Abstract: A system for precoating a preform for drawing optical fiber including a diameter sensor to determine a diameter of pulled optical fiber, a cooling system to cool the optical fiber once it is pulled from a furnace, a coating system to apply a coating to the optical fiber once it has cooled and an ultra-violet lamp to cure the coating.

Abstract: Described herein, are battery separators, comprising the following: a microporous polymeric film; and an optional coating layer on at least one side of the microporous polymeric film, wherein at least one of the microporous polymeric film and the optional coating comprises an additive. The additive is selected from the group consisting of a lubricating agent, a plasticizing agent, a nucleating agent, a shrinkage reducing agent, a surfactant, an SEI improving agent, a cathode protection agent, a flame retardant additive, LiPF6 salt stabilizer, an overcharge protector, an aluminum corrosion inhibitor, a lithium deposition agent or improver, or a solvation enhancer, an aluminum corrosion inhibitor, a wetting agent, and a viscosity improver. Also, described herein are batteries, including lithium-ion batteries, comprising one or more of the described separators. Methods for making the battery separators are also described.

Abstract: A system for precoating a preform for drawing optical fiber including a diameter sensor to determine a diameter of pulled optical fiber, a cooling system to cool the optical fiber once it is pulled from a furnace, a coating system to apply a coating to the optical fiber once it has cooled and an ultra-violet lamp to cure the coating.

Abstract: A system for precoating a preform for drawing optical fiber including a diameter sensor to determine a diameter of pulled optical fiber, a cooling system to cool the optical fiber once it is pulled from a furnace, a coating system to apply a coating to the optical fiber once it has cooled and an ultra-violet lamp to cure the coating.

Abstract: Disclosed herein are methods, devices and systems for performing robotic procedures. The devices may include one or more robotic arms. The one or more robotic arms may comprise one or more joints. A joint may include a magnetic sensing system. The one or more robotic arms may be configured to move an elbow joint independently from an end effector or origin of the robotic arm. A working end of the robotic arm may be configured for insertion through a trocar into a body cavity of a subject and may be operatively coupled to a motor unit by one or more electrical or mechanical components housed in a support tube.

Abstract: A system and method is described for the touchless entry of a personal identification number (PIN) at a self-service terminal such as an automated teller machine (ATM). A mobile device includes a PIN entry application. The self-service terminal includes a wireless interface for communicating wirelessly with the PIN entry application in the mobile device. A communication channel is established between a particular customer's mobile device and the self-service terminal. The PIN entry application verifies a public key for the self-service terminal at the mobile device. The customer's PIN is encrypted by the PIN entry application at the mobile device using either an ephemeral symmetric encryption key or a one-time RSA PIN transport public key. The encrypted PIN is transmitted to an encryption processor at the self-service terminal. The encryption processor decrypts the PIN using the appropriate encryption key.

Abstract: The disclosure relates to recombinant protein expression systems comprising genetically modified cells wherein the cells are transformed or transfected with tRNA genes to reduce base mismatch due to genetic degeneracy in the genetic code.

Abstract: An airfoil vane assembly includes a vane piece defining a first vane platform, a second vane platform, and a hollow airfoil section joining the first vane platform and the second vane platform. The first vane platform defines a collar projection therefrom. A spar piece defines a spar platform and a spar extends from the spar platform into the hollow airfoil section. The spar platform includes a radial opening defined by first and second axial faces. The radial opening is configured to receive the collar projection, and a groove in the first axial face. A seal is situated in the groove. The seal seals against the collar projection and a biasing member is configured to bias the seal towards the collar projection. A method of assembling a vane is also disclosed.

Abstract: A vane for a gas turbine engine includes an airfoil section that has an airfoil wall defining a leading edge, a trailing edge, a pressure side, and a suction side that bound an internal cavity. The airfoil section has associated characteristics including a center of pressure and an aerodynamic load vector through the center of pressure. The airfoil wall has a single rib connecting the pressure side and the suction side. The single rib is aligned with the aerodynamic load vector.

Abstract: A system for drawing optical fiber in microgravity including a sealed housing to prevent infiltration of at least humidity and filled with a dry environment, a preform holder located within the sealed housing to hold preform material, a furnace located within the sealed housing to receive the preform material from the preform holder and to heat the preform material from which the optical fiber is pulled, a feed system to move the preform material from the preform holder to the furnace, a drawing mechanism located within the sealed housing to pull the optical fiber from the preform material within the furnace, a diameter monitor located within the sealed housing to measure a diameter of the optical fiber and a fiber collection mechanism located within the sealed housing to gather and store the optical fiber.

Abstract: Disclosed herein are novel or improved microporous battery separator membranes, separators, batteries including such separators, methods of making such membranes, separators, and/or batteries, and/or methods of using such membranes, separators and/or batteries. Further disclosed are laminated multilayer polyolefin membranes with exterior layers comprising one or more polyethylenes, which exterior layers are designed to provide an exterior surface that has a low pin removal force. Further disclosed are battery separator membranes having increased electrolyte absorption capacity at the separator/electrode interface region, which may improve cycling. Further disclosed are battery separator membranes having improved adhesion to any number of coatings. Also described are battery separator membranes having a tunable thermal shutdown where the onset temperature of thermal shutdown may be raised or lowered and the rate of thermal shutdown may be changed or increased.

