The invention relates to a method for communication with a technical appliance using speech inputs of a user, comprising: providing (S11) speech audio data (SAD) based on a particular speech input of the user, providing (S12) a plurality of target phrases (ZP) to be recognised in the speech inputs of the user, wherein the respective target phrase (ZP) has a number of words or word groups, transcribing (S13) the provided speech audio data (SAD) by means of an acoustic model (AM) into a written text (ST) representing the particular speech input, translating (S14) the transcribed written text (ST) by means of a phonetic model (PM) into a first phonetic code (PC1), translating (S15) the provided target phrases (ZP) by means of the phonetic model (PM) into a second phonetic code (PC2), recognising (S16) a match between the first phonetic code (PC1) and the second phonetic code (PC2) by means of a phrase recognition model (PEM) and outputting a recognised target phrase only depending on a recognised match.
A device for determining a firing position from which a projectile has been fired at a target object is proposed, comprising:
at least one sensor unit for detecting an impact of the projectile in the target object,
at least one acoustic sensor unit for detecting a muzzle blast when the projectile is fired, and
a determination unit which is arranged to determine the firing position on the basis of the detected muzzle blast and the detected impact.
F41J 5/06 - Acoustic hit-indicating systems, i.e. detecting of shock waves
G01S 3/808 - Systems for determining direction or deviation from predetermined direction using transducers spaced apart and measuring phase or time difference between signals therefrom, i.e. path-difference systems
G01S 5/18 - Position-fixing by co-ordinating two or more direction or position-line determinationsPosition-fixing by co-ordinating two or more distance determinations using ultrasonic, sonic, or infrasonic waves
3.
APPARATUS FOR DETERMINING AN ANGULAR DEVIATION, VEHICLE AND METHOD FOR DETERMINING AN ANGULAR DEVIATION
The invention relates to an apparatus (100) for determining an angular deviation between a line of sight and a line of fire of a barrelled firearm (50). The apparatus (100) comprises: at least one clocked light source (10) for generating at least one coherent light beam (Ltx) and for emitting the at least one generated coherent light beam (Ltx), at least one neuromorphic camera (20) for receiving at least the at least one emitted coherent light beam (Ltx) and for providing detection data at least from the received light beam (Lrx), and a computing unit (40) for determining the angular deviation based on a correction value indicative of the angular deviation, wherein the computing unit (40) is designed to determine the correction value depending on at least one specific basic calibration value and the provided detection data.
The invention relates to a sensor device (SV1, SV2, SV3) for a transmission of data and/or an evaluation of downlink signals (DL(H1,T1)) transmitted by at least one satellite (S1) for a reconnaissance system (AS), wherein the satellite (S1) has a footprint (Z1) with a plurality of different geographical sub-regions (TB1-TB7), each of the geographical sub-regions (TB1-TB7) being assigned to a specific satellite signal of the satellite (S1), comprising: an antenna device (AV) which is designed to receive downlink signals (DL(H1,T1) of the satellite (S1) directed at a specific terminal (T1) arranged in a specific geographical sub-region of the geographical sub-regions (TB1), a signal processing unit (SE) for digitally processing the signal, including at least the process of demodulating, decoding, and filtering the received downlink signals (DL(H1,T1)) in order to provide pre-processed data which is specific to the specific terminal (T1), and a transmission unit (ÜE) for transmitting the provided pre-processed data to the reconnaissance system (AS) via at least one WAN connection (W1).
An operative system (20) for a vehicle (10) is proposed, having: a sighting means (22) associated with an operative means (21) mounted to be orientable in azimuth and elevation for receiving a target area of the operative means (21), and a viewing assembly (23) for a user (A) coupled to the sighting means (22), wherein the viewing assembly (23) has smartglasses (24) coupled to the sighting means (22) for outputting the target area of the operative means (21) received by the sighting means (22).
An operative system (20) for a vehicle (10) is proposed, having: a sighting means (22) associated with an operative means (21) mounted to be orientable in azimuth and elevation for receiving a target area of the operative means (21), and a viewing assembly (23) for a user (A) coupled to the sighting means (22), wherein the viewing assembly (23) has smartglasses (24) coupled to the sighting means (22) for outputting the target area of the operative means (21) received by the sighting means (22).
