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75 results about "Cockpit display system" patented technology

The Cockpit display systems (or CDS) provides the visible (and audible) portion of the Human Machine Interface (HMI) by which aircrew manage the modern Glass cockpit and thus interface with the aircraft avionics.

Cockpit display system

A cockpit display system has a display, such as a multi-function display (MFD) for displaying a graphical representation of an input device when a sensor senses that an aviator's finger is proximate to the input device. The display graphically depicts in real-time the position of the aviator's finger relative to the buttons of the input device. The aviator's finger can be depicted by an icon, shading or highlighting. When the aviator lightly touches a button, the graphical representation of that button can for example be highlighted, shaded or colored. Furthermore, when the button is firmly depressed, the graphical representation of that button can change color or shading. The aviator can thus operate any awkwardly located input device by simply reaching toward the input device and then guiding his finger to the correct button by looking at the graphical representation of the input device.
Owner:CMC ELECTRONICS

Avionics data entry devices

Methods, systems, and apparatuses for the use of a wireless portable avionics device in conjunction with on-board flight systems and / or off-board service providers. The device may be used by aircraft personnel such as pilots and may act as a command / data entry and / or display tool to augment cockpit display systems. The device can receive flight data (e.g., a flight plan) from an off-board provider and automatically transfer it, as well as any previously prepared commands or data, to a flight management system and / or cockpit display systems. Commands and / or data (including pre-existing ones and ones entered in real-time) can be wirelessly transferred to the on-board flight systems which are not in direct physical contact with the device. Thus, the device can be easily manipulated during turbulence or under poor readability conditions. The device can be used to manipulate items shown on cockpit display systems in a timely and accurate manner.
Owner:INNOVATIVE SOLUTIONS & SUPPORT

Customizable cockpit display systems and methods of customizing the presentation of cockpit data

InactiveUS6842122B1Efficient and comprehensive data presentationAircraft displaysDigital data processing detailsData displaySoft key
Systems and methods are provided for customized displays and customized presentations of cockpit data. Configurable soft keys or controls located in close proximity to a cockpit display are provided. Each key is configured to perform a desired display function or other function. Labels are displayed adjacent to each of the soft keys to identify each of the soft keys. A display is operable to provide multiple views, each view within the display is adapted to be overlaid with additional cockpit data if so configured. Furthermore, each view is capable of being presented from one or more selectable perspectives as desired.
Owner:GARMIN INT

Cockpit display systems and methods of presenting data on cockpit displays

Systems and methods for cockpit display systems are provided. A cockpit display is segmented into a first and a second region, within the first region flight setting data are presented including communication settings and navigational settings. The second region of the display presents additional settings and graphical data. Moreover, the display is encompassed by a bezel having flight controls and flight sensors integrated in close proximity to the bezel.
Owner:GARMIN INT

Head-mountable cockpit display system

Systems and apparatus are provided for head-mountable cockpit displays for providing information related to an aircraft system to a user. A cockpit display system comprises an eyeglass frame adapted for wearing on the head of the user. The eyeglass frame has a perimeter defining a field of view. A display element is mechanically coupled to the eyeglass frame and aligned with a bottom portion of the field of view. Display electronics are coupled to the display element, and an avionics system is coupled to the display electronics. The display electronics are configured to render an image of a cockpit instrument panel associated with the avionics system on the display element.
Owner:HONEYWELL INT INC

Motor vehicle cockpit

A motor vehicle cockpit display system includes display units for displaying information arranged at different positions in a passenger compartment of the motor vehicle. A control arrangement controls the content of the information which is respectively displayed on the display units. A recording device senses in a contactless fashion an assignment of a user's limb to a first display unit and a gesture-dependent change in the assignment to a further display unit. Information relating to the change in the assignment is fed to the control arrangement, and the further display unit can be actuated to display the information of the first display unit by the control arrangement in accordance with the change in the assignment.
Owner:CONTINENTAL AUTOMOTIVE GMBH

Cockpit display systems and methods for generating navigation displays including landing diversion symbology

