Download pdf lockheed jetstar manual -flight

FMC by Garret Smith. Includes A operation manual and checklist. Added the textures by Britney Ren. Assembled for P3D v4. Airbus AF Loganair. Loganair is a regional airline based at Glasgow Airport near Paisley, Scotland.

Model by Thomas Ruth with VC. Original model by Project Airbus with updates to model and VC. Sukhoi Superjet Azimuth Textures. Texture only for freeware Aeroproyecto v2. Models: Exteriors by Project Opensky. Paint Jacob Kubique. Currently Shanghai has 76 Boeing flying to destinations around China, other Asian countries and Eastern Europe. Package includes advanced VC added.

This virtual cockpit model includes working wipers right mouse click on switch with rain effect. Autobrake switch. Opening pilots window. Cabin Lights switch. Realistic FMC. Custom sounds included for that extra realism. VC added and aircraft. This computer generally includes the same type of components as described above with respect to component 1 , but may include additional components to facilitate rapid multi-user access via the Internet or other networks, may comprise multiple servers, etc.

Embodiments of the present invention may be implemented in conjunction with any knowledge sharing repository having the key capabilities described above or, in some embodiments, a subset thereof , and do not generally depend on a particular implementation of a wiki, blog, social network, or other knowledge sharing repository.

As noted previously, to the extent that some of the above-described capabilities are missing, some components may become harder to implement or require more manual work, primarily in the form of copying and pasting by the user to make up for what cannot be automated. Such a lack may reduce some of the benefits provided by various embodiments of the present invention without entirely eliminating its usefulness. Component 3 —A communications and data transport infrastructure, such as infrastructure , connecting the semantic network editing tool and the knowledge sharing repository, and supporting HTTP, HTTPS, PKI, or other communications protocols, either secure or open, that allow for the exchange of data between the two tools and for each tool to initiate actions within the other and to maintain secure connections and establish encrypted or network-based user identification to provide element-level access control and other security measures.

This infrastructure may include wired or wireless networks, cellular networks, landlines, or other network infrastructure. These can be implemented inside either tool or externally as appropriate for a particular use. A preferred embodiment of this component is in an environment in which the network editing tool is the primary workspace for the user, and the user interface is a collection of small plug-in UI tools or widgets embedded in the network editing tool's user interface at the places where a user can most conveniently invoke them when desired, sometimes from the main menu bar, and sometimes from a contextual menu.

In an embodiment which more tightly couples an entire semantic network with a knowledge sharing repository so that all changes to either are immediately transferred to the other, most of this UI would not be needed. In an embodiment where a network editing tool is still the user's primary environment but does not permit the addition of new UI elements, an external UI would typically be the best implementation.

In an environment where the knowledge sharing repository is the primary workspace of the user, adding the UI to the repository's UI would be an alternative preferred embodiment. In each case, the desired actions provided by the components of the present invention described below would be the same and all that would typically change would be the place and manner in which a user would invoke them. A Semantic Network—This will typically be one or more semantic networks being edited with a semantic network editing tool.

In typical embodiments, the present invention does not require that element types or relation types be allowed to be entities to provide the primary benefit. However, if they are, then the Infobox for a knowledge sharing repository template can also be modified through the invention. This is a combination of: 1 single entity that is the focus and corresponds to a target page in the knowledge sharing repository, 2 the collection of all the triplets that have the focus entity on either end of the triplet, and 3 other entities such as properties, annotations, attachments, knowledge objects and the like.

Any implementation of a semantic network would typically support a simple query into the semantic network persistence mechanism requesting this collection of triplets and other associated entities and pieces of knowledge. Entity Type—An entity type for the targeted entity and triplets and associated entities in the template for said entity type.

Any implementation of a semantic network that supports entity types will typically support a simple query into the semantic network persistence mechanism requesting the entity type associated with an entity. Accessing the triplets in the template for an entity type is also a simple query into the semantic network persistence mechanism. One or more aggregates of entity centered knowledge sharing repository pages being edited or accessed via the repository pages being edited or accessed via the repository interfaces.

