DE102011015216A1 - End device for visualizing address points on digital geographical cards, has display unit for representing digital geographical card and for visualizing address points and data memory - Google Patents

Abstract

The end device (1) has a display unit (3) for representing a digital geographical card (2) and for visualizing the address points and a data memory (4), in which one or multiple address points are stored with assigned geo-coordinates and one or multiple assigned additional information. A data communication unit (5) is provided for transmission of a suitable card request (KA) to a card data provider (6) and for transmitting digital geographical card on the data memory of the end device. An independent claim is also included for a method for visualizing address points on digital geographical cards.

Description

Field of the invention

The invention relates to a terminal device which enables a visualization of address points on illustrated digital maps and a corresponding method for the operation of the terminal.

Background of the invention

Many terminals, such as mobile devices, can display digital geographic maps in a display window. The visualization of certain points that may be of interest to the user is desirable for easier orientation on the map and is already being offered by various providers in the market.

For example, Microsoft offers digital geographic maps via the so-called Bing-REST service. The remainder service makes it possible to display so-called PushPins (PP) as a visualization of specific addresses or geo-coordinates on the geographical maps. However, the PushPins are supplied with the cards by the REST service, so that individual selection and individual addition of PushPins outside of the offered PushPins are not possible. In addition, the number of PushPins is limited to a maximum of 14 displayed PushPins. In addition to these PushPins, no background information can be obtained by clicking on the PushPins. For the use of the REST service, a working data connection to the REST servicing service is also necessary.

As an alternative to Microsoft's Bing REST service, digital geographic maps can also be accessed through the popular Google Maps application. Here as well, so-called PushPins (PP) can be displayed as a visualization of specific addresses or geo-coordinates on the geographical maps. In this case, however, map representations are generated and displayed only with the help of search queries that already contain the PushPins. The PushPins are already integrated here by Google in the requested maps. These PushPins can be clicked to display additional information, after which a corresponding display window opens with the additional information associated with the PushPin. The number of displayed PushPins is also limited. When integrating self-made graphics, the number of own PushPins is limited to 5 per map section. Furthermore, all additional information about the PushPins, such as address or customer-specific sales data, must be deposited with Google as additional information about the PushPins. If the Google service is not available, neither the map nor the additional information on the PushPin can be used. If the user selects a PushPin with an existing data connection to Google, the device must establish a connection to the Google servers and query the additional information stored there. This means that a separate communication point must be set up for each PushPin. Furthermore, a click on a PushPin does not charge the terminal which PushPin is hit, but runs this calculation based on the map and mouse position on the Google servers.

Summary of the invention

It is therefore an object of the invention to provide a terminal and a corresponding method for operating the terminal, with which a visualization of any number of individual address points on a digital map is made possible, wherein the visualization is independent of the provider of the digital maps.

This object is achieved by a terminal for the visualization of address points on digital geographical maps comprising a display means for displaying the digital geographical maps and for visualization of the address points, a data memory in which one or more address points each having associated geocoordinates and one or more associated additional information a data communication means adapted to send a suitable card request to a card data provider and for transmitting at least one transmitted by the map data provider first digital geographical map on the data memory of the terminal, wherein the transmitted digital map comprises an area in which a predetermined by the terminal reference coordinate is included, a processor for determining the distance of the address points to the reference coordinate from the geo-coordinates of the address points stored in the data memory and the Refer enzkoordinate and for selecting the address points that are within a predetermined area around the reference coordinate, designed, and a linking means, the selected address points with at least one of the assigned Additional information linked as symbols and these icons for visualizing the address points on at least the first geographical map at each of the address points associated geo-coordinates represents.

With the terminal according to the invention a visualization of any number of individual address points of the digital cards regardless of the provider of the digital cards is possible because the data to the address points (including geocoordinates and additional information) are stored locally on the terminal and thus no restriction on the number of present address points is present. After transferring (downloading) a digital geographic map to the terminal, the icons may also be displayed in the absence of connection to the map data provider or other data providers. After a change in the reference coordinate, other address points, which are now within the specified area around the new reference coordinate, may also be displayed independently of an existing data connection to the map data provider. If the changed reference data are located on the already transmitted digital geographical map, the visualization of the address points on the digital map can be adapted independently of any existing data connection to the map data provider, depending on the reference coordinate and the specified area around the reference coordinate. Thus, the visualization of the address points can be adapted dynamically to the needs. The graphical representation of the symbols is independent of card data providers and can be adapted or designed in the terminal as desired by the user. The symbols and the additional information can even be used without digital maps and can be displayed on the display means, since all the data required for this is available locally in the data memory. The user of the terminal receives a clear impression of the address points stored in the terminal. The clarity is increased in particular by the fact that only the address points are displayed within the given area around the reference coordinate. On the one hand, the predefined area can be permanently predefined in the data memory or can be calculated by a region determination program to be executed by the processor.