Cockpit display systems and methods for generating navigation displays including landing diversion symbology are provided. In one embodiment, the cockpit display system includes a cockpit monitor and a controller coupled to the cockpit monitor. The controller is configured to assess the current feasibility of landing at one or more diversion airports in a range of an aircraft on which the cockpit display system is deployed. The controller is further configured to assign each diversion airport to one of a plurality of predetermined landing feasibility categories, and generate a horizontal navigation display on the cockpit monitor including symbology representative of the feasibility category assigned to one or more of the diversion airports.
Owner:HONEYWELL INT INC

HUD (head-up display) based synthetic vision guiding display system

The invention belongs to the field of aviation electronic systems and particularly relates to an HUD based synthetic vision guiding display system. At present, an SVS (synthetic vision system) only can be displayed in a head-down display, and during high-speed taxiing, even the fastest scanning of a lower traditional instrument can lead to vision interruption with the outside world. An HGS (head-up guidance system) is not endowed with ability of displaying a three-dimensional terrain synthetic vision, and when inclement weather is encountered, it is difficult to provide better vision awareness for a pilot. With the adoption of the HUD based synthetic vision guiding display system provided by the invention, fused display of a synthetic image of the SVS and a flight guiding image is realized on an HUD system, and a civil aircraft cockpit display system capable of strengthening situation sensing ability especially combines a three-dimensional image display technology with a flight guiding information calculation display technology to simulate an outer aircraft environment and display flight guiding data in a cockpit head-up display.
Owner:BEIJING AERONAUTIC SCI & TECH RES INST OF COMAC +1

Secured Client-Server Computer System for Interactive Applications

A client-server type computer system for graphical applications is provided, that is to say, for displaying data in the form of software units called “widgets” on display screens called “display units”, said system being intended to control the operation of a machine, the machine including at least one human-machine interface allowing interaction with the widgets, said system managing critical data or functions. The computer system includes a securing engine controlling the integrity of the display of the critical widgets, the sending of commands which is performed by means of the human-machine interface, the input and display of the critical data. The main provisions of this securing engine are the use of computer “signatures”, the provision of “feedback” circuits and the use of guard mechanisms or dedicated confirmation dialogue boxes. Preferably, the machine is an aircraft, the computer system is the avionics on board said aircraft and the display screens are the cockpit display systems.
Owner:THALES SA

Cockpit display control system software architecture management platform

InactiveCN106201480AImprove the efficiency of development joint debuggingLow costVersion controlSoftware designNon-functional requirementSoftware architecture
The invention discloses a cockpit display control system software architecture management platform including a modeling toolset. The modeling toolset includes an application instance architecture definition tool, an AADL / MARTE / SYSML model transformation tool, a non-functional requirement analysis tool, a display and control design pattern customization tool and a code integration tool. The invention provides a software architecture management platform with a friendly man-machine interface and easy to set up and maintain the software framework for the development of the cockpit display system software architecture of the modern large and medium-sized civil aircraft.
Owner:CHINESE AERONAUTICAL RADIO ELECTRONICS RES INST

Systems and methods for incorporating virtual network computing into a cockpit display system and controlling a remote aircraft system with the VNC-incorporated CDS

Novel and non-trivial systems and methods for incorporating virtual network computing (“VNC”) into a cockpit display system (“CDS”) and controlling an aircraft system with a VNC-incorporated CDS are disclosed. A system for incorporating VNC into the CDS is comprised of a VNC server of an aircraft system, at least one first user application (“UA”), a second UA, a pilot input device, and a CDS comprised of, in part, a processing module (“PM”) configured with a corresponding method that employs both an aviation-industry standard protocol (e.g., ARINC 661) and a VNC protocol. A system for controlling an aircraft system with a VNC-incorporated CDS is comprised with a VNC server of an aircraft system, a UA, a pilot input device, a display surface format, and a CDS comprised of, in part, a PM configured with a corresponding method that employs both an aviation-industry standard protocol and a VNC protocol.
Owner:ROCKWELL COLLINS INC

