KR20150140425A - Computing paths between geographical localities - Google Patents

Abstract

Techniques for calculating paths between geographic locations are generally described. The technique may receive a request for a route between two or more geographic locations and may calculate the route based at least on the degree of awareness of the intermediate geographic location.

Description

{COMPUTING PATHS BETWEEN GEOGRAPHICAL LOCALITIES}

There are various techniques for calculating the path between geographic locations. As an example, BING® MAPS, GOOGLE® MAPS, and MAPQUEST® are online services that receive origin and destination and calculate the route from origin to destination. In three cases, however, the direction is provided in terms of a turn-by-turn direction.

Turn-by-turn directions are appropriate for people who are familiar with reading maps or who live in developed areas where all streets have names. However, in some areas, for example, some developing countries do not have full length names. In addition, many people in these areas do not think of directions in terms of distance, distance, and turn.

A technique for calculating a path between geographic locations is described. The technique may receive a request for a route between two or more geographic locations and may calculate the route based at least on the popularity rating of the intermediate geographic location.

The technology may receive a set of identification for at least four geographic locations, wherein at least one of the geographic locations is generally identifiable by name or location, rather than by the postal address; A set of connections between at least a subset of a set of four or more geographical locations, wherein a connection between any two geographical locations indicates a path between two geographical locations; Identify at least a recognition rating for a first geographic location, wherein the recognition rating for the first geographic location exceeds a recognition rating for the second geographic location; A request may be received to provide a direction from a second geographic location to a third geographic location, wherein the direction is specified by one or more routes, each route being specified as a sequence of connections; It can be determined that there are at least two routes from a second geographic location to a third geographic location, where there is no direct connection between the second and third geographic locations, and the first route includes a first geographic location The fourth route does not include the fourth geographic location, the second route includes the fourth geographic route but not the first geographic location; And because the recognition rating for the first geographic location exceeds the recognition rating for the fourth geographic location, the first route can be identified as the preferred route, from which the first route passes from the second geographic location to the first geographic location Includes connection to a third geographic location.

The foregoing summary is exemplary only and is not intended as limiting in any way. Additional aspects, embodiments, and features will become apparent in addition to the exemplary aspects, embodiments, and features described above, with reference to the following detailed description and drawings.

1A-1C are block diagrams illustrating graphs representing paths through a geographic location.
Figure 2 is a path diagram showing a path through a sequence of geographic locations.
3 is a block diagram illustrating components of the techniques disclosed in various embodiments.
FIG. 4 is a table diagram illustrating the tables that the disclosed technique may utilize in various embodiments. FIG.
5 is a flow chart illustrating a routine for collecting awareness ratings for a plurality of web sites that the disclosed technique is applicable in various embodiments.
6 is a flow diagram illustrating a routine for computing the awareness level for a geographic location based on website content that the disclosed technique is applicable in various embodiments.
7 is a block diagram illustrating components of the techniques disclosed in various embodiments.
8 is a flow diagram illustrating a routine for computing the path from a source to a destination that the disclosed technique is applicable in various embodiments.
9A is a map showing a map of a geographical area.
FIG. 9B is a graph showing a graph of a geographic location corresponding to the geographic area shown in FIG. 9A.
Figure 9c is a map with the graph of Figure 9b superimposed thereon.
10 is a flow diagram illustrating a routine for responding to a request for a route between a source and destination that the disclosed technique is applicable in various embodiments.
11 is a flow diagram illustrating a route for identifying a connection between geographic locations where the disclosed technique may be appropriate for use in a path applicable in various embodiments.
12 is a flow chart illustrating a routine for responding to a request for a route between a plurality of locations that the disclosed technique is applicable in various embodiments.
13 is a block diagram of an exemplary embodiment of a computing device arranged to compute a path between geographic locations according to at least some embodiments of the present disclosure.
14 is a flow chart illustrating a routine for computing the paths that the disclosed technique is applicable in various embodiments.
15 is a block diagram illustrating components of the techniques in various embodiments.

In the following detailed description, reference is made to the accompanying drawings, which form a part of this disclosure. Unless otherwise indicated in the context, similar symbols in the drawings typically denote similar components. The illustrative embodiments set forth in the description, the drawings, and the appended claims are not to be considered limiting. Other embodiments may be utilized or other changes may be made without departing from the scope or spirit of the objects set forth in this disclosure. It will be appreciated that the embodiments of the present disclosure, which are generally described herein and illustrated in the figures, may be arranged, substituted, combined, separated and designed in various different configurations, all of which are expressly contemplated herein.

In some geographical areas, people think of directions in terms of connections between geographical locations and geographical locations. Examples of geographical locations are landmarks, neighborhoods, shops, intersections, religious sites and artifacts. By way of example, when providing directions from a departure point to a destination, people can walk to a nearby nearby store, climb a bus identified by bus number, get off the stadium, walk towards the temple, You can suggest walking towards some big sign recognizing a movie or political rally. Some of these geographical locations may not even have a mailing address. By way of example, a pillar in the middle of a road, a highway crossing on a main street, or a park may not have a mailing address.

A technique for calculating a path between geographic locations ("technology") is described. In various embodiments, the technique calculates a direction using a degree of awareness of a geographic location, and as the geographic location becomes more popular, the route from the origin to the destination when the geographic location is located on the route from the origin to the destination The probability of inclusion is greater. By way of illustration, the technique can select the first route if there are two routes from the origin to the destination, the first route passes the more famous geographic location, and the second route passes the lesser-known geographic location. Famous geographical locations can generally be found more easily by people who are not familiar with the area, for example, because more people know where the geographical place is and how it is going. Therefore, a traveler may be able to find the route more easily, for example, as he asks directions to others.

