Abstract: An ablation system comprises: an ablation catheter and a console. The ablation catheter comprises: a shaft including a proximal end, a distal portion and a distal end; an ablation element configured to deliver energy to tissue; and a force maintenance assembly comprising a force maintenance element and configured to control and/or assess contact force between the ablation element and cardiac tissue. The console is configured to operably attach to the ablation catheter and comprises: an energy delivery assembly configured to provide energy to the ablation element. Methods of ablating tissue are also provided.

Abstract: A vehicle interface control unit for a vehicle comprises an accessories module to detect an accessory fitted to the vehicle an input module to receive one or more input signals from a vehicle electronic control unit, ECU; and a display control module to determine a display setting of an interface element for control of the detected accessory based on the received input signals, and control a display unit to show the interface element according to the determination.

Abstract: Disclosed herein are glass pharmaceutical vials having sidewalls of reduced thickness. In embodiments, the glass pharmaceutical vial may include a glass body comprising a sidewall enclosing an interior volume. An outer diameter D of the glass body is equal to a diameter d1 of a glass vial of size X as defined by ISO 8362-1, wherein X is one of 2R, 3R, 4R, 6R, 8R, 10R, 15R, 20R, 25R, 30R, 50R, and 100R as defined by ISO 8362-1. However, the sidewall of the glass pharmaceutical vial comprises an average wall thickness Ti that is less than or equal to 0.85*s1, wherein s1 is a wall thickness of the glass vial of size X as defined by ISO 8362-1 and X is one of 2R, 3R, 4R, 6R, 8R, 10R, 15R, 20R, 25R, 30R, 50R, and 100R as defined by ISO 8362-1.

Abstract: Disclosed herein are glass pharmaceutical vials having sidewalls of reduced thickness. In embodiments, the glass pharmaceutical vial may include a glass body comprising a sidewall enclosing an interior volume. An outer diameter D of the glass body is equal to a diameter d1 of a glass vial of size X as defined by ISO 8362-1, wherein X is one of 2R, 3R, 4R, 6R, 8R, 10R, 15R, 20R, 25R, 30R, 50R, and 100R as defined by ISO 8362-1. However, the sidewall of the glass pharmaceutical vial comprises an average wall thickness Ti that is less than or equal to 0.85*s1, wherein s1 is a wall thickness of the glass vial of size X as defined by ISO 8362-1 and X is one of 2R, 3R, 4R, 6R, 8R, 10R, 15R, 20R, 25R, 30R, 50R, and 100R as defined by ISO 8362-1.

Abstract: Disclosed herein are glass pharmaceutical vials having sidewalls of reduced thickness. In embodiments, the glass pharmaceutical vial may include a glass body comprising a sidewall enclosing an interior volume. An outer diameter D of the glass body is equal to a diameter d1 of a glass vial of size X as defined by ISO 8362-1, wherein X is one of 2R, 3R, 4R, 6R, 8R, 10R, 15R, 20R, 25R, 30R, 50R, and 100R as defined by ISO 8362-1. However, the sidewall of the glass pharmaceutical vial comprises an average wall thickness Ti that is less than or equal to 0.85*s1, wherein s1 is a wall thickness of the glass vial of size X as defined by ISO 8362-1 and X is one of 2R, 3R, 4R, 6R, 8R, 10R, 15R, 20R, 25R, 30R, 50R, and 100R as defined by ISO 8362-1.

Abstract: One example aspect of the present disclosure is directed to a method for measuring engine performance. The method includes receiving a plurality of parameters related to engine performance. The method includes receiving an indication of an engine wash event. The method includes determining an effectiveness of the engine wash event based on the plurality of parameters. The method includes performing a comparison of the effectiveness of the engine wash event with an expected effectiveness of the engine wash event. The method includes performing a control action based on the comparison.

Abstract: One example aspect of the present disclosure is directed to a method for measuring engine performance. The method includes receiving first parameters related to engine performance prior to an engine wash event. The method includes receiving second parameters related to engine performance after the engine wash event. The method includes determining an engine performance prior to the engine wash event based on the first parameters. The method includes determining an engine performance after the engine wash event based on the second parameters. The method includes determining an effectiveness of the engine wash event based on the engine performance prior to the engine wash event and the engine performance after the engine wash event.

Abstract: A vehicle component or apparatus usable in a motor vehicle is described herein, along with one or more examples of methods of manufacturing the same. The vehicle component may function to provide the feature of blocking water entering from a grille opening from reaching the engine. In situations where flooding occurs and the water level rises, thus immersing portions of the car such as the wheels, the vehicle component may block some of the water from rising beyond a certain level and thus reduce the likelihood that water may reach and damage the engine. In addition or alternatively, the vehicle component may function to separate air flow entering from the lower grille and upper grille openings, respectively, thereby increasing the efficacy of engine cooling by the air flows.

Abstract: A door actuation mechanism for a sliding door of a motor vehicle is disclosed as having a motor driven door actuator connected to first and second actuation cables used for opening and closing the door. Both of the actuation cables has a portion extending away from the door actuator in a direction in which the respective cable moves the door.

Abstract: A door actuation mechanism for a sliding door of a motor vehicle is disclosed as having a motor driven door actuator connected to first and second actuation cables used for opening and closing the door. Both of the actuation cables has a portion extending away from the door actuator in a direction in which the respective cable moves the door.

Abstract: A vehicle component or apparatus usable in a motor vehicle is described herein, along with one or more examples of methods of manufacturing the same. The vehicle component may function to provide the feature of blocking water entering from a grill opening from reaching the engine. In situations where flooding occurs and the water level rises, thus immersing portions of the car such as the wheels, the vehicle component may block some of the water from rising beyond a certain level and thus reduce the likelihood that water may reach and damage the engine. In addition or alternatively, the vehicle component may function to separate air flow entering from the lower grill and upper grill openings, respectively, thereby increasing the efficacy of engine cooling by the air flows.

Abstract: A system and method schedules splittable work orders to provide customers with requested service and efficiently utilize service resources. The method includes forming a list of appointment windows for days on which service may be performed. A request for service from a customer is identified as being a splittable work order. The splittable work order is assigned a job duration required to complete the order and a split time less than the job duration. An appointment window on a first day during which a portion of the service may be scheduled is determined. The appointment window is for the split time in duration. At least one appointment window on a subsequent day or days during which the remainder of the service may be scheduled is then determined. The splittable work order is scheduled by assigning the work order to the determined appointment windows on the determined first and subsequent days.

Abstract: A system and method schedules splittable work orders to provide customers with requested service and efficiently utilize service resources. The method includes forming a list of appointment windows for days on which service may be performed. A request for service from a customer is identified as being a splittable work order. The splittable work order is assigned a job duration required to complete the order and a split time less than the job duration. An appointment window on a first day during which a portion of the service may be scheduled is determined. The appointment window is for the split time in duration. At least one appointment window on a subsequent day or days during which the remainder of the service may be scheduled is then determined. The splittable work order is scheduled by assigning the work order to the determined appointment windows on the determined first and subsequent days.