising a body portion comprising at least one fluid inlet fluidly connected to a fluid outlet, and an auxiliary container port fluidly coupled to the at least one fluid inlet of the body portion, wherein the at least one auxiliary container is received in sealing engagement with the auxiliary container port such that the auxiliary container lumen is fluidly connected with the at least one fluid inlet of the body portion, and a primary container is received in sealingly engagement with the primary container port such that the primary container lumen is fluidly connected with the fluid outlet of the body portion.

Abstract: The present invention relates to a process for cleaning and/or washing down and/or feathers comprising: (a) mixing the down and/or feathers with a solution of an alkyl polyglucoside; (b) optionally adding simultaneously or sequentially a solution of a Group 4 metal salt to the mixture of (a); (c) removing excess liquid; and (d) optionally drying the down and/or feathers. Down and/or feathers prepared according to such a process are also disclosed. The invention additionally relates to a down and/or feather washing and/or cleaning composition for rendering the down and/or feathers hydrophobic comprising a solution of an alkyl polyglucoside, optionally a solution of a Group 4 metal salt, and a water-repellent treatment. The invention further relates to a kit for cleaning and/or washing down and/or feathers and rendering the down and/or feathers water repellent.

Abstract: A guidewire and catheter are disclosed which are configured together so that it is not possible to advance the guidewire into the patient where it may be undesirably retained in the patient. The improved safety is achieved by protrusions on each of the guidewire and catheter which coordinate with one another. Novel methods of catheterization are also disclosed.

Abstract: Methods ad systems are described for generating custom rules for device operation in a home environment. A method includes monitoring an activity in home environment via one or more sensors, generating a recommended action associated with the at least one device based on the monitored activity, receiving user input regarding the recommended action, determining a trend based on the received user input, and adjusting performance of the at least one device based on the determined trend.

Abstract: The disclosure relates to systems, devices and methods for at least one of cell and gene therapy manufacture. In some embodiments, a cell processing unit is provided and comprises a housing defining an enclosure into which a cell processing platform can be mounted, a platform mounting bracket within the housing and configured and arranged to receive and retain a cell processing platform, a drive apparatus configured and arranged to operatively engage and act upon a cell processing platform so as to move same with respect to the platform mounting bracket, and an actuator configured and arranged to exert a force on a container mounted into the cell processing platform so as to expel a contents from the container.

Abstract: The invention relates to a wetting system for providing a wetting effect to a fabric or textile comprising a solution of an alkyl polyglucoside in combination with a solution of a Group 4 metal salt. The invention also relates to a process for producing a wetting or re-wetting effect on a textile or fabric comprising applying a wetting system to the fabric that comprises a solution of an alkyl polyglucoside in combination with a solution of a Group 4 metal salt and drying the fabric at a low temperature, i.e. less than 100° C.

Abstract: According to at least one embodiment, a computer-implemented method to implement at least one automation rule is described. The at least one automation rule may be generated, wherein the at least one automation rule may control at least one aspect of an automation system. The execution origination point may be selected for the at least one automation rule based at least in part on the one or more implementation parameters. The one or more implementation parameters may comprise at least one of the speed of the automation rule execution, the scalability of the automation rule, the flexibility of the automation rule conditions, or the ease of automation rule modification.

Abstract: A process to remove excess dye from dyed polyester fabric comprising adding a solution of a weak organic acid to the fabric in a dyeing vessel, raising the temperature in the vessel to at least 80° C., allowing the acid to react with the fabric for at least 6 minutes and removing all liquid.

Abstract: A method for heating ventilation and air conditioning (HVAC) systems is described. In one embodiment, the method includes measuring a temperature of a first room of a building via a first thermometer placed in the first room and measuring a temperature of a second room of the building via a second thermometer placed in the second room and receiving the temperature of the first room via a first data communication device communicatively coupled to a first HVAC register in the first room and receiving the temperature of the second room via a second data communication device communicatively coupled to a second HVAC register in the second room. In some cases, the first data communication device is configured to communicate data between the first thermometer and a central automation controller and the second data communication device is configured to communicate data between the second thermometer and the central automation controller.

Abstract: A method for repairing a gear part (1) in a wind turbine, in particular repairing damaged teeth of a toothed rim (2). A repair cavity (10) is formed by removing material, including one or more damaged teeth, from the gear part (1) by drilling one or more holes through the gear part (1) along a direction which is substantially parallel to an axis of circular symmetry of the gear part (1). A repair segment (15) comprising one or more replacement gear teeth (16), and having a geometry which matches a geometry of the repair cavity (10), is arranged in the repair cavity (10), and attached to the gear part (1) by introducing one or more fasteners (17) into fastener openings (11, 13, 14) formed in the gear part (1).