CN113056755A - Work result visualization device, work result visualization system, work result visualization method, and work result visualization program - Google Patents

Abstract

The present invention provides a work result visualization device for visualizing work results of workers who sequentially pass through a plurality of areas, the device including: a storage unit that stores position information of each area; an information acquisition unit that acquires information on the position, time, and work volume of each area of an operator; a section subdividing unit that subdivides the actual path into a plurality of sections based on information on the actual path of the operator and position information on each area stored in the storage unit; a display unit that displays the actual route on the map image; a display control unit that controls the display unit to display a moving image that displays the position of the operator on the actual route so that the position of the operator on the actual route changes with the passage of the playback time, based on the position information and the time information acquired by the information acquisition unit; and a section determination unit that determines which of the plurality of sections subdivided by the section subdivision unit the position of the operator displayed in the moving image broadcast is included in, the display control unit controls the display unit to display an information image that displays the information on the amount of work acquired by the information acquisition unit in the section determined by the section determination unit, simultaneously with the moving image.

Description

Work result visualization device, work result visualization system, work result visualization method, and work result visualization program

Technical Field

The present invention relates to an operation result visualization device, an operation result visualization system, an operation result visualization method, and an operation result visualization program for visualizing an operation result of an operator.

Background

As such a technique, a device for displaying a travel track of a vehicle based on position information and time information acquired based on a GPS signal received by a GPS (Global Positioning System) receiver mounted on the vehicle has been known (see, for example, patent document 1). In the device described in patent document 1, the travel locus of the vehicle is displayed together with the acceleration and the turning radius during travel.

Documents of the prior art

Patent document

Patent document 1: japanese patent No. 5774847.

Disclosure of Invention

Problems to be solved by the invention

Patent document 1 describes a technique that may be fundamental to visualizing the work result of a worker who runs out of the field. However, when visualizing the work results of the workers who pass through the plurality of work areas, it is preferable to display the movement route and the information organized in the work unit together so as to be easy to view. However, the device described in patent document 1 displays only the movement route together with information that changes with time, such as vehicle information, and is difficult to visualize the work result.

Means for solving the problems

One aspect of the present invention is a work result visualization device for visualizing work results of workers who sequentially pass through a plurality of work areas, the device including: a storage unit that stores position information of each of the plurality of work areas; an information acquisition unit that acquires position information of an operator, time information corresponding to the position information, and information on the amount of work in each of the plurality of work areas; a section subdividing unit that subdivides the actual path into a plurality of sections based on information on the actual path along which the operator actually moves and position information on each of the plurality of work areas stored in the storage unit; a display unit that displays the actual route on the map image; a display control unit that controls the display unit to display a moving image that displays the position of the operator on the actual route so that the position of the operator on the actual route changes with the passage of the playback time, based on the position information and the time information acquired by the information acquisition unit; and a section determination unit that determines which of the plurality of sections subdivided by the section subdivision unit the position of the operator displayed in the moving image display is included in. The display control unit controls the display unit to display an information image, which displays the information on the amount of work acquired by the information acquisition unit in the section determined by the section determination unit, simultaneously with the moving image.

A work result visualization system according to another aspect of the present invention includes a work result visualization device and a mobile terminal that moves together with a mobile person and transmits position information of the mobile person and time information corresponding to the position information to the work result visualization device.

Another aspect of the present invention is a work result visualization method for visualizing work results of workers who sequentially pass through a plurality of work areas, including: acquiring position information of an operator, time information corresponding to the position information, and information on the amount of work in each of a plurality of work areas; subdividing the actual path into a plurality of sections based on information on the actual path along which the operator actually moves and position information on each of a plurality of work areas stored in advance; displaying the actual path on the map image; displaying a moving image that displays the position of the operator on the actual route so that the position of the operator on the actual route changes with the passage of the playback time, based on the acquired position information and time information; determining which of the plurality of subdivided sections the position of the operator displayed in the moving image display is included in; an information image displaying information on the acquired amount of work in the determined section is displayed simultaneously with the moving image.

