Patent application number | Description | Published |
20090121084 | Infrared Communication Power Drive Unit and Method for Activating Same in an Aircraft Cargo Loading System - An air cargo loading system also includes a controller, a main control panel and a plurality of PDUs (PDUs), at least the controller and the PDUs being connected by a wired network. Each PDU has a motor, at least one driver roller element coupled to said motor, a light source, a light detector, and a processor. The light detector of each PDU is configured to receive and process an incoming coded light signal from a wireless remote control handset. The PDU's processor determines whether the received coded light signal is a valid command signal and, if so, provides a command information signal to the controller via the wired network. The controller decodes the command information signal and, in view of its knowledge of container locations, various switch settings and other status information, the controller then sends the appropriate control signals to turn on the required PDUs in response thereto. Because wireless remote handsets are used to communicate with the controller, the air cargo system may either be wholly devoid of local control panels or, have only a very small number of local control panels. | 05-14-2009 |
20090121085 | Infrared Communication System for Activating Power Drive Units in an Aircraft Cargo Loading System - An air cargo loading system also includes a controller, a main control panel and a plurality of PDUs (PDUs), at least the controller and the PDUs being connected by a wired network. Each PDU has a motor, at least one driver roller element coupled to said motor, a light source, a light detector, and a processor. The light detector of each PDU is configured to receive and process an incoming coded light signal from a wireless remote control handset. The PDU's processor determines whether the received coded light signal is a valid command signal and, if so, provides a command information signal to the controller via the wired network. The controller decodes the command information signal and, in view of its knowledge of container locations, various switch settings and other status information, the controller then sends the appropriate control signals to turn, on the required PDUs in response thereto. Because wireless remote handsets are used to communicate with the controller, the air cargo system may either be wholly devoid of local control panels or, have only a very small number of local control panels. | 05-14-2009 |
20110273313 | Infrared Communication System For Activating Power Drive Units In An Aircraft Cargo Loading System - An air cargo loading system also includes a controller, a main control panel and a plurality of PDUs (PDUs), at least the controller and the PDUs being connected by a wired network. Each PDU has a motor, at least one driver roller element coupled to said motor, a light source, a light detector, and a processor. The light detector of each PDU is configured to receive and process an incoming coded light signal from a wireless remote control handset. The PDU's processor determines whether the received coded light signal is a valid command signal and, if so, provides a command information signal to the controller via the wired network. The controller decodes the command information signal and, in view of its knowledge of container locations, various switch settings and other status information, the controller then sends the appropriate control signals to turn on the required PDUs in response thereto. Because wireless remote handsets are used to communicate with the controller, the air cargo system may either be wholly devoid of local control panels or, have only a very small number of local control panels. | 11-10-2011 |
Patent application number | Description | Published |
20090170950 | Inhibitors Of Neurotrypsin - The invention relates to a method for determining whether a compound is a neurotrypsin inhibitor, characterized in that the compound is incubated together with neurotrypsin, a variant thereof or a fragment comprising the protease domain and with a protein or peptide comprising agrin, a variant thereof or a fragment comprising the α- or the β-cleavage site of agrin, in an aqueous buffer solution, and the amount of cleavage of agrin is measured. Additionally, the invention relates to inhibitors of neurotrypsin found by this method, in particular to compounds of formula | 07-02-2009 |
20100240083 | METHOD FOR THE DETECTION OF THE IN-VIVO ACTIVITY OF NEUROTRYPSIN, USE OF THE METHOD AND USE OF THE C-TERMINAL, 22-KDA FRAGMENT OF AGRIN AS BIOMARKER IN DIAGNOSIS AND MONITORING OF NEUROTRYPSIN-RELATED DISTURBANCES - Method for the detection of the in-vivo activity of neurotrypsin wherein the amount of the 22-kDa-fragment of agrin is measured in a sample taken from a patient and the measured amount of the 22-kDa-fragment of agrin in the sample is used to calculate the activity of neurotrypsin, use of the method for diagnosis and monitoring of neurotrypsin-related disturbances and use of the 22-kDa-fragment of agrin as biomarker for neurotrypsin-related disturbances. | 09-23-2010 |
20120208765 | MODIFIED AGRIN-FRAGMENT CAPABLE OF RESTORING MUSCLE STRENGTH FOR USE AS A MEDICAMENT - Modified agrin fragment having in vivo activity, comprising at least the domains LG2 and LG3 of human agrin in covalently interlinked form and modified in such a way that the fragment cannot be cleaved by neurotrypsin for use as medicament. | 08-16-2012 |
20130344593 | METHOD FOR THE PRODUCTION OF HYBRIDOMA CELL LINES PRODUCING MONOCLONAL ANTIBODIES CAPABLE TO SPECIFICALLY BINDING TO A HUMAN C44-FRAGMENT OF AGRIN - A method for the production of a hybridoma cell lines producing monoclonal antibodies capable to specifically binding to a human C44-fragment of agrin, comprising administering to wild-type-mice an immunizing amount of C44y≧4-fragment of agrin, isolating antibody producing cells from the immunized mice, fusing them with a myeloma cell line, growing the fused cells in a selection medium, screening the antibodies in the supernatants of hybridoma cells for binding to C44-fragment of agrin and isolating the hybridoma cells producing the desired monoclonal antibodies | 12-26-2013 |