JP2004234395A - Itinerary management system, itinerary management program, member side terminal program, basic itinerary provider side server program, recording medium and itinerary management method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an itinerary management system and the like which, for a group itinerary by a plurality of members, enable the members to mutually know current positions of other members, ensures the flexibility of the form of the participation of the members in the group travel, and can dynamically manage the itinerary of the group travel as a whole. <P>SOLUTION: A member side terminal can issue to a server an instruction to synthesize a desired edited itinerary with respect to a basic itinerary of a group travel. The server creates a composite itinerary by superposing the basic itinerary and the edited itinerary, and saves the composite itinerary therein. The server distributes the created composite itinerary to a navigation device on the member side, and the navigation device searches a route based on the distributed composite itinerary, and can display the result. Since the synthesis of meeting or separation can be performed, the flexibility of the form of the participation of the members in the group travel can be ensured for a group travel by a plurality of members, and the itinerary of the group travel can be managed as a whole. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a process management system and the like in which a server manages processes performed by a plurality of member-side mobile bodies provided with a navigation device.
[0002]
[Prior art]
[Patent Document 1] JP-A-11-53376
[0003]
2. Description of the Related Art Conventionally, when performing a drive trip by car, a drive course is created, registered, and corrected while viewing a drive plan menu on a personal computer, and the result is registered in a predetermined management center in a predetermined format. Various types of information registered in a predetermined management center are transmitted to a navigation device provided in an automobile, and the navigation device calculates a route based on the position information and displays the route.
[0004]
Patent Literature 1 discloses an information providing method in which, when a predetermined course is selected and a course ID is input in a drive plan menu or the like as described above, only members who know the course ID can browse various information. Is described. The points at which members who know these course IDs can select the same course and drive along the same route are shown.
[0005]
However, there is no description about the case of a group trip in which the members form a group related to each other and drive and travel. Even if the above-described conventional technique is used, it is only possible for one group member to select the same course and drive along the same route. For this reason, there has been a problem that members cannot make a group trip along the same route while knowing the current positions of other members. Furthermore, when a member participates in a group trip on the way or leaves the group trip on the way, there is a problem that it is not possible to dynamically manage the entire course of the group trip.
[0006]
Generally, a travel plan has been created as a whole or a part of a program plan by the media such as a television and a magazine, and its profit has been limited to contribution to sales of the program. In the case of a car travel plan described above, when a car travel plan is specially created as a business by a travel planner or the like, there is a problem that there is no means or a place for directly selling the created car travel plan to the user. Was. For this reason, discussions on the sophistication of car travel plans themselves were rare.
[0007]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to solve the above problem. When a group trip is performed by a plurality of members, the members can mutually know the current position of another member, and It is an object of the present invention to provide an itinerary management system or the like which can give a degree of freedom in a form of participation in a trip and can dynamically manage a group trip as a whole.
[0008]
It is a further object of the present invention to provide an itinerary management system or the like that makes it easy to directly sell a car travel plan created by a travel planner to a user.
[0009]
[Means for Solving the Problems]
An itinerary management system according to the present invention is a journey management system in which a server manages a journey by a plurality of member-side moving bodies provided with a navigation device, wherein the journey includes a set of a time and a point of the member-side moving body at the time. The server has a basic process recording unit that records a basic process including a basic process identifier for identifying the process, which is a basic process of process management, and the server corresponds to the member-side mobile unit. The member-side terminal is a process that includes a basic process reference unit that refers to a basic process recorded in the basic process recording unit, and a process that includes at least one set of points included in the basic process that is referred to by the basic process reference unit. And an editing process transmitting means for transmitting an editing process including the basic process identifier and the member-side identifier to the server, wherein the server transmits the editing process. An editing process storing means for storing the editing process transmitted from the member side terminal in the editing process recording unit in the step; and a basic process recording unit based on the basic process identifier included in the editing process stored by the editing process storing unit. Basic stroke search means for retrieving the recorded basic stroke, a set of points included in the basic stroke searched by the basic stroke search means, and an edit stroke stored in an edit stroke recording unit by the edit stroke storage means. A point comparing means for comparing the included points, a point association generating means for generating an association between the points matched by the point comparing means, a basic process and an editing process used for comparison by the point comparing means; A combining process storing unit that stores a combining process including the association generated by the point association generating unit in a combining process recording unit; and a combining process that is stored by the combining process storing unit. Synthesizing process distribution means for distributing a process to a navigation device provided on a member-side moving body of a member corresponding to an editing process included in the synthesizing process, wherein the navigation device is distributed by the synthesizing process distributing device. Route search means for searching for a route of a member-side moving object based on each time and point of a set included in the combined process, and a route display for displaying a route searched by the route search means on a display unit of a navigation device. Means.
[0010]
Here, in the itinerary management system according to the present invention, the navigation device to which the combined travel has been distributed by the combined travel distributing means transmits an implementation status including the current time and the current location of the member-side mobile unit to the server. Means for storing the execution status transmitted by the execution status transmission unit in association with the editing process stored in the synthesis process recording unit by the synthesis process storage unit; and the server, Based on the current time and the current position of the member-side moving object stored in association with the editing process by the implementation status storage means, and each time and point of a set included in the editing process, the member-side moving object is stored in the composite process recording unit. Movement judgment means for judging whether or not movement is possible within a range of a predetermined allowable value in accordance with the synthesis process stored in the storage means; When it is determined that the side moving body is not movable within a predetermined allowable range according to the combining process stored in the combining process recording unit, an association correcting unit that corrects the association included in the combining process; A modified composite process for distributing the composite process including the association corrected by the modifying unit to the navigation device provided in the member-side moving body determined to be unmovable within a predetermined allowable range by the movement determining unit. Means can be further provided.
[0011]
Here, in the itinerary management system according to the present invention, the navigation device to which the combined process is delivered by the combined process delivery device further includes an implementation status inquiry unit for inquiring about an implementation status stored by the implementation status storage unit, and the server May further include an implementation status distribution unit that distributes the implementation status inquired by the implementation status inquiry unit to the navigation device.
[0012]
Here, the process management system according to the present invention further includes a basic process providing server that provides a basic process recorded in the basic process recording unit, wherein the basic process providing server is configured such that the member-side terminal has the basic process. When the reference process refers to the basic process, or when the server stores the editing process transmitted from the member side terminal in the editing process storing unit in the editing process recording unit, or when the server synthesizes the process by the synthesizing process distribution unit. In one or more cases in which the journey is distributed to the navigation device, a billing means for billing the member side a predetermined fee by receiving a notification from the server side can be provided.
[0013]
A process management program according to the present invention is a process management program for causing a server to execute a process management by a plurality of member-side moving bodies provided with a navigation device, wherein the process includes a time and a point of the member-side moving body at the time. The server includes a basic process recording unit that records a basic process including a basic process identifier for identifying the process, which is a basic process of process management, and includes the server as the member Recording an editing process, which includes at least one set of points included in the basic process and includes a basic process identifier and the member-side identifier, transmitted from the member-side terminal corresponding to the side mobile unit. Editing process storing means for storing the basic process identifier stored in the basic process recording unit based on the basic process identifier included in the editing process stored by the editing process storing device. Basic stroke search means for searching for a stroke, a set of points included in the basic stroke searched by the basic stroke search means, and a set of points included in the edit stroke stored in the edit stroke recording unit by the edit stroke storage means A point comparison unit that compares the points with each other, a point association generation unit that generates an association between the points matched by the point comparison unit, a basic process and an editing process used for comparison by the point comparison unit, and the point association generation unit. A synthesizing process storing means for storing a synthesizing process including the generated association in a synthesizing process recording unit; and a synthesizing process stored by the synthesizing process storing means, the member side of a member corresponding to an editing process included in the synthesizing process. It is a process management program for functioning as a combined process distribution means for distributing to a navigation device provided in a moving object.