The term "terminal" here refers to all devices that are used by end users and are not part of the system of the map data provider. Terminals may be stationary devices such as connected to a data communication network computer or mobile devices such as via the mobile network to the data communication network connected mobile devices. The data communication network can be, for example, the Internet. The connection can be realized via a suitable data cable or wirelessly via suitable means such as a mobile network or via WLAN. The terminals comprise one or more display means. In this case, these display means may comprise the housing of the terminal or be connected to the terminal via a suitable data line, for example a computer screen (or monitor) connected to a PC. The display means can vary greatly in size, for example, from a conventional display screen of a mobile device to a large-scale computer screen. Moibile Endgerate preferably have small display means in the range of a few inches for the screen size. In mobile devices, the digital map displayed on the display means comprises 800 × 450 pixels in one embodiment. In other embodiments, other resolutions may be used. To change the map section shown, a zoom factor can be selected by the user of the terminal, with which smaller or larger areas of the digital map can be displayed on the display means. A higher zoom factor stands for the display of a spatially smaller area, accordingly a small zoom factor stands for the display of a spatially larger area. For example, the zoom factor may be between 1 and 14. This small or large area is preferably displayed in each case with the same resolution of 800 × 450 pixels.

The data memory for storing the address points, the associated geocoordinates and the additional information may be a commercially suitable memory. The person skilled in the art can select a suitable memory within the scope of the present invention. In one embodiment, the data memory is a memory that can be connected to the terminal and that can be removed again by the terminal, for example a memory stick. In another embodiment, the terminal comprises an interface for connecting a data connection or an external data memory, for example a USB interface. Via this USB interface, for example, data such as address points, associated geo-coordinates and additional information can be loaded from an external data memory into the data memory of the terminal. Depending on the size of the data memory, large map sections can be stored, from which the map sections to be displayed for different reference coordinates are extracted. In mobile terminals with data storage with a usually lower storage capacity, the required digital geographical maps can be reloaded again and again according to demand. After loading a certain amount of geo-phonic maps or a certain amount of data for a geographical map, the data of the no longer required digital maps are overwritten in the data memory.

The processor may be any type of processor capable of performing a determination of the distance of the address points to the reference coordinate from the geo-coordinates of the address points and the reference coordinate stored in the data memory, and a selection of the address points that are within a predetermined range around the reference coordinate, based on the calculated distances. The specified area is a subarea of a map in which the address points are to be visualized. Depending on the magnification level of the map display for the geographical map, the predetermined area may also protrude beyond the representation of the map in the display means, so that not all selected address points may be visualized on the displayed geographical map in the display means. In one embodiment, the processor specifies the area about the reference coordinate, wherein the area is adjusted in relation to the size of a displayed map section of the digital geographic map. The predetermined area is hereby preferably calculated by a region determination program to be executed by the processor. The predetermined area may in this case have any suitable shape, for example a rectangular shape with an extent in the X and Y directions around a reference coordinate, where the calculation of the distance to the reference coordinate comprises a calculation of the distance in the X and Y directions so that it can be checked in both the X and Y directions whether the address point in question is in the given area. In another embodiment, the area around the reference coordinate is a circular area defined by a maximum distance to the reference coordinate with the reference coordinate as the center of the circular area. Here, the radial distance of the address point to the reference coordinate can be determined from the geocoordinates of the address points. After calculating the distance, it can be checked if the address point is within the circular area. This is the case when the calculated distance is less than or equal to the maximum distance.

This selection is preferably stored in the form of a reference coordinate and distance-specific list at selected address points with associated geocoordinates and the additional information in the data memory. This list can be accessed to visualize the address points.

The term "visualization" refers to the highlighted representation of the selected address points on the displayed digital geographic map. Preferably, the symbols used for the visualization are superimposed on the map display, so that the map is displayed in the background to the symbols in the display means. The symbols can hide the area of the map on which they are displayed. Alternatively, the symbols can also be displayed semitransparent. In this form, any interesting details on the geographic map shown may not be completely obscured.

The address points according to the present invention may indicate all kinds of points of interest to a user of the terminal. In one embodiment, the address points represent the addresses of customers of a sales organization. In this case, the address points (addresses of the customers) are designated with respectively assigned geo-coordinates. For example, the geocoordinates are stored in a decimal degree representation for the latitude and longitude. The additional information in this embodiment may include, for example, sales-related data such as type of customer, sales team associated with the customer, customer number, customer address, telephone number or otherwise. Different address points do not necessarily refer to different locations with different geographic coordinates. For example, two different address points may designate two different customers in the same building (for example, on different floors). Thus, these different address points have the same address or the same geo-coordinates, which are determined überlichere by the address or by the relevant building.

The geographic coordinates (or geographic coordinates) of latitude and longitude can be used to describe the location of a point on Earth. The earth is divided into 360 degrees of longitude and 180 degrees of latitude. The degree network of the earth is a thought coordinate system on the earth's surface with perpendicularly intersecting longitude and latitude circles. It is used for geographic location determination, that is, for determining a location that is characterized by geo-coordinates of the location. When determining the exact location, it must be noted that the earth is not a sphere, but rather an ellipsoid. Geographical coordinates have different reference systems depending on the country, whose reference ellipsoids are adapted to the regional gravitational field (geoid). Internationally the World Geodetic System 1984 (WGS84) is mostly used today.