The invention relates to a simulator (1) for simulating a guided missile system, which simulator comprises a single tube (2) having an opening and a front panel (3) that is permeable to electromagnetic radiation and intended for closing the opening. A laser module (4) for transmitting laser-pulse sequences, an infrared sensor module (5), a daylight vision sensor module (6), a primary mirror (7) comprising a central opening, a secondary mirror (9) and a beam splitter (10) are situated in the tube. The primary mirror is designed to conduct, onto the secondary mirror, electromagnetic radiation which entered through the front panel. The secondary mirror is designed to conduct, through the central opening of the primary mirror onto the beam splitter, the electromagnetic radiation which is reflected by the primary mirror, . Furthermore, the beam splitter is designed to split the electromagnetic radiation which is reflected by the secondary mirror and conducted through the central opening of the primary mirror into an infrared portion (IR) and into a visible portion (VIS), and to conduct the visible portion onto the daylight vision sensor module and the infrared portion onto the infrared sensor module.
A device (100) for determining a firing position (POS), from which a projectile was fired at a target object (200), is proposed. The device (100) comprises: at least one sensor unit (110) for capturing impact (IP) of the projectile in the target object (200), at least one acoustic sensor unit (120) for capturing muzzle blast (NB) when firing the projectile, and a determination unit (130) which is configured to determine the firing position (POS) on the basis of the captured muzzle blast (NB) and the captured impact (IP).
F41J 5/056 - Switch actuation by hit-generated mechanical vibration of the target body, e.g. using shock or vibration transducers
F41J 5/06 - Acoustic hit-indicating systems, i.e. detecting of shock waves
G01S 5/22 - Position of source determined by co-ordinating a plurality of position lines defined by path-difference measurements
G01S 3/808 - Systems for determining direction or deviation from predetermined direction using transducers spaced apart and measuring phase or time difference between signals therefrom, i.e. path-difference systems
G01S 5/18 - Position-fixing by co-ordinating two or more direction or position-line determinationsPosition-fixing by co-ordinating two or more distance determinations using ultrasonic, sonic, or infrasonic waves
Disclosed is a mobile robotic unit (19A) having a platform (1), an energy store (20), supported by the platform (1), for storing electric energy, and an energy transmission device (21), supported by the platform (1), for transmitting electric energy from the energy store (20) to an external operational energy store (22, 23).
B25J 5/00 - Manipulators mounted on wheels or on carriages
B25J 19/00 - Accessories fitted to manipulators, e.g. for monitoring, for viewingSafety devices combined with or specially adapted for use in connection with manipulators
Disclosed is a mobile robotic unit (19A) having a platform (1) and a protective shield (20), supported by the platform, for protecting task forces and/or objects (21) from a radiation source and/or object source (22).
B25J 11/00 - Manipulators not otherwise provided for
B62D 57/032 - Vehicles characterised by having other propulsion or other ground-engaging means than wheels or endless track, alone or in addition to wheels or endless track with ground-engaging propulsion means, e.g. walking members with alternately or sequentially lifted supporting base and legVehicles characterised by having other propulsion or other ground-engaging means than wheels or endless track, alone or in addition to wheels or endless track with ground-engaging propulsion means, e.g. walking members with alternately or sequentially lifted feet or skid
A network module of an electronic system of an operative for a communication network that couples a plurality of electronic systems is proposed. The network module comprises: interfaces for coupling applications, wherein the respective application is designed to provide packetized data to be transmitted, an interface unit for coupling a routing module, wherein the respective communication module is designed to interchange packetized data with at least one communication module of one of the further electronic systems, and an adjusting unit that comprises: a determination unit for determining a current network status of the communication network on the basis of data received from further electronic systems via the routing module, a decision unit for providing a decision to adjust a data flow of packetized data provided by the coupled applications to the routing module on the basis of the determined current network status, and a network interface unit designed to adjust the data flow of the packetized data provided by the coupled applications in accordance with the decision provided.