The degree of awareness of a particular geographic location can be calculated using various means. By way of example, a recognition rating can be calculated by periodically scanning an informational source, such as an Internet web site, a social networking website, a news source, or the like. Whenever a particular geographic location is found in an informational source, its level of awareness can be increased. By "crowd-sourcing" the level of awareness of geographical locations, technology can adapt to changing perceptions or knowledge of geographical locations. By computing and using a recognition rating, the technique can provide the user with the appropriate direction. By way of example, directions may include a famous movie theater or a political venue for one month, for the same origin and destination, but may include a new neighborhood department store in another month.

In various embodiments, the technique may take into account the desirability of passing a particular connection between geographic locations. Connections can be associated with their importance matrix (or "weight"). By way of example, a highway having a plurality of modes of traffic (e.g., a plurality of bus routes with short interval buses) may be preferable (e.g., more "important" or "weighted" ). On the other hand, shortcuts that are shortcuts that substantially reduce the time between two geographical places compared to moving the roads may be preferable to roads.

In various embodiments, the technique may receive a list of origins and a plurality of destinations, and may generate a route that includes all of the destinations. By way of example, a user may want to visit a grocery store, a doctor, and a pharmacy. The technology can identify famous nearby grocery stores, doctors and pharmacies and / or calculate the route through the famous geographical area. Recognition for various destinations can be calculated in a similar manner as described above for geographic locations. The calculated path may be to minimize travel time or distance. The origin may also be the final destination.

In various embodiments, the technique may enable personalization of the path. By way of example, the description may enable a user to provide a set of known geographic locations. The user can know the location of a particular department store, landmark, road, and the like, and can be familiar with various routes to such a location. When computing a path between a source and a destination, the technique can scan a set of known geographic locations and attempt to use them in the path, for example, if the connection exists through a known geographic location. If such a place takes the traveler to a very high route or significantly increases the travel time (for example, by more than 25%), the technology can ignore the known geographical location.

The technique will now be described with reference to the drawings. 1A-1C are block diagrams each showing graphs 100, 150, and 180, each showing one or more paths through a geographic location. Figure 1A shows a graph 100. The graph 100 includes five geographic locations: A 102, B 104, C 106, D 108 and E 110. Larger sizes are shown in geographical places in varying sizes, indicating higher recognition ratings. Thus, for example, geographic location B 104, which is larger than geographic location C 106, has a higher recognition rating than geographic location C 106. The graph 100 includes connections between geographic locations, connections 112 between geographic locations A 102 and C 106; A connection 114 between geographic locations A 102 and B 104; A connection 116 between geographic locations B 104 and C 106; A connection 118 between geographic locations B 104 and D 108; A connection 120 between geographic locations B 104 and E 110; A connection 122 between geographic locations D 108 and E 110; And a connection 124 between geographical locations C 106 and D 108. For example, some connections may be more desirable or "important" than others, as there may be multiple modes of traffic, short intervals of public transportation, The more important connections can be illustrated by using thicker wires than less important connections shown by using thinner wires. By way of example, connections 112 and 118 may be more important than other connections, as shown by the thicker corresponding lines.

Figure IB shows a graph 150 with a path from geographic location A 102 to geographic location D 108 via geographic location B 104. The selected connection is a connection 152 and 154. The technology has selected connections 152 and 154 (corresponding to connections 114 and 118 in Figure 1A respectively) due to the higher recognition rating of geographic location B 104 compared to geographic location C 106. [

Figure 1C, on the other hand, shows a graph 180 with a path from geographic location A 102 to geographic location D 108 via geographic location C 106. The selected connection is connection 182 and 184. The technique is selected connections 182 and 184 (which correspond to connections 112 and 124, respectively, in FIG. 1A) since connection 112 is more important (or preferable) than connection 114. In some embodiments, the techniques may use a variety of heuristics to determine whether additional weights are to be applied to the degree of awareness of the geographical location or the importance rating of the connection. By way of example, if the distance is long, it may be that the importance of the connection is higher, even if it means passing through a lesser-known geographical area, because travelers usually want to spend less time traveling. Thus, for example, the technique may select connections 182 and 184 because the distance between geographic location A 102 and both B 104 and C 106 is long.

Figure 2 is a path diagram illustrating a path 200 through a sequence of geographic locations. A path 200 from Richmond Town to the tough club is shown. The route passes through a choice of bus route 335E, Mahatma Gandhi Road ("MG Road"), metro or rail link, cricket stadium and train or taxi ride. The illustrated route indicates when the next train is scheduled to arrive. In various embodiments, the technique may display the route shown on the screen and may deliver a phased geographic location or connection via a text message to a mobile device, such as a mobile phone, . In some embodiments, the technique may provide a "fisheye" to view the path. By way of example, the technique may provide a more granular direction near the origin or destination of the route and a less granular direction near the transient geographic location between the origin and destination of the route. By doing so, the user may be able to more easily find the geographic location associated with the route. By providing a more granular orientation near the origin or destination, the technique makes it easier for the traveler to find the origin or destination. By providing a less granular direction between the origin and the destination, the technique enables the traveler to use the associated geographic location, for example, when asking directions or identifying a public transit stop. The technology can automatically sequence through the identified connections and geographic locations, for example, by monitoring the location of the user. By way of example, a mobile device carried by a user may communicate the location of the user, and one or more of the following geographical locations or connections may be communicated to the user if the user is at or near a connection or geographic location forming the route.

