Abstract: Anti-PVRIG and anti-TIGIT antibodies are provided.

Abstract: The present invention is directed to anti-PVRIG antibodies and methods of using same.

Abstract: Anti-PVRIG and anti-TIGIT antibodies are provided.

Abstract: A system and method for turning a well over to production. The method may include drilling a wellbore using a drillstring, casing the wellbore, fracturing a reservoir, drilling the wellbore to a plug back total depth using the drillstring to clean out the wellbore, and converting the drillstring from a drilling mode to a production mode.

Abstract: A method of attenuating annular pressure buildup within a wellbore. The method includes accessing a wellbore, with the wellbore having an annulus disposed between first and second strings of casing. The method also includes placing a column of cement around the second string of casing generally below the first string of casing. The method further includes pumping a fluid mixture into the annulus, forming a fluid column. The fluid mixture comprises a carrier fluid, and a plurality of compressible particles dispersed in the carrier fluid. Each of the compressible particles is fabricated to partially collapse in response to thermal expansion of the fluid mixture. The method also includes placing a wellhead over the wellbore, thereby forming a trapped annulus in the wellbore. The method additionally includes at least partially sealing the annular region along at least one depth above the column of cement to inhibit vertical migration of the compressible particles.

Abstract: A method of attenuating annular pressure buildup within a wellbore. The method includes running first and second strings of casing into a wellbore, wherein the first string of casing surrounds an upper portion of the second string of casing forming an annular region. The method also includes providing a packing of compressible material within the annular region. The compressible material comprises carbonaceous particles. The particles may reside within a porous sleeve or filter, or they may be packed together in a matrix using a cross-linked polymer or binder. The packing is fixed at a selected depth within the annular region, and is designed so that the compressible material absorbs pressure in response to thermal expansion of wellbore fluids during the production of hydrocarbon fluids from the wellbore. The method further includes placing a wellhead over the wellbore, thereby forming a trapped annulus in the wellbore over the annular region.

Abstract: A computer is configured to receive a request from an autonomous machine to perform an action, authenticate the autonomous machine according to a smart contract blockchain program, generate encrypted commands to actuate one or more components of the autonomous machine to perform the action in response to authenticating the autonomous machine, transmit the encrypted commands to an external server configured to authenticate the request according to a blockchain program, receive decrypted commands from the external server based on authentication of the request, and actuate the one or more components of the autonomous machine to perform the action according to the decrypted commands.

Abstract: A collection of compressible particles. The compressible particles are intended to be used for attenuating pressure build-up within a confined volume such as a trapped annulus in a wellbore. Each of the compressible particles is fabricated to collapse in response to fluid pressure within the confined volume, and comprises carbon. Particularly, each of the particles comprises a plurality of peripheral openings, permitting an ingress of wellbore fluids in response to an increase in pressure within a trapped annulus. The collection of compressible particles together has a reversible volumetric expansion/contraction of ?10% and up to 25% at pressures up to 10,000 psi. A method of attenuating annular pressure buildup within a wellbore using the collection of compressible particles is also provided.

Abstract: This disclosure describes systems and methods using blockchain for in-vehicle health and wellness tracking. An example method may include receiving a request for a vehicle from a mobile device of a user. The example method may also include receiving, from a pathogen detector device within a first vehicle, an indication that a number of pathogens within the first vehicle is less than a threshold amount. The example method may also include assigning the first vehicle to the user based on the indication that the number of pathogens within the first vehicle is less than a threshold amount.

Abstract: Example feed trays for a printer are disclosed. In one example, the feed tray includes a support surface to support print media, and a guide wall coupled to the support surface. The support surface and the guide wall define a feed path for the print media into the printer. In addition, the feed tray includes a fill indicator comprising a cam rotatably coupled to the guide wall about an axis of rotation that is perpendicular to the feed path. The cam includes an extension that extends radially from the axis of rotation, and the cam is rotatable about the axis of rotation between a first position and a second position. The extension is more proximate to the support surface when the cam is in the second position than when the cam is in the first position, and the cam is rotationally biased from the second position toward the first position.

Abstract: Example feed trays for a printer are disclosed. In one example, the feed tray includes a support surface to support print media, and a guide wall coupled to the support surface. The support surface and the guide wall define a feed path for the print media into the printer, and the guide wall is movable along the support surface. In addition, the feed tray includes a fill indicator comprising a roller mounted to the guide wall that extends into the feed path. The roller is to rotate about an axis of rotation that is perpendicular to the feed path.