[0014]
Here, in the travel management program of the present invention, the implementation status including the current time and the current position of the member-side mobile unit transmitted from the navigation device to which the composite travel has been distributed by the composite travel distribution means is stored in the composite travel storage means. The execution status storing means for storing in association with the editing process stored in the synthesis process recording section, the current time and the current position of the member-side mobile object stored in association with the editing process by the execution status storing means, and Movement for determining whether or not the member-side moving body can move within a predetermined allowable range in accordance with the combined stroke stored in the combined stroke recording unit, based on each time and point of the set included in the stroke. The determining means and the movement determining means do not allow the member-side moving body to move within a predetermined allowable range in accordance with the combining process stored in the combining process recording unit. When it is determined, the association correcting unit that corrects the association included in the combining process, and the combining process that includes the association corrected by the association correcting unit can be moved by the movement determining unit within a range of a predetermined allowable value. It is possible to further include a correction combining process delivering means for delivering to the navigation device provided in the member-side moving body determined not to be.
[0015]
Here, in the process management program of the present invention, the execution status distribution for distributing the execution status stored in the execution status storage unit inquired from the navigation device to which the synthesis process has been distributed by the synthesis process distribution unit to the navigation device. Means can further be provided.
[0016]
A member-side terminal program according to the present invention is a member-side terminal program for controlling a member-side terminal corresponding to the member-side moving body in a process management system in which a server manages a course by a plurality of member-side moving bodies provided with a navigation device. The server includes a plurality of pairs of a time and a point of the member-side moving body at the time, and the server performs a basic process including a basic process identifier for identifying the process, which is a basic process of process management. A basic stroke recording unit for recording the basic stroke recorded by the computer on the member side terminal, a basic stroke reference means for referring to the basic stroke recorded in the basic stroke recording unit, and a basic stroke referred to by the basic stroke reference means. A process including at least one set of points included in the above, and an editing process including the basic process identifier and the member-side identifier. A member terminal program for functioning as an edit stroke transmission means for transmitting to the over server side.
[0017]
A navigation device program according to the present invention is a navigation device program for controlling a navigation device provided in a member-side moving body in a course management system in which a server manages a course by a plurality of member-side moving bodies, wherein the stroke is a time And a plurality of pairs of the member-side mobile unit at the time and the server includes a basic process recording unit that records a basic process including a basic process identifier for identifying the process, which is a basic process of process management. An editing process in which the server includes a computer including a basic process and at least one set of points included in the basic process, wherein the process includes a basic process identifier and the member-side identifier. Based on each time and point of the set included in the synthesis process synthesized with the predetermined association Route searching means for searching for a route of the moving object, a navigation device program for causing a route searched by said route search means as a path display means for displaying on the display unit of the navigation device.
[0018]
Here, in the navigation device program according to the present invention, the navigation device may further include an implementation status transmitting unit that transmits an implementation status including a current time and a current location of the member-side moving object to the server.
[0019]
Here, in the navigation device program according to the present invention, the navigation device may further include an implementation status inquiry unit for inquiring about an implementation status stored on the server side.
[0020]
A basic process providing server program according to the present invention controls a basic process providing server that provides a basic process that is a basis of management in a process management system in which a server manages a process performed by a plurality of member-side moving bodies including a navigation device. A basic process providing server program, wherein the basic process includes a basic process identifier for identifying the process, and the basic process providing server is provided by a member-side terminal corresponding to the member-side mobile unit in the basic process. Or a process in which the server is transmitted from the member-side terminal and includes at least one set of points included in a basic process, wherein the editing process includes a basic process identifier and the member-side identifier. Is stored in the editing process recording unit, or the server performs a synthesis process by combining the basic process and the editing process with a predetermined association. Is delivered to the navigation device, in one or more cases, a basic process providing server program for functioning as a billing means for billing a predetermined fee to the member side by receiving a notification from the server side. is there.
[0021]
The recording medium of the present invention is a computer-readable recording medium that records the computer program of the present invention.
[0022]
A process management method according to the present invention is a process management method in which a server manages a process by a plurality of member-side moving bodies provided with a navigation device, wherein the process includes a set of a time and a point of the member-side moving body at the time. The server has a basic process recording unit that records a basic process including a basic process identifier for identifying the process, which is a basic process of process management, and the process management method includes: A member-side terminal corresponding to the side-moving body, a basic-stroke reference step of referring to a basic-stroke recorded in the basic-stroke recording unit, and at least one set included in the basic-stroke referred to in the basic-stroke reference step; An edit process transmitting step for transmitting an edit process including the basic process identifier and the identifier of the member to the server side, the process including a point, and the server An editing process storing step of saving the editing process transmitted from the member side terminal in the editing process transmitting step in the editing process recording unit; anda basic process identifier included in the editing process stored in the editing process storing step. A basic stroke search step for searching for a basic stroke recorded in the basic stroke recording unit; a set of points included in the basic stroke searched in the basic stroke search step; and an edit stroke storage unit in the edit stroke storage step. A point comparison step of comparing a set of points included in the edited editing process, a point association generation step of generating an association between the points matched in the point comparison step, and a base used in the comparison in the point comparison step A synthesis process recording section that includes a synthesis process including a process and an editing process, and an association generated in the location association generation step. A synthesizing process storing step of storing, and a synthesizing process distributing the synthesizing process stored in the synthesizing process to a navigation device provided on a member-side moving body of a member corresponding to an editing process included in the synthesizing process. And a route searching step in which the navigation device searches for a route of a member-side moving object based on each time and point of a set included in the combining process delivered in the combining process delivering step; A route display step of displaying the route searched in the search step on a display unit of the navigation device.
[0023]
Here, in the itinerary management method of the present invention, the navigation device to which the combined process has been delivered in the combined process delivery step transmits, to the server, an implementation status including the current time and the current location of the member-side mobile unit. An execution status storing step in which the server stores the execution status transmitted in the execution status transmission step in association with the editing process stored in the synthesis process recording unit in the synthesis process storage step; Based on the current time and the current position of the member-side moving body stored in association with the editing process in the saving step and each time and point of the set included in the editing process, the member-side moving body is stored in the composite process recording unit. A movement judging step of judging whether or not the movement is possible within a range of a predetermined allowable value in accordance with the synthesized process, In the step, when it is determined that the member-side moving body is not movable within a range of a predetermined allowable value according to the combining process stored in the combining process recording unit, an association correction step of correcting the association included in the combining process And distributing the combined process including the association corrected in the association correction step to the navigation device provided in the member-side mobile body determined to be unmovable within the range of the predetermined allowable value in the movement determination step. And a modified synthesizing process distribution step.
[0024]
Here, in the itinerary management method of the present invention, the navigation device to which the combined process has been delivered in the combined process delivery step further includes an implementation status inquiry step for inquiring about the implementation status saved in the implementation status saving step, and the server includes: The method may further include an implementation status distribution step of distributing the implementation status inquired in the implementation status inquiry step to the navigation device.
[0025]
Here, the process management method of the present invention further comprises a basic process providing server that provides a basic process recorded in the basic process recording unit, wherein the basic process providing server is configured such that the member terminal refers to the basic process. When the server refers to the basic process in the step, or when the server saves the editing process transmitted from the member side terminal in the editing process storing step in the editing process recording unit, or when the server performs the combining process in the combining process distribution step In the case of delivering one or more of these to the navigation device, a predetermined fee can be charged to the member side by receiving the notification from the server side.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0027]
Embodiment 1 FIG.