3 is a block diagram illustrating a component 300 of the disclosed technique in various embodiments. The component 300 may include one or more server computing devices, for example, server 1 302a through server m 302m. The server may be communicatively coupled to one or more storage devices, for example, storage devices 304a through 304m. The server may be communicatively coupled to the client computing device, e.g., client computing devices 306a through 306n, over network 310. [ Network 310 may be an intranet, the Internet, or other types of networks. The client computing device may be communicated and coupled to one or more storage devices, e.g., storage devices 308a through 308n. The storage device may be used to store data, executable code, and the like.

The server computing device may store various information related to computing the path between geographic locations. By way of example, a server computing device may store geographic locations, awareness ratings, connections, weight or importance of connections, user preferences, and the like. The server computing device may respond to a client request, for example, a client request arriving via the Internet, a text message (e.g., SMS), or the like.

The client computing device may forward path requests and / or geographic information to the server computing device and may display the path. Examples of client computing devices are personal computers, mobile computers, personal digital assistants, smart phones, and the like.

4 is a table diagram illustrating the tables 400 and 420 that the disclosed technique may utilize in various embodiments. Techniques can be used to store tables of awareness ratings for geographic locations. As shown, the table 400 includes an ID column 402, a geographic location column 404, and a degree of awareness column 406. A table may store a recognition rating for one or more geographic locations. By way of example, row 408, corresponding to geographic location A, stores a recognition rating of 5; The row 410 corresponding to the geographic location B stores a recognition rating of 25; The row 412 corresponding to the geographic location C stores a recognition rating of 10; The row 414 corresponding to the geographic location D stores a recognition rating of 7; And row 416 corresponding to geographic location E stores a rating of 15.

The technology may use the table 420 to store the weights (e.g., importance ratings) corresponding to the connections. As shown, the table 420 includes an ID column 422, a geographic location column 424, a connected location column 426, and a weight column 428. A table can store weights for one or more connections. By way of example, the row 428 corresponding to the connection between geographic locations A and B is not weighted; The row 430 corresponding to the connection between geographic locations A and C has a weight of 15; A row 432 corresponding to a connection between geographic locations B and C has a weight of 2; The row 434 corresponding to the connection between geographic locations B and D has a weight of 15; The row 436 corresponding to the connection between geographic locations B and E has a weight of three.

Figure 4 shows a table with content and organization designed to be more readable by a human reader, but those skilled in the art will recognize that the actual data structure used by the facility to store such information may be configured, e.g., in a different manner; May contain more or less information than is shown; It will be appreciated that it may be different from the table shown in that it can be compressed and / or encrypted, and so on. In various embodiments, the technique may have more tables than shown in FIG.

5 is a flow chart illustrating a routine 500 for collecting recognition ratings for a plurality of web sites that the disclosed technique is applicable in various embodiments. The routine 500 begins at block 502. The routine continues at block 504. At block 504, the routine receives a list of web sites. In various embodiments, the routine may use a known website or a database of the appropriate website. The routine continues at block 506. At block 506, the routine selects the first web site. The routine continues at decision block 508. At decision block 508, if the routine determines that the website has been selected, then the routine begins at block 510. [ Otherwise, the routine returns at block 514. At block 510, the routine applies a subroutine to calculate a recognition rating for the selected web site. These subroutines are described in more detail below with respect to FIG. The routine then continues at block 512, where the next web site is selected. The routine then continues at decision block 508. Thus, a loop of blocks 508, 510, and 512 may be repeated through a plurality of web sites. In various embodiments, the routine may select a subset of the list of websites to process periodically, for example, every night.

Those skilled in the art will appreciate that the logic in each of the flowcharts shown in FIG. 5 and described above and below may be modified in various ways. For example, the order of the logic may be rearranged, the sub-logic may be performed in parallel, the depicted logic may be removed, other logic may be included, and so on.

Figure 6 is a flow chart illustrating a routine 600 for computing a recognition rating for a geographic location based on website content that the disclosed technique is applicable in various embodiments. The routine 600 begins at block 602. The routine continues at block 604.

At block 604, the routine requests and receives website content. In various embodiments, the routine may receive a link to the website content (e.g., a uniform resource locator or "URL") or may receive the downloaded website content in advance. The web site content identified by the link may be downloaded. The routine continues at block 606. [0060]

At block 606, the routine identifies the geographic location contained in the website content. By way of example, the routine may use a list of known geographic locations and retrieve the website content for that geographic location from the list. In some embodiments, the routine may be able to identify a geographic location within the website content based on information in the original text or information contained in the website content. By way of example, the routine may recognize that some text in the website content refers to an address or other location. The routine continues at block 608.

At block 608, the routine selects the first geographic location identified in the website content. The routine continues at decision block 610. At decision block 610, the routine determines if a geographic location has been selected. If a geographic location is selected, the routine continues at block 612. Otherwise, the routine returns at block 616. At block 612, the routine increases the count, which is, for example, a counter for the recognition rating of the identified geographic location. The higher the count, the more likely the geographical location selected is more popular. The routine continues at block 614. At block 614, the block selects the next geographic location. The routine then continues at decision block 610. Therefore, in the loop of blocks 610, 612, and 614, the routine repeats through at least a portion of the geographic location identified in the website content.

In various embodiments, the techniques may use or identify popularized names. By way of example, if a new structure appears in or near a previously known area with a different name, the technique can easily adapt to a new name that is popularly used, even though the map can identify the area by its previous name. Thus, by computing a recognition rating based on the content stored on the website, the technology can provide a route that identifies geographic locations that a traveler may be familiar with.