Abstract: Blockchain-enabled advanced shipment notice for additive manufacturing supply chain is disclosed herein. An example method includes generating a digital supply item associated with a product model for a part, encrypting the digital supply item, generating an additive manufacturing policy for the part, and adding the digital supply item and the additive manufacturing policy to a blockchain ledger. A supplier can authorize a print job for the part, decrypt the digital supply item from the blockchain ledger, and print the part using the digital supply item on a three-dimensional printer, according to the additive manufacturing policy.

Abstract: A system and method for molding a component within a molding system having a mold cavity that includes at least one controlled compression region associated with and adjacent to a movable mold part. In one embodiment, the mold cavity may include a reference compression region for which the movable mold part is configured to substantially avoid affecting or to substantially act independently, or both.

Abstract: A 3D foam component for an article of footwear and a method for manufacturing a 3D foam component for an article of footwear is provided. The method includes a sequential deposition of liquid droplets of liquid polymer material onto an object carrier. A blowing agent is introduced to the molten polymer prior to or sequentially with or after the discharge of a liquid droplet. The resulting component includes a plurality of foam pellets formed by the expansion and cooling of droplets of liquid polymer material injected with the blowing agent.

Abstract: A method of attenuating annular pressure buildup within a wellbore. The method includes accessing a wellbore, with the wellbore having an annulus disposed between first and second strings of casing. The method also includes placing a column of cement around the second string of casing generally below the first string of casing. The method further includes pumping a fluid mixture into the annulus, forming a fluid column. The fluid mixture comprises a carrier fluid, and a plurality of compressible particles dispersed in the carrier fluid. Each of the compressible particles is fabricated to partially collapse in response to thermal expansion of the fluid mixture. The method also includes placing a wellhead over the wellbore, thereby forming a trapped annulus in the wellbore. The method additionally includes at least partially sealing the annular region along at least one depth above the column of cement to inhibit vertical migration of the compressible particles.

Abstract: A collection of compressible particles. The compressible particles are intended to be used for attenuating pressure build-up within a confined volume such as a trapped annulus in a wellbore. Each of the compressible particles is fabricated to collapse in response to fluid pressure within the confined volume, and comprises carbon. Particularly, each of the particles comprises a plurality of peripheral openings, permitting an ingress of wellbore fluids in response to an increase in pressure within a trapped annulus. The collection of compressible particles together has a reversible volumetric expansion/contraction of ?10% and up to 25% at pressures up to 10,000 psi. A method of attenuating annular pressure buildup within a wellbore using the collection of compressible particles is also provided.

Abstract: An example system includes an imaging device and a consumable storage unit. The imaging device includes at least one consumable used in operation of the imaging device and a controller. The consumable storage unit includes at least one cavity to store a replacement consumable therein. The replacement consumable is inaccessible for use in operation of the imaging device. The controller is communicatively coupled to the consumable storage unit to receive a signal indicative of presence or absence of replacement consumable in the consumable storage unit.

Abstract: Example feed trays for a printer are disclosed. In one example, the feed tray includes a support surface to support print media, and a guide wall coupled to the support surface. The support surface and the guide wall define a feed path for the print media into the printer. In addition, the feed tray includes a fill indicator comprising a cam rotatably coupled to the guide wall about an axis of rotation that is perpendicular to the feed path. The cam includes an extension that extends radially from the axis of rotation, and the cam is rotatable about the axis of rotation between a first position and a second position. The extension is more proximate to the support surface when the cam is in the second position than when the cam is in the first position, and the cam is rotationally biased from the second position toward the first position.

Abstract: Example feed trays for a printer are disclosed. In one example, the feed tray includes a support surface to support print media, and a guide wall coupled to the support surface. The support surface and the guide wall define a feed path for the print media into the printer, and the guide wall is movable along the support surface. In addition, the feed tray includes a fill indicator comprising a roller mounted to the guide wall that extends into the feed path. The roller is to rotate about an axis of rotation that is perpendicular to the feed path.

Abstract: Example output assemblies for a printer device and printer devices incorporating the output assemblies are disclosed. In one example, the output assembly includes a support surface to support print media that is dispensed from the printer device along a feed direction. In addition, the output assembly includes a side surface that is coupled to the printer device and disposed above the support surface. The side surface is to transition between a first position and a second position. When the side surface is in the second position, the side surface is extended away from the printer device in the feed direction from the from the first position.