FIG. 1 illustrates an outline of a process management system according to Embodiment 1 of the present invention. In FIG. 1, reference numeral 10 denotes a journey management system according to the present invention, 60a denotes a navigation device 1 such as a car navigation device provided in a member-side automobile or the like (member-side moving body) participating in group travel or the like, and 60n denotes a group travel. Navigation device n such as a car navigation device provided in a car or the like on the side of other members participating in the like, 62a is a display unit such as a display of the navigation device 1 (60a), 62n is a display of the navigation device n (60n) or the like. Is a member side terminal such as a personal computer (hereinafter, referred to as "PC") used by members such as the navigation device 1 (60a). Although only the member side terminal 50 is shown in FIG. 1, this is for the sake of convenience of the drawing, and a member side terminal corresponding to the navigation device n (60n) can also be used.
[0028]
Reference numeral 20 denotes a server that manages the course of a group trip executed by a plurality of members' automobiles and the like, and reference numeral 70 denotes a server-side database managed by the server 20. The server-side database 70 manages various databases, and the basic itinerary recording unit 72 records a basic itinerary which is a basic itinerary of the group trip and includes a basic itinerary identifier for identifying the itinerary. Here, in the present specification, a process includes a plurality of pairs of a time and a point such as a car on the member side at the time. Details will be described later. The editing process recording unit 74 is a process including at least one set of points included in the above-described basic process, and records an editing process including the basic process identifier and the member-side identifier. The editing process is a process of each member with respect to the basic process, and means, for example, a process in which a member-side automobile or the like joins the basic process or leaves the basic process. Details will be described later. The combining process recording unit 76 records a combining process in which an editing process is superimposed on a basic process. The map information database 78 records information such as maps used in combination with the basic process, the editing process, the combining process, and the like.
[0029]
Next, the outline of the operation of the process management system and the like according to the present invention will be described. The number of steps S in FIG. 1 corresponds to the number of steps S in the flowchart in the process management method and the like to be described later. First, the member-side terminal 50 refers to (downloads) the basic process recorded in the basic process recording unit 72 via the server 20 (step S10). A desired editing process is uploaded from the member-side terminal 50 to the server 20, and an instruction is made to create a combined process in which the referenced basic process and the desired editing process are superimposed (step S12). The server 20 records the uploaded editing process in the editing process recording unit 74 (Step S14). The editing process recording unit 74 is provided for each member. The server 20 searches for a basic process corresponding to the editing process, creates a combined process in which both processes are superimposed, and records the combined process in the combined process recording unit 76 (step S22). The above is the preparation stage before the group trip. Thereafter, the combining process is distributed from the server 20 to the navigation device 1 (60a) and the like (step S24). The navigation device 1 (60a) or the like performs a route search or the like based on the distributed combining process and displays the route on the display unit 62a or the like. Hereinafter, functions of the server 20 and the like constituting the process management system of the present invention will be described in order.
[0030]
FIG. 2 is a block diagram showing functions of server 20 according to Embodiment 1 of the present invention. In FIG. 2, reference numeral 22 denotes an editing process storage unit (editing process storage unit) for storing the editing process transmitted from the member-side terminal 50 in the editing process recording unit 74, and reference numeral 24 denotes an editing process stored by the editing process storage unit 22. The basic-stroke search unit (basic-stroke search means) 26 for searching for the basic stroke recorded in the basic-stroke recording unit 72 based on the basic-stroke identifier included in the basic-stroke search unit 24 is included in the basic stroke searched by the basic-stroke search unit 24. A point comparison unit (point comparison means) for comparing a pair of points with a pair of points included in the editing process stored in the editing process recording unit 74 by the editing process storage unit 22; And a point association generation unit (point association generation means) for generating an association between the coincident points. When a process is represented by, for example, a list structure, a set can be represented as an element of a list. The association can be represented by a pointer or the like connecting an element in the list of the basic process and a corresponding element in the list of the edit process. Reference numeral 30 denotes a combining process storage unit (compositing process) that stores a combining process including the basic process and the editing process used for comparison by the point comparing unit 26 and the association generated by the point association generating unit 28 in the combining process recording unit 76. A storage unit), 32 for synthesizing the composite process stored in the composite process storage unit 30 to a navigation device 1 (60a) or the like provided in a car or the like of a member corresponding to the editing process included in the composite process. A distribution unit (combination process distribution means).
[0031]
FIG. 3 is a block diagram showing functions of member side terminal 50 according to Embodiment 1 of the present invention. In FIG. 3, reference numeral 52 denotes a basic stroke reference unit (basic stroke reference means) that refers to the basic stroke recorded in the basic stroke recording unit 72, and 54 denotes at least one of the basic strokes referenced by the basic stroke reference unit 52. An editing process transmitting unit (editing process transmitting means) for transmitting an editing process including the basic process identifier and the member-side identifier to the server 20, which is a process including two sets of points.
[0032]
FIG. 4 is a block diagram showing functions of the navigation device 60a or 60n (hereinafter abbreviated as “navigation device 60 or the like”) according to the first embodiment of the present invention. In FIG. 4, reference numeral 64 denotes a route search unit (route) that searches for a route such as an automobile on the member side based on each time and point of a set included in the combined process delivered by the combined process delivery unit 32 on the server 20 side. Search means) and 54 are route display units (route display means) for displaying the route searched by the route search unit 64 on the display unit 62a or 62n (hereinafter, abbreviated as "display unit 62") of the navigation device 60 or the like. is there.
[0033]
Next, the basic stroke recorded in the basic stroke recording section 72 will be described. FIG. 5 illustrates a basic process according to the first embodiment of the present invention. FIG. 5A shows a basic process 100 represented as a transition diagram, and FIG. 5B shows an internal expression (expression by a list structure) 100L of the basic process 100. The basic process is an expression other than the list structure, and can be expressed by an array, for example. As shown in FIG. 5 (A), the basic process 100 is a time or a time (hereinafter referred to as “time” for the sake of convenience, but indicates a departure time / time or an arrival time / time from a node, and particularly a difference. A pair indicating a point and a point is represented by a node 102 or the like, movement between the nodes is represented by an arrow, and stay at the node is represented by a broken arrow.
[0034]
As shown in FIG. 5A, the basic process 100 includes six sets (nodes) 102, 104, 106, 108, 110, and 112. The “time t1, departure: point A1” and the arrow of the node 102 indicate that the vehicle departs from the point A1 at the time t1, and a transition is made to the next node 104. The “time t2, arrival: point A2” of the node 104 indicates that the vehicle arrives at the point A2 at the time t2. “Time t3, departure: point A2” of the node 106 indicates that the vehicle departs from the point A2 at time t3. The fact that the point A2 of the node 104 and the point A2 of the node 106 are the same means that there is no point-wise movement between the node 104 and the node 106. Further, when the time t2 of the node 104 is different from the time t3 of the node 106, there is no point-to-point movement between the node 104 and the node 106, that is, there is only a temporal change, that is, from the time t2 to the time t3. This means staying at the point A2. This stay is indicated by a dashed arrow connecting node 104 and node 106.
[0035]
The “time t3, departure: point A2” of the node 106 and the arrow indicate that the vehicle departs from the point A2 at the time t3, and the transition is made to the next node. The “time t4, arrival: point A3” of the node 108 indicates that the vehicle arrives at the point A3 at the time t4. The node 108 to the node 110 indicate that they stay at the point A3 from the time t4 to the time t5. The “time t5, departure: point A3” of the node 110 and the arrow indicate that the vehicle departs from the point A3 at the time t5, and a transition is made to the next node 112. The “time t6, arrival: point A4” of the node 112 indicates that the vehicle arrives at the point A4 at the time t6.
