Patent application number | Description | Published |
20080301419 | Process model control flow with multiple synchronizations - Activations of a plurality of incoming branches may be detected at a synchronization point having a plurality of outgoing branches. A first synchronization may be executed after a first number of activations is detected, and at least one of a plurality of outgoing branches from the synchronization point may be activated, based on the first synchronization. A second synchronization may be executed after a second number of activations is detected, and at least a second one of the plurality of outgoing branches from the synchronization point may be activated, based on the second synchronization. | 12-04-2008 |
20080301684 | Multiple instance management for workflow process models - A first instance and a second instance of an activity of a process model may be executed, the first instance, the second instance, and the activity being associated with activity state data describing one or more states thereof. A co-process associated with the first instance, the second instance, and the activity may be spawned, and the co-process may be executed based on the activity state data. | 12-04-2008 |
20090133019 | EVALUATION OF SYNCHRONIZATION GATEWAYS IN PROCESS MODELS - A system may include a thread monitor that is arranged and configured to monitor progress of multiple threads of a workflow process at a synchronization point with each of the threads having a state, and configured to generate at least one inspection trigger for inspection of the threads. A thread inspector may inspect the threads at the synchronization point for a change in the state in any of the threads in response to the inspection trigger. A firing rules engine may determine whether or not the synchronization point should fire based at least in part on the change in the state of at least one of the threads. | 05-21-2009 |
Patent application number | Description | Published |
20080223747 | CHILDPROOF, SENIOR-FRIENDLY BLISTER PACK - A blister pack for dispensing pills that is childproof yet senior-friendly. The blister pack includes a substantially tear-resistant housing that encloses one or more blisters contained on a blister sheet and surrounded by criss-cross grain material to provide cut or tear resistance in multiple directions. In one embodiment, the cavities of the blisters are positioned such that the pills are aligned at an angle with respect to the corresponding dispensing slots on the housing in their normal position. The blisters are detachably attached to a zipper strip on the blister sheet to prevent undesired rotation of the blisters. Upon removal of the zipper strip, the blisters may be twisted until their pills are substantially aligned with their respective dispensing slot. The blisters may then be depressed to remove the pills from the cavities of the blisters by pushing the pills through the foil sheet that covers the slots. In another embodiment, the blisters must be released and slid within a channel to align the pill with the dispensing slot to be released. | 09-18-2008 |
20100170821 | PACKAGING CONTAINER HAVING PRODUCT HOLDING CHAMBERS AND METHOD FOR MAKING THE SAME - A packaging container for displaying and housing products that is aesthetically pleasing, effective and safe to open. The packaging container may include a substantially tear-resistant housing that encloses a tray that is preferably made from a paper material. The tray is substantially opaque to display graphics and/or to prevent viewing of the contents and may be seamless. The tray also may include at least one raised area extending around the walls of the tray. A second tray may also be used to create a dual-sided tray for housing the products, wherein the second tray may be substantially opaque or substantially transparent. An insert card may be used within the housing to reinforce the container and may be contained by fold-over edges of the housing. | 07-08-2010 |
20100230321 | DISPENSING PACKAGE - A blister pack for dispensing pills that is childproof yet senior-friendly. The blister pack includes a housing, which may be substantially tear-resistant, that encloses one or more blisters contained on a blister sheet. In one embodiment, the cavities of the blisters are positioned such that pills or other objects are dispensed into a chamber. A neck extends outward from the chamber to permit a childproof cap to be removably attached thereto to permit the selective dispensing of the pills in a controlled fashion. In another embodiment, the blister pack may include a chamber for dispensing a first type of pill and a plurality of blisters not aligned with the chamber for dispensing a second type of pill. | 09-16-2010 |
20120037517 | CHILD-RESISTANT PACKAGING CONTAINER AND BLANK AND METHOD FOR MAKING THE SAME - A childproof and senior friendly packaging container having a housing that defines a chamber for removably receiving a blister card or sheet. The blister sheet includes a flap on its end that is designed to engage a flap extending into the chamber of the housing to retain the blister card within the housing in an extended position. A node on the blister card flap is sized to fit within a slot or hole on the housing to retain the blister card in a stored position. | 02-16-2012 |