Another aspect of the present invention is a work result visualization program for visualizing work results of workers who sequentially pass through a plurality of work areas, the program causing a computer to execute: acquiring position information of an operator, time information corresponding to the position information, and information on the amount of work in each of a plurality of work areas; subdividing the actual path into a plurality of sections based on information on the actual path along which the operator actually moves and position information on each of a plurality of work areas stored in advance; displaying the actual path on the map image; displaying a moving image that displays the position of the operator on the actual route so that the position of the operator on the actual route changes with the passage of the playback time, based on the acquired position information and time information; determining which of the plurality of subdivided sections the position of the operator displayed in the moving image display is included in; an information image displaying information on the acquired amount of work in the determined section is displayed simultaneously with the moving image.

Effects of the invention

According to the present invention, the moving route and the evaluation result for each section can be displayed together.

Drawings

Fig. 1 is a diagram showing an example of a system configuration of a management system including a work result visualization device according to an embodiment of the present invention.

Fig. 2 is a block diagram showing a schematic configuration of the distributor terminal of fig. 1.

Fig. 3 is a block diagram showing a schematic configuration of the management server of fig. 1.

Fig. 4 is a diagram illustrating the distribution order of the work areas and the positional information of the entrance and exit of each work area stored in the management information area of fig. 3.

Fig. 5A is an example of a screen display displayed on the display unit of the administrator terminal shown in fig. 1.

Fig. 5B is an example of a screen display displayed on the display unit of the administrator terminal in fig. 1 when information corresponding to each trace is displayed.

Fig. 6 is an example of a screen display displayed on the display unit of the administrator terminal shown in fig. 1 focusing on the stay time.

Fig. 7 is a diagram illustrating a list of work results displayed on the display unit of the administrator terminal shown in fig. 1.

Fig. 8 is a diagram illustrating a list of work results displayed on the display unit of the administrator terminal shown in fig. 1.

Fig. 9 is an example of a screen display displayed on the display unit of the administrator terminal shown in fig. 1 focusing on the moving speed.

Fig. 10 is an example of screen display for specifying an actual route displayed on a moving image and the like, and displayed on the display unit of the administrator terminal in fig. 1.

Fig. 11 is a flowchart showing an example of processing executed by the management server in fig. 3.

Fig. 12 is a block diagram showing a schematic configuration of the administrator terminal of fig. 1.

Detailed Description

An embodiment of the present invention will be described below with reference to fig. 1 to 12. The work result visualization device according to the embodiment of the present invention can be used in various industry management systems that manage workers who perform work and movement paths when the workers move in a plurality of work areas. In particular, an example of a management system for a delivery person to deliver, and deliver a delivery service such as delivery of a mail, such as a good, a leaflet, a letter, and a postcard will be described below. That is, an example of managing a delivery worker who performs delivery and delivery work and a travel route at the time of delivery at a delivery site such as a delivery company or a post office will be described.

In such delivery and delivery services, the manager needs to grasp the activity (dynamics) of the delivery person at the time of delivery. When the delivery worker sequentially performs the delivery work in a plurality of work areas, it is preferable to grasp the movement of the delivery worker, the required time and the amount of work in each work area, and the like. Therefore, in the present embodiment, the work result visualization device is configured to display the delivery and delivery work by the delivery operator, the required time and the work amount in each work area, and the like together.

[ functional configuration of management System 100 ]

First, a functional configuration of the management system 100 according to the embodiment of the present invention will be described. Fig. 1 is a diagram showing an example of a system configuration of the management system 100. As shown in fig. 1, the management system 100 includes a plurality of (2 in the figure) distributor terminals 1A and 1B connected to a network 4 including a public wireless communication network represented by the internet, a mobile phone network, and the like, a management server 2, and a manager terminal 3.

In such a management system 100, the management server 2 and the manager terminal 3 constitute the work result visualization device 5 according to the embodiment of the present invention as a whole. The management server 2 or the manager terminal 3 may also constitute the work result visualization device 5 alone. The network 4 also includes a closed communication network provided for each predetermined management area, such as a Wireless LAN (local area network) and Wi-Fi (Wireless Fidelity) (registered trademark).

