||WO||WO/2014/138757 - METHOD FOR IDENTIFYING POLE SLIP||18.09.2014||
||PCT/AT2014/000023||GE JENBACHER GMBH & CO OG||FAHRINGER, Albert|
Method for identifying pole slip of an electrical generator (2), in particular synchronous generator, which is electrically connected to a power supply system (1), wherein a rotor (3) of the generator (2) is mechanically connected to a motor shaft (4) of an internal combustion engine(5), in particular of a gas engine, wherein the internal combustion engine (5) is operated at a substantially constant mechanical rotation frequency (n) in a stationary operating mode, wherein the mechanical rotation frequency (n) of the motor shaft (4) and an electrical rotation frequency (f) of the power supply system (1) are detected or ascertained, wherein a signal (11) is output in the event of a deviation (6) in the mechanical rotation frequency (n) from the electrical rotation frequency (f) of greater than a prespecifiable threshold value (7), wherein the signal (11) is considered to be a detected pole slip.
||WO||WO/2014/138765 - DEVICE AND METHOD FOR THE AUTONOMOUS CONTROL OF MOTOR VEHICLES||18.09.2014||
||PCT/AT2014/050062||FTS COMPUTERTECHNIK GMBH||KOPETZ, Hermann|
The invention relates to a device for controlling the braking and/or steering and/or acceleration in a motor vehicle, said device comprising a number of different sensor components, two heterogeneous sensor fusion components, a man-machine interface component and a preferably intelligent actuator control component, each of said components forming a fault-containment unit and having a TTEthernet communication interface. All the components are connected to a central TTEthernet message buffer unit , the components communicate with one another exclusively by using standardized Ethernet messages and a diagnostic unit for the real time observation of the switched messages can be connected to the TTEthernet message buffer unit.
||WO||WO/2014/138760 - SECURING DEVICE FOR A FURNITURE FITTING||18.09.2014||
||PCT/AT2014/000047||JULIUS BLUM GMBH||HÄMMERLE, Kurt|
The invention relates to a securing device (100) for securing a furniture fitting (101) to a piece of furniture (110). The furniture fitting (101) can be selectively secured to the piece of furniture (110) by means of a left furniture fitting face (102) or a right furniture fitting face (103) using the securing device (100). The securing device comprises: - a connecting element (1), said connecting element (1) having two connecting element regions (4, 5) for securing the furniture fitting (101) to the piece of furniture (110), and - a securing body (20) with a through-opening (21). The connecting element (1) is arranged at least partly in the through-opening (21) and can be moved relative to the securing body (20), said connecting element (1) having at least one stop element (2, 3) which can be moved to a limited degree relative the connecting element (1).
||WO||WO/2014/138764 - METHOD FOR LIMITING THE RISK OF ERRORS IN A REDUNDANT, SAFETY-RELATED CONTROL SYSTEM FOR A MOTOR VEHICLE||18.09.2014||
||PCT/AT2014/050061||FTS COMPUTERTECHNIK GMBH||KOPETZ, Hermann|
The invention relates to a method and a device for limiting the risk of errors in a control system with heterogeneous redundancy, in particular for a braking system (autonomous emergency braking AEB) for a motor vehicle, in which method two fault-containment units (FCU) with heterogeneous redundancy determine an adjustable variable and if said variables differ, an actuator control (AST) applies different weightings to the adjustable variables using a weighted mean value algorithm and calculates a new adjustable value from said process. The new adjustable variable guides the object to be controlled into a safe state.
||WO||WO/2014/138767 - METHOD FOR HANDLING FAULTS IN A CENTRAL CONTROL DEVICE, AND CONTROL DEVICE||18.09.2014||
||PCT/AT2014/050064||FTS COMPUTERTECHNIK GMBH||POLEDNA, Stefan|
The invention relates to a method for handling faults in a central control device, wherein the control device comprises a distributed computer system (100), to which distributed computer system (100) sensors (112, 113, 122, 123) are connected or can be connected, wherein the distributed computer system (100), in particular all components of the computer system, is/are divided between a first fault containment unit FCU1 (101) and a second fault containment unit FCU2 (102), wherein the FCU1 (101) and the FCU2 (102) are each supplied via a separate, independent power supply, and wherein the FCU1 (101) and the FCU2 (102) interchange data solely via DC-isolated lines, and wherein some of the sensors are connected at least to the FCU1 (101) and the others of the sensors are connected at least to the FCU2 (102), and wherein the FCU1 (101) and the FCU2 (102) are connected to a redundantly designed communication system (131, 132) having one or more actuators, with the result that, if the FCU1 fails, the FCU2 maintains a limited functionality using the sensors assigned to the FCU2, and, if the FCU2 fails, the FCU1 maintains a limited functionality using the sensors assigned to the FCU1.