[0036]
As shown in FIG. 5B, the internal representation 100L of the basic process 100 is represented by a list structure. In FIG. 5B, reference numeral 81 denotes a basic process identifier bid which is the first element of the internal representation 100L, 82 denotes an element corresponding to the node 102, 83 denotes an element corresponding to the node 104, and 84 denotes an element corresponding to the node 106. , 85 indicate an element corresponding to the node 108, 86 indicates an element corresponding to the node 110, and 87 indicates an element corresponding to the node 112. Each element 82 and the like can be further represented by a list indicating a set of time t1 and point A1. The other elements 83 and the like are the same, and a description thereof will be omitted.
[0037]
Next, the editing process recorded in the above-described editing process recording unit 74 will be described. FIG. 6 illustrates an editing process according to the first embodiment of the present invention. FIG. 6A shows an editing process 250 expressed as a transition diagram, and FIG. 6B shows an internal expression (expression by a list structure) 250L of the editing process 250. Hereinafter, the description of the notation in the node and the internal expression is the same as that in the case of the basic process 100 and the internal expression 100L, and thus the description is omitted. In FIG. 6, nodes or elements denoted by the same reference numerals as those in FIG. As shown in FIG. 6A, the editing process 250 includes two sets (nodes) 202 and 104. The editing process 250 indicates that the vehicle departs from the point B1 at time t11 (node 202) and arrives at the point A2 at time t2 (node 104). Here, the node 104 is the same as the node 104 in the basic process 100. In FIG. 6B, reference numeral 91 denotes an identifier mid of the member that transmitted the editing process 250 to the server 20, 81 denotes a basic process identifier bid of the basic process referenced by the member, and 92 denotes an element corresponding to the node 202. , 93 indicate elements corresponding to the node 104.
[0038]
Next, the composition process recorded in the composition process recording unit 76 will be described. FIG. 7 exemplifies a combining process according to the first embodiment of the present invention. FIG. 7A shows a synthesis process 300 expressed in a transition diagram, and FIG. 7B shows an internal expression (expression by a list structure) 300L of the synthesis process 300. In FIG. 7, nodes or elements denoted by the same reference numerals as those in FIGS. As shown in FIG. 6A, in the combining process 300, the basic process 100 and the editing process 250 (indicated by a dotted line) are overlapped at the node 104 common to both. The “time t2, arrival: point A2” of the node 104 of the basic process 10 indicates that the vehicle arrives at the point A2 at the time t2, and the “time t2, arrival: point A2” of the node 104 of the editing process 250 is also at the time t2. At the point A2. Therefore, both strokes arrive at the same point A2 at the same time t2. In other words, both processes show that they merge at the same destination A2 at the same time t2.
[0039]
As shown in the internal representation 300L of the composite process 300 in FIG. 7B, the internal representation 300L of the composite process is expressed by connecting the internal expression 250L of the edit process 250 and the internal expression 100L of the basic process 100. . Elements in the internal representation corresponding to the node 104 common to both processes are the element 93 and the element 83. As shown in FIG. 7B, a pointer * PA indicating the element 83 is added to the list of the element 93, and a pointer * PB indicating the element 93 is added to the list of the element 83. These pointers * PA and * PB associate the two.
[0040]
The common node 104 described above can be obtained by the basic process search unit 24 searching the basic process recording unit 72 for a basic process having the same basic process identifier as the basic process identifier 81 in the internal representation 250L of the editing process 250. it can. The point comparison unit 26 compares a point of an element in the internal representation 250L with an element in the internal representation 100L. In the above example, the point A2 of the element 93 and the point A2 of the element 83 match. The point association generation unit 28 generates the pointers * PA and * PB as an association as in the above-described example.
[0041]
In the following examples of FIGS. 8 to 16, the basic process 100 is used, and the internal representation is omitted.
FIG. 8 shows a combining process in the case where the editing process and the basic process merge on the route at the same time in the first embodiment of the present invention. In FIG. 8, the parts denoted by the same reference numerals as those in FIG. In FIG. 8, reference numeral 252 denotes an edit process, 302 denotes a composite process of the basic process 100 and the edit process 252, 202 denotes a node indicating that the vehicle departs from the point B1 at time t11, and 204 denotes a node passing through the point A5 at time t7. Is a node indicating. As shown in FIG. 8, the node may be not only a fixed point but also a waypoint having a certain geographic range. That is, the combining process 302 indicates that the merging process is performed on the route of the point A5.
[0042]
FIG. 9 shows a combining process of merging in the first embodiment of the present invention. In FIG. 9, the portions denoted by the same reference numerals as those in FIG. In FIG. 9, reference numeral 254 denotes an edit process, 304 denotes a composite process of the basic process 100 and the edit process 254, 202 denotes a node indicating that the vehicle departs from the point B1 at time t11, and 206 denotes that the vehicle arrives at the point A2 at time t12. Is a node indicating. As shown in nodes 206 and 104 in FIG. 9, the member who transmitted the editing process 254 has arrived at point A2 at time t12 (time earlier than t2). Therefore, the combining process 304 indicates a merge when the members arrive at the same point A2 earlier.
[0043]
FIG. 10 shows a combining process of merging in the first embodiment of the present invention. In FIG. 10, the portions denoted by the same reference numerals as those in FIG. In FIG. 10, reference numeral 256 denotes an editing process, 306 denotes a combining process of the basic process 100 and the editing process 256, 202 denotes a node indicating that the vehicle departs from the point B1 at time t11, and 208 denotes that the vehicle arrives at the point A2 at time t7. Is a node indicating. As shown by nodes 202, 104, and 106 in FIG. 10, nodes 104 and 106 indicate staying at point A2. Here, the member who transmitted the editing process 256 has arrived at the point A2 at time t7 (time later than t2). Therefore, the combining process 306 indicates a merge when the members arrive at the same point A2 late.
[0044]
FIG. 11 shows a combining process of merging in Embodiment 1 of the present invention. In FIG. 11, the portions denoted by the same reference numerals as those in FIG. In FIG. 11, reference numeral 258 denotes an edit process, 308 denotes a composite process of the basic process 100 and the edit process 258, 202 denotes a node indicating that the vehicle departs from the point B1 at time t11, and 210 denotes that the vehicle arrives at the point B2 at time t12. A node 212 indicates that the vehicle stays at the point B2 until time t13 and then departs at time t13. As shown at nodes 202, 210 and 212 in FIG. 11, the member-side editing process 258 is not merely a process that merges with the basic process 100, but may have its own process before merging.
[0045]
In the above-described example, the combining process in the case where the editing process merges with the basic process has been described. In the following, a description will be given of a combining process in a case where the editing process deviates from the basic process. FIG. 12 shows a synthesis process of the departure according to the first embodiment of the present invention. In FIG. 12, the portions denoted by the same reference numerals as those in FIG. In FIG. 12, reference numeral 260 denotes an editing process, 310 denotes a combining process of the basic process 100 and the editing process 260, and 220 denotes a node indicating that the vehicle arrives at the point B30 at time t30. As shown in nodes 110 and 220 in FIG. 12, the member side has left point A3 at time t5 and has arrived at point B30 at time t30. That is, the member departs from the point A3 at the same time as the side of the basic stroke and has left the basic stroke.
