Ulinskas
Algerd M. Ulinskas, Torrington, CT US
Patent application number | Description | Published |
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20080247123 | Switchgear with movable user interface module - A switchgear installation has a cubicle with a door to provide access thereinto, and a low voltage air circuit breaker is mounted therein and accessible through the door. Coupled to the circuit breaker is a logic module, and a portable user interface module is releasably mounted on the exterior of the door and operatively connected to the logic module to display information concerning the operation of the breaker and to provide an interface for the user to interact with the logic module and thereby with the breaker. | 10-09-2008 |
20090243620 | Method for testing circuit breakers - A method for testing low voltage power circuit breakers having an electronic trip unit which includes a display and a microprocessor for controlling various protective functions and storing settings for such functions which can be selected and performed. Entering into the test mode disables functions not necessary for the testing to be performed. A current is injected into one of the phases of the breaker. The technician observes whether the breaker performs within the specifications for the selected protective function. Upon exiting the test mode, the breaker is automatically restored to the settings prior to the testing. | 10-01-2009 |
Tyler J. Ulinskas, La Jolla, CA US
Patent application number | Description | Published |
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20090122753 | DYNAMIC DATA LINK SEGMENTATION AND REASSEMBLY - In a Mobile Ad Hoc Network (MANET), Dynamic Data Link Segmentation and Reassembly (SAR) functions perform a large packet to small packet transformation and reassembles packets at a receiving node. The packet size is determined dynamically in response to link quality data for each individual data link. By periodically sharing link quality information with neighbors, the segmentation size and corresponding reassembly can be performed using readily available neighborhood and waveform information. | 05-14-2009 |
20090122766 | NESTED WEIGHTED ROUND ROBIN QUEUING - In a Mobile Ad Hoc Network (MANET), nested weighted round robin queues are employed to selectively provide channel access for traffic according to a priority or Quality of Service (QoS) for data. By nesting queues within other queues, and applying a weighted round robin technique to serve each queue, relatively arbitrary service metrics may be achieved including nodal QoS for class-based traffic, avoidance of queue starvation, and so forth. Prioritized queues may also be provided for preemptive delivery of high priority traffic. | 05-14-2009 |
Tyler J. Ulinskas, San Diego, CA US
Patent application number | Description | Published |
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20090052406 | COMMUNICATION SCHEDULING OF NETWORK NODES - In one aspect, a method to schedule network communications includes transmitting a node identification associated with a first node joining a network over a first portion of control timeslots based on a first probability, detecting nodes in the network using a second portion of the control timeslots and receiving acknowledgments from at least one of the nodes in the network. The method also includes that if a ratio of a number of acknowledgments received to a number of the nodes in the network detected is greater than a predetermined percentage: transmitting control data over the first portion of the control timeslots based on a second probability associated with a number of the nodes detected and transmitting data over the second portion of the control timeslots based on a network schedule. | 02-26-2009 |
Vit Ulinskas, Marina Del Rey, CA US
Vit Ulinskas, Tustin, CA US
Patent application number | Description | Published |
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20160058278 | OPTICAL COUPLING EFFICIENCY DETECTION - An ophthalmic endo-illumination system includes a light source that produces a light beam, a fiber port that receives an optical fiber, a condenser that couples at least a portion of the light beam into the optical fiber received at the fiber port, and a beam splitter disposed between the fiber port and the condenser. The beam splitter is configured to receive the light beam from the condenser and split the light beam into a first beam which is coupled to the optical fiber and a second beam which is coupled to a monitoring fiber. An optical sensor is provided to detect an amount of the second beam output from the monitoring fiber. The coupling efficiency of the first beam coupled into the optical fiber may be determined based on the amount of the second beam output from the monitoring fiber. | 03-03-2016 |