||WO||WO/2014/138763 - LIGHT MODULE FOR A VEHICLE HEADLAMP||18.09.2014||
||PCT/AT2014/050051||ZIZALA LICHTSYSTEME GMBH||ZORN, Jürgen|
The invention relates to a light module (1) for a vehicle headlamp, wherein the light module (1) comprises a heat sink (2) and a plurality of lighting units, which are fastened to the heat sink (2) and which each comprise at least one light source (5), a light-source carrier (4), and a reflector unit (6) fastened to the light-source carrier (4). According to the invention, at least one lighting unit is rotatably fastened to a horizontal contact surface (3) of the heat sink (2).
||WO||WO/2014/138758 - METHOD FOR INCREASING THE COMPREHENSIBILITY OF SPEECH||18.09.2014||
||PCT/AT2014/000045||COMMEND INTERNATIONAL GMBH||PFEIFENBERGER, Lukas|
The invention relates to a method for increasing the comprehensibility of speech in an audio signal (6), which consists of a mixture of interference noises (3) and speech signals (5), in digital electroacoustic communications systems (1). The comprehensibility of speech is achieved by reducing the volume of the interference noises (3) from the position of a speaker (4). To record the audio signal (6), at least two microphone channels are used, which transmit the audio signal (6) to an evaluation unit (8), in which the interference noise (3) is minimised in an electronic manner and the generated speech signal (5) is reproduced by the communications system (1) by means of an output unit (9). The operation of the communications system (1) and/or of the evaluation unit (8) is ensured by operating software. The evaluation unit (8) comprises: - a first module (12), particularly a DOA estimation module (12), for determining the direction of the speech signal (5); - a second module (13), particularly a GSC beamforming module (13), for determining and separating the speech signal (5) from the interference noises (3); and - a third module (14), particularly a multichannel post-filter module (14), for subtracting the interference noise (3) from the speech signal (5).
||WO||WO/2014/138766 - METHOD FOR ALLOCATING CONTROL IN A SYSTEM OF SYSTEMS||18.09.2014||
||PCT/AT2014/050063||FTS COMPUTERTECHNIK GMBH||KOPETZ, Hermann|
The invention relates to a method for allocating control in a system-of-systems, in particular in a dynamic system-of-systems, said system consisting of a physical system (PS), an autonomous control system (CS), a human operator (HO), a monitor component (MK) and an actuator control (AST), or comprising a physical system (PS), an autonomous control system (CS), a human operator (HO), a monitor component (MK) and an actuator control (AST). The (CS) observes an environment and/or the physical system cyclically using an associated sensor system, creates an internal model of the environment and/or the (PS) on the basis of said observation and analyzes the model in order to determine adjustable variables for the (AST) and a criticality index (KI) of the scenario in a cycle, in particular in the current cycle. The (MK) observes the (HO) and/or their actions cyclically, in particular their current actions, in order to determine on the basis of said observations an engagement index (EI) for the (HO) in a cycle, in particular in the current cycle, and control of the (PS) is allocated to the (HO) if EI > KI.
||WO||WO/2014/138762 - WINDING LAYER PITCH COMPENSATION FOR AN AIR-CORE REACTOR||18.09.2014||
||PCT/AT2014/050009||TRENCH AUSTRIA GMBH||HASLEHNER, Otto|
The invention relates to a winding layer pitch compensation for an air-core reactor (1) which has at least two concentric winding layers (2 - 5) that are spaced apart radially, comprising a combination of the following: a first set of strip-shaped star sheets (15), each of which is designed so as to be arranged radially below or above the winding layers (2 - 5) and which are provided with at least one receiving slot (20) along an edge (19), said receiving slot extending from the edge (19); and a second set of strip-shaped compensation sheets (18), each of which is provided with at least one insert slot (22) along an edge (21), said insert slot extending from the edge (21). A compensation sheet (18) can be inserted into each receiving slot (20) of a star sheet (15) in a formfitting manner, the star sheet (15) engaging into the insert slot (22) of the compensation sheet in a formfitting manner. The slot depths (TS) of at least two receiving slots (20) of the set of star sheets (15) are different.
||WO||WO/2014/138759 - METHOD FOR PRODUCING A FLAT ELEMENT WITH A SURFACE WHICH DEVIATES FROM A FLAT SURFACE, MOLDING PART FOR PRODUCING SUCH A FLAT ELEMENT, AND FLAT ELEMENT||18.09.2014||
||PCT/AT2014/000046||WAAGNER-BIRO STAHLBAU AG||HENRIKSEN, Thomas|
The invention relates to a method for producing a flat element with a surface which deviates from a flat surface from a curing material, having the following steps: - providing a first molding part (5) which has a shape that corresponds to a surface of the element (24) to be produced, - providing a second molding part (16) which has a shape that corresponds to another surface of the element (24) to be produced, - connecting the first and second molding part (5, 16) while forming a cavity between the surfaces (7, 19) of the molding parts (5, 16) in a manner corresponding to the element to be produced, - introducing the curing material into the cavity delimited by the molding parts (5, 16), - curing the curing material in the molding parts (5, 16) connected to each other, and - opening the molding parts (5, 16) and removing the cured flat element (24). The invention further relates to a molding part (5, 16) for producing such a flat element and to a flat element.