To display a digital geographical map in the display title, such a map must first be loaded into the terminal. For the provision of the map material for transmitting a digital geographical map on the terminal, for example, the so-called Bing REST service from Microsoft be used. To use this service, a data connection to the service is necessary. This data connection is established via the data communication means of the terminal, which is, for example, a mobile radio module or an interface for connection to a data network, for example the Internet. In order to receive a digital georaphic map from a map data provider, a corresponding map request must be sent to this provider. In one embodiment, the card request sent by the terminal comprises at least the size of a map detail and geo-coordinates or an address designating the reference coordinate. Furthermore, this card request may include a desired zoom factor and / or for identifying the terminal, an identification of the request and an authentication key. In order for the address points in the given area to be visualized around the reference coordinate, the location determined by the reference coordinates must be within the requested geographical map. For this to be ensured, the reference coordinate can be designated by a geocoordinate in the map request. The digital geographic map transmitted by map data providers typically has the format of a graphics file, either vector-based or pixel-based, upon such a map request. Alternatively, the map request to designate the reference coordinate may include the address corresponding to the reference coordinate. In this embodiment, in addition to the transmitted digital geographic map, the XML metadata of the map excerpt is loaded into the data store. Thus, in this design of the map request for the selection of the address points to be visualized, a calculation based on geo-coordinates can be performed. The term "geographical map" hereby includes all types of maps with which a position on the map can be determined. Such geographic maps may be, for example, street maps, city maps, aerial photographs of the earth's surface or other corresponding maps. The term "reference coordinate" designates the geo-coordinates of a location in whose environment the address points are to be visualized. The reference coordinate can be, for example, the current location of the terminal. In order for this location to be determinable with the terminal, the terminal can be a module for measuring its position, for example using one of the existing satellite navigation systems. In one embodiment, the terminal comprises a GPS module for determining the position of the terminal. The reference coordinates can alternatively also be selected by means of a cursor on a map displayed in the display means. Here, for example, it is possible to plan in advance which customers could additionally be visited in a given radius around an address.

The symbols shown may have any suitable shape and color. Within the scope of the present invention, the person skilled in the art can adapt the size, shape and color of the symbols of the respective application. For example, the symbols may be implemented as B or as a circle with a B in the case of demand customers at this address point or as P or as a circle with a P in the case of potential customers. In one embodiment, the display means is configured such that the symbols are clickable, wherein the linking means is configured to deposit the symbols with further additional information, which is displayed in an additional window in the display means after being clicked. As a result, the visualization of the address points by the symbols on the illustrated digital geographical map even with a larger number of symbols remains clear and possibly necessary additional information to the individual address points in case of need quickly via the display means callable and visible. The advantage here is the display of a single window for a clicked icon. If instead all windows were open to all symbols at the same time, the geographical map might not be recognizable and could not be used for orientation. The clicking can be done in a known manner, for example by a cursor or in the case of a touch-sensitive display means by tapping the icon with a finger or a pen.

In a further embodiment, the symbols for different address points with the same geocoordinates are designed as a common multipin assigned to a plurality of address points. For example, two different address points may designate two different customers in the same building (for example, on different floors). Thus, these different address points have the same address or geo coordinates, which are usually determined by the address or by the building concerned. For reasons of clarity and operability, the address points should not be displayed here as separate symbols that at least partially overlap each other. The multipin can be distinguished from the other symbols, each of which denotes only a single address point, with a different color (for example red in otherwise green symbols), with a different shape (for example, larger than the other symbols or square rather than otherwise round) or other symbols (for example as "M" for multipin instead of "S" for symbol). Within the scope of the present invention, the person skilled in the art can adapt the design of the multipin to the respective application.

In a further embodiment, the display means and / or the linking means is configured such that by clicking on the multipin a listing of the address points assigned to the multipin is displayed in the additional window, preferably the listing comprises one or more additional information items to the respective address points. In this way, similarly to the symbols for a single address point, the additional information about the respective address points of the multipin can also be called up and viewed here in a clear manner

In a further embodiment, the display means is configured such that one or more operator icons are displayed next to and / or on the displayed geographical map, the actuation of which leads to a changed representation of the geographical map and / or to a changed visualization of the address points. As the operator icons, for example, the zoom levels of the geographical map can be changed (smaller / larger map section) or a Hauptnemü the terminal are called to get to other functionalities of the terminal. This would be in a mobile device as a terminal, for example, all the usual functions of the mobile device such as an operator window for sending an SMS or to select another mobile subscriber, a window for entering data of all kinds, etc. Other operator icons, for example, a compass icon for entering a new reference coordinate via GPS or a control symbol for moving the geographical map in the X and / or Y direction. Within the scope of the present invention, the person skilled in the art may add, change or omit further operator symbols depending on the respective application.

In one embodiment, the display means is configured to display a filter means, with the aid of a selection of certain additional information, the visualization of only a subset of the originally shown address points can be made. A filter means in the context of the present invention, for example, a so-called scroll-down menu in which, for example, all types of additional information available, such as customer number, geocoordinates, customer type, distribution, multipin yes / no, and possibly other additional information is listed and in the a certain type of additional information can be selected, for example by clicking on the desired type of additional information. As a result of the selection with the filter means, only the address points in the display means are visualized via symbols which fall into this category of the type of additional information. For example, only the Adrsspunkte are visualized via the symbols that are associated with a particular customer, for example, potential Kude.