A preferred embodiment of a non-secure implementation of this component is Wikipedia, or any other knowledge sharing repository implemented using its underlying MediaWiki software, which exposes a collection of web pages providing HTTP access through a standard URL structure.

An Infobox or other semi-structured component for said targeted entity. One or more entity type pages for the focused entity page and its various sub-components as described above. Various aspects of the present invention may be implemented in the form of one or more modules comprising software, hardware, or hardware and software combinations.

This may be done in a variety of embodiments that include various functionality associated with one or more of these modules as is further described below. In particular, the modules described below are configured generally to support various aspects of the following:.

For example, computer system 1 may be configured to automatically update information based on any changes in the semantic network, periodically, or by other methods of automation. Alternately, computer 1 may be configured to allow a user to initiate transferring data and updating the knowledge sharing repository based on user input.

This may also be done automatically or manually by a user. In addition, in some embodiments, the techniques described herein may also be used to create a new knowledge sharing repository from data contained in a semantic network or vice-versa.

The various embodiments shown below may be used to facilitate connection and transfer of data between a semantic network and a knowledge sharing repository. In various embodiments, one or more of these various modules shown as specific modules - in FIG.

Although modules - are shown for purposes of explanation, it is noted that equivalent or similar functionality may be provided by other implementations, and therefore the invention is not limited to the specific module examples shown. Additional details of these exemplary modules and their associated functionality is provided below. Module 1 Entity Access Module. In a preferred embodiment, the Entity Access Module inserts the name of the entity into the URL or other access protocol or mechanism to access a single page of the knowledge sharing repository for example, to access a single Wikipedia web page, such as the web page for the entity Winchester Rifle as shown in FIG.

For example, to access this web page, the entity insertion module would generate a URL as follows:. A simpler but less general implementation of this module can be used with knowledge sharing repositories that provide an Application Program Interface API that includes a system call for retrieving a particular entity's page by name.

Module 2 String Search Module. In a preferred embodiment, the String Search Module uses a known or provided knowledge sharing repository search mechanism assuming one exists through arguments on the home page URL of the knowledge sharing repository to search for a relevant page, load the result page, and parse it to provide the user with a choice of a page or pages to navigate to. For example, in Wikipedia, this module would generate the URL:.

A simpler but less general implementation of this module can be used with knowledge sharing repositories that provide an API that includes a system call for searching the knowledge sharing repository for a particular string.

In a preferred embodiment, the Template Infobox Content Retrieval Module inserts the name of the entity into the URL or other access protocol for accessing a Template Infobox for the desired page of the knowledge sharing repository, and uses the HTTP protocol or other secure or non-secure network communications mechanism to load the page.

It then extracts the contents of the Template Infobox. A simpler but less general implementation of this module can be used with knowledge sharing repositories that provide an API that includes a system call for retrieving the contents of the knowledge sharing repository Template Infobox for a particular entity's page.

In this example, the information defines various properties or attribute values that a user might want to gather to describe an airplane. Module 4 Template Infobox Setting Module.

In a preferred embodiment, the Template Infobox Setting Module inserts the name of the entity into the URL or other access protocol for accessing a Template Infobox for the desired page of the knowledge sharing repository, and uses the HTTP protocol or other secure or non-secure network communications mechanism to upload a new version of the page with the new Template Infobox included in it.

A simpler but less general implementation of this module can be used with knowledge sharing repositories that provide an API that includes a system call for setting the contents of the knowledge sharing repository Template Infobox for a particular entity's page.

Module 5 Infobox Content Retrieval Module. In a preferred embodiment, the Infobox Content Retrieval Module inserts the name of the entity into the URL or other access protocol for accessing an Infobox for the desired page of the knowledge sharing repository, and uses the HTTP protocol or other secure or non-secure network communications mechanism to load the page.

It then extracts the contents of the Infobox. A simpler but less general implementation of this module can be used with knowledge sharing repositories providing an API that includes a system call for retrieving the contents of the knowledge sharing repository Infobox for a particular entity's page.

Module 6 Infobox Setting Module. In a preferred embodiment, the Infobox Setting Module inserts the name of the entity into the URL or other access protocol for accessing an Infobox for the desired page of the knowledge sharing repository, and uses the HTTP protocol or other network secure or non-secure communications mechanism to upload a new version of the page with the new Infobox in it.