Abstract: In accordance with at least selected embodiments, a battery separator or separator membrane comprises one or more co-extruded multi-microlayer membranes optionally laminated or adhered to another polymer membrane. The separators described herein may provide improved strength, for example, improved puncture strength, particularly at a certain thickness, and may exhibit improved shutdown and/or a reduced propensity to split.

Abstract: Described herein, are battery separators, comprising the following: a microporous polymeric film; and an optional coating layer on at least one side of the microporous polymeric film, wherein at least one of the microporous polymeric film and the optional coating comprises an additive. The additive is selected from the group consisting of a lubricating agent, a plasticizing agent, a nucleating agent, a shrinkage reducing agent, a surfactant, an SEI improving agent, a cathode protection agent, a flame retardant additive, LiPF6 salt stabilizer, an overcharge protector, an aluminum corrosion inhibitor, a lithium deposition agent or improver, or a solvation enhancer, an aluminum corrosion inhibitor, a wetting agent, and a viscosity improver. Also, described herein are batteries, including lithium-ion batteries, comprising one or more of the described separators. Methods for making the battery separators are also described.

Abstract: A pin assembly according to an exemplary embodiment of this disclosure, among other possible things includes a spring housing, a spring situated in the spring housing, a pin having a first end configured to be received in the spring housing and to engage the spring, and a boot configured to receive a second end of the pin. The boot is configured to span a gap between first and second adjacent components and configured to transfer a spring force from the spring to the first and second adjacent components. A vane assembly and a method of assembling a vane assembly are also disclosed.

Abstract: A method for ensuring a user is permitted to conduct an activity is provided that includes the steps of capturing, using a computing device, data for a biometric modality of a user and identifying information of an object. The method also includes transmitting, via a network, the captured biometric modality data and identifying information to a computer and conducting a verification transaction based on the captured biometric modality data to verify the identity of the user. When the identity of the user is successfully verified, a verification transaction is conducted based on the captured object identifying information and the user is permitted to use the object to conduct the activity when the object is successfully verified.

Abstract: An airfoil vane assembly includes a vane piece defining a first vane platform, a second vane platform, and a hollow airfoil section joining the first vane platform and the second vane platform. The first vane platform defines a collar projection therefrom. A spar piece defines a spar platform and a spar extends from the spar platform into the hollow airfoil section. The spar piece includes a radial opening defined by first and second opposed faces. The radial opening is configured to receive the collar projection, and a groove in the spar platform opening to the first face. A seal is situated in the groove. The seal seals against the collar projection. A gas turbine engine and a method of assembling a vane are also disclosed.

Abstract: A sensor system to provide data for use to control manufacture of an optical fiber in microgravity including a diameter sensor to monitor a diameter of a fiber drawn from a preform material, a tension sensor to monitor tension of the fiber as the fiber is pulled from the preform material to a storage device and a controller in communication with at least one of the diameter sensor and the tension sensor to evaluate sensor data to determine at least one of a speed and rate at which the fiber is pulled from the preform material.

Abstract: Disclosed herein are methods, devices and systems for performing robotic procedures. The devices may include one or more robotic arms. The one or more robotic arms may comprise one or more joints. A joint may include a magnetic sensing system. The one or more robotic arms may be configured to move an elbow joint independently from an end effector or origin of the robotic arm. A working end of the robotic arm may be configured for insertion through a trocar into a body cavity of a subject and may be operatively coupled to a motor unit by one or more electrical or mechanical components housed in a support tube.

Abstract: A system for drawing optical fiber in microgravity including a sealed housing to prevent infiltration of at least humidity and filled with a dry environment, a preform holder located within the sealed housing to hold preform material, a furnace located within the sealed housing to receive the preform material from the preform holder and to heat the preform material from which the optical fiber is pulled, a feed system to move the preform material from the preform holder to the furnace, a drawing mechanism located within the sealed housing to pull the optical fiber from the preform material within the furnace, a diameter monitor located within the sealed housing to measure a diameter of the optical fiber and a fiber collection mechanism located within the sealed housing to gather and store the optical fiber.

Abstract: A parking enforcement system configured to impair the view of a driver through a windshield of a vehicle is provided. The parking enforcement system includes a plurality of covering assemblies. Each of the covering assemblies has one or more suction assemblies configured for placement against a windshield of a vehicle. A pump assembly is configured for pneumatic communication with the one or more suction assemblies. The pump assembly is configured to develop a partial vacuum between the suction assemblies and the windshield. A release assembly is configured for pneumatic communication with the one or more suction assemblies. The release assembly has a servo motor configured to actuate release of the suction assemblies from the windshield.