Abstract: One or more techniques and/or systems are disclosed for a pump technology that provides for more effective and efficient transfer of liquids, such as petroleum products and components, to and through pipelines. Such a technology can comprise a type of external gear pump that creates higher flow, resulting in higher pressures in the pipeline, to move the liquids, while providing for longer pump life, simpler and less maintenance, and fewer undesired conditions, with a smaller footprint, in a cost-effective system.

Abstract: The present disclosure relates to systems and methods for deploying enterprise systems in cloud environments. In one implementation, a system for deploying an enterprise system in a cloud environment may include at least one processor configured to provide: one or more first containers hosting at least one application with at least one enterprise function; one or more second containers hosting at least one microservice configured to activate the at least one enterprise function; at least one application programming interface (API) between the at least one microservice and at least one client; and at least one gateway configured to manage access to the at least one API.

Abstract: The present disclosure relates to systems and methods for deploying enterprise systems in cloud environments. In one implementation, a system for deploying an enterprise system in a cloud environment may include at least one processor configured to provide: one or more first containers hosting at least one application with at least one enterprise function; one or more second containers hosting at least one microservice configured to activate the at least one enterprise function; at least one application programming interface (API) between the at least one microservice and at least one client; and at least one gateway configured to manage access to the at least one API.

Abstract: The present disclosure relates to systems and methods for deploying enterprise systems in cloud environments. In one implementation, a system for deploying an enterprise system in a cloud environment may include at least one processor configured to provide: one or more first containers hosting at least one application with at least one enterprise function; one or more second containers hosting at least one microservice configured to activate the at least one enterprise function; at least one application programming interface (API) between the at least one microservice and at least one client; and at least one gateway configured to manage access to the at least one API.

Abstract: A vehicle parking notification system, including an in-vehicle electronic device including a first wireless communication controller configured to respond to a request for a vehicle id, retrieve position information of the vehicle when the request for the vehicle id is made, the position information indicating that the vehicle is located in a parking facility, and record in memory a time that the request for vehicle id is made and the position information; and an external computer, remote from the vehicle, including processing circuitry configured to: receive, via a second wireless communication controller circuitry, an expiration time that parking at the parking facility expires determined based on the time associated with the request for vehicle id, and display, via a display device, at a predetermined time period before the expiration time a notification message indicating the at least one predetermined time period before the expiration time.

Abstract: The present disclosure relates to systems and methods for deploying enterprise systems in cloud environments. In one implementation, a system for deploying an enterprise system in a cloud environment may include at least one processor configured to provide: one or more first containers hosting at least one application with at least one enterprise function; one or more second containers hosting at least one microservice configured to activate the at least one enterprise function; at least one application programming interface (API) between the at least one microservice and at least one client; and at least one gateway configured to manage access to the at least one API.

Abstract: Systems and methods are disclosed for generating and/or updating an environment, including receiving, from a user device, a request to establish an environment including identification of an application of the environment, generating a parameter based on the application, determining if the parameter is above a threshold; preparing a network for an interaction based on the parameter if the parameter is above the threshold, preparing a server to receive, store, and provide data for the application, and generating code based on the application for operation on the server. The parameter may be a network measure based on a capability of the application. The system and methods include monitoring the network to determine if the parameter is above a threshold, and updating the network if the parameter is above the threshold.

Abstract: Systems and methods are provided for determining navigation routing of a vehicle based on predicted total cost of possible routes, including: receiving information identifying a destination for a vehicle; determining two or more possible routes from a origination to the destination; determining a plurality of cost factors for a plurality of the determined possible routes, wherein the cost factors comprise direct cost information for the plurality of determined possible routes and indirect cost information for the plurality of determined possible routes; calculating a total cost for each of the plurality of determined possible routes using the cost factors; and presenting to the user a lowest-total-cost route from among the plurality of determined possible routes.

Abstract: A pump technology that provides for more effective and efficient transfer of liquids, such as petroleum products and components, to and through pipelines. Such a technology can comprise a type of external gear pump that creates higher flow, resulting in higher pressures in the pipeline, to move the liquids, while providing for longer pump life, simpler and less maintenance, and fewer undesired conditions, with a smaller footprint, in a cost-effective system. Further, one or more portions of the pump can be configured to be easily replaceable to provide for maintenance in place, and provide for longer pump life. Additionally, one or more portions of the pump can be constructed with or coated with abrasive resistant material that extends the life of the external gear pump. Such material can also reduce the friction between surfaces and improve the life of the external gear pump under poor feeding conditions.

Abstract: Methods and devices for classifying a cardiac response to pacing involve establishing a retriggerable cardiac response classification window. A first cardiac response classification window is established subsequent to delivery of a pacing pulse. A cardiac signal following the pacing stimulation is sensed in the first classification window. A second cardiac response classification may be triggered if a trigger characteristic is detected in the first classification window. The cardiac signal is sensed in the second classification window if the second classification window is established. The cardiac response to the pacing stimulation is determined based on characteristics of the cardiac signal. The cardiac response may be determined to be one of a captured response, a non-captured response, a non-captured response added to an intrinsic beat, and a fusion/pseudofusion beat, for example.