Object symbology generating system, device, and method

A present novel and non-trivial system, device, and method for generating object symbology are disclosed. A system may be comprised one or more aircraft systems and a cockpit display system comprised of a system configuration file, a plurality of definition files, and a windows generator (“WG”). The WG may be configured to perform initialization and run-time operations. The initialization operation may be comprised of retrieving a system configuration file; retrieving a first definition file comprised of a first layer; and retrieving one or more second definition files comprised of one or more second layers. The run-time operation may be comprised of receiving a first-layer widget data set; receiving one or more second-layer widget data sets; determining the screen position of each object located within a view frustum; and generating a pixel data set in response to the determination.
Owner:ROCKWELL COLLINS INC

System and method for decluttering an image on a cockpit display system

An avionics system and method is provided that de-clutters an image on a cockpit display system on a host aircraft, thus increasing a pilot's situational awareness. The avionics display system comprises a processor and a display system. The processor is coupled to the display system, a user input device, and a plurality of sources of information layers. When the de-clutter process is enabled, a filter parameter is applied to a selected information layer, and a graphic display of the filtered information layer is provided. The adjustable filter parameter can be applied to any of the information layers displayed on the cockpit display system.
Owner:HONEYWELL INT INC

System and method for displaying a velocity rate-of-change indicator

Avionics display system is provided for deployment onboard an aircraft and includes an air traffic data source that provides the avionics display system with data indicative of at least position and velocity of a neighboring aircraft. The system comprises a cockpit display system, and a monitor included within the cockpit display system. The cockpit display system receives and displays position and velocity data pertaining to the neighboring aircraft on the cockpit monitor as a position symbol and a velocity vector graphic. A processor operatively coupled to the monitor is configured to generate an air traffic display on the monitor including symbology indicative of (1) the current position of the neighboring aircraft (2) a velocity of the neighboring aircraft, and (3) the rate-of-change of the velocity of the neighboring aircraft.
Owner:HONEYWELL INT INC

Cockpit display systems and methods for generating navigation displays including landing diversion symbology

Cockpit display systems and methods for generating navigation displays including landing diversion symbology are provided. In one embodiment, the cockpit display system includes a cockpit monitor and a controller coupled to the cockpit monitor. The controller is configured to assess the current feasibility of landing at one or more diversion airports in a range of an aircraft on which the cockpit display system is deployed. The controller is further configured to assign each diversion airport to one of a plurality of predetermined landing feasibility categories, and generate a horizontal navigation display on the cockpit monitor including symbology representative of the feasibility category assigned to one or more of the diversion airports.
Owner:HONEYWELL INT INC

Cockpit display systems and methods for generating cockpit displays including enhanced flight visibility indicators

Cockpit display systems and methods are provided for generating cockpit displays including symbology useful in assessing whether enhanced flight visibility requirements are satisfied during approach and landing. In one embodiment, the cockpit display system includes an Enhanced Flight Vision System (EFVS) sensor configured to monitor a region forward of the aircraft for runway reference features, a cockpit display device on which an EFVS image is generated utilizing EFVS sensor data, and a controller coupled to the EFVS sensor and to the display device. The controller determines an enhanced flight visibility requirement for a runway approached by the aircraft, and then visually indicates on the EFVS image whether enhanced flight visibility requirement is currently satisfied by, for example. generating an enhanced flight visibility indicator (EFVI) graphic on the EFVS image visually identifying a ground location beyond which the appearance of a runway reference feature satisfies the enhanced flight visibility requirement.
Owner:HONEYWELL INT INC

Cockpit display systems and methods for generating cockpit displays including direct approach energy management symbology

Cockpit display systems and methods are provided for generating energy management symbology on cockpit displays, which aid pilot decision-making when evaluating and executing direct approaches. In an embodiment, the cockpit display system includes a cockpit display device on which a first cockpit display, such as a vertical situation display or a horizontal navigation display, is generated. A controller is operably coupled to the cockpit display device and configured to: (i) identify a direct approach (DA) path to a configuration point located over a destination airfield; (ii) calculate a first DA energy estimate for the aircraft to fly the DA path under engine idle conditions and arrive at the configuration point with an airspeed less than a configuration airspeed; and (iii) generate symbology on the first cockpit display indicative of the first DA energy estimate.
Owner:HONEYWELL INT INC