H04L 67/61 - Scheduling or organising the servicing of application requests, e.g. requests for application data transmissions using the analysis and optimisation of the required network resources taking into account QoS or priority requirements
The invention relates to a method for transferring data (D) from a storage device (10) for storing the data (D) to an electronic system (20) of a responder, comprising: transporting (S1) a data carrier (30) storing the data (D) by means of a mobile unit (40) over a distance (E) toward the electronic system (20), and transferring (S2) the data (D) stored on the data carrier (30) from the mobile unit (40) onto the electronic system (20).
B64C 39/02 - Aircraft not otherwise provided for characterised by special use
G11B 15/00 - Driving, starting or stopping record carriers of filamentary or web formDriving both such record carriers and headsGuiding such record carriers or containers thereforControl thereofControl of operating function
The invention relates to a system (1) having a plurality N of mobile units comprising at least a first mobile unit (10) and a second mobile unit (20), each mobile unit comprising a number of sending/receiving units for sending and/or receiving electromagnetic signals, where N ≥ 2, the first mobile unit comprising: at least one sending/receiving unit (11) which is designed to receive electromagnetic signals from at least one of the sending/receiving units (21) of the second mobile unit and to send electromagnetic signals to at least one of the sending/receiving units of the second mobile unit; a determination unit (12) which is designed to determine a runtime (L) and/or an angle of incidence (W) of the electromagnetic signals transmitted between the at least one sending/receiving unit of the first mobile unit and the at least one sending/receiving unit of the second mobile unit; a detection unit (13) which is designed to detect a position of the second mobile unit by means of the determined runtime and/or the determined angle of incidence; a storage unit (14) and an adjustment unit (15).
G01S 5/00 - Position-fixing by co-ordinating two or more direction or position-line determinationsPosition-fixing by co-ordinating two or more distance determinations
G01S 5/26 - Position of receiver fixed by co-ordinating a plurality of position lines defined by path-difference measurements
G05D 1/02 - Control of position or course in two dimensions
B60W 30/00 - Purposes of road vehicle drive control systems not related to the control of a particular sub-unit, e.g. of systems using conjoint control of vehicle sub-units
The invention relates to an accessory platform (1), more particularly a weapons and/or sensor platform, for an accessory part (2) having an elevation axis (3), about which the accessory part (2) can pivot, a driving component (16), which is arranged spaced apart from the elevation axis (3), a driveshaft (23) which can rotate about the elevation axis (3), a belt drive (19), which couples the driving component (16) to the driveshaft (23), and a transmission (27), which is disposed between the driveshaft (23) and the accessory part (2).
VEST ADAPTER FOR A PROTECTIVE VEST FOR CONNECTING A PLURALITY OF MODULES, SYSTEM HAVING A VEST ADAPTER AND CONNECTED MODULES, ASSEMBLY HAVING A PROTECTIVE VEST AND VEST ADAPTER
The invention relates to a vest adapter (10) for connecting modules (21-24, 100-400), wherein the vest adapter (10) can be detachably coupled to a protective vest and comprises at least one first sub-region (T1) for wearing in the region of the chest of an emergency personnel and a second sub-region (T2) for wearing in the region of the back, wherein the vest adapter (10) is formed by a first material layer (11), a second material layer (12) and an infrastructure (13) arranged between the first (11) and the second material layer (12) for coupling the modules (21-24, 100-400), wherein the infrastructure (13) comprises a plurality of units (31-38) of a wired interface type (USB) that are connected via cables (14) and a plurality N2 of units (41-42) of a first wireless interface type (WiFi) that are connected via cables (14).
A display apparatus for an emergency service member for displaying information content of different information types from a guidance system is proposed. The display apparatus comprises a display, carriable by the emergency service member, having a plurality of visually distinguishable segments, with each of which at least one of the information types is associated, each segment being configured to visually output a current information content of the information type associated with the segment. Further, the display apparatus comprises an actuating unit, couplable to the guidance system, for actuating the display.