FIG. 7 is a block diagram illustrating a component 700 of the disclosed technique in various embodiments. The component 700 includes a connection between a location rating evaluator 702, a web site listing 704, a degree of awareness 706, connections and weights 708, a route constructor 710, a geographic location identifier 712, An identifier 714, and a user preference (e.g., a list of geographic locations known to the user) 716.

The awareness rating evaluator component 702 may evaluate the recognition rating for a geographic location. By way of example, the awareness rating evaluator component 702 may implement the routines shown and described above with respect to FIG. The Web site list component 704 may provide a list of Web sites that the technology will evaluate to determine the perception of the geographic location. The recognition rating component 706 may store a recognition rating for one or more geographic locations. The association and weight component 708 may store a weight for one or more of a linked list and a stored association between geographic locations. The weights can indicate the desirability or importance of a particular connection. The path constructor component 710 may generate a path between any two geographic locations. The technology may use the identifier of the geographic location component 712 to identify a geographic location in the downloaded website content. The technique may identify a connection between geographic locations using a connection identifier component 714 between geographic locations. By way of example, component 714 can normally identify a routed connection, but not other connections. The user preference component 716 may, for example, store a user preference, which is a list of geographic locations that the user prefers to pass whenever possible.

FIG. 8 is a flow diagram 800 showing the route for calculating the path from the origin to the destination, which the disclosed technique is applicable in various embodiments. The routine 800 begins at block 802. The routine continues at block 804. At block 804, the routine receives an indication of a source and destination. The origin and destination may be geographical locations. The routine continues at block 806.

At block 806, the routine generates a graph (e.g., a directional graph) based on the connection between the origin and the destination and the intermediate geographic location. The intermediate geographic location is a geographical location with a connection to the origin or destination and / or between each other. Various techniques are known in the art for generating a subset of known locations, e.g., from a database or list of known locations, between any two given locations.

At block 808, the routine computes the sum of the recognition ratings and connection weights for each path from the origin to the destination. In some embodiments, the routine may perform such calculations on a selected subset of paths from a source to a destination. The routine continues at block 810.

At block 810, the routine selects a path having a preferred (e.g., optimal) sum of recognition classes and connection weights. In various embodiments, the routines may provide additional importance or less importance to the calculated sum of awareness ratings or connection weights using various algorithms or heuristics. By way of example, a routine can provide a greater degree of importance to connection weights if the distance between two geographic locations is long.

In various embodiments, the technique may use the Dijkstra algorithm, which is a well-known algorithm in the art to calculate the path between any two points in the graph. In other embodiments, the techniques may use other known algorithms such as the Bellman-Ford algorithm, breadth-first search, depth-first search, Euclidean shortest path algorithm Euclidean shortest path algorithm, Floyd-Warshall algorithm, and the like.

The route continues at block 812, where the route returns to the selected route.

9A is a map showing a map of a geographical area. Maps include a variety of roads and geographical locations. Examples of geographical locations shown on the map are Richmond Town, Lundford Gardens, Gandhi Nagar, and Bangalore Turf Club. In the following example, a traveler wants to travel from Richmond Town (the starting point is marked "A" in the bubble) to the Bangalore Turf Club (the destination is marked "B" in the bubble).

FIG. 9B is a graph showing a graph 900 of a geographic location corresponding to the geographic area shown in FIG. 9A. The graph 900 is similar to the graphs of Figures la-1c in that the connections between geographic locations and geographic locations are shown, with the size of the geographic location corresponding to the degree of awareness of the geographic location. The dashed line represents a stadium derived from Richmond Town to Bangalore Turf Club, Mahatma Gandhi Road ("MG Road" on the map of FIG. 9A) and website content on or near the Pynas Swami ground on the map, The name Chinna Swami Cricket Stadium shows the route the craft has identified to allow the traveler to travel.

Figure 9c is a map with the graph of Figure 9b superimposed on itself. The superimposed image may be rendered (e.g., on the screen) so that the user can easily navigate from point to point. In various embodiments, the technique may also render the maps and graphs of Figs. 9A and 9B, e.g., on the screen, so that the user can easily navigate from point to point.

FIG. 10 is a flow diagram illustrating a routine 1000 in response to a request for a path between a source and destination, the disclosed technique being applicable in various embodiments. The routine 1000 begins at block 1002. The routine can receive the source and destination. In some embodiments, the routine may receive a departure location, one or more other geographic locations that the user desires to visit, and a destination. The routine continues at block 1004. At block 1004, the routine identifies a geographic location, for example, by querying a database or list of geographic locations for geographic locations between or near the source and destination. The routine continues at block 1006. At block 1006, the routine identifies the proper connection between the identified locations. By way of example, the routine can identify the proper connection by using the subroutine shown in FIG. 11 and described below with reference to FIG. In another embodiment, the routine may select an appropriate connection using some other method (e.g., based on user preferences), or may use some combination of the two. The routine continues at block 1008. At block 1008, the routine computes a path, for example, from the origin to the destination, and additionally through another geographic location indicated by the user. The routine continues at block 1010. At block 1010, the routine responds to a request for a path, e.g., by displaying a path or returning path information. The routine then continues at block 1012, where the routine returns.