A simpler but less general implementation of this module can be used with knowledge sharing repositories that provide an API that includes a system call for setting the contents of the knowledge sharing repository Infobox for a particular entity's page. Module 7 Infobox to Triplets Translation Module. It is noted that, while this module is described with respect to a Semantica data structure, in some embodiments it may also be used in conjunction with other semantic networks having a similar or equivalent structure.

In a preferred embodiment, this module converts a knowledge structure template into a new Template Infobox for a knowledge sharing repository entity that does not have one, or that needs updating or enhancing. In an exemplary embodiment, the module may be implemented using process as shown in FIG.

Module 10 Filled Infobox Conversion Module. In an exemplary embodiment, this module may be implemented by process as shown in FIG. Module 11 Text Summary Generation Module. This module may be implemented in a variety of ways to generate different kinds of usable text summaries, depending on the desired use of the text. Two specific implementations that have been shown to be useful are described below it is noted, however, that the implementations described below are for purposes of explanation and not limitation, and therefore other implementations providing the same or equivalent functionality may also be used in various embodiments :.

This module may support content document generation from selected content in a semantic network and insertion of the content into a knowledge sharing repository Infobox for sharing with other users for their use in the network editing tool and other applications such as those referenced elsewhere herein as well as other applications.

These may include, but are not limited to, network-specification documents such as. XML and the like, pictures such as. PNG and the like, tabular formats such as tab-separated text,. XSLX and the like, geospatial representations such as. GMAP and the like, as well as other types of documents and associated knowledge objects such as, for example, pictures as shown in FIG. In a preferred embodiment, the Network Content Document Generation Module may be implemented by process stages as follows:.

In an exemplary embodiment, a Related Data Generation Module may be implemented using the following process stages:. Module 14 Related Entities Translation Module.

In an exemplary embodiment, this module may be implemented using the following process stages:. Module 15 Ontology to Categories Translation Module. Module 16 Categories to Ontology Translation Module. This module may also be configured to generate repository category pages for knowledge structure relation types to store definitions, examples, discussions, and the like of relation types in the repository.

In a preferred embodiment, this module may be implemented using the following process stages:. Module 18 Entity Page Translation Module. In a preferred embodiment this module may be implemented using the following process stages:. Module 19 Tagged Representation Extraction Module. In a preferred embodiment, this module may be implemented using the following stages:. Module 20 Knowledge Structure Insertion Module. Sample data products generated by an embodiment of the present invention are provided below.

It is further noted that, while the processes described and illustrated herein may include particular steps or stages, it is apparent that other processes including fewer, more, or different stages than those described and shown are also within the spirit and scope of the present invention.

Accordingly, as noted previously, the processes and associated modules shown herein are provided for purposes of illustration, not limitation. Embodiments may also take the form of a computer storage product with a computer-readable medium having computer code thereon for performing various computer-implemented operations, such as operations related to functionality as describe herein.

The media and computer code may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well known and available to those having skill in the computer software arts, or they may be a combination of both.

Computer code may be comprised of one or more modules executing a particular process or processes to provide useful results, and the modules may communicate with one another via means known or developed in the art. Other embodiments of the invention may be implemented in hardwired circuitry in place of, or in combination with, machine-executable software instructions. The foregoing description, for purposes of explanation, used specific nomenclature to provide a thorough understanding of the invention.

However, it will be apparent to one skilled in the art that specific details are not required in order to practice the invention. Thus, the foregoing descriptions of specific embodiments of the invention are presented for purposes of illustration and description.

They are not intended to be exhaustive or to limit the invention to the precise forms disclosed; obviously, many modifications and variations are possible in view of the above teachings.

The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications. They thereby enable others skilled in the art to best utilize the invention and various embodiments with various modifications as are suited to the particular use contemplated.

It is intended that the following claims and their equivalents define the scope of the invention. A computer implemented method of sharing information between a semantic network stored in a memory on a first computer system and a knowledge sharing repository, comprising: generating, on the first computer system, a set of data based on information included in the semantic network;.

