The invention relates to a method for operating a radar sensor assembly (100), comprising measuring an environment in a measurement mode (I), wherein a voltage-controlled oscillator (110) generates a radar wave and the radar echo generated by the radar wave in the environment is detected, and precisely and deterministically measuring a control characteristic curve of the voltage-controlled oscillator (110) in a calibration mode (II), wherein the voltage-controlled oscillator (110) is actuated by a field-programmable gate array (120) both in the measurement mode (I) and in the calibration mode (II). The invention also relates to a radar sensor assembly, to a computer program product and to a computer-readable storage medium.
G01S 13/92 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques pour la commande du trafic pour la mesure de la vitesse
2.
METHOD FOR PRODUCING ZONAL COATINGS ON OPTICAL SURFACES
The invention relates to a method for producing a zonal optical coating (24) on a substrate (10), in particular an optical surface (10.1) of the substrate (10), the method comprising: - providing (110) a substrate (10) which is non-planar on at least one side and has an optical coating (20); - applying (120) a mask (30) to the optical coating (20) in order to obtain a masked substrate (11), wherein the mask (30) covers the optical coating (20) in a masked region (21) and does not cover it in an unmasked region (22); - etching (130) the masked substrate (11) in order to at least partially remove the optical coating (20) depending on the unmasked region (22), whereby a masked zonal coating (23) is produced; - removing (140) the mask from the masked zonal coating (23) in order to obtain a zonal optical coating (24).
G02B 1/12 - Revêtements optiques obtenus par application sur les éléments optiques ou par traitement de la surface de ceux-ci par traitement de la surface, p. ex. par irradiation
G02B 7/04 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement
G02B 7/02 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles
G02B 7/08 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement adaptés pour fonctionner en combinaison avec un mécanisme de télécommande
G02B 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
4.
RADAR SENSOR ASSEMBLY, METHOD, COMPUTER PROGRAM PRODUCT
The invention relates to a radar sensor assembly (10) for capturing an environment, comprising: - an input interface (110), which is designed for receiving an input signal (1), - a digital-analogue sequencer (120), which is designed to sequence the input signal (1) to form a digital transmission signal (2), - an analogue-digital sequencer (140), which is designed to sequence the digital radar echo signal (6) to form a digital output signal (7), and - an output interface (150), which is designed to emit the digital output signal (7), wherein at least the input interface (110), the digital-analogue sequencer (120), the analogue-digital sequencer (140) and the output interface (150) are provided by a single field-programmable gate array (100). The invention further relates to a method, to a computer program product and to a computer-readable storage medium.
The invention relates to a semiconductor module (100) having the following features: - an integrated semiconductor circuit (105) which can be or is electrically contacted via at least one connection region (145, 145a); - a circuit board (120) having at least one electronic component (125) which can be or is electrically contacted via at least one circuit board connection region (140, 140a); and - a bridging element (110) having at least one electrical bridging line (115, 115a), wherein the bridging line (115, 115a) can be or is contacted with the connection region (145, 145a) of the integrated semiconductor circuit (105) by means of a first contact element (150, 150a) and can be or is contacted with the circuit board connection region (140, 140a) by means of a second contact element (155, 155a). The invention also relates to a production method.
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Instruments for traffic monitoring and apparatus for
security monitoring; computer software for traffic
monitoring instruments and for security monitoring
apparatus. Evaluation of measured values, in particular measured values
from instruments for traffic monitoring and from apparatus
for security monitoring.
7.
METHOD FOR OPERATING A TRAFFIC MONITORING APPARATUS FOR A ROAD USER, AND TRAFFIC MONITORING APPARATUS
The invention relates to a method for operating a traffic monitoring apparatus (110) for a road user (100), the traffic monitoring apparatus (110) comprising a sensor device (130) and/or a spectrometer (120), the method comprising a step in which a sensor signal is read in via an interface from the sensor device (130) and/or the spectrometer (120), the sensor signal representing an image of a road user (100) detected in an area surrounding the traffic monitoring apparatus (110). The method also comprises a step in which spectral colour components are evaluated at different positions in the image in order to obtain an evaluation signal using the sensor signal. Furthermore, the method comprises a step in which a road user signal is determined using the evaluation signal, the road user signal representing road user data of the detected road user (100).
G06V 10/143 - Détection ou éclairage à des longueurs d’onde différentes
G06V 10/56 - Extraction de caractéristiques d’images ou de vidéos relative à la couleur
G08G 1/04 - Détection du mouvement du trafic pour le comptage ou la commande utilisant des détecteurs optiques ou ultrasonores
G08G 1/048 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour compenser les conditions ambiantes ou d'autres paramètres, p. ex. la neige, un véhicule arrêté à un détecteur
8.
METHOD FOR OPERATING A TRAFFIC MONITORING APPARATUS FOR A ROAD USER, AND TRAFFIC MONITORING APPARATUS
The invention relates to a method for operating a traffic monitoring apparatus (110) for a road user (100), the traffic monitoring apparatus (110) comprising a sensor device (130) and at least one electromagnetic detector (120), the method comprising a step in which a sensor signal is read in via an interface from the sensor device (130), the sensor signal representing an image of a road user (100) detected in an area surrounding the traffic monitoring apparatus (110), and data from the electromagnetic detector being read in. The method also comprises a step in which the image of the road user is overlaid with the data from the electromagnetic detector. The method also comprises a step in which electromagnetic wave components are evaluated at different positions in the image in order to obtain an evaluation signal using the sensor signal. Furthermore, the method comprises a step in which a road user signal is determined using the evaluation signal, the road user signal representing road user data of the detected road user (100).
The invention relates to a method (100) for producing a laser diode module, to a multilayer substrate (40) for use in a method (100) for producing a laser diode module (1), and to a laser composite (10) for use in a method (100) for producing a laser diode module (1).
H01S 5/02326 - Dispositions pour le positionnement relatif des diodes laser et des composants optiques, p. ex. rainures dans le support pour fixer des fibres optiques ou des lentilles
H01S 5/0237 - Fixation des puces laser sur des supports par soudage
H01S 5/40 - Agencement de plusieurs lasers à semi-conducteurs, non prévu dans les groupes
H01S 5/024 - Dispositions pour la gestion thermique
10.
STATIONARY TRAFFIC MONITORING SYSTEM FOR MONITORING A DETECTION REGION OF A TRAFFIC AREA AND DESIGNED TO COMMUNICATE WITH VEHICLES TRAVELLING ON THE TRAFFIC AREA, AND MOTOR VEHICLE
A stationary traffic monitoring system and method for monitoring a detection region of a traffic area designed to communicate with vehicles travelling on the traffic area in which a system unit monitors a detection region of a traffic area and/or designed for communication. A motor vehicle, wherein two or more optical interfaces are used, is characterised in that a first data transmission interface is operated with a polarised transmitted light beam, and a laser scanner is operated with a polarised transmitted light beam, and/or a second data transmission interface is operated with a polarised transmitted light beam. The polarisation plane of the polarised transmitted light beam of the first data transmission interface is different from the polarisation plane of the polarised transmitted light beam of the laser scanner and/or of the polarised transmitted light beam of the second data transmission interface.
The approach presented here develops a test arrangement (100) for testing at least one optical component (120), wherein the test arrangement (100) comprises a coupling module (105) for transmitting and/or receiving a light ray (110) and/or a light beam to/from the optical component (120) to be tested and the optical component (120) to be tested, the latter comprising a grating coupler (115) having an irregular grating structure (150).
The approach proposed here relates to a method for providing at least one emission value for a means of transport. The method comprises a step of reading in an identification parameter that represents at least one type of the means of transport present in an observation area. The method furthermore comprises a step of ascertaining the at least one emission value for the means of transport from a memory that stores an assignment of the at least one type of the means of transport to the emission value, wherein the emission value represents a parameter of an emission coming from the means of transport into an environment of the means of transport. The method lastly comprises a step of outputting the ascertained emission value to an output interface in order to provide the emission value.
G07C 5/08 - Enregistrement ou indication de données de marche autres que le temps de circulation, de fonctionnement, d'arrêt ou d'attente, avec ou sans enregistrement des temps de circulation, de fonctionnement, d'arrêt ou d'attente
G07C 5/00 - Enregistrement ou indication du fonctionnement de véhicules
G08G 1/015 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour distinguer différents types de véhicules, p. ex. pour distinguer les automobiles des cycles
G08G 1/017 - Détection du mouvement du trafic pour le comptage ou la commande par identification des véhicules
G08G 1/042 - Détection du mouvement du trafic pour le comptage ou la commande utilisant des détecteurs inductifs ou magnétiques
13.
RECORDING DEVICE FOR GENERATING A 3-D RECORDING OF A THREE-DIMENSIONAL OBJECT, AND METHOD
The invention relates to a recording device (10) for generating a 3-D recording of a three-dimensional object (11), comprising a light source (13) for generating a light beam (14) in a pattern plane (15), a first beam splitter (16) for separating off an illumination beam (17) from the light beam (14) and for separating off a recording beam (18) from an observation beam (19) reflected back off the object (11), a chromatic element (24) for focusing the illumination beam (17) that was separated off by the first beam splitter (16) onto the multiple projection planes (12), a second beam splitter (25) for splitting the recording beam (18) into a first recording beam component (26) and a second recording beam component (27), a capturing unit (31) having a first matrix sensor (36) and a second matrix sensor (38), and a calculation unit (40) for generating a 3-D recording of the three-dimensional object (11).
G01B 11/25 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes en projetant un motif, p. ex. des franges de moiré, sur l'objet
14.