11 is a flow chart illustrating a routine 1100 for identifying a connection between geographic locations where the disclosed technique may be appropriate for use in a path applicable in various embodiments. The routine 1100 begins at block 1102. [ The routine continues at block 1104. At block 1104, the routine receives a linked list between the first geographic location and the second geographic location. The routine continues at block 1106. At block 1106, the routine selects the first connection. The routine continues at decision block 1108. At decision block 1108, if the routine determines that the connection has been selected, the routine continues at block 1112. [ Otherwise, the routine returns at block 1110. At block 1112, if the distance between the first and second geographic locations is less than a certain threshold distance, or if one of the geographic locations is part of a set of geographic locations identified by the user, the first and second geographic locations Identify the place. The routine continues at block 1114. At decision block 1114, the routine determines if there is a road that has fewer than a certain number of turns between the first and second geographic locations. If so, the routine continues at block 1120. Otherwise, the routine continues at decision block 1116. At decision block 1116, the routine determines whether the distance between the first and second geographic locations is less than a certain threshold, and whether the two geographic locations are in the urban area. If so, the routine continues at block 1120. Otherwise, the routine continues at decision block 1118. At decision block 1118, the routine determines whether the two first and second geographic locations are on a common transit link. If so, the routine continues at block 1120. Otherwise, the routine continues at block 1122. At block 1120, the routine adds a connection to the referenced linked list for computation of the path. The routine continues at block 1122. At block 1122, the routine selects the next connection in the linked list. The routine then continues at decision block 1108. Thus, the routine repeats through the connection and identifies a connection that may be appropriate for inclusion in the path (e.g., appropriate for use).

12 is a flow diagram illustrating a routine 1200 for responding to a request for a route between a plurality of locations that the disclosed technique is applicable in various embodiments. The routine 1200 begins at block 1202. [ The routine begins at block 1204. At block 1204, the routine receives the location list. By way of example, the routine may receive the origin, destination, and one or more other geographic locations. By way of example, the routine may receive a store, an office, or other location that the user wishes to visit. The routine continues at block 1206. At block 1206, the routine computes the path (e.g., the "best" path) through the received location list. The technique may use the routines described above for the calculation of the path between any two geographic locations. By way of example, the routine can calculate the best path to minimize the amount of travel or time of travel. The routine continues at block 1210. At block 1210, the routine responds to a request for a path, for example, by returning the computed path. The routine then continues at block 1212, where the routine returns.

13 is a block diagram illustrating an exemplary computing device 1300 arranged to compute a path between geographical locations in accordance with at least some embodiments of the present disclosure. In a very basic configuration 1302, computing device 1300 typically includes one or more processors 1304 and system memory 1306. Memory bus 1308 may be used for communication between processor 1304 and system memory 1306.

Depending on the configuration desired, the processor 1304 may be of any type, including, but not limited to, a microprocessor (uP), a microcontroller (uC), a digital signal processor (DSP) or any combination thereof. Processor 1304 may include one or more levels of caching, processor core 1314 and registers 1316, such as level 1 cache 1310 and level 2 cache 1312. Exemplary processor core 1314 may include an arithmetic logic unit (ALU), a floating point unit (FPU), a digital signal processing core (DSP), or any combination thereof. Exemplary memory controller 1318 may also be used with processor 1304 or, in some implementations, memory controller 1318 may be an internal component of processor 1304. [

Depending on the configuration desired, the system memory 1306 may include volatile memory (such as RAM), non-volatile memory (such as ROM, flash memory, etc.), or any combination thereof, . The system memory 1306 may include an operating system 1320, one or more applications 1322, and program data 1324. The application 1322 may include a path constructor component 1326 arranged to generate a path. Program data 1324 may include geographic location and connection information 1328, which may be useful for generating a route, as described herein. In some embodiments, application 1322 may be arranged to operate with program data 1324, for example, on operating system 1320 to compute a path between geographic locations. This described basic configuration 1302 is shown in Figure 13 by the components inside the dashed line.

The computing device 1300 may have additional features or functionality and additional interfaces to facilitate communication between the basic configuration 1302 and any desired device and interface. For example, the bus / interface controller 1330 may be used to facilitate communication between the basic configuration 1302 via the storage interface bus 1334 and the one or more data storage devices 1332. The data storage device 1332 may be a removable storage device 1336, a non-removable storage device 1338, or a combination thereof. Examples of removable storage devices and non-removable storage devices include, but are not limited to, a magnetic disk device such as a flexible disk drive and a hard disk drive (HDD), an optical disk such as a compact disk (CD) drive or a digital versatile disk Drives, solid state drives (SSDs), and tape drives. Exemplary computer storage media may include volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data. have.

System memory 1306, removable storage 1336, and non-removable storage 1338 are examples of computer storage media. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disk (DVD) or other optical storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, But is not limited to, any other medium that can be used to store the desired information and which can be accessed by computing device 1300. Any such computer storage media may be part of the device 1300.

The computing device 1300 includes an interface bus 1340 for facilitating communication from the various interface devices (e.g., output interface, peripheral interface, and communication interface) through the bus / interface controller 1340 to the base configuration 1302. [ ). ≪ / RTI > Exemplary output device 1342 includes a graphics processing unit 1348 and an audio processing unit 1350 that are configured to communicate with various external devices, such as a display or speakers, via one or more A / V ports 1352 . The exemplary peripheral interface 1344 includes a serial interface controller 1354 or a parallel interface controller 1356 that may be connected to an input device (e.g., a keyboard, a mouse, a pen, A voice input device, a touch input device, etc.) or other peripheral device (e.g., a printer, a scanner, etc.). Exemplary communication device 1346 includes a network controller 1360 that may be arranged to facilitate communication with one or more other computing devices 1362 on a network communication via one or more communication ports 1364. [

The network communication link may be an example of a communication medium. Communication media typically may be embodied by computer readable instructions, data structures, program modules, or other data in a modulated data signal such as a carrier wave or other transport mechanism, and may include any information delivery media. A "modulated data signal" may be a signal having one or more of its characteristics set or changed in such a manner as to encode information in the signal. By way of example, and not limitation, communication media may include wired media such as a wired network or direct-wired connection, and wireless media such as acoustic, radio frequency (RF), microwave, infrared (IR), and other wireless media. The term computer readable media as used herein may include both storage media and communication media.