Incorporating virtual network computing into a cockpit display system for controlling a non-aircraft system

Systems and methods for incorporating virtual network computing (“VNC”) into a cockpit display system (“CDS”) and controlling an aircraft system and a remote system simultaneously with a VNC-incorporated CDS are disclosed. A system for incorporating VNC into the CDS is comprised of a VNC server of a remote system, at least one first user application (“UA”), a second UA, a pilot input device, and a CDS comprised of, in part, a processing module (“PM”) configured with a method employing an aviation-industry standard protocol (e.g., ARINC 661) and a VNC protocol. A system for controlling the remote system aircraft system with a VNC-incorporated CDS is comprised with a VNC server of the aircraft system and / or the non-aircraft system, a UA, a pilot input device, a display surface format, and a CDS comprised of, in part, a PM configured with a method employing an aviation-industry standard protocol and a VNC protocol.
Owner:ROCKWELL COLLINS INC

Systems and methods for selecting accurate runway records for use in cockpit display systems

Systems and methods for selecting a runway record for a target runway are provided. The system includes: a first database having a first runway record with a first runway threshold; a second database having a second runway record with a second runway threshold; a transceiver for receiving an ILS signal; and a computer system. The computer system is configured to determine when the ILS signal is substantially zero. When the ILS signal is substantially zero, the computer system is configured to receive, from one or more databases, a plurality of runway records including corresponding runway thresholds; and select a most accurate runway record from the plurality of runway records based, at least in part, on which of the corresponding runway thresholds deviates least from the aiming point. In various embodiments, the most accurate runway record is then utilized for rendering images in a cockpit display system.
Owner:HONEYWELL INT INC

System and method for displaying a velocity rate-of-change indicator

Avionics display system is provided for deployment onboard an aircraft and includes an air traffic data source that provides the avionics display system with data indicative of at least position and velocity of a neighboring aircraft. The system comprises a cockpit display system, and a monitor included within the cockpit display system. The cockpit display system receives and displays position and velocity data pertaining to the neighboring aircraft on the cockpit monitor as a position symbol and a velocity vector graphic. A processor operatively coupled to the monitor is configured to generate an air traffic display on the monitor including symbology indicative of (1) the current position of the neighboring aircraft (2) a velocity of the neighboring aircraft, and (3) the rate-of-change of the velocity of the neighboring aircraft.
Owner:HONEYWELL INT INC

Display system and method for helicopter engine parameters

ActiveCN105416601AReal display of working statusReal time display remainingAircraft componentsDisplay deviceMan machine
The invention belongs to the field of helicopter design and specifically relates to a display system and method for helicopter engine parameters. The display system and method are used for improving the man-machine effect. Traditional engine parameter interface display is adopted for an existing helicopter, a display interface is single, and displayed alarm information is independent of a display system; all parameter display devices are completely independent, so that once transmission signal interrupt and other conditions occur, a backup display function is not available. According to the display system and method on the basis that the construction of a cockpit display system is fully used, on the premise of taking the system safety into consideration, the engine parameters are recombined and optimized, so that the flying difficulty is relieved, and meanwhile, the display interface for the engine parameters is clearer and more concise.
Owner:HARBIN

Cockpit display systems and methods for performing glide slope validation processes during instrument landing system approaches

Cockpit display systems and methods are provided for performing Glide Slope (G / S) validation processes during Instrument Landing System (ILS) approaches. In one embodiment, the cockpit display system utilizes validated G / S signals to selectively correct the viewpoint of a Synthetic Vision System (SVS) scene generated on a Synthetic Vision Primary Flight Display (SV-FPD). In such an embodiment, the cockpit display system may include an ILS receiver, a cockpit display device on which the SV-PFD is generated, and a controller operably coupled to the cockpit display device and to the ILS receiver. During an ILS approach, the controller selectively performs a G / S validation algorithm to determine the validity of the G / S signals received during the ILS approach. If determining that the G / S signals are valid, the controller then repeatedly updates the SVS viewpoint during the ILS approach based, at least in part, on the validated G / S signals.
Owner:HONEYWELL INT INC

