Regen
Jeffrey Regen, Riverhead, NY US
Patent application number | Description | Published |
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20130270844 | DOOR LEVER ASSEMBLY - A lever and mounting plate combination attachable to the exposed vertical surface of a door that includes a latch assembly with a spindle extending horizontally outward from the vertical surface, the lever and mounting plate combination including a main plate mountable onto the door's exposed surface and having a window-like opening extending completely through the plate, a lever having a base part which is coupleable to the spindle and pivotable therewith and has an exposed outer part, and a lever plate fixed to the base part of the lever and pivotable with though lever and with the spindle when it is coupled to the lever, the lever plate closely underlies and contacts said inner surface of the main plate while at all times covering the window, the lever being engagable by a user to rotate the the lever plate and simultaneously rotate the spindle to open the door. | 10-17-2013 |
20140311194 | DOOR LEVER & KEY CYLINDER LOCK COMBINATION - A door lever and mounting plate assembly attachable to a door and coupleable to a latch and spindle assembly in the door, including | 10-23-2014 |
20140319850 | MAGNETIC DOOR LOCK ASSEMBLY - A latch lock system for a door that is mountable in a doorframe, the latch lock system including a main housing including a spindle and lever, a bolt having a nose part that is attractable to a magnet, the bolt being slidable in the main housing between extended and retracted positions, a spring biasing the bolt to its retracted position, a secondary housing including a strike plate in the doorframe, a magnet mounted in the secondary housing, the magnet having a magnetic force greater than the spring force which will pull the bolt to its extended position when the door is in its closed position and the bolt is aligned with the magnet. | 10-30-2014 |
Manuel Regen, Zwijndrecht NL
Patent application number | Description | Published |
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20090076784 | SYSTEM FOR SIMULATING EVENTS IN A REAL ENVIRONMENT - System for simulating events in a real environment containing static objects and dynamic objects: a) position locating unit for continuously determining the real environment the position of the dynamic objects in relation to the static objects within a time period in which the even takes place; b) storage elements for storing data describing the dynamic and static objects of the environment; c) processing elements for processing (b1) data from the storage elements describing the static and dynamic objects (b2) data from the position locating unit indicating at a certain moment the mutual positions of the static and dynamic objects of the environment, the processing elements being loaded with simulation software; d) display elements for displaying a simulated view from a selected viewpoint on the simulated environment as a result of the processing by the processing elements; e) control elements to repeat the functioning of the processing and display elements for a range of consecutive time moments which together determine the above-mentioned time period wherein the position locating unit includes a satellite navigation system, or a thereto-related system. | 03-19-2009 |
Martin Regen, Immenstadt DE
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20120167118 | POWER MANAGEMENT VIA COORDINATION AND SELECTIVE OPERATION OF TIMER-RELATED TASKS - Mobile computing device power consumption can be reduced by using expiration window timers, state-based timers and/or the coordination of keep-alive timers. Upon detecting a trigger event causing a mobile computing device to transition from a low-power state to an active state, the device can determine whether the trigger event occurs within the expiration window of a timer, and execute tasks associated with the trigger event and the timer. Tasks associated with state-based timers can be executed if the mobile computing device or a component thereof is in (or, alternatively, not in) a specified state. A mobile computing device can execute tasks associated with multiple keep-alive timers used for maintaining communication links between the device and cloud-based service providers in a single active state. A cloud-based keep-alive service can maintain mobile computing device-service provider communication links by sending one keep-alive communication to a mobile computing device in place of multiple communications. | 06-28-2012 |
20150078237 | POWER MANAGEMENT VIA COORDINATION AND SELECTIVE OPERATION OF TIMER-RELATED TASKS - A method of coordinating tasks of a mobile computing device may include initializing a timer associated with one or more tasks and a state condition. The state condition may depend on a device state of the mobile computing device and/or a component state of a mobile computing device component. An expiration of the timer is detected. Upon detecting the expiration, a determination is made whether the state condition is satisfied based on whether the mobile computing device is in the device state and/or the mobile computing device component is in the component state. Based at least in part on the determination that the state condition is satisfied, performance of the one or more tasks associated with the timer can be initiated. | 03-19-2015 |