[0046]
FIG. 13 shows a synthesis process of the departure according to the first embodiment of the present invention. In FIG. 13, the parts denoted by the same reference numerals as those in FIG. In FIG. 13, reference numeral 262 denotes an editing process, 312 denotes a synthesis process of the basic process 100 and the editing process 262, 222 denotes a node indicating that the vehicle departs from the waypoint A20 at time t20, and 224 denotes a point which arrives at the point B32 at time t32. Is a node indicating that As shown in FIG. 13, the nodes may be not only fixed points but also waypoints having a certain geographical range. In other words, it indicates that the combining process 312 leaves on the route of the waypoint A20.
[0047]
FIG. 14 shows a synthesis process of the departure according to the first embodiment of the present invention. In FIG. 14, the portions denoted by the same reference numerals as those in FIG. In FIG. 14, reference numeral 264 denotes an editing process, 314 denotes a composite process of the basic process 100 and the editing process 264, 226 denotes a node indicating that the vehicle departs from the point A3 at the time t34, and 228 denotes that the vehicle arrives at the point B36 at the time t36. Is a node indicating. As shown in nodes 108 and 110 in FIG. 14, the member side departs at time t5 later than departure time t4 at point A3 on the basic stroke side.
[0048]
FIG. 15 shows a synthesis process of the departure according to the first embodiment of the present invention. In FIG. 15, the portions denoted by the same reference numerals as those in FIG. In FIG. 15, reference numeral 266 denotes an edit process, 316 denotes a composite process of the basic process 100 and the edit process 266, 114 denotes a node indicating that the vehicle departs (leaves) from the point A3 at time t22, and 230 denotes a point B38 at time t38. Is a node indicating arrival at As shown in nodes 108 and 114 in FIG. 15, the member leaves and leaves at time t22 earlier than departure time t5 at point A3 on the basic stroke.
[0049]
FIG. 16 shows a synthesis process of the departure according to the first embodiment of the present invention. In FIG. 16, the portions denoted by the same reference numerals as those in FIG. In FIG. 16, reference numeral 268 denotes an edit process, 318 denotes a composite process of the basic process 100 and the edit process 268, 106 denotes a node indicating that the vehicle departs (leaves) from the point A2 at time t3, and 232 denotes a point B48 at time t40. 234 is a node indicating that after staying at the point B40 until time t42, departure from the point B40 at time t42, and 236 is a node indicating arriving at the point B44 at time t44. As shown in nodes 232, 234, and 236 in FIG. 16, the member-side editing process 268 is not merely a process of leaving the basic process 100, but may have its own process after leaving.
[0050]
FIG. 17 is a flowchart showing the flow of a process management method or program according to the first embodiment of the present invention. As shown in FIG. 17, the member-side terminal 50 refers to the basic process recorded in the basic process recording unit 72 (step S10: basic process reference step). A process including at least one set of points included in the basic process referred to in the basic process reference step (step S10), including an editing process 250 including the basic process identifier 81 and the like and the member identifier 91 and the like. The data is transmitted to the server 20 side (step S12: edit process transmission step).
[0051]
The server 20 saves the editing process 250 and the like transmitted from the member-side terminal 50 in the editing process transmitting step (step S12) in the editing process recording unit 74 (step S14: editing process saving step). Based on the basic process identifier 81 and the like included in the editing process 250 and the like stored in the editing process storing step (step S14), the basic process 100 and the like recorded in the basic process recording unit 72 are searched (step S16. Basic process search). Steps). The set points included in the basic process 100 and the like searched in the basic process search step (step S16) and the sets included in the edit process 250 and the like stored in the edit process recording unit 74 in the edit process storing step (step S14) (Step S18: point comparison step). An association (* PA or the like) between the coincident points in the point comparison step (step S18) is generated (step S20: point association generation step). The combining process 300 including the basic process 100 and the editing process 256 used in the comparison in the point comparison step (step S18) and the association (* PA and the like) generated in the location association generating step (step S20). It is stored in the synthesis process recording section 76 (step S22: synthesis process storage step). The composite process 300 and the like stored in the composite process storage step (step S22) are distributed to the navigation device 60 and the like provided on the member's automobile corresponding to the editing process 256 and the like included in the composite process 300 and the like ( Step S24: Synthetic process distribution step).
[0052]
The navigation device 60 or the like searches for a route of a member-side automobile or the like based on each time and point of a group included in the synthesis process 300 and the like distributed in the synthesis process distribution step (Step S24) (Step S26). Steps). The route searched in the route search step (step S28) is displayed on the display unit 62 or the like of the navigation device 60 or the like (step S28: route display step).
[0053]
As described above, according to the first embodiment of the present invention, it is possible to instruct the server from the member side terminal to combine the desired editing process with the basic process of the group trip. The server creates and stores a composite process by superimposing the basic process and the edit process. The server distributes the created composite process to the navigation device on the member side, and the navigation device performs a route search based on the distributed composite process and displays the result. Since merging or departure can be combined, when a group trip is performed by a plurality of members, the members can have a degree of freedom in the form of participation in the group trip, and the entire process of the group trip can be managed. It is possible to provide a process management system or the like that can perform the process.
[0054]
Embodiment 2 FIG.
FIG. 18 is a block diagram showing functions of server 20 according to Embodiment 2 of the present invention. In FIG. 18, functions added in the second embodiment are surrounded by a dotted line A, and only the added functions will be described below. In FIG. 18, reference numeral 34 denotes an editing process 250 or the like stored in the combining process recording unit 76 by the combining process storing unit 30 including an implementation status including the current time transmitted from the navigation device 60 and the like and the current location of the member-side automobile and the like. The execution status storage unit (execution status storage unit) 36 stores the current time and the current location of the member-side automobile and the like, which are stored by the execution status storage unit 34 in association with the editing process 250 and the like. It is determined whether or not the member-side automobile or the like can move within a range of a predetermined allowable value in accordance with the combining process 300 or the like stored in the combining process recording unit 76 based on each time and point of the set included in the combination. It is a movement judging unit (movement judging means) for making judgment. Here, the predetermined allowable value can be set arbitrarily. For example, in the case of the above-described combining process 300 (see FIG. 7), the member side needs to arrive at the point A2 at the time t2, but by setting the range of the predetermined allowable value from the time t2-Δt to t2 + Δt, etc. It is possible to give a margin to the process.
[0055]
Reference numeral 38 indicates a case where the movement determining unit 36 determines that the member-side automobile or the like cannot move within the range of a predetermined allowable value in accordance with the combining process 300 or the like stored in the combining process recording unit 76. An association correcting unit (association correcting unit) 40 for correcting the included association (* PA or the like), and a movement determining unit 36 determines a combination process 300 or the like including the association (* PA or the like) corrected by the association correcting unit 38. A modified combined travel delivery unit (modified combined travel delivery means) for delivering to a navigation device 60 or the like provided in a member-side automobile or the like determined to be incapable of moving within the allowable value range. An implementation status distribution unit (implementation status distribution means) that distributes the implementation status to the navigation device 60 and the like.
[0056]
FIG. 19 is a block diagram showing functions of the navigation device 60 and the like according to the second embodiment of the present invention. In FIG. 19, the functions added in the second embodiment are surrounded by a dotted line B, and only the added functions will be described below. In FIG. 19, reference numeral 67 denotes an implementation status transmitting unit (in which the navigation device 60 or the like to which the composite travel has been distributed by the composite travel delivery unit 32 transmits an implementation status including the current time and the current location of the member-side automobile to the server 20. Reference numeral 69 denotes an implementation status inquiry unit (implementation status inquiry unit) for inquiring about the implementation status stored in the implementation status storage unit 34.