Image-recognition-based automatic test method and system for cockpit display system

The invention discloses an image-recognition-based automatic test method for a cockpit display system. Analyses are carried out on a non-ARINC661 standard display picture model and an ARINC661 standard display picture model to obtain minimum identifiable units of display picture sand attributes of all units; and with the image recognition technology, all minimum identifiable units are identified and tested. According to the invention, the automatic test of the cockpit display system can be realized based on construction of the minimum identifiable units; the traditional status of relying on the manual test is changed; and thus the efficiency and accuracy of the cockpit display system test are improved effectively. The image-recognition-based automatic test method and system have the greatpromotion and application values.
Owner:CHINESE AERONAUTICAL RADIO ELECTRONICS RES INST

Plane cockpit display system server software testing method conforming to ARINC661 standard

The invention discloses a plane a plane cockpit display system server software testing method conforming to the ARINC661 standard. The method includes the steps of firstly, extracting testing basis; secondly, determining the testing manner; thirdly receiving the DF file structure designed by a user if the testing manner is determined as manual testing; performing automatic testing if the testing manner is determined as automatic testing; fourthly, generating testing input and testing expected result. Compared with the prior art, the testing method is capable of conveniently and fast generating testing input and testing expected result, software testing efficiency and accuracy are increased, testing cycle is shortened, and testing expense is lowered.
Owner:CHINESE AERONAUTICAL RADIO ELECTRONICS RES INST

Device and method for remote interaction with a display system

The invention relates to a mobile device for remote control and interaction with a screen of an aircraft cockpit display system able to display at least one window including at least one control widget and / or at least one signal providing information concerning the status of an on-board system of the aircraft. This device is configured to download at least one window displayed on the screen so as to interact remotely with the interactive widget contained in the downloaded window by the said mobile control and interaction device and / or to display the signal providing information concerning the status of the aircraft's on-board system on the said mobile control and interaction device.
Owner:AIRBUS OPERATIONS (SAS)

Real-time aircraft turbulence sensing, reporting, and mapping system and method for enhancing passenger safety and comfort

Systems and methods are disclosed for periodic real-time reporting of in-flight turbulence experienced by aircraft using the existing ADS-B messaging system. The invention includes both broadcast to and reception from other aircraft and ground stations using the ADS-B system. Systems and methods for displaying the received turbulence reports on a cockpit display system are also disclosed. The disclosed systems and methods accomplish the objectives of the invention on a non-interference basis with existing ADS-B system functionality by utilizing currently reserved message types and / or unused data fields for the turbulence reporting. The invention is applicable to both 1090ES and 978 UATADS-B systems.
Owner:RUMFERT LLC

A cockpit display system that supports multi-user synchronous operation

ActiveCN109213563AConvenient and efficient human-computer interactionProgram loading/initiatingExecution for user interfacesGraphicsSimulation
A cabin display system supporting multi-user synchronous operation is disclosed, including a display unit, the display unit may be divided into one or more non-overlapping display windows, each display window consists of one or more different layers, each layer consists of a form part, the cockpit display system supporting multi-user synchronous operation also includes a display profile loading module, definition file load module, a data reception processing module of an external device, user application command receiving and processing module, the logic processing module and the graphics drawing module, the system can manage the display content according to the window through the modules, realize the function support of the cabin display system to the multi-user synchronous operation, andmake the man-machine interaction between the cabin display system and the crew more convenient and efficient. The user application command receiving and processing module, the logic processing moduleand the graphics drawing module can manage the display content according to the window, and realize the function support of the cabin display system to the multi-user synchronous operation.
Owner:CHINESE AERONAUTICAL RADIO ELECTRONICS RES INST
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