METHOD AND DEVICE FOR RECOGNISING THE VALIDITY OF A VEHICLE PARAMETER
A method for recognizing the validity of a vehicle parameter. The method comprises a step of reading at least one first parameter and at least one second parameter, wherein the first parameter represents a first physical variable of the vehicle or a variable derived from the first physical variable, and the second parameter represents a second physical variable of the vehicle or a variable derived from the second physical variable. A distinguishing criterion for recognizing the validity of the vehicle parameter of the vehicle using a combination of the first and second parameter is also read. The method also comprises a step of assigning the vehicle parameter as a valid vehicle parameter if a combination of the first and the second parameter meets the distinguishing criterion.
G08G 1/015 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour distinguer différents types de véhicules, p. ex. pour distinguer les automobiles des cycles
G08G 1/052 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour déterminer la vitesse ou l'excès de vitesse
The invention relates to a multispectral light source (10) for producing an output radiation (12), said multispectral light source comprising: - a first light source (14), wherein a first light beam (16) having a first wavelength (λ1) can be emitted from the first light source (14), - a second light source (18), wherein a second light beam (20) having a second wavelength (λ2) can be emitted from the second light source (18), - a third light source (22), wherein a third light beam (24), which has a wavelength range of λ3min to λ3max, can be emitted from the third light source (22), wherein the first light source (14), the second light source (18), and the third light source (22) are arranged at a distance from one another, - at least one first dichroic mirror (32) for combining the first light beam (16) and the second light beam (20) into a fourth light beam (76), wherein the first dichroic mirror (32) is designed to reflect the second light beam (20) and transmit the first light beam (16), and wherein the first dichroic mirror (32) is arranged in such a way that the second light beam (20) can be reflected by the first dichroic mirror (32) and the first light beam (16) can be transmitted by the first dichroic mirror (32), and - a beam splitter (34) positioned downstream of the first dichroic mirror (32), wherein the beam splitter (34) is designed to divide the fourth light beam (76), formed from the first light beam (16) and the second light beam (20), into a first power component (36) and a second power component (37), and to divide the third light beam (24) into a third power component (38) and a fourth power component (39), wherein the first power component (36) can be superimposed on the fourth power component (39) by the beam splitter (34) in order to form the output radiation (12), and the second power component (37), together with the third power component (38), can be output as a residual radiation (86) or an additional output radiation (86).
F21K 9/64 - Agencements optiques intégrés dans la source lumineuse, p. ex. pour améliorer l’indice de rendu des couleurs ou l’extraction de lumière en utilisant des moyens de conversion de longueur d’onde distincts ou espacés de l’élément générateur de lumière, p. ex. une couche de phosphore éloignée
16.
TRAFFIC MONITORING SYSTEM, METHOD, AND COMPUTER PROGRAM PRODUCT
The invention relates to a traffic monitoring system (10) for monitoring a traffic scene, comprising a traffic monitoring facility (12) for recording at least one road user (14) on a roadway (16), said traffic monitoring facility (12) having a detection unit (18) and a monitoring unit (22), wherein the monitoring unit (22) has at least one processing unit (24), a classification unit (26), a comparison unit (34), and an analysis unit (38); and at least one mobile output device (42), said traffic monitoring facility (12) and the at least one mobile output device (42) being connected together so as to transmit data in order to receive the comparison data set (36) of the analysis unit (38) by means of a receiver (44) of the mobile output device (42). The mobile output device (42) has a speaker (46) for phonetically outputting (180) the comparison data set (36), and the traffic monitoring system (10) is designed to carry out according to the invention.
G08G 1/017 - Détection du mouvement du trafic pour le comptage ou la commande par identification des véhicules
G08G 1/015 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour distinguer différents types de véhicules, p. ex. pour distinguer les automobiles des cycles
17.
METHOD AND CARRIER SUBSTRATE FOR PRODUCING A COMPONENT COMPRISING ALUMINUM NITRIDE
The invention relates to a method (600) for producing a semiconductor component (100) with at least one exposed membrane portion, wherein the method (600) comprises the following steps: - providing (610) a semiconductor material (102) having a carrier substrate (104) provided with a passivation layer (108); - applying a membrane layer (110) to the passivation layer (108), the membrane layer (110) being formed from an aluminum nitride material in which a ratio of aluminum to nitrogen is within a range between 1.05 to 1.4; - applying a protective layer (114) to the membrane layer (110), the membrane layer (110), on a side opposite the passivation layer (108), being covered by the protective layer (114); - removing (620) a part of the carrier substrate (104) using a wet-chemical process, in order to obtain a region (130) of the passivation layer (108) that is devoid of the substrate; and - exposing (630) a section of the membrane layer (110) in the region (130) that is devoid of the substrate by means of a first dry etching step for etching the passivation layer and a second dry etching step for etching the protective layer, in order to obtain the exposed membrane section (140).
B81C 1/00 - Fabrication ou traitement de dispositifs ou de systèmes dans ou sur un substrat
G03F 1/62 - Pellicules, p. ex. assemblage de pellicules ayant une membrane sur un cadre de supportLeur préparation
H02N 2/18 - Machines électriques en général utilisant l'effet piézo-électrique, l'électrostriction ou la magnétostriction fournissant une sortie électrique à partir d'une entrée mécanique, p. ex. générateurs
A method for testing optoelectronic chips that are arranged on a wafer and comprise electric interfaces in the form of contact pads and optical interfaces, which are arranged in a fixed manner relative to the electric interfaces, in the form of optical deflecting elements, e.g. grating couplers, at a specified coupling angle. In the process, the wafer is adjusted in three adjustment steps in such a manner that one of the chips is positioned relative to a contacting module such that the electric interfaces of the chip and the contacting module are in contact with one another and the optical interfaces of the chip and the contacting module assume a maximum position of the optical coupling.
The invention relates to a separating-joining device (10) for separating and joining a carrier body (11) and for discharging (140) a carrier body section (20), comprising: a guide unit (13) for guiding the carrier body (11) and/or a carrier body section along a transport path (TP) between a first drivable conveying unit (14) and a second drivable conveying unit (15), at least one separating unit (16) arranged along the transport path (TP) for thermally separating the carrier body (11) into at least one first carrier body section (17) and a remaining carrier body section (18), wherein the remaining carrier body section (18) has a second carrier body section (20) and a third carrier body section (21) which can be separated from the second carrier body section (20), and a joining unit (23) for thermally joining (160) the first carrier body section (17) and the third carrier body section (21) at a joining interface (24), and at least one discharge unit (25) for discharging (140) the second carrier body section (20) of the remaining carrier body section (18) in a discharge outlet (26), wherein the discharge unit (25) has a diverter (27).
B21D 39/03 - Utilisation de procédés permettant d'assembler des objets ou des parties d'objets, p. ex. revêtement par des tôles, autrement que par placageDispositifs de mandrinage des tubes des tôles autrement que par pliage
B21D 43/08 - Avancement du matériau en fonction du mouvement de la matrice ou de l'outil au moyen d'un élément mécanique coopérant avec le matériau au moyen de rouleaux
B21D 43/12 - Avancement du matériau en fonction du mouvement de la matrice ou de l'outil au moyen d'un élément mécanique coopérant avec le matériau au moyen de chaînes ou de courroies
B21D 43/16 - Avancement du matériau en fonction du mouvement de la matrice ou de l'outil par pesanteur, p. ex. par des goulottes
B21D 43/18 - Avancement du matériau en fonction du mouvement de la matrice ou de l'outil au moyen de dispositifs en liaison pneumatique ou magnétique avec le matériau
B21D 43/28 - Association de dispositifs de coupe avec des dispositifs d'alimentation, d'alignement ou de stockage
B65G 15/00 - Transporteurs comportant des surfaces porteuses de charges sans fin, c.-à-d. des tapis roulants ou autres systèmes équivalents, auxquelles l'effort de traction est transmis par des moyens différents des éléments d'entraînement sans fin de même configuration
20.
METHOD, TRAFFIC MONITORING SYSTEM AND COMPUTER PROGRAM PRODUCT
The invention relates to a method (100) for operating a traffic monitoring system (10) for recording a traffic scene (11) on a roadway (12), wherein the roadway (12) can be travelled by at least one vehicle (13), the method (100) comprising the following steps: - reading in (110) the traffic scene (11) on the roadway (12) in the form of image data (24) by means of at least one camera unit (25), in particular a positionally fixed camera unit (25), at least one optical detection unit (16); - recognising (120) at least one object (27) on the vehicle (13) from the image data (24) by means of a processing unit (19), wherein the recognised object (27) serves to identify the vehicle type and/or the vehicle owner, and/or recognising (120) a driver (28) in the vehicle (13) from the image data (24) by means of the processing unit (19) during the reading-in operation (110); - recognising (120) predefined control points (17) from environmental data (18) in the captured image data (24) by means of a processing unit (19); - converting the control points (130) into plane-related data (20) of a plane (21) by means of the processing unit (19); - converting the captured image data (24), the plane-related data (20) and the object data (29) and/or driver data (30) using a transformation algorithm into bird's-eye view data (22) of a bird's eye view for recording the traffic scene (11) on the roadway (12) by means of the processing unit (19); and - evaluating (150) the bird's-eye view data (22) of the recording of the traffic scene (11) on a roadway (12) by means of an evaluation unit (23) to form evaluation data (35) for operating a traffic monitoring system (10).
G06V 10/77 - Traitement des caractéristiques d’images ou de vidéos dans les espaces de caractéristiquesDispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant l’intégration et la réduction de données, p. ex. analyse en composantes principales [PCA] ou analyse en composantes indépendantes [ ICA] ou cartes auto-organisatrices [SOM]Séparation aveugle de source
21.