• – Bereitstellen von einem oder mehreren Adresspunkten mit jeweils zugeordneten Geokoordinaten und jeweils einem oder mehreren zugeordneten Zusatzinformationen in einem Datenspeicher in dem Endgerät,
• – Aussendung einer geeigneten Kartenanfrage über ein Datenkommunikationsmittel an einen Kartendatenanbieter und Speichern zumindest einer vom Kartendienstanbieter an das Datenkommunikationsmittel übertragenen ersten digitalen geographischen Karte in dem Datenspeicher des Endgeräts, wobei die erste geographische Karte ein Gebiet umfasst, in dem eine durch das mobile Gerät vorgegebene Referenzkoordinate enthalten ist,
• – Bestimmen der Entfernung der Adresspunkte zu der Referenzkoordinate mit einem Prozessor des Endgeräts aus den gespeicherten Geokoordinaten der Adresspunkte und der Referenzkoordinate,
• – Auswählen der Adresspunkte, die innerhalb eines vorgegebenen Gebiets um die Referenzkoordinate liegen, anhand der bestimmten Entfernung der Adresspunkte zu der Referenzkoordinate durch den Prozessor,
• – Visualisierung der Adresspunkte, die sich innerhalb eines vorgegebenen Gebiets um die Referenzkoordinate befinden, auf der ersten geographischen Karte durch Symbole umfassend mindestens eine der Zusatzinformationen.

The invention further relates to a method for the visualization of address points on digital geographic maps for a terminal according to the present invention comprising the steps of

• Providing one or more address points with respectively assigned geocoordinates and in each case one or more associated additional information in a data memory in the terminal,
• - Sending a suitable card request via a data communication means to a map data provider and storing at least one of the map service provider to the data communication means transmitted first digital geographical map in the data memory of the terminal, wherein the first geographical map includes an area in which a specified by the mobile device reference coordinate is
• Determining the distance of the address points to the reference coordinate with a processor of the terminal from the stored geocoordinates of the address points and the reference coordinate,
• Selecting, by the processor, the address points which lie within a predetermined area around the reference coordinate based on the determined distance of the address points to the reference coordinate;
• - Visualization of the address points that are within a predetermined area around the reference coordinate, on the first geographical map by symbols comprising at least one of the additional information.

• – Vorgeben des Gebiets um die Referenzkoordinate durch den Prozessor, wobei das Gebiet in Relation zu der Größe eines dargestellten Kartenauschnitts der digitalen geographischen Karte angepasst wird.

In an embodiment, the method further comprises the following step:

• Predetermining the area around the reference coordinate by the processor, wherein the area is adjusted in relation to the size of a displayed map section of the digital geographical map.

In another embodiment, the area around the reference coordinate is a circular area defined by a maximum distance to the reference coordinate with the reference coordinate as the center of the circular area, and the method includes the step of selecting the address points by the processor from a calculation of the radial Distance of the address points to the reference coordinate and by checking whether the distance of the address points to be selected is smaller than the maximum distance. For a circular area, the maximum distance to any possible address point is independent of the direction to that point. For example, if a visit from one of the customers to the Address points are planned and the person concerned to be at the reference coordinate, he can easily select a suitable for his time available for visiting customers. Here, the operator (the user of the terminal) may, for example, input a time interval for a travel route into the terminal by means of an input means (keyboard or the like), whereafter the processor has a corresponding maximum distance to the reference coordinates assuming or additionally specifying a means of transport or a travel speed calculated and visualized the Visible customers on the corresponding symbols in the thus calculated and predetermined by the maximum distance area in the display means accordingly. Alternatively, the user can also specify a radius up to 15 km around the reference coordinate.

• – Hinterlegen der Symbole mit weiterer Zusatzinformation durch das Verknüpfungsmittel, und
• – Darstellung der hinterlegten Zusatzinformation in einem zusätzlichen Fenster im Anzeigemittel als Reaktion auf ein Anklicken der Symbole.

In a further embodiment, the method further comprises the following steps:

• - Store the symbols with further additional information by the linking means, and
• - Representation of the deposited additional information in an additional window in the display means in response to a click on the icons.

• – Darstellen der Symbole für verschiedene Adresspunkte, die die gleichen Geokoordinaten besitzen, als einem gemeinsamen Multipin für eine Mehrzahl dem Multipin zugeordneter Adresspunkte, und
• – Anzeigen einer Auflistung der dem Multipin zugeordneten Adresspunkte in dem zusätzlichen Fenster im Anzeigemittel als Reaktion auf ein Anklicken des Multipins im Anzeigemittel, vorzugsweise umfasst die Auflistung eine oder mehrere Zusatzinformationen zu den jeweiligen Adresspunkten.

In a further embodiment, the method further comprises the following steps:

• Representing the symbols for different address points having the same geocoordinates as a common multipin for a plurality of address points associated with the multipin, and
• Displaying a listing of the address points associated with the multipin in the additional window in the display means in response to a click on the multipin in the display means, preferably the listing comprises one or more additional information to the respective address points.