Martin Regen, Bavaria DE
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20090007159 | Interfaces for digital media processing - APIs discussed herein promote efficient and timely interoperability between hardware and software components within the media processing pipelines of media content players. A PhysMemDataStructure API facilitates a hardware component's direct access to information within a memory used by a software component, to enable the hardware component to use direct memory access techniques to obtain the contents of the memory, instead of using processor cycles to execute copy commands. The PhysMemDataStructure API exposes one or more fields of data structures associated with units of media content stored in a memory used by a software component, and the exposed fields store information about the physical properties of the memory locations of the units of media content. SyncHelper APIs are used for obtaining information from, and passing information to, hardware components, which information is used to adjust the hardware components' timing for preparing media samples of synchronously-presentable media content streams. | 01-01-2009 |
20140281054 | INTERFACES FOR DIGITAL MEDIA PROCESSING - APIs discussed herein promote efficient and timely interoperability between hardware and software components within the media processing pipelines of media content players. A PhysMemDataStructure API facilitates a hardware component's direct access to information within a memory used by a software component, to enable the hardware component to use direct memory access techniques to obtain the contents of the memory, instead of using processor cycles to execute copy commands. The PhysMemDataStructure API exposes one or more fields of data structures associated with units of media content stored in a memory used by a software component, and the exposed fields store information about the physical properties of the memory locations of the units of media content. SyncHelper APIs are used for obtaining information from, and passing information to, hardware components, which information is used to adjust the hardware components' timing for preparing media samples of synchronously-presentable media content streams. | 09-18-2014 |
Martin Regen, Munich DE
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20090322786 | TIME-SYNCHRONIZED GRAPHICS COMPOSITION IN A 2.5-DIMENSIONAL USER INTERFACE ENVIRONMENT - Software interfaces are configured to enable functionality that is commonly implemented in special-purpose hardware for mixing AV content into a set of 2.5-D graphics planes to be exposed to high level processes executing in a computing environment in a fully portable manner. Illustratively, the interfaces include a planar mixer (named “IPlanarMixer”) that abstracts the mixing hardware, and a graphics plane interface (named “IPlane”) that abstracts individual instances of planes that are retrieved from, and handed off to the planar mixer as the 2.5-D graphics planes are built up and rendered in a computing environment to support interactive graphic experiences for a user. | 12-31-2009 |
Steven L. Regen, Allentown, PA US
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20110065672 | BISPHOSPHONATE-PROSTATIC ACID PHOSPHATASE INHIBITOR CONJUGATES TO TREAT PROSTATE CANCER BONE METASTASIS - The present invention concerns conjugate compounds comprising a bisphosphonate covalently bonded to a prostatic acid phosphatase inhibitor and compositions comprising such conjugates. Methods for treating and inhibiting prostate cancer bone metastases, and determining whether a conjugate is useful for such treatment are also provided. In some instances, the bisphosphonate is alendronate, and it is covalently bonded to either tartaric acid or glyceric acid. | 03-17-2011 |
20140045797 | Bisphosphonate-Prostatic Acid Phosphatase Inhibitor Conjugates To Treat Prostate Cancer Bone Metastasis - The present invention concerns conjugate compounds comprising a bisphosphonate covalently bonded to a prostatic acid phosphatase inhibitor and compositions comprising such conjugates. Methods for treating and inhibiting prostate cancer bone metastases, and determining whether a conjugate is useful for such treatment are also provided. In some instances, the bisphosphonate is alendronate, and it is covalently bonded to either tartaric acid or glyceric acid. | 02-13-2014 |
Thomas Regen, Goettingen DE
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20140116115 | METHOD AND DEVICE FOR INSPECTING FLEXIBLE CONTAINER - A method for testing a flexible container includes arranging the flexible container on a winding core that can be rotated about a winding axis W and forms an internal support. The method continues by winding the flexible container around the winding axis W arranging an external support around the wound container and connecting at least one container opening of the container to a fluid source. The method proceeds by filling the container with a fluid from the fluid source to generate a predetermined positive pressure P1 in the flexible container at a first time T | 05-01-2014 |