[0057]
FIG. 20 illustrates processing when the movement determining unit 36 determines that the member-side automobile or the like is not movable within the range of the predetermined allowable value in the second embodiment of the present invention. FIG. 20 (A) is the same as FIG. 7 (A) of the first embodiment, but here, the movement judging section 36 causes the member-side automobile or the like to arrive at the point A2 at a time t2 within a predetermined allowable range. Assume that it is determined that it is not possible. In this case, as shown in FIG. 20 (B), the association correcting unit 38 removes the association (* PA or the like) between the editing process 250 and the basic process 100 at the node 104, and renews the node 208 (the point is also A2). But time can be associated with t7), which is later than t2. As a result, it is possible to change from the combining process 300 that merges at the same time to the same point described in the first embodiment to the combining process 300A that merges later.
[0058]
FIG. 21 is a flowchart showing a flow of a process management method or a program according to the second embodiment of the present invention. As shown in FIG. 21, the navigation device 60 and the like to which the combined process 300 and the like have been delivered in the combined process delivery step (step S24) described in the first embodiment include the current time and the current location of the member-side automobile. The execution status is transmitted to the server 20 (step S30; execution status transmission step).
[0059]
The server 20 stores the execution status transmitted from the navigation device 60 or the like (* PA or the like) in association with the editing process 250 or the like stored in the synthesis process recording unit 76 in the synthesis process storage step (step S22) (step S22). S32. Implementation status saving step). The member is determined based on the current time and the current position of the member-side automobile and the like stored in association with the editing process 250 and the like in the execution status storing step (step S32) and each time and location of a set included in the editing process 250 and the like. It is determined whether the side car or the like can move within a predetermined allowable range according to the combining process 300 and the like stored in the combining process recording unit 76 (step S34: a movement determining step). If it is determined in the movement determination step (step S34) that the member-side automobile or the like cannot be moved within the range of the predetermined allowable value in accordance with the combining process 300 or the like stored in the combining process recording unit 76, the combining process 300 or the like is performed. Is corrected (* PA etc.) included in (step S36. Association correction step). The combining process 300A including the association corrected in the association correction step (step S36) is provided for the member-side automobile or the like that is determined not to be movable within a predetermined allowable range in the movement determination step (step S34). (Step S38: Correction synthesis process distribution step).
[0060]
The navigation device 60 and the like can inquire about the implementation status stored in the implementation status storage step (step S32) (the implementation status inquiry step), and the server 20 performs navigation of the implementation status inquired in the implementation status inquiry step. It can be delivered to the device 60 or the like (execution status delivery step).
[0061]
As described above, according to the second embodiment of the present invention, the server 20 stores the execution status transmitted from the navigation device 60 or the like, and based on the implementation status, the member-side automobile or the like performs the combining process 300 or the like. It can be determined whether or not it is possible to move within the range of the predetermined allowable value according to the following equation. If it is determined that it is not possible to move within the range of the predetermined allowable value, it is possible to distribute the combined process 300A and the like including the corrected association to the navigation device 60 or the like provided in the member-side automobile or the like. Therefore, in addition to the first embodiment, it is possible to provide an itinerary management system or the like that can dynamically manage the entire group travel itinerary.
[0062]
Embodiment 3 FIG.
FIG. 22 illustrates an outline of a process management system according to the third embodiment of the present invention. In FIG. 22, the portions denoted by the same reference numerals as those in FIG. In FIG. 22, reference numeral 400 denotes a basic itinerary providing side (travel planning agency side) server that provides the basic itinerary 100 such as a car trip plan recorded in the basic itinerary recorder 72. The basic process providing server 400 includes a charging unit (charging means) 402 for charging a predetermined fee to the member side. When charging the charging unit 402, the member-side terminal 50 refers to the basic process 100 or the like by the basic-process reference unit 52, or the server 20 transmits the editing process 250 transmitted from the member-side terminal 50 by the editing process storing unit 22. And the like when the server 20 stores the combined process 300 and the like to the navigation device 60 and the like by the combined process delivery unit 32. In the case described above, the accounting unit 402 can perform accounting by receiving a notification from the server 20 side.
[0063]
As described above, according to the third embodiment of the present invention, when the member-side terminal 50 refers to the basic itinerary 100 or the like by the basic itinerary referencing unit 52, the vehicle travel plan created by the travel planner is charged. be able to. As a result, the member side cannot issue an instruction to combine the editing process 250 and the like into the basic process until the member pays the fee, so that the travel planner can easily sell directly to the user. When the server 20 stores the editing process 250 and the like transmitted from the member-side terminal 50 by the editing process storing unit 22 in the editing process recording unit 74, a charge can be made. As a result, the billing is made in units of the editing process 250 or the like, and there is a merit on the member side when a large number of the same editing processes are used.
[0064]
Embodiment 4 FIG.
FIG. 23 shows an internal operation 500 of a computer such as the server 20, the member terminal 50, the navigation device 60, or the basic itinerary server 400 which executes the computer program of the present invention for realizing the above-described embodiment. It is a block diagram. In FIG. 23, the above-described computer program of the present invention is recorded on a recording medium such as the ROM 502, the disk 506a, or the CD-ROM 506n. The computer program is loaded from a recording medium such as the ROM 502, the disk 506a, or the CD-ROM 506n to the RAM 503 via the bus 504 via the controller 505. An input operation unit 508 is an input device such as a mouse or a numeric keypad for inputting data to the computer. An input control unit 507 is connected to the input operation unit 508 to perform input control and the like. The external interface (I / F) unit 509 has an interface function when each of the computers communicates with another computer or the like.
[0065]
The object of the present invention can be achieved when the CPU 501 executes the above-described computer program of the present invention in the RAM 503. As described above, the computer program can be supplied to the computer CPU 501 in the form of a removable recording medium such as the CD-ROM 506n. Will be constituted. As the recording medium on which the computer program is recorded, for example, a DVD, an optical disk, a memory card, an FD, or the like can be used in addition to the recording medium described above.
[0066]
【The invention's effect】
As described above, according to the itinerary management system and the like of the present invention, it is possible to instruct the server from the member side terminal to combine the desired editing step with the basic trip of the group trip. The server creates and stores a composite process by superimposing the basic process and the edit process. The server distributes the created composite process to the navigation device on the member side, and the navigation device performs a route search based on the distributed composite process and displays the result. Since merging or departure can be combined, when a group trip is performed by a plurality of members, the members can have a degree of freedom in the form of participation in the group trip, and the entire process of the group trip can be managed. It is possible to provide a process management system or the like that can perform the process.
[0067]
When the member-side terminal 50 refers to the basic itinerary 100 or the like by the basic itinerary referencing unit 52, a car trip plan created by a travel planner can be charged. As a result, the member side cannot issue an instruction to combine the editing process 250 and the like into the basic process until the member pays the fee, so that the travel planner can easily sell directly to the user.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an outline of a process management system according to a first embodiment of the present invention.
FIG. 2 is a block diagram illustrating functions of a server 20 according to Embodiment 1 of the present invention.
FIG. 3 is a block diagram showing functions of a member-side terminal according to Embodiment 1 of the present invention.
FIG. 4 is a block diagram illustrating functions of a navigation device 60 and the like according to the first embodiment of the present invention.
FIG. 5 is a diagram illustrating a basic process according to the first embodiment of the present invention.
FIG. 6 is a diagram illustrating an editing process according to the first embodiment of the present invention.
FIG. 7 is a diagram illustrating a synthesis process according to the first embodiment of the present invention.
FIG. 8 is a diagram showing a synthesis process in the case where the editing process and the basic process merge on the route at the same time in the first embodiment of the present invention.