The delivery worker terminals 1A and 1B can be used by a delivery worker A, B who performs delivery and delivery work being stored in a pocket, a bag, a pouch, or the like of clothes or being installed in a rack or the like of the vehicles 6A and 6B used for the delivery and delivery work. In the present embodiment, a smartphone, a tablet terminal, a mobile phone, a PDA (Personal Digital Assistant), and various wearable terminals that can perform public wireless communication connection are collectively referred to as distributor terminals 1A and 1B.

The distributor terminal 1A and the distributor terminal 1B have a common configuration. The number of the distributor terminals 1A and 1B may be 3 or more. The vehicles 6A and 6B are transportation vehicles such as a four-wheel vehicle, a motorcycle, a bicycle, and a cart, and fig. 1 shows a light-duty vehicle 6A and a bicycle 6B with a prime mover, which are widely used for delivery and distribution of mail such as a cargo, a leaflet, letters, and a postcard, as an example. The delivery worker A, B may perform the delivery and delivery operation on foot without using the vehicles 6A and 6B.

Next, the respective configurations of the distributor terminals 1A and 1B, the management server 2, and the manager terminal 3 will be described.

< Dispenser terminals 1A, 1B >

First, the dispenser terminals 1A and 1B will be described. Various kinds of application software can be installed in the distributor terminals 1A and 1B, and the distributor terminals 1A and 1B of the present embodiment constitute a management system using application software installed in a smartphone. By using commercially available smartphones, the cost required for system construction can be controlled.

Fig. 2 is a block diagram showing a schematic configuration of the distributor terminals 1A and 1B. As shown in fig. 2, the dispenser terminal 1A includes a control unit 10, a storage unit 11, a wireless unit 12, a sensor unit 13, a display unit 14, and an input unit 15.

The storage unit 11 is composed of a semiconductor memory, a hard disk, and the like. The storage unit 11 stores various information including an Operating System (OS), software including an application program for supporting delivery and delivery operations, map information such as a road map and a house map, and customer information of a delivery destination. The customer information includes information related to the customer, such as the presence or absence of an express cabinet, in addition to the address and telephone number of the delivery destination. The software, the map information, and the customer information may be stored in the storage unit 11 in advance, or may be acquired from the management server 2.

The wireless unit 12 includes a DSP (Digital Signal Processor) and the like, and is configured to be capable of wireless communication with the management server 2 via a wireless communication network typified by a mobile telephone network such as 3G, LTE (long term evolution), 4G, or 5G. The wireless unit 12 may include a short-range wireless communication unit (not shown) to which a short-range wireless communication technology such as Wi-Fi (registered trademark) or Bluetooth (registered trademark) can be applied. The wireless unit 12 can transmit a registration ID (also referred to as "distributor ID") for identifying the distributor A, B, current position information of the distributor A, B or the vehicles 6A and 6B, speed information, and the like to the management server 2.

The sensor unit 13 includes a GPS sensor 13a that receives positioning signals from a plurality of GPS satellites and measures the absolute position (latitude and longitude) of the corresponding dispenser A, B, a gyro sensor 13b that detects an angular velocity, and the like. When the Positioning signal cannot be received from the GPS satellite, the current position of the distributor A, B or the vehicles 6A and 6B can be calculated based on the base station information of the wireless communication network acquired from the wireless unit 12 by AGPS (Assisted Global Positioning System) communication.

The display unit 14 is formed of a display device such as a liquid crystal display or an organic EL panel. The display unit 14 can receive an instruction from the control unit 10, display a map, icons of operation buttons for a touch panel, and the like, and display various information such as the current position of the distributor A, B or the vehicles 6A and 6B, the vicinity of the current position, and a map near the distribution destination.

The input unit 15 is constituted by a physical switch such as a numeric keypad operated by the dispenser A, B, an input device (not shown) such as a touch panel provided to be superimposed on the display surface of the display unit 14, and the like. A signal generated based on an operation input from the input unit 15, for example, by the dispenser A, B pressing a numeric keypad or a touch panel is output to the control unit 10, whereby the dispenser A, B can perform an operation such as switching the screen display of the display unit 14.