• – Betätigen ein oder mehrere Bedienersysmbole, die im Anzeigemittel neben und/oder auf der geographischen Karte dargestellt sind, zu einer Änderung der Darstellung der geographischen Karte und/oder zu einer geänderten Visualisierung der Adresspunkte,

In a further embodiment, the method further comprises the following steps:

• Pressing one or more operator icons, which are shown in the display means next to and / or on the geographical map, to change the representation of the geographical map and / or to a modified visualization of the address points,

In this case, the method preferably comprises the further step of actuating a filter means in the display means for selecting specific additional information, by means of which the visualization of only a subset of the originally presented address points can be carried out.

Brief description of the illustrations

These and other aspects of the invention are shown in detail in the figures as follows.

1 An embodiment of a terminal according to the present invention

2 FIG. 1 shows an embodiment of a visualization of address points according to the present invention on the display means of a terminal 1 ,

Detailed description of the embodiments

1 shows a terminal 1 according to the present invention for the visualization of address points A1-A5 on digital geographic maps 2 , The terminal 1 includes a display means 3 to represent the digital geographical maps 2 and to visualize the address points A1-A5. The address points A1-A5 are in a data memory 4 stored together with the respectively assigned geo-coordinates G1-G5 and in each case one or more associated additional information Z1-Z5. Preferably, the data comprising address points, geocoordinates and additional information is line by line in the data memory 4 saved. The data store 4 may include a corresponding database for storing the data. The following table shows an example of the data store 4 stored data comprising address points A1-A8, assigned geo-coordinates G1-G6 and associated additional information Z1- address point geocoordinate Further information A1 G1 (KX, KY) Z1 ... Z5 A2 G2 (KX, KY) Z1 ... Z5 A3 G3 (KX, KY) Z1 ... Z5 A4 G3 (KX, KY) Z1 ... Z5 A5 G3 (KX, KY) Z1 ... Z5 A6 G4 (KX, KY) Z1 ... Z5 A7 G5 (KX, KY) Z1 ... Z5 A8 G6 (KX, KY) Z1 ... Z5

In this case, the content of the additional information Z1-Z5 for address point A1 may differ from the additional information Z1-Z5 for as-point point A2. The same can apply to all other address points. The terminal 1 further comprises a data communication means 5 that the map request KA to a map data provider 6 , for example via the Internet as an example of a data communication network 12 , sends out (dashed arrow). The terminal receives accordingly 1 as a transmission U (dashed arrow in the opposite direction) via the Internet 12 from the map data provider 6 at least a first digital geographical map 2 in the data store 4 of the terminal 1 is stored at least until either free space has to be created or until the card 2 is no longer needed. The transmitted digital map 2 covers an area 21 in which the through the terminal 1 predetermined reference coordinate R is included. For this to be the case, the card request KA is designed accordingly as described above. The terminal 1 In this embodiment additionally has a satellite navigation module 10 for determining the position of the location at which the terminal 1 currently located. In this way, for example, a reference coordinate R can be set, which in one embodiment is the geocoordinate of the current location of the terminal 1 according to the satellite navigation module 12 accordingly. Alternatively, data of all kinds, including the reference coordinate, additional information or other data via an input means 9 be entered into the terminal. This input device 9 For example, it may be implemented as a keyboard or as a data interface. The terminal 1 further includes a processor 7 for determining the distance of the address points A1-A5 to the reference coordinate R from that in the data memory 4 stored geocoordinates G1-G5 of the address points A1 and the reference coordinate R and the selection of the address points A1-A5, within a given area 21 are around the reference coordinate R, is configured. In another embodiment, the area around the reference coordinate is a circular area defined by a maximum distance to the reference coordinate R with the reference coordinate as the center of the circular area. Here, the radial distance of the address point to the reference coordinate can be determined from the geocoordinates of the address points. After calculating the distance, it can be checked if the address point is within the circular area. This is the case when the calculated distance is less than or equal to the maximum distance. In the following, such a distance calculation and the criteria and procedure for selecting the address points to be displayed are shown as an exemplary example:
The selection of address points in a designated area 21 can be made, for example, by the following calculation steps. The calculation consists of several components. The first component is calculated based on the map detail and the reference coordinate R of the designated area 21 in which the address points are to be visualized. The reference coordinate can either be from the database in the data store 4 by entering an address with the input means 9 determined by the built-in GPS module 10 be determined. In an embodiment with a circular intended area 21 can calculate the perimeter "perimeter" for the intended area 21 Simplified by the Pythagorean theorem, since the curvature of the earth does not play a significant role. All further calculations are given here for the example of a circular area 21 specified. The reference coordinate R is also referred to as (coord) in the following for the calculation steps: Circle (Coord) = √ (800 × S) ² + (450 × S) ²

The scaling (S) for adapting the area in relation to the size of the map section shown is calculated using the reference coordinate R (coord), the circumference E with E = 156543.40 and the set zoom factor ZF with ZF = {1 ... 14} , From the variables the following formula results for the calculation of S:

For each address point, which for example designates a customer K from a list of customers, it must now be checked whether the address point to the customer K is within the range of the reference coordinate Coord (= Reference coordinate R) with coord = {KoX, KoY}. For this, KX and KY are the X and Y coordinates of the geocoordinate G1 of the customer K with address point A1. The distance Erg (K) of the address point A1 for the customer K to the location of the reference coordinate R (Coord) is obtained as follows: Erg (K) = (acos ((sina · sinb) + (cosa · cosb · cosc)) · 6378,137)

In this case, the quantities sina, sinb, cosa, cosb, cosc are obtained from the X and Y coordinates of the geocoordinate and the reference coordinate R (coordinate) as follows:

After calculating the distance Erg (K) between the address point for the customer K and the reference coordinate, the address points must be selected within the intended area 21 lie, so that they are then visualized in the display means by the symbols S1-S3. The selection of the address points is done according to the following criterion:

All address points with f (K) = 1 are visualized by symbols S1-S3 in the display means.

The above calculations are from the processor 7 performed, the data and parameters necessary for the calculation are in the data memory 4 are stored or stored there for subsequent calculation steps. The person skilled in the art is able, within the scope of the present invention, for other geometries of the intended area 21 Modify the above calculation accordingly, so that a corresponding calculation for a designated area 12 can be performed with a different geometry.

The address points to be visualized or visualized are stored in the data memory in one embodiment 4 stored with the associated data such as geographic coordinates and additional information in the form of a data table. The data table contains the X and Y coordinates of the geocoordinates, customer type B, P or B + P, sales team, multipin indicator M and the recognition ID of each customer. This data table is available in this embodiment only as long as the illustrated geographic map 2 with the associated specific reference coordinate R and the intended area 21 is loaded in the display means (shown). The data table contains only a section (subset) of the customer data. The entirety of the data for all address points lies in the database of the data memory 4 on the terminal 1 , The following is an example of such a temporally available data table in general form: address point geocoordinate Further information A1 G1 (KX, KY) Z1 ... Z5 comprising B A2 G2 (KX, KY) Z1 ... Z5 comprising P A3 G3 (KX, KY) Z1 ... Z5 comprising M A4 G3 (KX, KY) Z1 ... Z5 comprising M A5 G3 (KX, KY) Z1 ... Z5 comprising M

The presentation of Adrsspunkte requires several preconditions. First, the digital geographical map 2 exist as graphics, the different symbols S1-S3 are stored in memory and the data table must be filled at least with a selected address point. In this case, the data table can also be filled with any desired number of selected address points for visualization by means of symbols S1-S3. The limit of the number is limited only by the storage capacity of the data memory.

For the representation of the symbols, these are for example already linked as different symbols with different additional information, for example the customer type B, P and multipin indicator M, stored in the data memory. The processor or the display means ann for displaying the address points on these ready-made symbols for display access. The algorithm for data representation of the symbols on the geographical map 2 is for example:

For each record S in the data table dt do

The calculation of the representation coordinates for the symbols on the digital geographical map 2 in the display means 3 refers to the fact that for each Goekoordinate a corresponding coordinate must be found in the representation. The geo coordinate must be converted into a pixel coordinate. The reference coordinate R (Coord) with the X and Y components {KoX, KoY} from the previous calculations is the center point. The conversion of the Goekoordinaten into pixel coordinates geschiet with the following formula, where in this formula S the respective record in the data table to an address point refers to KX and KY the respective geo-coordinate of that record:

In this case, the quantities sina, sinb, cosa, cosb, cosc are obtained from the X and Y coordinates of the geocoordinate and the reference coordinate R (coordinate) as follows:

For this, KX and KY are the X and Y coordinates of the geocoordinate G1 of the customer K with address point A1.

The linking agent 8th of the terminal 1 combines the selected address points A1-A5 with at least one of the associated additional information, here for example the customer type B, P and M, as symbols S1, S2, S3. Thereafter, these symbols S1, S2, S3 for visualizing the address points A1-A5 on at least the first geographical map 2 represented at the respective the address points A1-A5 associated geo-coordinates G1-G5, as in 2 shown as an example. The linking means, in one embodiment, may also be a program or part of the program for displaying the address points on the display means executed on the processor.

2 shows an embodiment of a visualization of address points on a geographic map 2 with a road network 13 according to the present invention on the display means of a terminal after 1 , The address points, which are visualized in the display means by the symbols S1-S3, constitute a subset of this data in the data memory 4 The symbol S3 for the visualization of different address points with the same geo-coordinates (as a common multipin S3) is assigned to a plurality of address points. For the representation of a multipin, the data table is extended by a further column of additional information. This column contains the identifier of whether the registered address point is an address point having a common geocoordinate with another address point. If this is the case, then the identifier ID for a multipin is entered in the column. The format of the tag ID for a multipin may be suitably selected by those skilled in the art within the scope of the present invention. For example, such a tag ID is "M". In the embodiment shown in FIG 2 are the display means 3 and / or the linking agent 8th configured such that by clicking on the multipin S3 a listing of the multipoint S3 associated address points A3, A4, A5 in the additional window 31 is displayed, preferably the listing comprises one or more additional information Z1-Z5 to the these address points A3, A4, A5.