The computing device 1300 may be any device that includes any of a cellular phone, a personal data assistant (PDA), a personal media player device, a wireless web-watch device, a personal headset device, And may be implemented as part of a portable (or mobile) electronic device of a small-form factor such as a hybrid device. The computing device 1300 may also be implemented as a personal computer that includes both a laptop computer and a computer configuration other than a laptop.

In various embodiments, the technique calculates paths within various types of geographic locations, such as university campuses, corporate campuses, shopping malls, and the like. In such an embodiment, the technique may limit its search for a geographic location to such a geographic location that is contained within the geographic location. By way of example, for a shopping mall, the technology can be searched for a specific store, facility, and the like. For university campuses, technology can be searched for specific university buildings, fountains, or other landmarks. Therefore, the techniques are not limited to cities and towns or geographic locations therein.

14 is a flow chart illustrating a routine for computing the paths that the disclosed technique is applicable in various embodiments. In various embodiments, the techniques implement a method 1400 performed by a computing system having a processor and a memory device, the method comprising: receiving a set of identification of four or more geographic locations, wherein at least one of the geographic locations Is generally identifiable 1404 by a name or an area other than the postal address; Receiving a set of connections between at least a subset of a set of four or more geographic locations, wherein a connection between any two geographic locations indicates a path between two geographic locations (1406); Identifying a recognition rating for at least a first geographic location, wherein the recognition rating for the first geographic location exceeds the recognition rating for the second geographic location (1408); Receiving a request to provide a direction from a second geographic location to a third geographic location, the direction being specified by one or more routes, each route being specified as a sequence of connections (1410); Determining that there are at least two routes from a second geographic location to a third geographic location, wherein there is no direct connection between the second and third geographic locations, wherein the first route is a first geographic location But does not include a fourth geographic location and the second route includes a fourth geographic location but does not include a first geographic location (1412); And recognizing the first route as a preferred route because the recognition rating for the first geographic location exceeds the recognition rating for the fourth geographical location, the first route is a route from the second geographic location to the first geographic location via the first geographic location 3 < / RTI > connection to a geographic location (1414). The routine begins at block 1402 and then continues at block 1404; (1406); (1408); (1410); (1412); (1414); Returning to block 1416.

The method further includes receiving a plurality of sets of connections between the first geographic location and the second geographic location. The method further comprises selecting a first geographic location due to its level of awareness while receiving a plurality of sets of connections between the fourth geographic location and the second geographic location. The method further comprises causing the first path to be rented. The first path may be rendered as a schematic or graph. Rendered vertices of the graph may vary in size based on their relative recognition ratings and / or the rendered edges of the graph may vary in thickness based on their relative importance. The first connection may be more important than the second connection if the first connection has a larger travel volume than the second connection. The rendering may be more specific near the first or fourth geographic location near the second and third geographic locations. The first path may be rendered as a list of geographic locations.

The method may further include rendering the item in the list corresponding to the next geographic location differently than the item in the list corresponding to the different geographic location. The method may further comprise identifying a level of awareness of at least a first geographic location, the step of analyzing the content at least on one or more web sites. The awareness rating may be a function of the number of web pages having content that identifies one or more of the geographic locations. The awareness rating may be a function of the page rank of a web page having content identifying one or more of the geographic locations. Identifying the level of awareness of at least the first geographic location may include analyzing the content at one or more social networking sites. The method may further comprise generating a graph wherein the vertices of the graph represent geographic locations and the edges of the graph represent connections. The method may further comprise generating a response to the received request by using a solution to the computation to solve the direction graph problem. At least one of the connections may be one of railroad, road, bus route or pedestrian walk. The step of receiving the set of connections may include using the connection if he is a relatively straight road. The step of receiving the set of connections may comprise utilizing the connection if the two geographical places are separated by less than approximately 250 meters. The step of receiving the set of connections may comprise utilizing the connection if the two geographical locations on the same transit route are connected. The method may further comprise receiving an automatically detected current location of the user for which the request was received. The awareness rating may be based on the displayed preferences of the user.

In various embodiments, the techniques utilize one or more computer-readable memory devices that store instructions, and the instructions include at least one of a geographical location that is at least one of a location, Receive a set of identifications; Receiving a set of connections between at least a subset of a set of at least four geographic locations, wherein a connection between any two geographic locations indicates a path between two geographic locations; Receiving a recognition rating for at least first and fourth geographic locations, wherein the recognition rating for the first geographic location exceeds the recognition rating for the fourth geographic location; Receive a request to provide directions from a second geographic location to a third geographic location; Determining that there are at least two routes from a second geographic location to a third geographic location, wherein there is no direct connection between the second and third geographic locations, wherein the first route is a first geographic location And the second path includes a fourth geographic location; And recognizing the first route as a preferred route because the recognition rating for the first geographic location exceeds the recognition rating for the fourth geographic location.