METHOD, TRAFFIC MONITORING SYSTEM AND COMPUTER PROGRAM PRODUCT
The invention relates to a method (100) for operating a traffic monitoring system (10) for recording a traffic scene (11) on a roadway (12), at least one vehicle (13) being able to travel along the roadway (12), the method (100) comprising the following steps: – reading in (110) the traffic scene (11) on the roadway (12) as lidar data (14) by means of at least one lidar sensor (15) of at least one optical capture unit (16), – recognizing (120) predefined check points (17) from surroundings data (18) in the captured lidar data (14) by means of a processing unit (19), the check points (17) being positioned at defined locations along and/or on the roadway (12) in the surroundings data (18), – converting (130) the check points (17) to plane data (20) of a plane (21) by means of the processing unit (19), the plane (21) corresponding to the roadway (12), – converting (140) the captured lidar data (14) and the plane data (20), using a transformation algorithm, to bird's eye view data (22) of a bird's eye perspective for recording the traffic scene (11) on the roadway (12) by means of the processing unit (19), – evaluating (150) the bird's eye view data (22) of the recording of the traffic scene (11) on a roadway (12) to form evaluation data by means of an evaluation unit (23) for operating a traffic monitoring system (10).
G08G 1/01 - Détection du mouvement du trafic pour le comptage ou la commande
G01S 13/91 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques pour la commande du trafic
G01S 17/86 - Combinaisons de systèmes lidar avec des systèmes autres que lidar, radar ou sonar, p. ex. avec des goniomètres
G01S 17/87 - Combinaisons de systèmes utilisant des ondes électromagnétiques autres que les ondes radio
G01S 17/931 - Systèmes lidar, spécialement adaptés pour des applications spécifiques pour prévenir les collisions de véhicules terrestres
G08G 1/017 - Détection du mouvement du trafic pour le comptage ou la commande par identification des véhicules
G08G 1/04 - Détection du mouvement du trafic pour le comptage ou la commande utilisant des détecteurs optiques ou ultrasonores
G08G 1/054 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour déterminer la vitesse ou l'excès de vitesse en photographiant les véhicules en excès de vitesse
G08G 1/015 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour distinguer différents types de véhicules, p. ex. pour distinguer les automobiles des cycles
22.
OPTICAL DEVICE AND METHOD FOR PRODUCING AN OPTICAL DEVICE
An optical module for modifying a light beam, wherein the optical module is made of a single-piece solid body material and has a passage surface for receiving the light beam. Furthermore, the optical module comprises a beam deflecting region lying opposite the passage surface for deflecting the light beam, wherein the beam deflecting region is designed as a curved region on the exterior of the optical module, in particular so as to have a hollow mirror function, a pass-through surface for outputting the light beam deflected by the beam deflecting region and a beam shaping region that is designed to shape the light beam and additionally or alternatively thereto the deflected light beam such that the light beam has a beam profile a with homogeneous intensity distribution over a specified range.
A method of integrally bonding a glass element to a support element, the method comprising a step of inserting at least one contact element into a contact recess in a surface of the support element. In addition, the method comprises a step of placing the glass element on a portion of the contact element which portion protrudes beyond the surface, and a step of locally heating the contact element in order to connect the glass element to the carrier element via the contact element. The method also comprises a step of coating at least a part of the contact recess with a separating layer prior to the step of insertion.
C04B 37/04 - Liaison des articles céramiques cuits avec d'autres articles céramiques cuits ou d'autres articles, par chauffage avec des articles de verre
C03B 23/20 - Réunion de pièces de verre par fusion sans refaçonnage important
C03C 3/14 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant du bore
C03C 27/00 - Liaison de pièces de verre à des pièces en d'autres matériaux inorganiquesLiaison verre-verre par des procédés autres que la fusion
G01B 11/03 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la longueur, la largeur ou l'épaisseur en mesurant les coordonnées de points
24.
METHOD FOR MONITORING AND/OR IDENTIFYING A DEGRADATION IN A DISTANCE-MEASURING SYSTEM OF AN INFRASTRUCTURE SYSTEM
The invention relates to a solution providing an improved method for monitoring and/or identifying a degradation in a distance-measuring system of an infrastructure system (112). The aim of the invention is to achieve further optimization in the field of monitoring and/or identifying a degradation in a distance-measuring system of an infrastructure system, wherein the infrastructure system is also designed to communicate with the vehicles passing through the infrastructure, and wherein the distance-measuring system of the infrastructure system has a transmitter device and is designed to identify a degradation in the transmitter device. This aim is achieved in that a method is proposed, which method comprises at least the following steps: a) emitting a transmit signal by means of the transmitter device, b) capturing a received signal reflected back from the vehicle, c) determining the distance from the vehicle on the basis of the received signal and d) determining a degree of degradation on the basis of the determined distance from the vehicle and/or the received-signal strength of the received signal, which method is characterized in that the transmitter device of the distance-measuring system of the infrastructure system comprises a laser-diode assembly for emitting a transmit signal in the form of electromagnetic waves, in which assembly the wavelength of the emitted electromagnetic wave can be varied.
The invention relates to an electromechanical shutter device for a thermal imaging camera, comprising a carrier (2) having an opening (21) with a fixed electric motor (3) having a motor shaft (31) and a shutter blade (51) assigned to the opening (21), which forms a rocker (5) with a shaft (52), wherein the rocker (5) is mounted on a first rotation axis (53) arranged parallel to the motor shaft (31) on the carrier (2), is pivotable about the first axis of rotation (53) over a pivot angle range by means of a crank with a pin (4), and has an elongated hole (521) in the shaft (52) located opposite the shutter blade (51), with which the pin (4) is engaged, wherein a first spur gear (6) is attached to the motor shaft (31), the crank is formed by a second spur gear (7), the second spur gear (7) is mounted on a second axis of rotation (8) arranged parallel to the motor shaft (31) in the carrier (2), is rotatable over a defined rotation angle range and meshes with the first spur gear (6).
G03B 9/26 - Obturateurs à lame ou disque tournant ou pivotant autour de la perpendiculaire à son plan comportant une seule ou plusieurs lames d'obturation
G03B 9/10 - Obturateurs à lame ou disque tournant ou pivotant autour de la perpendiculaire à son plan
G02B 23/12 - Télescopes ou lunettes d'approche, p. ex. jumellesPériscopesInstruments pour voir à l'intérieur de corps creuxViseursPointage optique ou appareils de visée avec des moyens pour renverser ou intensifier l'image
H04N 23/23 - Caméras ou modules de caméras comprenant des capteurs d'images électroniquesLeur commande pour générer des signaux d'image uniquement à partir d'un rayonnement infrarouge à partir du rayonnement infrarouge thermique
26.
METHOD OF PRODUCING AN ETCHING MASK, METHOD OF ETCHING A STRUCTURE INTO A SUBSTRATE, USE OF A TETREL LAYER AND STRUCTURE FOR PRODUCING A MASK
A method of producing an etching mask. A substrate is provided, a metal layer is applied, the metal layer comprises or is formed from at least one transition metal and/or aluminum. A masking layer is applied and the masking layer is structured. The metal layer is exposed in at least one processing region. The substrate is coated with a tetrel layer including at least partially a tetrel, wherein an interdiffusion zone between the transition metal or aluminum and the tetrel is formed in the processing region at an interface between the metal layer and the tetrel layer. The masking layer is removed and the metal layer s selectively etched. The substrate is exposed in at least one etching region other than the processing region, and the metal layer is at least partially maintained in the processing region.
H01L 21/033 - Fabrication de masques sur des corps semi-conducteurs pour traitement photolithographique ultérieur, non prévue dans le groupe ou comportant des couches inorganiques
H01L 21/027 - Fabrication de masques sur des corps semi-conducteurs pour traitement photolithographique ultérieur, non prévue dans le groupe ou
H01L 21/3065 - Gravure par plasmaGravure au moyen d'ions réactifs
H01L 21/308 - Traitement chimique ou électrique, p. ex. gravure électrolytique en utilisant des masques
27.
CONTACTING MODULE HAVING A MOUNTING PLATE FOR CONTACTING OPTOELECTRONIC CHIPS
A contacting module and to a method for assembling a contacting module. The contacting module includes: an optical module which contains an optical block made of glass, which optical block has an arrangement of optical interfaces (Sopt) in an optical interface plane (Eopt); and an electronic module, which has an arrangement of electrical interfaces (Sele) in an electrical interface plane (Eele). The optical module and the electronic module are arranged relative to each other such that the arrangement of optical interfaces (Sopt) and the arrangement of electrical interfaces (Sele) have a defined alignment position relative to each other. The optical module contains a mounting plate which is connected to the electronic module by means of a repeatedly releasable, reproducible connection.
A camera shutter device having a shutter blade which moves abruptly between a first position, in which it covers a transmission zone present between the carriers, and a second position, in which it opens up the transmission zone. On the shutter blade, there is provided a slide body which includes a displaceable permanent magnet and which is guided on a linear guide, the ends of which are assigned a respective rotatable permanent magnet. By oppositely changing the polarization direction of the rotatable permanent magnets through 180°, the displaceable permanent magnet is pulled into the first or second position.
The invention relates to a device (10) for at least partial reflection of electromagnetic radiation, comprising at least one base element (11), with a coating (13) being arranged in at least portions of at least one surface (12) of the base element (11), the coating (13) comprising at least one layer (H1) of a first highly refractive material and at least one layer (H2) of a second highly refractive material.
The invention relates to an installation device (102) for a vehicle (100) comprising an installation (108) with a device interface for receiving a traffic monitoring device (104) for documenting a rule violation of a third-party vehicle (106) and a sensor unit (112) configured to detect a movement of the installation (108) and to provide a movement signal (114) representing the movement.