The method of claim 1 further comprising: communicatively coupling the first computer system to a second computer system on which the knowledge sharing repository is stored; and accessing, from the first computer system, the knowledge sharing repository to generate the additional set of data.

The method of claim 1 wherein said updating the semantic network is automatically initiated in response to a change in the knowledge sharing repository.

A computer implemented method of sharing information between a semantic network stored in a memory on a first computer system and a knowledge sharing ository, comprising: generating, on the first computer system, a set of data based on information included in the semantic network;. The method of claim 1 wherein said updating the semantic network is initiated in response to a user input received at the first computer system.

The method of claim 1 wherein the knowledge sharing repository is disposed to be created or edited by a knowledge sharing repository editing program, and said updating the semantic network is initiated in response to a user input received at a user interface of the knowledge sharing repository editing program. The method of claim 1 wherein the knowledge sharing repository is disposed to be created or edited by a knowledge sharing repository editing program having one or more application programming interfaces APIs , and said updating the semantic network is initiated in response to a user input received at a separate user interface program through said one or more APIs.

A computer implemented method of sharing information between a semantic network stored in a memory of a first computer system and a knowledge sharing repository, comprising: accessing the knowledge sharing repository from the first computer system;. A computer implemented method of sharing information between a semantic network stored in a memory of a first computer system and a knowledge sharing repository, comprising: accessing the knowledge sharing repository system from the first computer system; and.

The method of claim 15 wherein said set of data includes data representing one or more sections of text contained in the page of the knowledge sharing repository. A computer implemented method of sharing information between a semantic network stored in a memory of a first computer system and a knowledge sharing repository, comprising: accessing the knowledge sharing repository from the first computer system; and.

The method of claim 19 wherein the knowledge structure template includes one or more gaps. A computer implemented method of sharing information between a semantic network stored in a memory of a first computer system and a knowledge sharing repository, comprising: retrieving, from the semantic network, a set of data based on information included in the semantic network;.

The method of claim 21 wherein said incorporating comprises updating the page of the knowledge sharing repository associated with the URL based, at least in part, on the set of data. The method of claim 23 wherein said incorporating comprises updating the page of the knowledge sharing repository associated with the URL based, at least in part, on the set of data.

A computer readable medium including processor executable instructions for sharing information between a semantic network and a knowledge sharing repository, including instructions to: generate, on a first computer system, a set of data based on information included in the semantic network;. The computer readable medium of claim 27 further comprising instructions to: initiate a communication link between the first computer system and a second computer system on which the knowledge sharing repository is stored; and.

The computer readable medium of claim 27 further including instructions to automatically update the semantic network in response to a change in the knowledge sharing repository. The computer readable medium of claim 27 further including instructions to update the semantic network in response to a user input received at the first computer system.

A computer readable medium including processor executable instructions for sharing information between a semantic network and a knowledge sharing repository, including instructions to: access the knowledge sharing repository from the first computer system;. The computer readable medium of claim 41 wherein the knowledge structure template includes one or more gaps. A computer readable medium including processor executable instructions for sharing information between a semantic network and a knowledge sharing repository, including instructions to: retrieve from the semantic network, a set of data based on information included in the semantic network;.

A system for sharing information between a semantic network and a knowledge sharing repository, comprising: a processor;. USP true Systems and methods for pairing of a semantic network and a knowledge sharing repository. USB1 en.

System and method for displaying, connecting and analyzing data in an online collaborative webpage. USB2 en. Identification of target audience for content delivery in social networks by quantifying semantic relations and crowdsourcing. Data security and protection system using distributed ledgers to store validated data in a knowledge graph.

USA1 en. System and method for semantic knowledge retrieval, management, capture, sharing, discovery, delivery and presentation. System and method for knowledge retrieval, management, delivery and presentation. Context-aware semantic virtual community for communication, information and knowledge management.

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Lagoze et al. Rajabi et al. Das et al. An ontology-based web service framework for construction supply chain collaboration and management. Richards et al. The Archaeology Data Service and the Archaeotools project: faceted classification and natural language processing. Schaffert et al.

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