The dispenser terminals 1A and 1B may further include a speaker, a vibrator, an illumination, a microphone, and the like, and are not illustrated. The speaker, vibrator, and illumination report various information to the distributor by sound, vibration, and light. The speaker outputs a voice to the deliverer, and the microphone collects a voice uttered by the deliverer. Thus, various information can be output by voice from the speaker, and various commands input by voice from the dispenser through the microphone can be input to the control unit 10 by using the voice recognition technology.

The control unit 10 includes a microprocessor including a CPU (central processing unit), a RAM (random access memory), a ROM (read only memory), an I/O (input/output interface), and the like. The CPU executes a program stored in advance, and transmits and receives signals to and from the storage unit 11, the wireless unit 12, the sensor unit 13, the display unit 14, and the input unit 15. The control unit 10 has a functional configuration including a display control unit 101, a connection processing unit 102, and a position information notification unit 103.

The display control unit 101 generates an image signal in response to an operation of the input unit 15 or reception of various information by the wireless unit 12, and transmits the image signal to the display unit 14, thereby controlling screen display of the display unit 14. The display control unit 101 displays a screen including a login screen for logging in the management system 100 on the display unit 14.

The connection processing unit 102 transmits the login ID and the password input by the distributor A, B through the input unit 15 on the login screen displayed on the display unit 14 to the management server 2 via the wireless unit 12. Thus, the distributor terminals 1A and 1B are connected to the management server 2 in a communicable state. The log-in input by the dispenser is performed when the dispenser starts working, i.e. when the dispenser departs from the delivery site.

When the logout (logout) is input through the input unit 15, the connection processing unit 102 transmits the logout to the management server 2 via the wireless unit 12. This completes the communication connection between the distributor terminals 1A and 1B and the management server 2. When the dispenser finishes working, that is, when the dispenser returns to the delivery site, the exit input by the dispenser is performed. The exit may be automatically executed based on the time and location information when the delivery person returns to the delivery site.

The position information notification unit 103 associates the dispenser ID with the current position information of the dispenser A, B or the vehicles 6A and 6B moving together with the dispenser terminals 1A and 1B, which is calculated based on the signal received by the sensor unit 13(GPS sensor 13a), and the current time information acquired from a timer unit (not shown), and transmits the information to the management server 2 via the wireless unit 12 at predetermined time intervals (for example, at 1 second intervals). The time information includes not only time but also information such as year, month, day, and the like.

Since the positions of the distributor A, B and the vehicles 6A and 6B change from moment to moment, when the current position information is acquired at predetermined time intervals, the position obtained from the latest current position information may not exactly coincide with the actual position. However, since the deviation is small, the position obtained from the current position information acquired at the predetermined time interval can be regarded as the current position.

Further, the present position information, the present time information, and the like of the distributor A, B or the vehicles 6A and 6B acquired at predetermined time intervals may be collected and transmitted at a plurality of times (so-called burst transmission). The acquisition time interval (for example, 1 second interval) of the current position information of the distributor or the vehicle, the number of transmissions at one time when a plurality of burst transmissions are collected, and the like can be set in advance.

< management Server 2 >

Next, the management server 2 is explained. In the present embodiment, the management server 2 is described as one server having various functions, but may be a distributed server in which each function is configured by a separate server, or may be realized by a cloud server (virtual server).

Fig. 3 is a block diagram showing a schematic configuration of the management server 2. As shown in fig. 3, the management server 2 includes a control unit 20, a storage unit 21, a communication unit 22, a display unit 24, and an input unit 25. The display unit 24 and the input unit 25 may be omitted. The display unit 24 and the input unit 25 may be configured by another information terminal (not shown) connected to the management server 2.

The storage unit 21 is constituted by a semiconductor memory, a hard disk drive, and the like. The storage unit 21 stores an Operating System (OS), software called an application, and other various information. Therefore, various storage areas such as a delivery person information area 211, a vehicle information area 212, a delivery destination or delivery destination information area 213, a map information area 214, and a management information area 215 are secured in the storage unit 21. The information area is, for example, a table in a database management system.