20120061389 | REINFORCED PACKAGING CONTAINER AND METHOD FOR MAKING THE SAME - A packaging container for displaying and/or housing products that includes a first tray that includes a chamber defined by one or more walls and at least one raised area extending around and separate from the walls of the chamber. The tray may be substantially opaque to display graphics and/or to prevent viewing of the contents and may be seamless. A cover member is attachable to the bottom of the first tray to cover the chamber and its contents. The cover member may comprise, among other things, a second tray or a blank or sheet of material. | 03-15-2012 |
Patent application number | Description | Published |
20090304245 | Method and simulation device for structurally individualized simulation of the introduction of a wall support element into a section of a tubular structure - A method is described for structurally individualized simulation of the introduction of a wall support element into a section of a tubular structure. To this end, image data of the interior of the section of the tubular structure are provided. A start point and an end point of the section of the tubular structure are then determined, and a lumen and a profile line of the tubular structure are determined between the start point and the end point. Furthermore, an individual elastic structure model for the section of the tubular structure is identified by adapting a tubular elastic initial model to the section of the tubular structure on the basis of the identified lumen and the profile line, and a tubular elastic wall support element model which is positioned inside the individual structure model is provided. In at least one embodiment, the wall support element model is then virtually expanded stepwise, a check for collisions between the wall support element model and the individual structure model being carried out in each expansion step. At the positions where a collision is identified, the wall support element model and the individual structure model are modified at least locally while taking into account the elasticity of the individual structure model. A method for driving an image display device, by using such a simulation method, and a simulation device are furthermore described. | 12-10-2009 |
20100166283 | METHOD FOR DETERMINING A 2D CONTOUR OF A VESSEL STRUCTURE IMAGED IN 3D IMAGE DATA - A method is disclosed for determining a 2D contour of a vessel structure imaged in 3D image data for a first slice plane of the vessel structure, wherein the 3D image data was generated using a medical imaging system and has a multiplicity of image voxels which are all assigned a respective image value. In at least one embodiment, the method includes providing 3D image data; determining a multiplicity of first initial 2D contours of the vessel structure, wherein the first initial 2D contours in the 3D image data are determined for slice planes of the vessel structure, which planes are arranged orthogonally in respect of a central line of the vessel structure and spaced apart from one another along the central line; determining a first initial 3D contour from the first initial 2D contours; determining a smoothed second 3D contour by applying an active 3D contour model to the first initial 3D contour; determining a second initial 2D contour as a slice through the smoothed second 3D contour including the first slice plane; and determining the 2D contour by iteratively fitting the second initial 2D contour to that vessel structure imaged in the 3D image data which results for the first slice plane. | 07-01-2010 |
20110263973 | Method For Automatic Detection Of A Contrast Agent Inflow In A Blood Vessel Of A Patient With A CT System And CT System For Carrying Out This Method - A method for automatic detection of a contrast agent inflow in a blood vessel of a patient with a CT system, and CT system for carrying out this method, are disclosed. At least one embodiment of the invention relates to a method which determines the position of at least one blood vessel in section image representations in a CT examination without external intervention with the aid of an active shape or active appearance model, measures the inflow of contrast agent in this region in a targeted way and automatically initiates at least one action in the event of inflowing contrast agent. | 10-27-2011 |
20130022256 | METHOD AND CT SYSTEM FOR RECORDING AND DISTRIBUTING WHOLE-BODY CT DATA OF A POLYTRAUMATIZED PATIENT - A method and CT system are disclosed for recording and distributing whole-body CT data of a polytraumatized patient. In at least one embodiment the method includes producing a whole-body topogram including division and assignment of z- coordinate regions of the whole-body topogram to different body regions; performing a whole-body CT scan with the recording of CT raw data; assigning the CT raw data to the different body regions; reconstructing CT image datasets on a computer of the CT system; and sending only body region-specific CT image datasets to a number of remote workstations operated by technical specialists. | 01-24-2013 |