G08B 5/36 - Visible signalling systems, e.g. personal calling systems, remote indication of seats occupied using electric transmissionVisible signalling systems, e.g. personal calling systems, remote indication of seats occupied using electromagnetic transmission using visible light sources
The invention relates to a net-catching drone for catching a flying drone using a net. The net catching drone comprises a drive device, a net launching device for launching the net onto the flying drone, a first interference transmitter for emitting a first interference signal ranging from 2.4 to 2.5 GHz, a second interference transmitter (32) for emitting a second interference signal ranging from 5.0 to 5.9 GHz, a third interference transmitter (33) for emitting a third interference signal ranging from 1.3 to 1.7 GHz, a camera for capturing video images of the flying drone, and a transmission unit for transmitting a data signal ranging from 1.0 to 1.2 GHz to a remote control, said data signal containing the captured video images.
The invention relates to a military vehicle which has cameras arranged on an outer skin for capturing images and an HMI device which can be coupled to the cameras. The HMI device comprises: a screen having display regions at least comprising a first display region for displaying a field of view provided by means of at least some of the cameras and a second display region for displaying a currently selected menu; a plurality of physical operating keys, wherein each operating key has an icon for visually indicating the function associated with the operating key and wherein the operating keys are grouped, according to their functions, in multiple functional groups in a frame around the display regions; backlighting for the operating keys; and a control unit, which is designed to control the backlighting such that the operating keys are illuminated differently according to their respective status.
The invention relates to a device for a validatable output of images, having a screen (20) for outputting images on the basis of image data (BD1), a number N1 of cameras (31, 32), where N1 > 1, each of the cameras being designed to provide image data (BD1, BD2) on the basis of captured camera images, an integration unit (42) for outputting expanded image data (eBD1) on the basis of the integration of a signature, which is visible in the images output by the screen, into the image data provided by one of the cameras, a number N2 of photosensors (51, 52) arranged in front of the screen, where N2 > 1, said N2 photosensors being designed to detect the integrated signature in the images output by the screen, and a validation unit (44) which is coupled to the N2 photosensors and which is designed to validate the detected signature and initiate a security function on the basis of the validated signature.
A simulator for simulating a use of a missile of an attacking system is proposed. The simulator comprises: a storage device for storing of a terrain model of a battle terrain and target object models of target objects; a sensing unit for sensing and tracking a defined target object of the target objects in the battle terrain; a transmitting unit for transmitting a coded laser signal to the defined target object; a receiving unit for receiving a response signal transmitted by the defined target object; a providing unit for providing a target object model for the defined target object in dependence on at least type information of the received response signal; and a visual means associated with the missile for outputting a current visual representation of the battle terrain by means of the terrain model, the provided target object model and the location information.
The invention relates to a device for the validatable output of images, comprising a number of screens for outputting images based on image data and a number of camera devices. Each camera device comprises a camera for providing image data based on a capturing of camera images, and an integration unit for outputting extended image data based on an integration of an encoded information block having a source reference specific to the camera and a time stamp specific to the capture. The device also comprises a transmission channel connected between the screens and the camera devices for transmitting the extended image data from the camera devices to the screens, and a validation unit that can be coupled to the screens for validating the image data that is transmitted via the transmission channel and extended based on the integrated information block.
The invention relates to an assembly with a plurality of portable electronic devices for a group of N1 first responders. Each electronic device is assigned to one of the N1 first responders and comprises an output device for outputting information relating to the first responder. The assembly comprises a detection unit and a supply unit, for example as part of a guide system for guiding the first responders. The detection unit is designed to detect a current group behavior within the group of N1 first responders based on changes in the condition of at least one first proportion of N2 first responders of the group. The supply unit is designed to supply a respective indication to the display of the electronic devices of at least one second proportion of a number N3 of the first responders on the basis of a group behavior detected by the detection unit.
G08B 7/06 - Signalling systems according to more than one of groups Personal calling systems according to more than one of groups using electric transmission
G08B 21/02 - Alarms for ensuring the safety of persons
F41G 3/04 - Aiming or laying means for dispersing fire from a battery
23.
ARRANGEMENT COMPRISING A CONTACTLESS SMARTCARD, A GARMENT FOR AN ACTION FORCE COMPRISING A RECEIVING DEVICE FOR RECEIVING THE SMARTCARD, AND AN ELECTRONIC SYSTEM AND METHOD FOR OPERATING SUCH ARRANGEMENT.