15 is a block diagram illustrating the components of the techniques in various embodiments. In various embodiments, the techniques implement a system 1500 comprising a component, wherein the component is configured to receive a set of identifications of at least four geographic locations; A component configured to receive a set of connections between at least a subset of a set of four or more geographic locations, wherein a connection between any two geographic locations indicates a path between two geographic locations (1504); A component configured to identify a recognition rating for at least a first geographic location, wherein the recognition rating for the first geographic location exceeds a recognition rating for the fourth geographic location (1506); A component (1508) configured to receive a request to provide a direction from a second geographic location to a third geographic location; There is no direct connection between the second and third geographic location, wherein the component is configured to determine that there are at least two routes from a second geographic location to a third geographic location, wherein the first route is a first geographic location But does not include a fourth geographic location, the second route includes a fourth geographic location, but not the first geographic location (1510); And a component configured to identify a first route as a preferred route because the recognition rating for the first geographic location exceeds the recognition rating for the second geographic location, wherein the first route includes a first geographic location from the second geographic location And a connection to a third geographic location. The system may further comprise a component configured to receive a fifth identification of the geographic location from the user, and may include the fifth geographic location in a preferred path.

Although the subject is described in a language specific to structural features and / or methodological acts, it will be understood that the subject matter defined in a claimed claim is not necessarily limited to the specific features and acts described above. Rather, the specific features and acts described above are disclosed in the exemplary forms of implementing the claims. Accordingly, the invention is not limited except as by the appended claims.

Claims (36)