For example, the address points include a characteristic ID number, the geocoordinates comprising values for the X and Y coordinates in a two-dimensional coordinate system, and the additional information include, for example, indications such as "B" for stock, "P" for the respective customer IDs Potential customer, information about the sales team and, if applicable, the designation "M" for multipin at an address point with geo-coordinates that are the same as the geo-coordinates of another address point. Within the scope of the present invention, the person skilled in the art can also select other additional information, designations or codes for additional information. For example, terms such as "M" for multipin may also be represented by a number code.

In addition, each symbol S1-S3 that visualizes an address point can be displayed in the display means 3 be clicked, for example by the cursor 14 , Thereupon, the additional information Z1-Z5 stored for each symbol is displayed in an additional window 31 in the display means 3 displayed. In one embodiment with a visualization comprising multipins S3, by clicking on the multipin S3, a listing of the address points A3-A5 assigned to the multipin S3 in the additional window is obtained 31 displayed. Preferably, the listing comprises one or more additional information Z1-Z5 to the respective address points A3, A4, A5. For the representation of the symbol S3 as multipin indexed with "M" checked an algorithm executed by the processor 7 whether the column named "Multipin" in the data table is filled. If this is the case, the multipin is displayed instead of the "normal" symbol (S1 or S2). A click on the Multipin S3 generates a representation of the customers deposited there to the respective address points with their names, the customer type and further additional information. In the additional window 31 For example, a table (for example, the relevant part of the data table called multipin) is read in and its content displayed. The presentation in the additional window 31 takes place, for example, via the algorithm:
For each address point K in data table dt do:

Pass temporary field to additional window.

In addition to the symbols S1-S3, additional operator symbols B1, B2, B3 (shown here as gray squares) can also be found on the map 2 which allow the presentation of the map 2 to modify. These operator symbols B1, B2, B3 can be, for example, filter means with which, based on a selection of specific additional information, the visualization of only a subset of the address points originally shown can be carried out. For this purpose, after each filter request, the same algorithm as described above is used to display the symbols S1-S3 for the address points matching the filter request. Filtering options are, for example, (a) display of all existing customers B, (b) display of all potential customers P or (c) display of all inventory and potential customers B + P. An operator symbol, for example executed as (+) or (-), may allow to set the zoom factor. Any change in the zoom factor results in a new calculation for the given area 21 symbol S1-S3 to be displayed, since preferably the area 21 in relation to the size of a displayed map section according to the zooming factor of the digital geographic map 2 is adjusted. In addition to the control of the zoom levels, in another embodiment using a server symbol executed as a compass symbol, a new reference coordinate R via the GPS module 10 be determined. The map is aligned to this coordinate and a new calculation in the processor 7 to select the visualized address points. For example, in one embodiment, one will always be on the card 2 central area centered 21 with the corresponding reference coordinate R used. Furthermore, in one embodiment, it is possible to use the geographic map 2 in all four directions by means of an operator symbol or by means of a cursor 14 to move. Such a card movement ensures that a new calculation in the processor 7 is performed to select the visualized address points. All the embodiments described above may be used individually or in combination with one another in the terminal according to the invention 1 will be realized.

The embodiments shown herein are only examples of the present invention and therefore should not be considered as limiting. Alternative embodiments contemplated by one skilled in the art are equally within the scope of the present invention.

LIST OF REFERENCE NUMBERS

1

terminal

2

illustrated digital geographical map

21

provided prayer in which the address points are visualized

3

display means

31

additional window for displaying additional information

4

data storage

5

Data communication means

6

Mapping data providers

7

processor

8th

linking agent

9

input means

10

Satellite navigation modules, such as a GPS module

11

Satellite Navigation System

12

Data communication network, such as the Internet or mobile network

13

road network

14

Cursor for operating the display means, in particular for clicking on the symbols or operator symbols

A1-A8

address points

A1-A3

Address points within the given area

S1-S3

Symbols for visualization and address points

G1-G6

Geo-coordinates associated with the address points

Z1-Z5

Additional information associated with the address points

B1, B2, B3

operator symbols

R

reference coordinate

KA

card request

U

Transmission of the digital geographical map to the terminal

Claims (16)