FIG. 9 is a diagram showing a combining process of merging in Embodiment 1 of the present invention.
FIG. 10 is a diagram showing a combining process of merging in Embodiment 1 of the present invention.
FIG. 11 is a diagram showing a combining process of merging in Embodiment 1 of the present invention.
FIG. 12 is a diagram showing a synthesis process of departure according to the first embodiment of the present invention.
FIG. 13 is a diagram showing a synthesis process of the withdrawal according to the first embodiment of the present invention.
FIG. 14 is a diagram showing a synthesis process of departure according to the first embodiment of the present invention.
FIG. 15 is a diagram showing a synthesis process of the withdrawal according to the first embodiment of the present invention.
FIG. 16 is a diagram showing a synthesis process of the withdrawal according to the first embodiment of the present invention.
FIG. 17 is a flowchart illustrating a flow of a process management method or a program according to the first embodiment of the present invention.
FIG. 18 is a block diagram illustrating functions of a server 20 according to Embodiment 2 of the present invention.
FIG. 19 is a block diagram showing functions of a navigation device 60 and the like according to Embodiment 2 of the present invention.
FIG. 20 is a diagram illustrating processing when the movement determination unit determines that the member-side automobile or the like is not movable within a range of a predetermined allowable value in the second embodiment of the present invention.
FIG. 21 is a flowchart showing a flow of a process management method or a program according to the second embodiment of the present invention.
FIG. 22 is a diagram illustrating an outline of a process management system according to the third embodiment of the present invention.
FIG. 23 is a block diagram showing an internal circuit 500 of a computer such as the server 20, the member terminal 50, the navigation device 60 or the basic itinerary server 400 which executes the computer program of the present invention.
[Explanation of symbols]
10 process management system, 20 servers, 22 editing process storing unit, 24 basic process searching unit, 26 points comparing unit, 28 points association generating unit, 30 combining process storing unit, 32 combining process distribution unit, 34 execution status storing unit, 36 Movement determination unit, 38 association correction unit, 40 correction synthesis process distribution unit, 42 implementation status distribution unit, 50 member side terminal, 52 basic process reference unit, 54 editing process transmission unit, 60, 60a, 60n navigation device, 62a, 62n Display unit, 64 route search unit, 66 route display unit, 67 implementation status transmission unit, 69 implementation status inquiry unit, 81 basic process identifier, 82, 83, 84, 85, 86, 87, 92, 93 element, 91 member side Identifier, 100 basic steps, 100L, 250L internal representation, 102, 104, 106, 108, 110, 114 , 202, 204, 206, 208, 210, 212, 220, 224, 226, 228, 230, 232, 234, 236 nodes, 70 server-side database, 72 basic process recording unit, 74 editing process recording unit, 76 synthesis process Recorder, 78 Map information database, 250, 252, 254, 256, 258, 260, 262, 264, 266, 268 Editing process, 300, 300A, 302, 304, 306, 308, 310, 312, 314, 316 , 318 synthesis process, 400 basic process providing server, 402 billing unit, 500 internal circuit, 501 CPU, 502 ROM, 503 RAM, 504 bus, 505 controller, 506a disk, 506n CD-ROM, 508 input control unit, 507 input Operation unit, 509 external / F unit.

Claims (17)

A travel management system in which a server manages a travel by a plurality of member-side mobiles provided with a navigation device, wherein the travel includes a plurality of pairs of a time and a point of the member-side mobile at the time, and the server It has a basic process recording unit that records a basic process including a basic process identifier that is a process that is a basic process and identifies the process,
The member-side terminal corresponding to the member-side moving body includes:
Basic stroke reference means for referring to a basic stroke recorded in the basic stroke recording unit;
An editing step of transmitting to the server an editing step that includes at least one set of points included in the basic step referred to by the basic step reference means and that includes the basic step identifier and the member-side identifier. Process transmission means,
The server comprises:
Editing process storing means for storing the editing process transmitted from the member side terminal in the editing process transmitting means in an editing process recording unit,
A basic stroke search unit for searching for a basic stroke recorded in a basic stroke recording unit, based on a basic stroke identifier included in the edit stroke stored in the edit stroke storage unit;
Point comparison means for comparing a set of points included in the basic process searched by the basic process search means and a set of points included in the edit process stored in the edit process storage unit by the edit process storage means;
Point association generating means for generating an association between the points matched by the point comparing means,
A synthesis process storage unit that stores a synthesis process including the basic process and the editing process used for comparison by the point comparison unit and the association generated by the point association generation unit in a synthesis process recording unit;
A synthesizing process storing means for distributing the synthesizing process stored in the synthesizing process storing means to a navigation device provided on a member-side moving body of a member corresponding to an editing process included in the synthesizing process,
The navigation device,
Route search means for searching for a route of a member-side mobile unit based on each time and point of a set included in the synthesis process distributed by the synthesis process distribution unit;
A route display unit for displaying a route searched by the route search unit on a display unit of a navigation device. The process management system according to claim 1,
The navigation device to which the combined process has been delivered by the combined process delivery unit further includes an implementation status transmitting unit that transmits an implementation status including a current time and a current location of the member-side moving object to the server,
The server comprises:
An implementation status storage unit that saves the implementation status transmitted by the implementation status transmission unit in association with the editing process stored in the synthesis process recording unit by the synthesis process storage unit;
Based on the current time and the current position of the member-side moving object stored in association with the editing process by the implementation status storage means and each time and point of the set included in the editing process, the member-side moving object records the combined process. Movement determination means for determining whether or not movement is possible within a range of a predetermined allowable value according to the synthesis process stored in the unit;
When the movement determining means determines that the member-side moving body is not movable within a predetermined allowable range according to the combining process stored in the combining process recording unit, the association included in the combining process is corrected. Association correction means;
Correction synthesis for distributing the synthesis process including the association corrected by the association correction unit to a navigation device provided in the member-side mobile unit determined to be unmovable within a predetermined allowable range by the movement determination unit. A process management system further comprising a process distribution means. The process management system according to claim 2,
The navigation device to which the synthesis process has been delivered by the synthesis process delivery unit further includes an implementation status inquiry unit that inquires about the implementation status stored by the implementation status storage unit,
The itinerary management system, wherein the server further includes an implementation status distribution unit that distributes the implementation status inquired by the implementation status inquiry unit to the navigation device. 4. The process management system according to claim 1, further comprising a basic process providing server that provides a basic process recorded in the basic process recording unit, wherein the basic process providing server includes:
When the member side terminal refers to the basic process by the basic process reference means,
Either when the server stores the editing process transmitted from the member side terminal in the editing process storing unit in the editing process storing unit, or when the server distributes the combining process to the navigation device by the combining process distribution unit. In one or more cases, the process management system comprises a billing means for billing a predetermined fee to a member by receiving a notification from the server. What is claimed is: 1. A process management program for causing a server to execute a process management by a plurality of member-side moving bodies provided with a navigation device, wherein the process includes a plurality of pairs of a time and a point of the member-side moving body at the time. Has a basic process recording unit that records a basic process including a basic process identifier for identifying a process, which is a basic process of process management.