In the distributor information area 211, basic information on the distributor, for example, distributor information for managing the name of the distributor, the affiliate site ID, and the like, is stored for each employee ID (also referred to as "distributor ID") as identification information of the distributor. In the dispenser information area 211, vehicles used by the dispensers, that is, vehicle IDs which are identification information of the vehicles 6A and 6B are stored in association with the dispenser IDs. The correspondence relationship between the vehicle ID and the distributor ID is set in advance by a manager at a distribution site, for example, before the start of delivery and distribution work on a day.

In the vehicle information area 212, information relating to the vehicle, for example, information on the type of the vehicle such as a four-wheel vehicle, a motorcycle, or a bicycle, the size of the cargo box, and the like is stored for each vehicle ID.

The delivery destination or delivery destination information area 213 stores information on delivery destinations including addresses (latitude and longitude) of the delivery destinations, telephone numbers, work areas including the delivery destinations, and a deliverer A, B who is in charge of the work areas including the delivery destinations. The work area is an area set in advance by an administrator of a distribution site for the purpose of distributing delivery and distribution work to each distributor, and is configured by, for example, distribution destinations of 10 to 30 households corresponding to one or more blocks. The distributors A, B are responsible for the delivery and distribution of work in each of the responsible areas constituted by a plurality of work areas.

Map information such as a road map and a house map is stored in the map information area 214. The map information includes road link information, map data for display for displaying a background such as a road and a road map, and the like. These map information are updated periodically.

The management information area 215 stores the delivery order of the work areas, the position information of the entrance and exit of each work area, the information of the work amount of each work area, and the time-series position information of the deliverer A, B or the vehicles 6A and 6B acquired from the deliverer terminals 1A and 1B, which are set in advance by the administrator of the delivery site.

The position information of the entrance and the exit of each work area is set and stored in advance as a series of entrance/exit patterns via the manager terminal 3 for each responsible area including a plurality of work areas responsible for each delivery worker. A plurality of entrance/exit modes can be set for the same responsible area.

The work volume in each work area is a distribution volume of a mail such as a cargo, a leaflet, a letter, a postcard, or the like, and may be set in advance based on map information, customer information, or the like as the number of distribution customers per parcel, or may be set via the administrator terminal 3 or the like as the number of distribution of a mail such as a cargo, a leaflet, a letter, a postcard, or the like that is actually distributed.

Fig. 4 is a diagram illustrating the delivery order of the work areas and the positional information of the entrance and exit of each work area stored in the management information area 215. The administrator of the distribution site divides the distribution destination governed by the distribution site into a plurality of work areas in units of, for example, a block, a house number, a large collective housing, and the like, and assigns a distributor A, B responsible for delivery and distribution work in each work area to each work area.

Specifically, the work area and the deliverer A, B are set as information associated with the address (latitude and longitude) of the delivery destination via the manager terminal 3. In the example of fig. 4, 5 work areas BL1 to BL5 are assigned to one distributor, for example, distributor a. In addition, the delivery order of the plurality of work areas (in the example in the figure, BL1 → BL2 → BL3 → BL4 → BL5) in which each delivery operator is responsible and the delivery order of the delivery destinations in each work area are also set.

The distribution nodes on the map and the outlets #0Exit to #5Exit and the inlets #1Enter to #6Enter of the work areas BL1 to BL5 are also set. As shown in fig. 4, the outlets #0Exit to #5Exit and the inlets #1Enter to #6Enter of the distribution dots and the work areas BL1 to BL5 are set as line segments.

Line segments indicating the entrances #1Enter to #5Enter of the respective work areas BL1 to BL5 are arranged at a length of a road width so as to intersect the movement path at the time of delivery on the road near the delivery destination whose delivery order in the respective work areas is the first. Similarly, line segments indicating exits #1Exit to #5Exit of the work areas BL1 to BL5 are arranged in the road width length so as to intersect the movement path at the time of delivery on the road near the final delivery destination in the delivery order in each work area.

A common line segment is set for the distribution network and the gateway between the adjacent operation areas (in the figure, #0Exit/#6Enter, #2Exit/#3Enter, #3Exit/#4 Enter). Each line segment is defined by, for example, the positions (latitude, longitude) of both ends on the map. These pieces of information set via the administrator terminal 3 are transmitted to the management server 2 and stored in the management information area 215.