An arrangement is proposed which comprises a contactless smart card, a garment for emergency personnel and an electronic system. The contactless smart card comprises a storage unit for storing cryptographic material and a transmission unit for contactlessly transmitting the cryptographic material and/or data provided by means of the cryptographic material. The garment comprises an accommodating device for accommodating the smart card. The electronic system comprises a receiving unit for receiving the cryptographic material and/or the provided data from the transmission unit.
G06K 19/073 - Special arrangements for circuits, e.g. for protecting identification code in memory
G07C 11/00 - Arrangements, systems or apparatus for checking, e.g. the occurrence of a condition, not provided for elsewhere
24.
ARRANGEMENT COMPRISING A CONTACTLESS SMART CARD, A GARMENT FOR EMERGENCY PERSONNEL COMPRISING AN ACCOMMODATING DEVICE FOR ACCOMMODATING THE SMART CARD AND COMPRISING AN ELECTRONIC SYSTEM, AND METHOD FOR OPERATING SUCH AN ARRANGEMENT
An arrangement is proposed which comprises a contactless smart card, a garment for emergency personnel and an electronic system. The contactless smart card comprises a storage unit for storing cryptographic material and a transmission unit for contactlessly transmitting the cryptographic material and/or data provided by means of the cryptographic material. The garment comprises an accommodating device for accommodating the smart card. The electronic system comprises a receiving unit for receiving the cryptographic material and/or the provided data from the transmission unit.
A simulator for simulating a use of a missile comprises: a storage device for storing a model of the battle terrain and target object models of target objects; a sensing unit for sensing a defined target object of the target objects in the battle terrain; a transmitting unit for transmitting a coded laser signal to the defined target object; a receiving unit for receiving a response signal transmitted by the defined target object as a response to the laser signal, the response signal comprising information of the defined target object; a providing unit for providing a target object model in dependence on the information of the response signal; and a visual means for outputting a current visual representation of the battle terrain by means of the model, the provided target object model and the information of the response signal.
A display apparatus for an emergency service member for displaying information content of different information types from a guidance system is proposed. The display apparatus comprises a display, carriable by the emergency service member, having a plurality of visually distinguishable segments (21 - 28), with each of which at least one of the information types is associated, each segment being configured to visually output a current information content of the information type associated with the segment. Further, the display apparatus comprises an actuating unit, couplable to the guidance system, for actuating the display.
A display apparatus for an emergency service member for displaying information content of different information types from a guidance system is proposed. The display apparatus comprises a display, carriable by the emergency service member, having a plurality of visually distinguishable segments (21 - 28), with each of which at least one of the information types is associated, each segment being configured to visually output a current information content of the information type associated with the segment. Further, the display apparatus comprises an actuating unit, couplable to the guidance system, for actuating the display.
The invention relates to a housing arrangement (6) for a detecting and/or emitting device (2), comprising: a housing (7) for the device (2), a centrifugal disc (8) which is mounted in the housing (7) so as to be rotatable about an axis of rotation (D), a drive device (27) for driving the centrifugal disc (8), and a tubular coupling element (30) which is mounted in the housing (7) so as to be rotatable about the axis of rotation (D) for coupling the drive device (27) with the centrifugal disc (8), wherein the coupling element (30) is fixedly connected to the centrifugal disc (8) at an edge region (28) thereof, and wherein the drive device (27) is designed to directly drive the coupling element (30).
The invention relates to a simulator (10) for simulating a deployment of a missile of an attacking system. The simulator comprises: a memory device (11) for storing a terrain model (GM) of the battle terrain and for storing a number of target-object models (Z1, Z2, Z3) of target objects; a sensing unit (12) associated with the attacking system, for sensing and tracking a defined target object of the target objects in the battle terrain; a transmitting unit (13) associated with the attacking system, for transmitting a coded laser signal (LS) to the defined target object, the coded laser signal comprising at least an identification of the attacking system; a receiving unit (14) associated with the attacking system, for receiving a response signal (AS) transmitted by the defined target object as a response to the laser signal, which response signal comprises at least location information (OI) and type information (TI) of the defined target object; a providing unit (15) for providing a target-object model for the defined target object, which target-object model is stored in the memory device, in accordance with at least the type information of the received response signal; and a vision means (AS) associated with the missile of the attacking system, for outputting a current visual representation of the battle terrain by means of the terrain model, the provided target-object model and the location information of the response signal.