Edit an editing process, which includes at least one set of points included in the basic process and includes a basic process identifier and the member-side identifier, transmitted from the member-side terminal corresponding to the member-side mobile unit. Editing process storing means for storing in the process recording section,
A basic stroke search unit for searching for a basic stroke recorded in a basic stroke recording unit, based on a basic stroke identifier included in the edit stroke stored in the edit stroke storage unit;
Point comparison means for comparing a set of points included in the basic process searched by the basic process search means with a set of points included in the edit process stored in the edit process storage unit by the edit process storage unit;
Point association generating means for generating an association between the points matched by the point comparing means,
A combining process storing unit that stores, in a combining process recording unit, a combining process including the basic process and the editing process used for comparison by the point comparing unit and the association generated by the point association generating unit;
Process management for functioning as a composite process distribution unit for distributing the composite process stored by the composite process storage unit to a navigation device provided on a member-side mobile unit of a member corresponding to the editing process included in the composite process. program. The process management program according to claim 5,
An editing process in which the current time and the current status of the member-side mobile unit transmitted from the navigation device to which the combined process has been delivered by the combined process delivery unit are stored in the combined process recording unit by the combined process storage unit. An implementation status storage means for storing in association with the
Based on the current time and the current position of the member-side moving object stored in association with the editing process by the implementation status storage means and each time and point of the set included in the editing process, the member-side moving object records the combined process. Movement determination means for determining whether or not movement is possible within a range of a predetermined allowable value according to the synthesis process stored in the unit;
When the movement determining means determines that the member-side moving body is not movable within a predetermined allowable range according to the combining process stored in the combining process recording unit, the association included in the combining process is corrected. Association correction means;
Correction synthesis for distributing the synthesis process including the association corrected by the association correction unit to a navigation device provided in the member-side mobile unit determined to be unmovable within a predetermined allowable range by the movement determination unit. A process management program, further comprising process distribution means. The process management program according to claim 6,
A step of distributing an execution status stored in the execution status storage unit to the navigation device, which is inquired from the navigation device to which the synthesis process has been distributed by the synthesis process distribution unit, further comprising: Management program. A member-side terminal program for controlling a member-side terminal corresponding to the member-side moving body in a course management system in which a server manages a course by a plurality of member-side moving bodies provided with a navigation device, wherein the step includes time and A server including a plurality of sets of the member-side moving body at the time, and the server having a basic process recording unit which records a basic process including a basic process identifier for identifying a basic process, the process being a basic process of process management. And the computer of the member side terminal is
Basic stroke reference means for referring to the basic stroke recorded in the basic stroke recording unit,
An editing step of transmitting to the server an editing step that includes at least one set of points included in the basic step referred to by the basic step reference means and that includes the basic step identifier and the member-side identifier. A member-side terminal program for functioning as a process transmitting means. What is claimed is: 1. A navigation device program for controlling a navigation device provided in a member-side mobile unit in a process management system in which a server manages a process by a plurality of member-side mobile units, the process comprising: The server includes a basic journey recording unit that records a basic journey including a basic journey identifier that identifies the journey and is a basic journey for journey management, and the server includes: Computer
The server is a process including a basic process and an editing process including at least one set of points included in the basic process, and including a basic process identifier and the member-side identifier together with a predetermined association. Route search means for searching for a route of the member-side mobile based on each time and point of the included set;
A navigation device program for functioning as route display means for displaying a route searched by the route search means on a display unit of a navigation device. The navigation device program according to claim 9,
A navigation device program, wherein the navigation device further includes an implementation status transmitting unit that transmits an implementation status including a current time and a current location of the member-side moving object to the server. The navigation device program according to claim 10,
The navigation device program according to claim 1, wherein the navigation device further includes an implementation status inquiry unit for inquiring about an implementation status stored in a server. A basic process providing server program for controlling a basic process providing server that provides a basic process that is a basis of management in a process management system in which a server manages a process performed by a plurality of member-side moving bodies including a navigation device, The basic process includes a basic process identifier for identifying the process, and the basic process providing server includes:
When the member side terminal corresponding to the member side moving body refers to the basic process,
Alternatively, the server may transmit an editing process including at least one set of points included in a basic process and including a basic process identifier and the member-side identifier transmitted from the member-side terminal to the editing process recording unit. If you save to
Alternatively, in one or more cases in which the server distributes a combined process in which the basic process and the editing process are combined with a predetermined association to the navigation device, the server receives a notification from the server to provide the predetermined process to the member. A basic process providing server program for functioning as a charging unit for charging a fee. A computer-readable recording medium on which the program according to claim 5 is recorded. A route management method in which a server manages a process by a plurality of member-side moving bodies provided with a navigation device, wherein the process includes a plurality of pairs of a time and a point of the member-side moving body at the time, wherein the server It has a basic process recording section that records a basic process including a basic process identifier that is a basic process of management and identifies the process, and the process management method includes:
A member-side terminal corresponding to the member-side moving body,
A basic stroke reference step of referring to a basic stroke recorded in the basic stroke recording unit;
An editing step of transmitting to the server an editing step including at least one set of points included in the basic step referred to in the basic step reference step, the editing step including the basic step identifier and the member identifier; Sending step,
Said server,
An editing process storing step of storing the editing process transmitted from the member side terminal in the editing process transmitting step in an editing process recording unit;
A basic stroke search step of searching for a basic stroke recorded in a basic stroke recording unit, based on a basic stroke identifier included in the editing stroke saved in the editing stroke saving step;
A point comparing step of comparing a set of points included in the basic process searched in the basic process search step and a set of sites included in the editing process stored in the editing process recording unit in the editing process storing step,
A point association generation step of generating an association between the points matched in the point comparison step,
A synthesis process storing step of storing a synthesis process including the basic process and the editing process used for comparison in the point comparison step and the association generated in the point association generation step in a synthesis process recording unit;
A synthesizing process that distributes the synthesizing process saved in the synthesizing process to a navigation device provided on a member-side moving body of a member corresponding to an editing process included in the synthesizing process,
The navigation device,
A route search step of searching for a route of the member-side moving object based on each time and point of a set included in the synthesis process distributed in the synthesis process distribution step;
Displaying a route found in the route searching step on a display unit of a navigation device. The process management method according to claim 14,
An implementation status transmitting step in which the navigation device to which the synthesis process has been distributed in the synthesis process distribution step transmits an implementation status including the current time and the current location of the member-side mobile body to the server;
Said server,
An implementation status storing step of storing the implementation status transmitted in the implementation status transmitting step in association with the editing process saved in the combining process recording unit in the combining process saving step;
Based on the current time and the current position of the member-side moving object stored in association with the editing process in the execution status storing step, and each time and point of a set included in the editing process, the member-side moving object records the combined process. A movement determination step of determining whether or not the movement is possible within a range of a predetermined allowable value according to the synthesis process stored in the unit;
If it is determined in the movement determination step that the member-side moving body is not movable within a predetermined allowable range according to the combining process stored in the combining process recording unit, the association included in the combining process is corrected. An association correction step;
Correction synthesis that distributes the synthesis process including the association corrected in the association correction step to the navigation device provided in the member-side moving body that is determined not to be movable within a predetermined allowable value range in the movement determination step. A process management method, further comprising a process distribution step. The process management method according to claim 15,
The navigation device to which the synthesis process has been delivered in the synthesis process delivery step further includes an implementation status inquiry step of inquiring about the implementation status stored in the implementation status storage step.
The itinerary management method further comprising an implementation status distribution step of distributing the implementation status inquired in the implementation status inquiry step to the navigation device. The method according to any one of claims 14 to 17, further comprising a basic process providing server that provides a basic process recorded in the basic process recording unit, wherein the basic process providing server includes:
When the member side terminal refers to the basic process in the basic process reference step,
Either when the server stores the editing process transmitted from the member side terminal in the editing process storing step in the editing process recording unit, or when the server distributes the combining process to the navigation device in the combining process delivering step. In one or more cases, a predetermined fee is charged to a member side by receiving a notification from the server side.

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