Liedl
Bernhard Liedl, Ottensheim AT
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20140149803 | METHOD AND SYSTEM FOR TRACING INDIVIDUAL TRANSACTIONS OVER MESSAGING SYSTEMS WITHOUT ADDING TRACING INFORMATION TO MESSAGES - A performance monitoring system is presented for monitoring and tracing individual transactions, where transaction processing includes sending and receiving messages using messaging systems that do not allow the augmentation of existing messages with monitoring system specific correlation information. Agents are deployed to sender and receiver applications that monitor and report transactions. Both sender and receiver applications are instrumented with sensors that detect and report sending or receiving of such immutable messages. Those sensors also extract correlation data from sent and received data allowing the identification of matching corresponding send/receive pairs. A mapping agent is used to retrieve mapping information from a messaging system which may alter the additional message identification data while messages travel through the system. This mapping information is additionally used for the correlation process. | 05-29-2014 |
Charlotte Anna Maria Liedl US
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20150225096 | SYSTEM FOR PACKAGING PRODUCTS - A system for packaging products, comprising: a sorting machine ( | 08-13-2015 |
Charlotte Anna Maria Liedl, Lana IT
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20130334109 | APPARATUS FOR SORTING AGRICULTURAL PRODUCTS - An apparatus for sorting agricultural products, including: | 12-19-2013 |
20150225096 | SYSTEM FOR PACKAGING PRODUCTS - A system for packaging products, comprising: a sorting machine ( | 08-13-2015 |
20150259088 | DEVICE AND METHOD FOR ORIENTING OBJECTS - A device for orienting objects in which a main axis (S) can be identified and comprising: first rotation means ( | 09-17-2015 |
David Liedl, Eyota, MN US
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20100292586 | Wireless automatic ankle-brachial index (AABI) measurement system - A central processor controlled system and test procedure for independently, contemporaneously and plethysmographically monitoring arterial blood pressure at a subject's arms and legs. Micro-controlled occluding and sensing cuffs containing sensors are inflated and deflated at each limb of a supine patient. Sensed AC and DC pressure data is wirelessly linked to the central processor where the DC sensor data is sampled to derive median filtered, fitted and derivative waveforms that are iteratively processed and scored to determine a table of sample indices indicative of lowest pressure point. Second scoring and fittings about the lowest pressure point at the DC sensor data and original occluding cuff pressure data identify each limb's systolic pressure. The derived systolic limb pressure values are then processed to determine right and left ABI values. | 11-18-2010 |
20100292591 | Venous measurement system - A system and plethysmographic test procedure for evaluating venous blood volume/flow at a subject's legs. Occluding and sensing cuffs mounted to a subject's thighs and calves/ankles are inflated and deflated relative to controlled movement of a supporting chair. The chair provides hinged backrest, seat and footrest pieces and is controlled to manipulate the subject during several test phases as blood volume/flow is monitored. The chair is manipulated between a 1) baseline calibration position with the subject's back upright, seat horizontal to floor and feet lowered, 2) an outflow position with the subject's back tipped back flat and legs elevated above the heart, 3) a dependent filling position, rapid return of subject to back upright, seat horizontal to floor and feet lowered, and 4) an exercise position wherein the ankles are flexed with the back upright, seat horizontal to the floor and feet lowered. “Outflow”, “dependent filling”, “exercise” and “ejection fraction” flow values are determined relative to measured tracings exhibiting venous volume/flow changes in the legs. | 11-18-2010 |
David A. Liedl, Eyota, MN US
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20160120420 | VASCULAR MEASUREMENT SYSTEM - A vascular measurement system is provided to perform various types of peripheral vascular measurements to evaluate at least one of arterial blood flow and venous blood flow. The system includes a plurality of ports configured to connect a plurality of inflatable cuffs, an inflation device, a deflation device, and a volume measuring device configured to withdraw a predetermined volume of air contained in at least one of the first and second inflatable cuffs and resupply the predetermined volume of air into the at least one of the first and second inflatable cuffs. | 05-05-2016 |
Gerhart Liedl, Admont AT
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20150240428 | METHOD AND DEVICE FOR FORCE-DEPENDENT CONTROLLING IN THE MACHINING OF RAILS - Method and device for controlling at least one pressing device ( | 08-27-2015 |
Philipp Liedl, Stuttgart DE
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20110254183 | MEASURING DEVICE AND MEASURING METHOD FOR AN INJECTION MOLDING MACHINE FOR ASCERTAINING A BATCH-SPECIFIC CHARACTERISTIC NUMBER - A measuring device for an injection molding system for ascertaining a batch-specific characteristic number of a plasticized plastic includes a flow channel which is situated between a plasticizing unit of an injection molding machine and an injection molding tool, a first pressure sensor and a second pressure sensor and a first temperature sensor and a second temperature sensor being situated along the flow channel. The flow channel has a taper between the first pressure sensor and the second pressure sensor. | 10-20-2011 |
20130270728 | Method for Regulating An injection Molding Process - A method for regulating an injection molding process in which process setting variables of an injection molding machine are controlled via a regulating module, which receives data from a process-internal sensor system of the injection molding machine, data on the fabricating sequence of the injection molding component parts from an external sensor system and/or data on the quality of a fabricated injection molded component part from an online component part control, evaluates these data in a quality prognosis module and, as a function of the data evaluation, performs a change in the process setting variables of the injection molding machine, because of the change in the process setting values, the working point of the injection molding machine being changed so that the quality features of the injection molded component parts fabricated using the changed working point lie within the specified tolerances of the quality of the injection molded component parts. | 10-17-2013 |
Tim Liedl, Munich DE
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20140291153 | NANOPORE FUNCTIONALITY CONTROL - A method is provided of controlling the functionality of a substrate containing at least one nanopore. The method includes the steps of: introducing to the substrate a solution containing a molecular construct having a body formation which defines an aperture and a tail formation extending from the body formation; applying a potential difference across the substrate to thread the tail formation through the nanopore thereby docking the molecular construct to the substrate with the aperture aligned with the nanopore such that the sleeve formation lines the nanopore; and expelling the molecular construct from the substrate by varying the potential difference. A DNA construct for docking to a substrate having a nanopore is also provided, the construct having a body formation which defines an aperture, and a tail formation extending from the body formation for threading through the nanopore to dock the construct to the substrate with the aperture and nanopore in alignment. | 10-02-2014 |