A lens mount (100) comprises an outer ring (105), an inner ring (110) and at least one connecting piece (115). The inner ring (110) is designed to accommodate a lens. The outer ring (105) and the inner ring (110) are connected to one another via the at least one connecting piece (115). The connecting piece (115) forms a first portion having a first length, a second portion having a second length and an intermediate portion having an intermediate length. The intermediate portion is arranged between the first portion and the second portion. The first portion is connected to the inner ring (110). The second portion is connected to the outer ring (105). In this case, a shape of a cross section of the intermediate portion in an intermediate sectional plane differs from a shape of a first cross section of the first portion in a first sectional plane and from a shape of a second cross section of the second portion in a second sectional plane.
An optical test device for testing flat test objects comprises a holder for the test object and two optical sensors for detecting the three-dimensional surface topography of the test object. According to the invention, the holder is formed at least in sections as a test standard and is disposed with respect to the sensors in such a way that the sensors scan the test object from opposite sides and also detect the holder as a test standard at least in sections during the detecting of the test object.
G01B 11/30 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la rugosité ou l'irrégularité des surfaces
33.
METHOD AND DEVICE FOR PRODUCING A COMPONENT COMPRISING AT LEAST ONE MEMBRANE PORTION, AND COMPONENT AND USE OF A COMPONENT
The approach presented here provides a method (200) for producing a component (105) comprising at least one membrane layer (145), the method (200) comprising a step of providing (210) a carrier material (115). Furthermore, the method (200) comprises a step of applying (220) a membrane layer (145) to the carrier material (115), the membrane layer (145) comprising an aluminum nitride material in which an aluminum to nitrogen ratio is in the range of greater than 1 to 1.4 in order to produce the component (105).
B81B 3/00 - Dispositifs comportant des éléments flexibles ou déformables, p. ex. comportant des membranes ou des lamelles élastiques
34.
CONDENSER UNIT FOR PROVIDING DIRECTED LIGHTING OF AN OBJECT TO BE MEASURED POSITIONED IN A MEASURED OBJECT POSITION, IMAGING DEVICE AND METHOD FOR RECORDING A SILHOUETTE CONTOUR OF AT LEAST ONE OBJECT TO BE MEASURED IN A MEASURING FIELD USING AN IMAGING DEVICE AND USE OF AN ATTENUATION ELEMENT
A condenser unit for providing directed lighting of an object to be measured positioned in a measured object position, wherein the condenser unit comprises a light source for emitting a light beam and an optical element having a positive refractive power. The condenser unit further comprises at least one attenuation element arranged in a common optical axis with the light source and the optical element, which attenuation element comprises a location-dependent light intensity attenuation effect for the light beam incident on the attenuation element, more particularly wherein the light intensity attenuation effect declines from the optical axis towards an edge of the attenuation element.
The invention relates to a method (600) for producing a semiconductor component (100) with at least one exposed membrane layer, wherein the method (600) comprises the following steps: Providing (610) a semiconductor material (102) having a carrier substrate (104) provided with a passivation layer (108), wherein a membrane layer (110) is arranged on the passivation layer (108), having a material or consisting of a material that can be changed in terms of its structure and/or composition by water, in particular hydrolysable, wherein the membrane layer (110) is covered by a protective layer (114) on a side opposite the passivation layer (108); removing (620) a part of the carrier substrate (104) using a wet-chemical process, in order to obtain an exposed region of the passivation layer (108) in a structured region (130) of the semiconductor material (102); and exposing (630) a section of the membrane layer (110) in the structured region (130) by means of a first dry etching step for etching the passivation layer and a second dry etching step for etching the protective layer, in order to obtain the exposed membrane section (140).
The invention relates to a separating-joining device (100). The separating-joining device (100) is designed to sort out a defective component (X) from components (1) arranged in a row on a support body (10), wherein the separating-joining device (100) comprises: - a thermal cutting unit (20) for thermally separating the support body (10), - at least one welding unit (40) for thermally joining the support body (10), - a cutting control unit (30), said cutting control unit (30) being designed to automatically control the thermal cutting unit (20) such that the support body (10) is thermally separated at at least two ascertainable cutting interfaces (14, 15) of the support body (10) by means of a beam (21) of the cutting unit (20), - at least one conveyor unit (70) for arranging the two cutting interfaces (14, 15) of the two remaining parts (11, 12) of the support body (10) next to each other in order to form a joining interface (16), and - a welding control unit (50), wherein the welding control unit (50) is designed to automatically control the welding unit (40) such that the two remaining parts (11, 12) of the support body (10) are joined at the joining interface (16) by means of a beam (41) of the welding unit (40).
H01L 21/00 - Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de dispositifs à semi-conducteurs ou de dispositifs à l'état solide, ou bien de leurs parties constitutives
H01L 21/02 - Fabrication ou traitement des dispositifs à semi-conducteurs ou de leurs parties constitutives
H01L 29/04 - Corps semi-conducteurs caractérisés par leur structure cristalline, p.ex. polycristalline, cubique ou à orientation particulière des plans cristallins
H01L 29/207 - Corps semi-conducteurs caractérisés par les matériaux dont ils sont constitués comprenant, à part les matériaux de dopage ou autres impuretés, uniquement des composés AIIIBV caractérisés en outre par le matériau de dopage
38.
ILLUMINATION FOR A MICROSCOPE, MICROSCOPE HAVING DARK-FIELD ILLUMINATION, USE FOR EXAMINING BLOOD, AND METHOD FOR ILLUMINATING A SAMPLE
The invention relates to: an illumination device for microscopic illumination, in particular for dark-field illumination; a microscope having this kind of illumination device; a use for examining blood; and a method for illuminating a sample. For this purpose, light emitting diodes arranged in a cone shape are provided which irradiate onto a condenser body.
A contacting module and a method for assembling a contacting module with an optical module, containing an optical block made of glass, and with an electronics module, the optical block being connected via an adhesive connection to the electronics module or the optical module having a mounting plate, which is mounted on the electronics module so as to be repeatedly releasable therefrom and is connected to the optical block via an adhesive connection. The adhesive connection is produced via at least three cylinder pins, which each have a first end face bearing against the optical block by an adhesive and are glued in through-bores in the carrier plate or the mounting plate.
A camera shutter device including an optical opening and an electromagnetic drive mounted fixedly relative to the opening, and having a linearly guided, movable part which is fixedly connected to a first shutter blade to form one unit. The unit is connected to a drive end of a two-armed lever which is rotatable about an axis of rotation. A counterweight is provided at an output end of the lever. A second weight force acting on the counterweight causes a second torque about the axis of rotation of the lever, which counteracts a first torque which is caused by a first weight force acting on the unit.
The invention relates to a method for producing an optical apparatus (200). The method comprises a step of providing a substrate (210) on whose first main surface (212) a plurality of emission devices (220) for emitting electromagnetic radiation (250, 255) are arranged. The substrate (210) is designed as a light-emitting diode wafer and/or formed from sapphire or gallium nitride and is transparent at least for one emission wavelength of the radiation (250, 255) emitted by the emission devices (220), The method also comprises a step of applying an absorption material (230) on the side of the first main surface (212) of the substrate (210). The absorption material (230) has a photostructurable resist that absorbs at least the emission wavelength. The method further comprises a step of processing the absorbing material (230) in order to lay bare at least one emission surface (227) of each emission device (220). In this case, a position determination of surfaces to be laid bare is carried out from a second main surface (214) of the substrate (210) opposite the first main surface (212). In addition, the method comprises a step of singulating the substrate (210) into a plurality of optical apparatuses (200) by means of a separating manufacturing process, wherein each optical apparatus (200) has at least one emission device (220).
H01L 33/00 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails
H01L 33/44 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails caractérisés par les revêtements, p.ex. couche de passivation ou revêtement antireflet
H01L 25/075 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans le groupe
42.
Method for producing an optical component having a coated internal structure and optical component produced by said method
The invention relates to a method for producing an optical component consisting of at least two individual parts, which together enclose an open cavity, wherein the timer sides delimiting the cavity are coated or structured, and from which previously material has been removed in zones in the region of the free aperture, wherein said region is recoated and the individual parts are connected to one another by wringing. The wringing height is greater than the removal height plus the height of the coating. The invention also relates to optical components which are produced according to this method.
The approach proposed here relates to a method (200) for providing at least one emission value (130) for a means of transport (100). The method (200) comprises a step of reading in (210) an identification parameter (117) that represents at least one type (127) of the means of transport (100) present in an observation area (107). The method (200) furthermore comprises a step of ascertaining (220) the at least one emission value (130) for the means of transport (100) from a memory (132) that stores an assignment of the at least one type (127) of the means of transport (100) to the emission value (130), wherein the emission value (130) represents a parameter of an emission coming from the means of transport (100) into an environment of the means of transport (100). The method (200) lastly comprises a step of outputting (230) the ascertained emission value (130) to an output interface (135) in order to provide the emission value (130).
The invention relates to a method for producing a diode laser having a laser bar (3), wherein a metallic layer (24) is used which has a nub structure with raised places (26) and which is located between the n-side (10) of the laser bar and the cover (15). The cavities (28) in the nub structure are subsequently filled, by means of at least one filler channel (17), with a filler (29) which is cured. The diode laser according to the invention can be reliably operated in pulsed mode.
A hybrid fixed focal length lens that includes five lens elements and a diaphragm for a LIDAR measurement system. Some of the lens elements have surfaces that are aspherical.
G01C 3/08 - Utilisation de détecteurs électriques de radiations
G02B 9/60 - Objectifs optiques caractérisés à la fois par le nombre de leurs composants et la façon dont ceux-ci sont disposés selon leur signe, c.-à-d. + ou — ayant uniquement cinq composants
G01S 7/481 - Caractéristiques de structure, p. ex. agencements d'éléments optiques
G01S 7/4915 - Mesure du temps de retard, p. ex. détails opérationnels pour les composants de pixelsMesure de la phase
G02B 13/00 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous
G02B 13/16 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous à utiliser en combinaison avec des convertisseurs ou des amplificateurs d'image
G02B 9/34 - Objectifs optiques caractérisés à la fois par le nombre de leurs composants et la façon dont ceux-ci sont disposés selon leur signe, c.-à-d. + ou — ayant uniquement quatre composants
G02B 13/22 - Objectifs ou systèmes de lentilles télécentriques
46.