The invention relates to a sensor device (10) for the three-dimensional detection of target objects. The sensor device comprises a 360° sensor (20), a detection unit (30) and a laser range finder (40). The 360° sensor is designed to detect electromagnetic radiation in order to provide two-dimensional images of the surroundings of the 360° sensor. The detection unit is designed to detect specific target objects in the two-dimensional images provided by the 360° sensor. The laser range finder is designed to determine a distance to a target object. The laser range finder comprises a laser diode (41) for transmitting a laser beam, a mirror (42) for reflecting the laser beam transmitted onto a target object and a piezo-actuator (43), which is designed to align the mirror at least in elevation in such a manner that the laser beam reflected by the mirror illuminates the target object.
G01S 13/06 - Systems determining position data of a target
G01S 13/72 - Radar-tracking systemsAnalogous systems for two-dimensional tracking, e.g. combination of angle and range tracking, track-while-scan radar
G01S 13/86 - Combinations of radar systems with non-radar systems, e.g. sonar, direction finder
H01Q 21/06 - Arrays of individually energised antenna units similarly polarised and spaced apart
G01S 17/66 - Tracking systems using electromagnetic waves other than radio waves
G01S 17/89 - Lidar systems, specially adapted for specific applications for mapping or imaging
G01S 7/481 - Constructional features, e.g. arrangements of optical elements
The invention relates to a camera ring for producing a panoramic image, in particular a surface of an airport. The camera ring comprises a cylindrical housing having a plurality N of cameras distributed on the periphery, each camera being designed to capture an individual image, and a computing unit for transforming the captured individual images into a panoramic image according to a determined transformation rule.
The invention relates to a device (10) for verifiably outputting images, comprising a screen (20) for outputting images based on image data; a plurality N of camera devices (30, 40, 50), wherein N ≥ 2, and each of the N camera devices (30, 40, 50) has a camera (31, 41, 31) for providing image data (B1, B2, B3) based on the capture of at least one camera image and an integration unit (32, 42, 52) for outputting enhanced image data (E1, E2, E3) based on the integration of a camera-specific display element (A1, A2, A3) into the provided image data (B1, B2, B3); and a multiplexer device (60) which is coupled between the N camera devices (30, 40, 50) and the screen (20) and which is designed to provide additional image data (E1) selected from the enhanced image data (E1, E2, E3) received by the N camera devices (30, 40, 50) on the output side for the screen (20). The screen (20) is designed to output an image (I) with the camera-specific display element (A1) in an output region (21) of the screen (20) on the basis of the enhanced image data (E1) provided by the multiplexer device (60).
G08B 13/196 - Actuation by interference with heat, light, or radiation of shorter wavelengthActuation by intruding sources of heat, light, or radiation of shorter wavelength using passive radiation detection systems using image scanning and comparing systems using television cameras
G09G 5/377 - Details of the operation on graphic patterns for mixing or overlaying two or more graphic patterns
H04N 5/445 - Receiver circuitry for displaying additional information
H04N 7/18 - Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
09 - Scientific and electric apparatus and instruments
38 - Telecommunications services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Computer software; tablet computers; mobile communications
apparatuses; software for the monitoring of position data;
sensors and detectors; electronic navigation apparatuses;
software for detecting a military situation; weapons
simulators; timing sensors; cameras [photography]; target
location apparatuses; navigation, guidance, tracking,
targeting and map making devices; software for navigation,
guidance, tracking, targeting and map making; the aforesaid
goods in particular for military purposes. Electronic transmission of messages; electronic transmission
and distribution of sensor data; transmitting of data for
navigation, guidance, tracking, targeting and map making;
the aforesaid services in particular for military purposes. Design and development of computer hardware and software;
development, customization, installation, update and
maintenance of computer software packages; data encryption
services; design and development of computer software for
navigation, guidance, tracking, targeting and map making;
the aforesaid services in particular for military purposes.