The communication unit 22 is equipped with a communication protocol capable of performing wireless communication such as 3G, LTE, 4G, and 5G, for example, when transmitting and receiving signals to and from the distributor terminals 1A and 1B. On the other hand, the communication unit 22 is equipped with a communication protocol capable of wired communication (for example, an internet line) or wireless communication when transmitting and receiving signals to and from the administrator terminal 3.

The control unit 20 includes a processor having a CPU, RAM, ROM, I/O, and the like. The control unit 20 has a functional configuration including a connection processing unit 201, an information acquisition unit 202, a route calculation unit 203, a section division unit 204, a required time calculation unit 205, a display control unit 206, a section determination unit 207, and an information output unit 208.

The connection processing unit 201 executes a login process from the distributor terminals 1A and 1B, and performs a connection process with the distributor terminals 1A and 1B. The connection processing unit 201 executes exit processing from the dispenser terminals 1A and 1B, and ends the connection with the dispenser terminals 1A and 1B. The connection processing unit 201 also executes a login process from the administrator terminal 3, performs a connection process with the administrator terminal 3, executes a logout process from the administrator terminal 3, and terminates the connection with the administrator terminal 3.

The information acquisition unit 202 acquires various information by receiving data transmitted from the distributor terminals 1A and 1B to the management server 2 and data transmitted from the manager terminal 3 to the management server 2 via the communication unit 22.

The information acquired by the information acquisition unit 202 includes the position information of the distributor A, B or the vehicles 6A and 6B transmitted from the position information notification unit 103 of each distributor terminal 1A and 1B, the time information corresponding to the position information, the distribution order of the work areas transmitted from the manager terminal 3, the position information of each work area (the position information of the entrance and the exit), the information of the work amount of each work area, and the like. The location information is specifically expressed in latitude and longitude. These pieces of information transmitted from the distributor terminals 1A and 1B and the manager terminal 3 are stored in the management information area 215.

The route calculation unit 203 calculates an actual route RT from the start point PS to the end point PE on which the dispenser A, B actually moves, based on the time-series position information of the dispenser A, B or the vehicles 6A and 6B stored in the management information area 215.

As shown in fig. 4, the actual route RT calculated by the route calculation unit 203 is composed of a trace point showing the position of the distributor A, B (or the vehicles 6A and 6B), for example, the distributor a in units of a predetermined time. That is, the actual route RT of the dealer a is formed by arranging the traces from the start point PS to the end point PE corresponding to the position of the dealer a in time series.

The section subdividing unit 204 subdivides the actual route RT calculated by the route calculation unit 203 into a plurality of sections based on the position information of each of the plurality of work areas BL1 to BL5 stored in the storage unit 21. In the example of fig. 4, the work areas BL1 to BL5 are subdivided into 5 work areas SCT1 to SCT5 and 4 moving areas SCTBA from the distribution site to the work area BL1, from the work area BL1 to the work area BL2, from the work area BL4 to the work area BL5, and from the work area BL5 to the distribution site.

Specifically, the positions (latitudes and longitudes) of the intersections CP1 to CP8 between the actual route RT from the start point PS to the end point PE calculated by the route calculation unit 203 and the entrances #1Enter to #5Enter and the exits #1Exit to #5Exit of the work areas BL1 to BL5 are calculated.

When there is a trace corresponding to each intersection CP, the passage time t of the intersection CP is calculated (determined) based on the time information of the trace corresponding to the intersection CP. In addition, when there is no trace of dots equivalent to the intersection CP, that is, when the intersection CP is m: when the internal division points of n are relative, the passing time t of the intersection point CP is calculated based on the time information of the trace of the immediately preceding and immediately following points.

The required time calculation unit 205 calculates the required time required for the respective work sections SCT1 to SCT5 and the movement section SCTBA to pass through the intersection points CP1 to CP8 calculated by the section segmentation unit 204. That is, the required time required for passing through the respective working sections SCT1 to SCT5 and the movement section SCTBA is calculated from the difference between the passing time t of the intersection CP of the entrance and the passing time t of the intersection CP of the exit in the respective working areas BL1 to BL 5.