STATIONARY TRAFFIC MONITORING SYSTEM FOR MONITORING A DETECTION REGION OF A TRAFFIC AREA AND DESIGNED TO COMMUNICATE WITH VEHICLES TRAVELLING ON THE TRAFFIC AREA, AND MOTOR VEHICLE
The present invention relates to: a stationary traffic monitoring system (112) for monitoring a detection region (115) of a traffic area and designed to communicate with vehicles (100) travelling on the traffic area; a method for a system unit, that is designed as a stationary traffic monitoring system (112) and/or as a motor vehicle (100), for monitoring a detection region (115) of a traffic area and/or designed for communication; and a motor vehicle, wherein two or more optical interfaces (D1, D2, 114) are used, which is characterised in that a) a first data transmission interface (D1) is operated with a polarised transmitted light beam, and b) a laser scanner (114) is operated with a polarised transmitted light beam, and/or c) a second data transmission interface (D2) is operated with a polarised transmitted light beam, d) wherein the polarisation plane (E1) of the polarised transmitted light beam of the first data transmission interface (D1) is different from the polarisation plane (E2, E3) of the polarised transmitted light beam of the laser scanner (114) and/or of the polarised transmitted light beam of the second data transmission interface (D2).
The invention relates to a method (500) for recognising the validity of a vehicle parameter. The method (500) comprises a step of reading (510) at least one first parameter (140a) and at least one second parameter (140b), wherein: the first parameter (140a) represents a first physical variable (130a) of the vehicle (105) or a variable derived from the first physical variable (130a), and the second parameter (140b) represents a second physical variable (130b) of the vehicle (105) or a variable derived from the second physical variable (130b); a distinguishing criterion (160, 245) for recognising the validity of the vehicle parameter of the vehicle (105) using a combination (150) of the first (140a) and the second parameter (140b) is also read. The method (500) also comprises a step of assigning (520) the vehicle parameter as a valid vehicle parameter if a combination (150) of the first (140a) and the second parameter (140b) meets the distinguishing criterion (160, 245).
G08G 1/01 - Détection du mouvement du trafic pour le comptage ou la commande
G08G 1/015 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour distinguer différents types de véhicules, p. ex. pour distinguer les automobiles des cycles
G08G 1/017 - Détection du mouvement du trafic pour le comptage ou la commande par identification des véhicules
G06V 20/54 - Trafic, p. ex. de voitures sur la route, de trains ou de bateaux
48.
METHOD AND DEVICE FOR GENERATING A CAMERA IMAGE OF A WELDING SEAM FOR AN IMAGE PROCESSING-SUPPORTED LASER TRANSMISSION WELDING METHOD
A method for generating a camera image from which a welding contour can be derived along which an assembly is to be welded in an image processing-supported laser transmission welding method. The transparent component of the assembly is illuminated from a side facing away from the camera. The invention also relates to a device which is suitable to carry out the method and wherein an illumination device has at least one light source, the light source being arranged in a workpiece holder in which the assembly to be welded is received in a receiving area and being directed into the receiving area.
B23K 31/12 - Procédés relevant de la présente sous-classe, spécialement adaptés à des objets ou des buts particuliers, mais non couverts par un seul des groupes principaux relatifs à la recherche des propriétés, p. ex. de soudabilité, des matériaux
49.
Method for making a thermally stable connection between a glass element and a support element, method for producing an optical device, and optical device
The invention relates to a method for thermally stable joining of a glass element to a support element, wherein the glass element has a first coefficient of expansion and the support element has a second coefficient of expansion differing from the first coefficient of expansion. The method thus comprises a step of attaching an intermediate glass material to the support element, wherein the intermediate glass material has a third coefficient of expansion which substantially corresponds to the second coefficient of expansion. In addition, the method comprises a step of local heating of the intermediate glass material in order to join the glass element to the support element via the intermediate glass material.
B23K 26/324 - Assemblage tenant compte des propriétés du matériau concerné faisant intervenir des parties non métalliques
B23K 26/0622 - Mise en forme du faisceau laser, p. ex. à l’aide de masques ou de foyers multiples par commande directe du faisceau laser par impulsions de mise en forme
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Stored computer software, computer software for traffic
monitoring instruments and for safety monitoring apparatus. Evaluation of measured data, in particular measured data
from instruments for traffic monitoring and from apparatus
for safety monitoring; design of computer-simulated models;
design of computer software; programming of computer
software for data processing; scientific research.
51.
METHOD FOR PRODUCING A SEMICONDUCTOR ASSEMBLY AND DIODE LASER
The invention relates to a method for producing a semiconductor assembly, in particular connecting a semiconductor chip to a heat sink. A first metal layer consisting of Pb, Cd, In or Sn is made so thin that it is bonded by means of an opposing second metal layer consisting of another metal, for example gold, in a layer consisting of intermetallic phases. This can prevent migration of the soft metals. The brittle intermetallic layer is prevented from fracturing by a continuous pressing force.
The invention relates to an optical module (100) for modifying a light beam (110). The optical module (100) is made of a single-piece solid body material and has a passage surface (105) for receiving the light beam (110). The optical module (100) additionally comprises a beam deflecting region (115) lying opposite the passage surface (105) for deflecting the light beam (110), said beam deflecting region (115) being designed as a curved region on the exterior (120) of the optical module (100) in particular so as to have a hollow mirror function, a pass-through surface (140) for outputting the light beam (125) deflected by the beam deflecting region (115), and a beam shaping region (130) which is designed to shape the light beam (110) and additionally or alternatively thereto the deflected light beam (125) such that the light beam has a beam profile with a homogeneous intensity distribution over a specified range.
The invention relates to a method (100) for integrally bonding a glass element to a support element, the method (100) comprising a step (105) of inserting at least one contact element into a contact recess in a surface of the support element. In addition, the method (100) comprises a step (110) of placing the glass element on a portion of the contact element which portion protrudes beyond the surface, and a step (115) of locally heating the contact element in order to connect the glass element to the support element via the contact element. The method (100) also comprises a step (210) of coating at least part of the contact recess (310) with a separating layer (315) prior to the step (105) of insertion.
The invention relates to a method (100) of producing an etching mask, wherein the method (100) comprises a step (105) of providing a substrate, and a step (110) of applying a metal layer, wherein the metal layer comprises or is formed from at least one transition metal and/or aluminium, a step (115) of applying a masking layer, a step (120) of structuring the masking layer, wherein the metal layer is exposed in at least one processing region, a step (125) of coating the substrate with a tetrel layer including at least one tetrel, wherein an interdiffusion zone between the transition metal or aluminium and the tetrel is formed in the processing region at an interface between the metal layer and the tetrel layer, a step (130) of removing the masking layer, and a step (135) of selectively etching the metal layer, wherein the substrate is exposed in at least one etching region other than the processing region, and the metal layer is at least partly maintained in the processing region.
H01L 21/3213 - Gravure physique ou chimique des couches, p. ex. pour produire une couche avec une configuration donnée à partir d'une couche étendue déposée au préalable
H01L 21/768 - Fixation d'interconnexions servant à conduire le courant entre des composants distincts à l'intérieur du dispositif
The invention relates to a method for testing optoelectronic chips (1) that are arranged on a wafer and comprise electric interfaces in the form of contact pads (1.1) and optical interfaces, which are arranged in a fixed manner relative to the electric interfaces, in the form of optical deflecting elements (1.2), e.g. grating couplers, at a specified coupling angle (α). In the process, the wafer is adjusted in three adjustment steps in such a manner that one of the chips (1) is positioned relative to a contacting module (2) such that the electric interfaces of the chip (1) and the contacting module (2) are in contact with one another and the optical interfaces of the chip (1) and the contacting module (2) assume a maximum position of the optical coupling.
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Recorded computer software for traffic monitoring instruments for enforcement of traffic violations and for safety monitoring
apparatus for monitoring and ensuring general safety; All the foregoing not for television applications; All of the foregoing solely in
the field of traffic monitoring Monitoring and surveillance for others for data acquisition purposes, namely, evaluation of measured data from instruments for
traffic monitoring, apparatuses for safety monitoring and enforcement of traffic violations, and apparatuses for monitoring and
ensuring general safety, all to ensure proper functioning; Design of computer-simulated models; Design of computer software;
Programming of computer software for others for data processing; Scientific research; All the foregoing not for television
applications; All of the foregoing solely in the field of traffic monitoring
57.
METHOD AND CONTROLLER FOR PROVIDING A CONTROL SIGNAL FOR CONTROLLING A DISPLAY APPARATUS AND SYSTEM FOR DISPLAYING INFORMATION FOR ROAD USERS
The invention relates to a method for providing a control signal (139) for controlling a display apparatus (110) which is designed to display information for road users. A sensor signal (125), which represents monitoring data relating to a road user is read in by a traffic monitoring device (124) for detection of road users in the surroundings of the display apparatus (110). Behaviour data (135) which represent a behaviour of the road user are also determined using the sensor signal (125). The control signal (139) is then generated depending on a comparison of the behaviour data (135) with reference data (137) which represent a behaviour conforming to traffic regulations. The control signal (139) is designed to cause behaviour-related information (117) to be displayed for the road user in addition to or alternatively to behaviour-independent information (115). The control signal (139) causes the behaviour-related information (117) to be emphasised relative to the behaviour-independent information (115). Finally, the control signal (139) is output at an output interface (140) to the display apparatus (110) in order to provide the control signal (139).