09 - Scientific and electric apparatus and instruments
Goods & Services
Optical apparatus, namely camera system consisting of
several individual cameras mounted on a carrier, signal
lights, control instruments, namely controls for data entry;
apparatus for the storage and conversion of electricity,
namely the sensors, actuators and data memory; apparatus for
reproduction of sound or images, namely monitors with or
without data input unit.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Apparatus for recording from the cockpit of civil or
military vehicles, aircraft or helicopters; simulators for
the steering and control of civil or military vehicles,
aircraft or helicopters. Technological services for the development of devices for
recording from the cockpits of civil or military vehicles,
aircraft or helicopters and simulators for the steering and
control of civil or military vehicles, aircraft or
helicopters.
09 - Scientific and electric apparatus and instruments
13 - Firearms; explosives
41 - Education, entertainment, sporting and cultural services
Goods & Services
Electronic apparatus for simulating combat and battle
scenarios; electronic equipment and computer software for
simulating weapons' effects and medical care on the human
body; electronic apparatus and instruments to be fitted on
combat vehicles, combat support vehicles and civilian
vehicles for simulating combat and battle scenarios; data
processing equipment; computer programs for simulating
combat and battle scenarios; equipment for signal
transmission; electronic operating and display equipment,
audio output equipment, displays, communication devices and
instruments for determining the position of persons and
vehicles for simulating combat and battle scenarios;
electronic apparatus and instruments for planning, checking,
recording, playing back, monitoring and analyzing simulated
combat and battle actions; instructional material for
simulating combat and battle scenarios stored in electronic
format, including on compact discs, digital versatile discs,
USB sticks. Weapons systems for simulating combat and battle scenarios;
training weapons having laser transmitters, in particular
small arms, medium caliber weapons, heavy weapons, including
guns, anti-tank weapons, mortars, grenade launchers and
guided missile systems; instruments for simulating hand
grenades and the effect thereof. Simulation of combat and battle scenarios for the providing
of training and instruction of military personnel in task
forces, on military vehicles and on weapons systems;
creating training documents, operating instructions as well
as instructional and teaching material for simulating combat
and battle scenarios for the providing of training of
military personnel.
09 - Scientific and electric apparatus and instruments
13 - Firearms; explosives
37 - Construction and mining; installation and repair services
Goods & Services
(1) Air defense systems, namely, consisting of infrared or heat image sensors, monitors for displaying sensor data, data processing and data transmission equipment, namely, computers, plotters, and scanners, control panels; electronic and electrooptical controllers for fire control in air, land and water-defence systems; target acquisition, tracking, surveying, classification equipment for use in air, land and water-defence systems; heat image sensors and monitors for displaying sensor data; optoelectrical sensors; infrared surveillance sensors; control and display consoles and housings.
(2) Weapons systems, namely, air defence weapons, namely missiles, guns, sighting and aiming devices. (1) Installation, servicing, maintenance and repair of air defense systems, namely, consisting of infrared or heat image sensors, monitors for displaying sensor data, data processing and data transmission equipment, namely, computers, plotters, and scanners, control panels, electronic and electrooptical devices for fire control in air, land and water-defence systems, target acquisition, tracking, surveying, classification equipment for use in air, land and water-defence systems, heat image sensors and monitors for displaying sensor data, optoelectrical sensors, infrared surveillance sensors, control and display consoles and housings, weapons systems, namely, air defense weapons, namely missiles, guns, sighting and aiming devices.
09 - Scientific and electric apparatus and instruments
Goods & Services
Appareils et matériels destinés à la production digitale
d'images, de représentations d'images ainsi que de parties
de ces derniers, à savoir: armoires électroniques renfermant
des modules de production d'images et de commande, mémoires
de données, processeurs; projecteurs d'images; écrans de
projection; écrans d'affichage; platines de commande pour
écrans d'affichage; adaptateurs d'observation pour écrans
d'affichage; lentilles optiques et interfaces optiques;
écrans de contrôle montés sur casques; platines de commande
pour graphiques d'ordinateurs; capteurs de détection de
direction de regard et de position de tête.