As a computing system,
Means for receiving a set of connections between geographical locality, each connection connecting one geographical location to another geographical location, without intermediate geographical locations;
Means for receiving a request to provide a route from a first geographic location to a second geographic location;
Determining a first path from the first geographic location to the second geographic location and a second route from the first geographic location to the second geographic location based at least in part on the received set of connections; Means - said first path comprises a third geographical location but not a fourth geographical location, said second path comprising said fourth geographical location but not said third geographical location; And
Means for identifying a path between the first geographic location and the second geographic location based at least in part on a popularity rating for the third geographic location and a rating rating for the fourth geographic location;
≪ / RTI > The method according to claim 1,
Means for determining, for each of a plurality of geographic locations in the first route, a degree of awareness for the geographic location; And
For each of a plurality of geographic locations in the second path, means for determining a rating level for the geographic location
Gt; further comprising: < / RTI > 3. The method of claim 2,
Wherein the means for identifying a path between the first geographic location and the second geographic location comprises:
Means for determining a first sum of the degree of awareness determined for the plurality of geographic locations in the first path; And
And means for determining a second sum of the degree of awareness determined for the plurality of geographic locations in the second path. The method according to claim 1,
Further comprising means for determining, for each of the plurality of connections, a weight for the connection, wherein the recognition degree for the second geographic location and the degree of awareness for the fourth geographic location are at least partially Wherein identifying the identified path between the first geographic location and the second geographic location based at least in part on at least one of the determined weights. The method according to claim 1,
And means for rendering the identified path. The method according to claim 1,
Wherein the rating level for the third geographic location is based at least in part on an analysis of content at one or more web sites associated with the third geographic location. CLAIMS What is claimed is: 1. A method performed by a computing system having a processor,
Receiving a set of connections between geographic locations, each connection connecting one geographic location to another geographic location;
Receiving a request to provide a route from a first geographic location to a second geographic location;
Determining a first route from the first geographic location to the second geographic location based at least in part on the received set of connections, the first route including a third geographic location, Wherein the set of received connections does not include a connection between the first geographic location and the second geographic location;
Determining a second route from the first geographic location to the second geographic location based at least in part on the received set of connections, wherein the second route includes the fourth geographic location, Place does not include -; And
Identifying, by the processor, a path between the first geographic location and the second geographic location based at least in part on a degree of awareness of the third geographic location and a degree of awareness of the fourth geographic location,
≪ / RTI > 8. The method of claim 7,
Determining, for each of the plurality of geographic locations within the first path, a degree of awareness for the geographic location; And
Determining, for each of the plurality of geographic locations in the second path, a degree of awareness for the geographic location
≪ / RTI > 9. The method of claim 8,
Wherein identifying the identified path between the first geographic location and the second geographic location comprises:
Determining a first sum of the degree of awareness determined for the plurality of geographic locations in the first path;
Determining a second sum of the awareness ratings determined for the plurality of geographic locations in the second path; And
Comparing the first sum to the second sum
≪ / RTI > 10. The method of claim 9,
Wherein the first connection associated with the first path has a first weight, the second connection associated with the second path has a second weight and the first sum is based at least in part on the first weight, Wherein the sum is based at least in part on the second weight. 9. The method of claim 8,
Further comprising, for each of the plurality of connections, determining at least one weight for the connection. 12. The method of claim 11,
Wherein the determined at least one weight for the first connection is based at least in part on a travel volume associated with the first connection. A computer-readable storage medium for storing content, wherein the content, when executed by a computing system, causes the computing system to:
Receiving a set of connections between geographical locations, each connection connecting one geographical location to another geographical location without intermediate geographical locations along the connection;
Receiving a request to provide a route from a first geographic location to a second geographic location;
Determining a plurality of routes from the first geographic location to the second geographic location based at least in part on a set of received connections, the first route including a third geographic location, but the fourth geographic location including Said second path including said fourth geographic location but not said third geographic location;
Identifying, by the processor, a path between the first geographic location and the second geographic location based at least in part on a degree of awareness for the second geographic location and a rating for the fourth geographic location,
The computer program product comprising: a computer readable medium; 14. The method of claim 13,
The method comprises:
Determining, for each of the plurality of geographic locations in the first path, a degree of awareness for the geographic location; And
Determining, for each of the plurality of geographic locations in the second path, a degree of awareness of the geographic location
The computer program product comprising: a computer readable medium; 15. The method of claim 14,
Wherein identifying the path between the first geographic location and the second geographic location comprises:
Determining a first sum of the degree of awareness determined for the plurality of geographic paths in the first path;
Determining a second sum of the degree of awareness determined for the plurality of geographic paths in the second path; And
Comparing the first sum to the second sum
Readable storage medium. 14. The method of claim 13,
The method comprises:
Further comprising determining, for each of a plurality of the connections, a weight for the connection, and determining, based at least in part on the recognition rating for the third geographic location and the recognition rating for the fourth geographic location Wherein identifying the identified path between the first geographic location and the second geographic location is based at least in part on at least one of the determined weights. 14. The method of claim 13,
Wherein at least one of the connections is associated with one of a railroad, a road, a bus route, or a pedestrian walk. 14. The method of claim 13,
The method comprises:
And rendering at least one of the plurality of paths. 19. The method of claim 18,
The method comprises:
And receiving a current location of the user associated with the received request. 20. The method of claim 19,
The method comprises:
And rendering an indication of the received current position of the user. A computer-readable memory for storing content, the computer-readable memory having, when executed by a computing system having a processor,
Receiving an indication of a first geographical location, a second geographical location, a third geographical location and a fourth geographical location;
Determining a first route between the first geographic location and the second geographic location, the first route including the third geographic location but not the fourth geographic location;
Determining a second route between the first geographic location and the second geographic location, the second route not including the fourth geographic location but not the third geographic location; And
Selecting one of the determined paths between the first geographic location and the second geographic location based at least in part on a degree of awareness for the third geographic location and a geographic rank for the fourth geographic location, Step
The method comprising the steps of: 22. The method of claim 21,
The method comprises:
For at least one of the plurality of web sites,
Sending a request for content of the at least one website to the at least one website,
Receiving content of the at least one website from the at least one website,
Determining a geographic location identified in the received content of the at least one website, and
Adjusting, for at least one determined geographic location, a degree of awareness of the geographic location
Readable medium having computer-readable instructions thereon. 23. The method of claim 22,
Wherein determining the identified geographic location in the received content of the at least one website comprises:
Identifying a geographic location in the received content of the at least one web site based on text or semantic information contained in the received content of the at least one web site. 23. The method of claim 22,
Wherein adjusting the degree of awareness of the geographic location comprises incrementing a counter associated with the geographic location. 22. The method of claim 21,
The method comprises:
Identifying a first set of connections in the first path;
Identifying a second set of connections in the second path;
Determining a first connection weight for at least one connection of the first set of connections; And
Further comprising determining a second connection weight for at least one connection of the second set of connections,
Wherein the selecting is based at least in part on a comparison of the first connection weight to the second connection weight. CLAIMS What is claimed is: 1. A method performed by a computing system having a processor,
Sending, for at least one of the plurality of web sites, a request for the content of the at least one web site to the at least one web site;
Receiving content of the at least one website from the at least one website;
Determining, by the processor, a geographic location identified in the received content of the at least one website; And
Adjusting, for at least one determined geographic location, a degree of awareness of the geographic location
≪ / RTI > 27. The method of claim 26,
Further comprising receiving a list of known geographic locations,
Wherein determining the identified geographic location in the received content of the at least one website comprises:
And retrieving the received content of the at least one website for a geographical location from a list of the known geographical locations. 27. The method of claim 26,
Wherein determining the identified geographic location in the received content of the at least one website comprises:
Identifying a geographic location in the received content of the at least one website based on textual information contained in the received content of the at least one web site. 29. The method of claim 28,
Wherein determining the identified geographic location in the received content of the at least one website comprises:
Further comprising identifying a geographic location in the received content of the at least one website based on semantic information contained in the received content of the at least one website. 27. The method of claim 26,
Wherein adjusting the degree of awareness of the geographic location comprises increasing a counter associated with the geographic location. 27. The method of claim 26,
Further comprising determining a path between the first geographic location and the second geographic location based at least in part on a degree of awareness of the geographic location between the first geographic location and the second geographic location. 26. The method of claim 26,
Wherein determining the geographic location identified in the received content of the at least one web site comprises identifying the name or address of the geographic location identified in the received content of the at least one web site , Way. A component configured to receive an indication of a first geographic location, a second geographic location, a third geographic location, and a fourth geographic location;
A component configured to determine a level of awareness of the third geographic location;
A component configured to determine a level of awareness of the fourth geographic location; And
A component configured to determine a path between the first geographic location and the second geographic location based at least in part on the awareness rating determined for the third geographic location and the rating rating determined for the fourth geographic location,
≪ / RTI > 34. The method of claim 33,
Determining a path between the first geographic location and the second geographic location,
In response to determining that the degree of awareness for the third geographic location is greater than the degree of awareness for the fourth geographic location, the first geographic location includes the third geographic location, but not the fourth geographic location Determining a path between the location and the second geographic location;
In response to determining that the degree of awareness for the third geographic location is less than the degree of awareness for the fourth geographic location, the first geographic location includes the first geographic location but does not include the third geographic location. Determining a path between the geographic location and the second geographic location; And
In response to determining that the level of awareness of the third geographic location is the same as the level of awareness of the fourth geographic location, the third geographic location or the first geographic location, including at least one of the fourth geographic locations, Determining a path between the location and the second geographic location
Further comprising: 34. The method of claim 33,
A component configured to send a request for content of the website to at least one website;
A component configured to receive content of the at least one website from the at least one website;
A component configured to determine a geographic location identified in the received content of the at least one website;
And for at least one of the determined geographical locations, adjusting a degree of awareness of the geographic location
Lt; / RTI > 36. The method of claim 35,
Wherein adjusting the degree of awareness of the geographic location comprises increasing a counter associated with the geographic location.

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