The invention relates to a dome-shaped device (102) for orienting an upper element (104) relative to a lower element (106), having a connecting portion (110) for connecting the dome-shaped device (102) to a lifting arm (108) of a positioning device (100). An outer dome element (112) is connected to the connecting portion (110) and has a concave contact surface. A central dome element has a convex outer surface and a concave inner surface. The central dome element is movable relative to the outer dome element (112). A ram element movably connected to the connecting portion (110) is provided for pressing the central dome element onto the outer dome element (112). A receiving element (114) connected to the central dome element serves to receive the upper element (104). A magnet element (116) is located on the outer dome element (112) and is designed to provide a magnetic force for fixing the central dome element with respect to the outer dome element (112).
B25J 19/00 - Accessoires adaptés aux manipulateurs, p. ex. pour contrôler, pour observerDispositifs de sécurité combinés avec les manipulateurs ou spécialement conçus pour être utilisés en association avec ces manipulateurs
F16M 11/14 - Moyens pour la fixation des appareilsMoyens permettant le réglage des appareils par rapport au banc permettant la rotation dans plus d'une direction avec articulation à rotule
F16M 11/18 - Têtes des supports avec mécanisme déplaçant les appareils par rapport au banc
The present invention relates to an apparatus (100) for capturing an optical property of a workpiece (105). The apparatus (100) has a mirror device (110), which focusses on the input side and is shaped to direct light (120) from a light source (125) to a holding area (130) for holding the workpiece (105). The apparatus (100) further has a mirror device (115), which focuses on the output side and is shaped to direct the light (120) from the holding area (130) to a capturing device (135).
G01B 11/06 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la longueur, la largeur ou l'épaisseur pour mesurer l'épaisseur
C23C 14/54 - Commande ou régulation du processus de revêtement
G01N 21/17 - Systèmes dans lesquels la lumière incidente est modifiée suivant les propriétés du matériau examiné
60.
Method and evaluation unit for determining a time of a flank in a signal
The invention relates to a method for determining a time of a flank in a signal, wherein the method comprises a step of reading the signal and has a master clock rate for operating a digital evaluation unit for evaluating the time of the flank. The method also comprises a step of forming a data word representing the signal, using a deserializer of a SERDES cell, wherein the data word has a plurality of bits, and wherein a sampling clock rate is applied to the SERDES cell for sampling the signal, which sampling clock rate is higher than the master clock rate, wherein one flank or two flanks of the sampling clock rate are used for sampling the signal. Finally, the method comprises a step of determining the time of the flank in the signal using the data word and the master clock rate in the evaluation unit.
The approach set forth here relates to a method (200) for assigning identification information (105) of at least one vehicle (110) in a monitoring region (115) of a monitoring device (117) and identification data (120) to the vehicle, wherein the identification data (120) have been received from a transmission unit (135) of the vehicle (110). The method (200) comprises a step of reading in (210) the identification information (105) and the identification data (120), wherein the identification information (105) have been obtained from image data (131) of an image (129), captured by the monitoring device (117), of the vehicle (110) traveling in the monitoring region (115) and the identification data (120) have been received from a transmission unit (135) of the vehicle (110), wherein the identification information (105) is assigned an information timestamp (155) representing the time of reading-in (210) of the identification information (105) and the identification data (120) are assigned a data timestamp (163) representing the time of reception of the identification data (120), wherein, in the reading-in step (210), an identifier (172) uniquely representing the vehicle is furthermore read into the identification information (105) and a characterizing feature (174) uniquely representing the vehicle (110) is read into the identification data (120). The method (200) furthermore comprises a step of assigning (220) the identification information (105) and the identification data (120) to the vehicle (110) when a time difference between the information timestamp (155) and the data timestamp (163) is not greater than a threshold value time difference and when the identifier (172) and the characterizing feature (174) match to within a tolerance range. The method (200) furthermore comprises a step of storing the identification information (105) and the identification data (120) for assignment of the identification information (105) and the identification data (120) to the vehicle (110) at a later time when a time difference between the information timestamp (155) and the data timestamp (163) is greater than a threshold value time difference or a step of storing the identification information (105) and the identification data (120) for assignment of the identification information (105) and the identification data (120) to the vehicle (110) at a later time when the identifier (172) and the characterizing feature (174) do not match to within a tolerance range.
H04W 4/44 - Services spécialement adaptés à des environnements, à des situations ou à des fins spécifiques pour les véhicules, p. ex. communication véhicule-piétons pour la communication entre véhicules et infrastructures, p. ex. véhicule à nuage ou véhicule à domicile
G07B 15/06 - Dispositions pour la tarification routière modulable ou la taxation de congestion de véhicules ou d’utilisateurs de véhicules, p. ex. systèmes de péage automatiques
62.
SEMICONDUCTOR DEVICE AND METHOD FOR PRODUCING A SUBSTRATE FOR A SEMICONDUCTOR COMPONENT, AND USE OF INDIUM DURING PRODUCTION OF SAME
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Traffic monitoring instruments and safety monitoring
apparatus; computer software for traffic monitoring
instruments and for safety monitoring apparatus. Measurement evaluation services, in particular evaluation of
measurements from traffic monitoring instruments and from
safety monitoring apparatus.
64.
Method and device for detecting a traffic law violation due to the allowable distance between a following vehicle and a guide vehicle being undershot
A method for detecting a traffic law violation due to the allowable distance between a following vehicle and a guide vehicle being undershot, the following vehicle traveling behind the guide vehicle. At least the respective speed of the following vehicle is identified and the guide vehicle in a detection region in the surroundings of a sensor which supplies speed measurement values. A reference distance is detected and/or ascertained between the following vehicle and the guide vehicle at a reference measurement point. At least one following distance is determined between the following vehicle and the guide vehicle in the detection region using the identified speeds of the following vehicle and the guide vehicle and/or the detected reference distance. A traffic law violation is detected if the following distance in the detection region continuously falls short of a distance threshold.
B60W 30/16 - Contrôle de la distance entre les véhicules, p. ex. pour maintenir la distance avec le véhicule qui précède
G08G 1/01 - Détection du mouvement du trafic pour le comptage ou la commande
G08G 1/015 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour distinguer différents types de véhicules, p. ex. pour distinguer les automobiles des cycles
G08G 1/04 - Détection du mouvement du trafic pour le comptage ou la commande utilisant des détecteurs optiques ou ultrasonores
G08G 1/054 - Détection du mouvement du trafic pour le comptage ou la commande avec des dispositions pour déterminer la vitesse ou l'excès de vitesse en photographiant les véhicules en excès de vitesse
65.
LASER SCANNING DEVICE AND METHOD FOR THE THREE-DIMENSIONAL MEASUREMENT OF A SETTING FROM A GREAT DISTANCE
A method for the three-dimensional measurement of a setting from a great distance, and a laser scanning device suitable for this purpose. The field of view of a laser scanning device is divided into virtual receiver cells forming a row or a matrix which, in a scanning direction, are many times smaller than a measurement field within the field of view to which a laser pulse is applied. A receiver signal is formed from the portion of the laser pulse that is reflected from a measurement field and detected, and the receiver signal is digitized and allocated to each virtual receiver cell that lies in the measurement field in question. The virtual receiver cells are thus allocated multiple digitized receiver signals from which an accumulated receiver signal is formed.
G01B 11/22 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la profondeur
66.
CONDENSER UNIT FOR PROVIDING DIRECTED LIGHTING OF AN OBJECT TO BE MEASURED POSITIONED IN A MEASURED OBJECT POSITION, IMAGING DEVICE AND METHOD FOR RECORDING A SILHOUETTE CONTOUR OF AT LEAST ONE OBJECT TO BE MEASURED IN A MEASURING FIELD USING AN IMAGING DEVICE AND USE OF AN ATTENUATION ELEMENT
The present invention relates to a condenser unit (100) for providing directed lighting of an object to be measured (110) positioned in a measured object position (001), wherein the condenser unit (100) comprises a light source (120) for emitting a light beam (105) and an optical element (125) having a positive refractive power. The condenser unit (100) further comprises at least one attenuation element (300) arranged in a common optical axis (130) with the light source (120) and the optical element (125), which attenuation element comprises a location-dependent light intensity attenuation effect for the light beam (105) incident on the attenuation element (300), more particularly wherein the light intensity attenuation effect declines from the optical axis (130) towards an edge of the attenuation element (300).
The aim of the invention can consist in preventing a formed adjustment error of a sensor system (104) and/or a creeping adjustment error of a sensor system (104) from leading to any damage or ensuring that the adjustment error is reliably detected when checked. In order to achieve a further optimization in the monitoring of a sensor device (104) of a vehicle (100) with the aid of an infrastructure system (112), a method is provided having at least the following steps which are carried out by the infrastructure system (112): a) ascertaining the position of the vehicle (100), relative to the lane (1a, 2a, 3a, 1b, 2b, 3b) of a multilane road (10) currently being traversed, with the aid of means (112.2, 112.3) of the infrastructure system (112); b) receiving position information of the vehicle (100) from the vehicle (100) or from a component of the vehicle (100), on the basis of the sensor system (104) of the vehicle (100), said position information describing the ascertained position of the vehicle (100) relative to the lane (1a, 2a, 3a, 1b, 2b, 3b) of a multilane road (10) currently being traversed, and c) determining a possible deviation (a) of the position of the vehicle (100), by carrying out a comparative analysis of the ascertained position of the vehicle (100) using means (112.2, 112.3) of the infrastructure system (112), relative to the ascertained position of the vehicle (100) using the sensor device (104) of the vehicle (100).