The display control unit 206 generates an image signal in response to an instruction from the administrator terminal 3, transmits the image signal to the administrator terminal 3, and causes the display unit 34 of the administrator terminal 3 to display various images. Fig. 5A is an example of the screen display DP displayed on the display unit 34 of the administrator terminal 3. In the example of fig. 5A, the actual path RT is displayed.

A moving image DP1, an information image DP2, and a main menu DP3 are displayed on the screen display DP of fig. 5A, the moving image DP1 being a map image in which the actual routes RTa and RTb of the distributor A, B are displayed on the map image centered around the position of the distributor a; the information image DP2 shows the evaluation information of the distributor A, B on the moving image DP 1; the main menu DP3 shows various menus to be selectable.

In the example of fig. 5A, the actual routes RTa and RTb of the 2 distributors A, B are compared, but the moving image DP1 and the information image DP2 may be displayed on the actual route RT of the 1 distributor. In addition, the actual routes RT on different delivery days can be compared with respect to the same dispenser. Similarly, the comparison of the case where different entrance patterns are applied to the actual routes RT of the same delivery date by the same delivery person can be performed. Further, the actual routes RT of 3 or more distributors can be compared.

The screen display DP in fig. 5A is a screen display when the "comparison playback player" is selected in the main menu DP3, and the actual paths RTa, RTb of the distributor a designated as the evaluation target and the distributor B designated as the comparison target are displayed in the moving image DP 1. The date of distribution, the responsible area, and the entrance/exit pattern corresponding to the actual routes RTa and RTb are selected by pull-down menus DP10a and DP10b on the moving image DP 1.

The actual paths RTa, RTb of the distributor A, B of the moving image DP1 are displayed in different manners, for example, as dots of different display colors, respectively. Instead of displaying the dot traces of different colors, dot traces of different shapes or the like may be used. In the example of FIG. 5A, the actual path Rta of dispenser A is shown as a circular stipple and the actual path RTb of dispenser B is shown as a diamond stipple. On the actual paths RTa, RTb of the distributor A, B, icons Ia, Ib indicating the loci of the positions (play positions) Pa, Pb of the distributor A, B at specific times (play times) tva, tvb are displayed.

The play times tva, tvb can be played, stopped, fast-forwarded, and rewound through the play menus DP11a, DP11 b. The trace and icons Ia, Ib showing the positions Pa, Pb of the distributor A, B change with the elapse of the play times tva, tvb. That is, the moving image DP1 is played and displayed as the play times tva and tvb pass.

Each trace constituting the actual paths RTa and RTb is displayed so as to be selectable by the input unit 35 of the administrator terminal 3. For example, by pressing each trace through a touch panel (input unit 35) provided in the display unit 34 of the administrator terminal 3, the time corresponding to each trace can be displayed.

Fig. 5B shows an example of the screen display DP when information corresponding to each trace is displayed. As shown in fig. 5B, when each trace constituting the actual path RTa, RTb is pressed, various information MI of time, speed, and GPS accuracy corresponding to each trace is displayed. The time information TI of the various information MI is displayed so as to be selectable by the input unit 35 of the administrator terminal 3, and the time information TI is pressed to move the playback time to the time.

The trace corresponding to the time before and the trace corresponding to the time after the trace of the positions Pa, Pb of the distributor A, B showing the play times tva, tvb, of the actual paths RTa, RTb of the distributor A, B are displayed differently from each other. In the example of fig. 5A, the portions corresponding to the time points before the play time tva, tvb are displayed as black traces, and the portions corresponding to the time points after the play time tva, tvb are displayed as white traces.

As shown in fig. 5A, the information image DP2 includes an information image DP2a that displays the evaluation information of the distributor a on the moving image DP1 and an information image DP2B that displays the evaluation information of the distributor B. The information images DP2a and DP2b display information (the number of responsible items) of the job amount acquired by the information acquisition unit 202, the required time (delivery time) calculated by the required time calculation unit 205, the job efficiency (delivery efficiency), and the passage time for each of the job sections SCT1 to SCT5 subdivided by the section subdivision unit 204. The movement section SCTBA displays a required time (movement time) and a passage time.