A terminal ( 1 ) for visualizing address points (A1-A5) on digital geographic maps ( 2 ) comprising a display means ( 3 ) for displaying digital geographic maps ( 2 ) and for the visualization of the address points (A1-A5), a data memory ( 4 ), in which one or more address points (A1-A5) are stored, each with assigned geo-coordinates (G1-G3) and one or more associated additional information (Z1-Z5), a data communication means ( 5 ) suitable for sending a suitable card request (KA) to a card data provider ( 6 ) and for transmitting (U) at least one of the map data provider ( 6 ) transmitted first digital geographical map ( 2 ) to the data memory ( 4 ) of the terminal ( 1 ), whereby the transmitted digital map ( 2 ) an area ( 21 ), in which one by the terminal ( 1 ) predetermined reference coordinate (R), a processor ( 7 ) for determining the distance of the address points (A1-A8) to the reference coordinate (R) from the in the data memory ( 4 geo coordinates (G1-G6) of the address points (A1-A8) and the reference coordinate (R) and that for the selection of the address points (A1-A5) which are within a predetermined area ( 21 ) are arranged around the reference coordinate (R), and a linking means ( 8th ) which links the selected address points (A1-A5) with at least one of the associated additional information items (B, P, M) as symbols (S1, S2, S3) and these symbols (S1, S2, S3) for visualizing the address points (A1 -A5) on at least the first geographical map ( 2 ) at the respective geo coordinates (G1, G2, G3) assigned to the address points (A1-A5). The terminal ( 1 ) according to claim 1, characterized in that the card request (KA) from the data communication means ( 5 ) of the terminal ( 1 ) to the mapping service provider ( 6 ) comprise at least the size of a map section and geo-coordinates or an address denoting the reference coordinate (R). The terminal ( 1 ) according to claim 2, characterized in that at a digital geographical map transmitted on the basis of an address for designating the reference coordinate (R) ( 2 ) additionally the XML metadata of the map section into the data memory ( 4 ) getting charged. The terminal ( 1 ) according to one of the preceding claims, characterized in that the processor ( 7 ) The area ( 21 ) around the reference coordinate (R), the area ( 21 ) in relation to the size of a displayed map section of the digital geographic map ( 2 ) is adjusted. The terminal ( 1 ) according to one of the preceding claims, characterized in that the display means ( 3 ) is configured so that the symbols (S1, S2, S3) are clickable and the linking means ( 8th ) is configured to deposit the symbols (S1, S2, S3) with further additional information (Z1-Z5), which after clicking in an additional window ( 31 ) in the display means ( 3 ) is shown. The terminal ( 1 ) according to claim 5, characterized in that the symbols (S1, S2, S3) for different address points (A1, A2, A3) with the same geocoordinates as a common multipin (S3) associated with a plurality of address points (A3, A4, A5) are formed. The terminal ( 1 ) according to claim 6, characterized in that the display means ( 3 ) and / or the linking agent ( 8th ) is configured so that by clicking on the multipin (S3) a listing of the multipoint (S3) associated address points (A3, A4, A5) in the additional window ( 31 ) is shown, Preferably, the listing comprises one or more additional pieces of information (Z1-Z5) to the respective address points (A3, A4, A5). The terminal ( 1 ) according to one of the preceding claims, characterized in that the display means ( 3 ) is configured such that one or more operator symbols (B1, B2, B3) are located next to and / or on the displayed geographical map ( 2 ), whose operation results in a modified representation of the geographical map ( 2 ) and / or leads to a changed visualization of the address points (A1-A5). The terminal according to claim 8, characterized in that the display means is configured to display a filter means, with the basis of a selection of certain additional information, the visualization of only a subset of the originally shown address points can be made. The terminal according to one of the preceding claims, characterized in that the area around the reference coordinate is a circular area defined by a maximum distance to the reference coordinate with the reference coordinate as the center of the circular area. A method of visualizing address points on digital geographic maps for a terminal according to claim 1, comprising the steps of Providing one or more address points with respectively assigned geocoordinates and in each case one or more associated additional information in a data memory in the terminal, - Sending a suitable card request via a data communication means to a card data provider and storing at least one of the map service provider to the data communication means transmitted first digital geographical map in the data memory of the terminal, wherein the first geographical map includes an area in which a specified by the mobile device reference coordinate is Determining the distance of the address points to the reference coordinate with a processor of the terminal from the stored geocoordinates of the address points and the reference coordinate, Selecting, by the processor, the address points which lie within a predetermined area around the reference coordinate based on the determined distance of the address points to the reference coordinate; - Visualization of the address points that are within a predetermined area around the reference coordinate, on the first geographical map by symbols comprising at least one of the additional information. The method according to claim 11, characterized, that the method further comprises the following step: Predetermining the area around the reference coordinate by the processor, wherein the area is adjusted in relation to the size of a displayed map section of the digital geographical map. The method of claim 11 or 12, characterized in that the area around the reference coordinate is a circular area defined by a maximum distance to the reference coordinate with the reference coordinate as the center of the circular area, and comprising the steps of selecting the address points by Processor based on a calculation of the radial distance of the address points to the reference coordinate and by checking whether the distance of the selected address points is smaller than the maximum distance. The method according to any one of claims 11 to 13, characterized, that the method further comprises the following steps: - Store the symbols with further additional information by the linking means, and - Representation of the deposited additional information in an additional window in the display means in response to a click on the icons. The terminal according to claim 14, characterized in that the method further comprises the steps of: representing the symbols for different address points having the same geocoordinates as a common multipin for a plurality of address points assigned to the multipin, and Displaying a listing of the address points associated with the multipin in the additional window in the display means in response to a click on the multipin in the display means, preferably the listing comprises one or more additional information to the respective address points. The terminal according to any one of claims 11 to 15, characterized, that the method further comprises the following steps: Actuating one or more operator icons, which are shown in the display means next to and / or on the geographical map, to a change in the representation of the geographical map and / or to a modified visualization of the address points, - Preferably comprising the further step of operating a filter means in the display means for selecting certain additional information, by means of which the visualization of only a subset of the originally displayed address points can be made.

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