G08G 1/097 - Systèmes de surveillance de la commande du trafic, p. ex. en donnant l'alarme si deux rues se croisant ont des feux verts simultanément
B60W 60/00 - Systèmes d’aide à la conduite spécialement adaptés aux véhicules routiers autonomes
G05D 1/00 - Commande de la position, du cap, de l'altitude ou de l'attitude des véhicules terrestres, aquatiques, aériens ou spatiaux, p. ex. utilisant des pilotes automatiques
G08G 1/04 - Détection du mouvement du trafic pour le comptage ou la commande utilisant des détecteurs optiques ou ultrasonores
G07C 5/08 - Enregistrement ou indication de données de marche autres que le temps de circulation, de fonctionnement, d'arrêt ou d'attente, avec ou sans enregistrement des temps de circulation, de fonctionnement, d'arrêt ou d'attente
G07C 5/00 - Enregistrement ou indication du fonctionnement de véhicules
69.
METHOD FOR MONITORING A SENSOR SYSTEM OF A VEHICLE AND RELEASE OF AN AUTONOMOUS DRIVE OPERATION FOR VEHICLES/ROUTES
The aim of the invention can consist in preventing a formed adjustment error of a sensor system (104) and/or a creeping adjustment error of a sensor system (104) from leading to any damage or ensuring that the adjustment error is reliably detected when checked or that an autonomous drive operation is only released for a following route section if no vehicles (100) or only a few vehicles that could constitute a hazard are located on the aforementioned following route section. In order to achieve a further optimization in the monitoring of a sensor device (104) of a vehicle (100) and releasing an autonomous drive operation for vehicles for a following route section with the aid of an infrastructure system (112), a method is provided having at least the following steps which are carried out by the infrastructure system (112): a) ascertaining the position of the vehicle (100), relative to the lane (1a, 2a, 3a, 1b, 2b, 3b) of a multilane road (10) currently being traversed, with the aid of means (112.2, 112.3) of the infrastructure system (112); b) receiving position information of the vehicle (100) from the vehicle (100) or from a component of the vehicle (100), on the basis of the sensor system (104) of the vehicle (100), said position information describing the ascertained position of the vehicle (100) relative to the lane (1a, 2a, 3a, 1b, 2b, 3b) of a multilane road (10) currently being traversed, and c) determining a possible deviation (a) of the position of the vehicle (100), by carrying out a comparative analysis of the ascertained position of the vehicle (100) using means (112.2, 112.3) of the infrastructure system (112), relative to the ascertained position of the vehicle (100) using the sensor device (104) of the vehicle (100).
G08G 1/097 - Systèmes de surveillance de la commande du trafic, p. ex. en donnant l'alarme si deux rues se croisant ont des feux verts simultanément
B60W 60/00 - Systèmes d’aide à la conduite spécialement adaptés aux véhicules routiers autonomes
G05D 1/00 - Commande de la position, du cap, de l'altitude ou de l'attitude des véhicules terrestres, aquatiques, aériens ou spatiaux, p. ex. utilisant des pilotes automatiques
G08G 1/04 - Détection du mouvement du trafic pour le comptage ou la commande utilisant des détecteurs optiques ou ultrasonores
G07C 5/08 - Enregistrement ou indication de données de marche autres que le temps de circulation, de fonctionnement, d'arrêt ou d'attente, avec ou sans enregistrement des temps de circulation, de fonctionnement, d'arrêt ou d'attente
G07C 5/00 - Enregistrement ou indication du fonctionnement de véhicules
70.
Radial force device for a contour measuring instrument and measuring system
A radial force device for a contour measuring instrument for measuring a contour of a shaft-shaped workpiece which can be rotated about an axis of rotation. The radial force device has a clamping body, a force introduction roller, at least one counter-roller and a coupling device. The clamping body is shaped for fitting radially around a workpiece portion, received in the contour measuring instrument, of the workpiece. The force introduction roller is designed to apply a mechanical radial force to the workpiece in order to apply a load to the workpiece, wherein the force introduction roller is mounted in a radially movable manner on the clamping body. The counter-roller is mounted in the clamping body and designed to support the workpiece during the application of the force. The coupling device is shaped for coupling the clamping body to the contour measuring instrument.
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
(1) Traffic monitoring instruments and safety monitoring apparatus, namely, cameras with image sensors, lidar sensors and radar sensors; computer software for evaluating, analyzing and reporting traffic data collected from traffic monitoring and security surveillance instruments being cameras with image sensors, lidar sensors and radar sensors. (1) Measurement evaluation services, namely, measurement and evaluation of traffic related data and measurement values captured from traffic surveillance instruments and security surveillance apparatus.
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Traffic monitoring instruments and safety monitoring apparatus, namely, cameras and image sensors; downloadable computer software for evaluating measurements from traffic monitoring instruments and safety monitoring apparatus Measurement evaluation services, in particular evaluation of measurements from traffic monitoring instruments and from safety monitoring apparatus
73.
HOUSING FOR A MONITORING SYSTEM, MONITORING SYSTEM, AND COOLING ARRANGEMENT
The invention relates to a housing (102) having a one-piece housing upper part (104) for a monitoring system (100) for monitoring the surroundings of the monitoring system (100), the housing having a first side wall (550) with a front side and a rear side, a second side wall, which is opposite the first side wall (550) and has a front side and a rear side, and a ceiling connecting the first side wall (550) and the second side wall. A guide device (744) is shaped so as to deflect an airflow (112), which flows along at least one of the side walls, at an angle of at least 45°, in particular at a right angle, and/or to guide an airflow between the front side and the rear side of the at least one side wall (550).
H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
G01S 7/02 - Détails des systèmes correspondant aux groupes , , de systèmes selon le groupe
G01S 13/00 - Systèmes utilisant la réflexion ou la reradiation d'ondes radio, p. ex. systèmes radarSystèmes analogues utilisant la réflexion ou la reradiation d'ondes dont la nature ou la longueur d'onde sont sans importance ou non spécifiées
G08G 1/00 - Systèmes de commande du trafic pour véhicules routiers
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Instruments for monitoring traffic and Security surveillance apparatus; computer software for traffic monitoring instruments and for safety monitoring apparatus. Measurement evaluation services, Especially, Evaluation of measurement values of instruments for traffic surveillance and security surveillance apparatus.
76.
METHOD AND CONTROLLER FOR CALIBRATING A LASER-SCANNER DEVICE FOR MACHINING MATERIAL
x,yx,y (3)) of the sub-mirror (130) of the scanner (125) in order to obtain a structure marking (150) on the object (140) to be machined. The method (300) also has a step of detecting (330) at least one structure marking position (145) of a structure marking (150) on the object (140) to be machined positioned in the detection region (152) of the camera (110) of the laser-scanner device (100). During the detection step, the position of at least one sub-mirror (130) of the scanner (125) of the laser-scanner device (100) is aligned such that the structure marking (150) is imaged on a specified region (200) of the image capturing sensor (155) of the camera (110). The method (300) additionally has a step of comparing (340) the structure marking position (145) of the structure marking (150) with the reference marking position (167) and a step of calculating at least one correction value (182) for imaging the structure marking position (145) onto the reference marking position (167) if the structure marking position (145) deviates from the reference marking position (167) by more than a tolerance range (210). The correction value (182) represents a change in the aligned position of the at least one sub-mirror (130) of the scanner (125) by which the sub-mirror (130) of the scanner (125) is to be rotated in order to bring the structure marking position (145) into the tolerance range (210) about the reference marking position (167). Finally, the method (300) has a step of using (350) the at least one correction value (182) to align a light beam (120) of the laser light source (120) for structuring objects (170) to be machined in order to calibrate the laser-scanner device (100) for machining material.
The invention relates to a contacting module and a method for assembling a contacting module with an optical module (1), containing an optical block (1.1) made of glass, and with an electronics module (2), the optical block (1.2) being connected via an adhesive connection to the electronics module (2) or the optical module (1) having a mounting plate (1.2), which is mounted on the electronics module (2) so as to be repeatedly releasable therefrom and is connected to the optical block (1.1) via an adhesive connection. The adhesive connection is produced via at least three cylinder pins (5), which each bear with a first end face (5.1) against the optical block (1.1) by means of an adhesive (9) and are glued in through-bores (7) in the carrier plate (2.1) or the mounting plate (1.2).
optopteleeleopteleele) have a defined alignment position relative to each other. The optical module (1) contains a mounting plate (1.2), which is connected to the electronic module (2) by means of a repeatedly releasable, reproducible connection.
The invention relates to a method for producing an optical component consisting of at least two individual parts, which together enclose an open cavity, wherein the inner sides delimiting the cavity are coated or structured, and from which previously material has been removed in zones in the region of the free aperture, wherein said region is recoated and the individual parts are connected to one another by wringing. The wringing height is greater than the removal height plus the height of the coating. The invention also relates to optical components which are produced according to this method.
The invention relates to a method for producing an optical device (200). The method comprises a step of providing a substrate (210), on the first main surface (212) of which a plurality of emission apparatuses (220) for emitting electromagnetic radiation (250, 255) is disposed. The substrate (210) is in the form of a light-emitting diode wafer and/or is made of sapphire or gallium nitride and is transparent at least for an emission wavelength of the radiation (250, 255) emitted by the emission apparatuses (220). The method also comprises a step of applying an absorption material (230) on the side of the first main surface (212) of the substrate (210). The absorption material (230) comprises a photostructurable coating which is absorbent at least for the emission wavelength. The method also comprises a step of processing the absorption material (230) in order to expose at least one emission surface (227) of each emission apparatus (220). A determination of the position of surfaces to be exposed is carried out from a second main surface (214) of the substrate (210), which second main surface lies opposite the first main surface (212). The method also comprises a step of dividing the substrate (210) into a plurality of optical devices (200) by means of a severing production process, each optical device (200) having at least one emission apparatus (220).