Abstract: Computing devices are disclosed. For example, a computing device includes one or more processors and one or more databases. The computing device includes one or more non-transitory memory modules storing machine-readable instructions that, when executed, cause the one or more processors to: receive a plurality of event flags, wherein each event flag of the plurality of event flags is associated with a respective broadcasted audio signal of a plurality of broadcasted audio signals; compare the plurality of event flags to a user profile stored within the one or more databases, wherein the user profile comprises preference characteristics associated with a user; determine whether one or more event flags matches a set of preference characteristics of the user profile; and transmit a notification signal to a vehicle in response to the one or more event flags matching the set of preference characteristics of the user profile.

Abstract: The current invention includes manifold having multiple outputs and at least one input for lubricant to be pumped at high pressure from a skid or trailer to a particular frac valve when the valve requires lubrication. Generally such frac valves require lubrication on an hourly schedule or less. Each output port on the manifold is fitted with an on/off valve that allows remote operation such as pneumatic, hydraulic, electro-pneumatic operation, or other known remote operation system. The pump or pumps are also configured for remote operation. A controller is then provided so that each circuit allows, upon command, lubricant to be pumped from the lubricant reservoir, through the pump, to the manifold, through each remotely operable valve, via each output port, through an appropriate rated hose, then to the lubrication or other port on each frac valve. Generally, once connected each frac valve remains connected to the system to allow the operator to cause lubricant to flow to each valve upon command.

Abstract: A restricted access lockout system restricts access to remotely operated hydraulically actuated valves by utilizing a processor to compare each user's access code against a stored list. The user access code may be provided by card key with an embedded RFID chip, a designated application on a personal device such as a smart phone or smart pad that may communicate with the processor via Bluetooth, Wi-Fi, Internet, or radio. Once the processor grants access to operate various designated hydraulically actuated valves the designated hydraulically actuated valves are unlocked for designated period of time. After the designated period of time expires the hydraulically actuated valves are relocked. Generally, the lock is via a hydraulic cylinder where the hydraulic fluid may be isolated through one or more solenoid control valves. Hydraulic fluid within the hydraulic cylinder and the cylinder provide a sufficient counter to apply force so that the hydraulically actuated valves may not be manipulated.

Abstract: The current invention includes manifold having multiple outputs and at least one input for lubricant to be pumped at high pressure from a skid or trailer to a particular frac valve when the valve requires lubrication. Generally, such frac valves require lubrication on an hourly schedule or less. Each output port on the manifold is fitted with an on/off valve that allows remote operation such as pneumatic, hydraulic, electro-pneumatic operation, or other known remote operation system. The pump or pumps are also configured for remote operation. A controller is then provided so that each circuit allows, upon command, lubricant to be pumped from the lubricant reservoir, through the pump, to the manifold, through each remotely operable valve, via each output port, through an appropriate rated hose, then to the lubrication or other port on each frac valve. Generally, once connected each frac valve remains connected to the system to allow the operator to cause lubricant to flow to each valve upon command.

Abstract: The present disclosure relates to systems and methods for deploying enterprise systems in cloud environments. In one implementation, a system for deploying an enterprise system in a cloud environment may include at least one processor configured to provide: one or more first containers hosting at least one application with at least one enterprise function; one or more second containers hosting at least one microservice configured to activate the at least one enterprise function; at least one application programming interface (API) between the at least one microservice and at least one client; and at least one gateway configured to manage access to the at least one API.

Abstract: The present disclosure relates to systems and methods for deploying enterprise systems in cloud environments. In one implementation, a system for deploying an enterprise system in a cloud environment may include at least one processor configured to provide: one or more first containers hosting at least one application with at least one enterprise function; one or more second containers hosting at least one microservice configured to activate the at least one enterprise function; at least one application programming interface (API) between the at least one microservice and at least one client; and at least one gateway configured to manage access to the at least one API.

Abstract: Spinal pedicle screws are placed into vertebrae from the same approach and the same anterior, anterolateral or anterior/lateral exposure that is used for an anterior/lateral spine operation, during the same surgical procedure as the spine operation. Once the anterior spine operation is complete, pedicle screws areplaced into the vertebrae with a front-to-back trajectory, in a generally anterior, lateral, anterolateral, or contralateral trajectory, avoiding the need for a second operation exposing the posterior spine.

Abstract: Systems and methods for providing a virtual vehicle fleet are provided. One embodiment of a method includes creating a virtual vehicle, where the virtual vehicle provides a telematics service and replicating the virtual vehicle to create the virtual vehicle fleet, where the virtual vehicle fleet includes a plurality of virtual vehicles. Some embodiments include simulating use of the telematics service by at least a portion of the virtual vehicle fleet, determining a response characteristic of the simulated telematics service used by the virtual vehicle fleet, and providing data related to the response characteristic for output.