H01L 33/00 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails
H01L 33/44 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails caractérisés par les revêtements, p.ex. couche de passivation ou revêtement antireflet
H01L 23/544 - Marques appliquées sur le dispositif semi-conducteur, p. ex. marques de repérage, schémas de test
H01L 33/62 - Dispositions pour conduire le courant électrique vers le corps semi-conducteur ou depuis celui-ci, p.ex. grille de connexion, fil de connexion ou billes de soudure
H01L 33/38 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails caractérisés par les électrodes ayant une forme particulière
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Instruments for monitoring traffic and security surveillance
apparatus; computer software, in relation to the following
goods: instruments for monitoring traffic, security
surveillance apparatus. Measurement evaluation services, especially, evaluation of
measurement values of instruments for traffic surveillance
and security surveillance apparatus.
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Instruments for monitoring traffic and security surveillance
apparatus; computer software, in relation to the following
goods: instruments for monitoring traffic, security
surveillance apparatus. Measurement evaluation services, especially, evaluation of
measurement values of instruments for traffic surveillance
and security surveillance apparatus.
The invention relates to an athermalized device for generating laser radiation that is focused in a focal point, comprising a lens and a plastic housing and a passive adjustment system for adjusting the object distance S1. The passive adjustment device has an effective coefficient of thermal expansion (I)
.
H01S 5/02253 - Découplage de lumière utilisant des lentilles
H01S 3/04 - Dispositions pour la gestion thermique
G02B 7/02 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles
G02B 3/04 - Lentilles simples ou composées à surfaces non sphériques à surfaces continues engendrées par une rotation autour d'un axe, mais s'écartant d'une véritable sphère
The invention relates to a hybrid objective having a fixed focal length, which has five lenses. The objective is suitable for use in a LIDAR measurement system. Moreover, the use of a bi-aspherical plastic lens for correcting the curvature of the image field and/or astigmatism and/or distortion of an imaging objective is proposed.
G02B 9/34 - Objectifs optiques caractérisés à la fois par le nombre de leurs composants et la façon dont ceux-ci sont disposés selon leur signe, c.-à-d. + ou — ayant uniquement quatre composants
G01S 7/481 - Caractéristiques de structure, p. ex. agencements d'éléments optiques
G02B 13/06 - Objectifs panoramiquesLentilles dites "de ciel"
G02B 13/16 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous à utiliser en combinaison avec des convertisseurs ou des amplificateurs d'image
G02B 13/18 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous avec des lentilles ayant une ou plusieurs surfaces non sphériques, p. ex. pour réduire l'aberration géométrique
G02B 13/22 - Objectifs ou systèmes de lentilles télécentriques
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
(1) Traffic monitoring instruments and safety monitoring apparatus, namely, cameras with image sensors, lidar sensors and radar sensors; computer software for evaluating, analyzing and reporting traffic data collected from traffic monitoring and security surveillance instruments being cameras with image sensors, lidar sensors and radar sensors (1) Measurement evaluation services, namely, measurement and evaluation of traffic related data and measurement values captured from traffic surveillance instruments and security surveillance apparatus
09 - Appareils et instruments scientifiques et électriques
Produits et services
(1) Traffic monitoring instruments and safety monitoring apparatus, namely, cameras with image sensors, lidar sensors and radar sensors; computer software for evaluating, analyzing and reporting traffic data collected from traffic monitoring and security surveillance instruments being cameras with image sensors, lidar sensors and radar sensors.
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
(1) Measurement evaluation services, namely, evaluation of traffic related measurement values captured from traffic surveillance instruments and security surveillance instruments for optical surveillance of road traffic
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Traffic monitoring instruments and safety monitoring apparatus, namely, cameras and image sensors; downloadable computer software for evaluating measurements from traffic monitoring instruments and safety monitoring apparatus Measurement evaluation services, especially, evaluation of measurement values of instruments for traffic surveillance and security surveillance apparatus
A camera shutter device having a shutter blade (3.1) which moves abruptly between a first position, in which it covers a transmission zone (TZ) present between the carriers (1.1), and a second position, in which it opens up the transmission zone (TZ). On the shutter blade (3.1), there is provided a slide body (4) which comprises a displaceable permanent magnet (4.1) and which is guided on a linear guide (2.1), the ends (2.1.1) of which are assigned a respective rotatable permanent magnet (5). By oppositely changing the polarization direction (RP) of the rotatable permanent magnets (5) through 180°, the displaceable permanent magnet (4.1) is pulled into the first or second position.
09 - Appareils et instruments scientifiques et électriques
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Instruments for monitoring traffic and Security surveillance apparatus; Computer software, In relation to the following goods: Instruments for monitoring traffic, Security surveillance apparatus. Measurement evaluation services, Especially, Evaluation of measurement values of instruments for traffic surveillance and security surveillance apparatus.
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Measurement evaluation services, especially, evaluation of measurement values of instruments for optical surveillance of road traffic.
95.
METHOD FOR MAKING A THERMALLY STABLE CONNECTION BETWEEN A GLASS ELEMENT AND A SUPPORT ELEMENT, METHOD FOR PRODUCING AN OPTICAL DEVICE, AND OPTICAL DEVICE
The invention relates to a method (400) for making thermally stable connection between a glass element and a support element, the glass element having a first coefficient of expansion and the support element having a second coefficient of expansion differing from the first coefficient of expansion. The method (400) comprises a step (405) of attaching an intermediate glass material on the support element, the intermediate glass material having a third coefficient of expansion which is substantially the same as the second coefficient of expansion. The method (400) also comprises a step (410) of locally heating the intermediate glass material in order to connect the glass element to the support element by means of the intermediate glass material.
C03C 27/04 - Liaison verre-métal au moyen d'une couche intermédiaire
C03C 27/00 - Liaison de pièces de verre à des pièces en d'autres matériaux inorganiquesLiaison verre-verre par des procédés autres que la fusion
C04B 37/04 - Liaison des articles céramiques cuits avec d'autres articles céramiques cuits ou d'autres articles, par chauffage avec des articles de verre
C03B 23/20 - Réunion de pièces de verre par fusion sans refaçonnage important
B32B 17/06 - Produits stratifiés composés essentiellement d'une feuille de verre ou de fibres de verre, de scorie ou d'une substance similaire comprenant du verre comme seul composant ou comme composant principal d'une couche adjacente à une autre couche d'une substance spécifique
96.
DEVICE AND METHOD FOR LUMINESCENCE ANALYSIS OF MULTIPLE SAMPLES
The invention relates to a method for generating a camera image that is used to derive a welding contour along which an assembly (1) is to be welded in an image processing-supported laser transmission welding method. The method is characterized in that the transparent component (2) of the assembly (1) is illuminated from a side facing away from the camera (5). The invention also relates to a device which is suitable for carrying out the method, an illuminating device thereof having at least one light source (6) that is arranged in a workpiece holder (4), in which the assembly (1) to be welded is received in a receiving region (4.1), and is oriented towards the receiving region (4.1).
B23K 31/12 - Procédés relevant de la présente sous-classe, spécialement adaptés à des objets ou des buts particuliers, mais non couverts par un seul des groupes principaux relatifs à la recherche des propriétés, p. ex. de soudabilité, des matériaux
09 - Appareils et instruments scientifiques et électriques
35 - Publicité; Affaires commerciales
37 - Services de construction; extraction minière; installation et réparation
Produits et services
Safety monitoring apparatus [electric], speedometers
(photography); traffic measuring devices; traffic monitoring
devices, in particular their housings, in particular for red
light monitoring, license plate recognition, recording and
checking the payment of road tolls and tolls, recording
traffic density, traffic flow and vehicle types; sensors for
the aforementioned devices, in particular radar sensors,
laser sensors, piezo sensors, inductive loops and video
cameras; measuring devices (electrical); radar devices;
memories for data processing systems; image receiving
devices; monitoring devices (electrical); time recording
devices; computer operating programs (stored); computer
software (stored); data processing devices; photographic
apparatus and lenses; flash light devices, batteries,
accumulators, fuel cells, solar panels. Updating and maintenance of data in computer databases;
procurement services for third parties; office work;
investigations in business matters; compilation of
statistics; preparation of statements of account (office
work); data search in computer files for others;
systematization and compilation of data in computer
databases; import and export agency services, in particular
in the field of traffic monitoring equipment; processing of
digital measurement data. Installation, maintenance and repair of computer hardware;
installation, repair, operation and maintenance of data
processing systems (hardware), in particular traffic
monitoring systems.
99.
Method and device for coupling out a partial beam having a very small beam percentage from an optical beam
The invention relates to a device comprising a beam splitter and a method of using the device. The device comprises a beam emitting unit and a downstream beam splitter, which is formed by two adjacent planar plates of different materials. For a specified wavelength range of an optical beam from which a partial beam is to be coupled out by reflection, the material of the first planar plate has a minimum refractive index which is greater by a refractive index interval than the maximum ref ractive index of the material of the second planar plate. From the optical beam, which, collimated and linearly polarized parallel to a plane of incidence, impinges on the beam splitter at a certain angle of incidence, the partial beam having only a small summary percentage of the optical beam and a small spectral fluctuation range is coupled out.
The invention relates to a hybrid objective with fixed focal length, which has a total of four lenses. Two lenses consist of glass and two lenses consist of plastic. The objective is suitable for use in a LIDAR measurement system.
G02B 13/00 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous
G02B 9/34 - Objectifs optiques caractérisés à la fois par le nombre de leurs composants et la façon dont ceux-ci sont disposés selon leur signe, c.-à-d. + ou — ayant uniquement quatre composants
G01S 7/481 - Caractéristiques de structure, p. ex. agencements d'éléments optiques
G02B 13/14 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous à utiliser avec des radiations infrarouges ou ultraviolettes
G02B 13/22 - Objectifs ou systèmes de lentilles télécentriques