When the moving image DP1 is displayed by the display controller 206, the section determiner 207 determines which of the plurality of sections subdivided by the section subdivider 204 the positions of the distributors A, B at the broadcast times tva and tvb are included. In the example of fig. 5A, the positions of the distributors A, B at the play times tva and tvb are both included in the work section SCT1 corresponding to the work area BL 1.

The evaluation information of the work section (the work section SCT1 in the example of fig. 5A) determined by the section determination unit 207 to include the positions of the distributors A, B at the broadcast times tva and tvb is highlighted in the information images DP2a and DP2 b. For example, as shown in fig. 5A, the icons Ia and Ib indicating the loci showing the positions Pa and Pb of the distributor A, B are highlighted with the same display color. The sections highlighted in the information images DP2a and DP2b are automatically switched according to the position of the distributor A, B in the moving image DP 1.

The sections displayed in the information images DP2a and DP2b are displayed so as to be selectable by the input unit 35 of the administrator terminal 3. For example, by pressing the name of each section displayed in the information images DP2a and DP2b through the touch panel (input unit 35) provided in the display unit 34 of the administrator terminal 3, the playback position can be jumped to the section.

When the section displayed in the information images DP2a and DP2b is selected via the input unit 35, the position of the distributor A, B of the moving image DP1 moves to the start point of the selected section. In other words, the playback times tva and tvb of the moving image DP1 are switched to the entry times into the selected section. Such section selection operations can be independently performed on the information images DP2a and DP2 b.

Fig. 6 is an example of a screen display DP displayed on the display unit 34 of the manager terminal 3 focusing on the stay time of the distributor at one location or within a certain range. Fig. 6 is an example of the screen display DP when 1 distributor a is designated, and as in fig. 5A, a moving image DP1, an information image DP2, and a main menu DP3 are displayed and a sub menu DP4 is displayed in addition to these.

The submenu DP4 displays 3 tabs "actual GPS", "performance", and "setting" so as to be selectable. Fig. 6 shows a case where the "performance" tab of the submenu DP4 is selected, and an information image DP2 is displayed below the submenu DP4, and the information image DP2 displays evaluation information (performance) of the specified distributor a.

When the "setting" tab of the submenu DP4 is selected, control panels DP5 and DP6 (fig. 9) for changing the display setting of the moving image DP1 are displayed below the submenu DP 4. In addition, when the "actual GPS" tab of the sub-menu DP4 is selected, a control panel DP7 (fig. 10) for specifying the delivery date, the responsible area, and the entrance/exit mode of the actual route RT displayed on the moving image DP1 is displayed below the sub-menu DP 4.

In the screen display DP of fig. 6, the button BT1 and the bookmark button BM are displayed in the play menu DP11 of the moving image DP1 to be selectable. When the button BT1 is pressed by the input unit 35, the stop positions SP1 to SP4 at which the delivery person a stops for a predetermined time (for example, 3 minutes) or longer are displayed on the map image of the moving image DP 1. The stay time and the stay time at each of the stay positions are displayed in the vicinity of the stay positions SP1 to SP 4. When the bookmark button BM is pressed, data corresponding to the screen display DP at that time can be added as a bookmark.

In the screen display DP of fig. 6, the "display stay time and stay time" can be switched to display or non-display by pressing it through the input unit 35. In the example of fig. 6, the stay times and stay times ST1 and ST3 corresponding to the stay positions SP1 and SP3 are displayed, and the stay times and stay times corresponding to the stay positions SP2 and SP4 are not displayed.

Fig. 7 is a diagram illustrating a list of job results (performances) of the distributor A, B displayed when the "performances list" is selected in the main menu DP3 of fig. 6. As shown in fig. 7, in the performance list, a link button LK linked to the dynamic playback player is displayed for each of the pieces of work result data in each section. By pressing the link button LK, it is possible to move to the screen display DP (fig. 6) of the dynamic play player and to implement dynamic play from the play position corresponding to the section designated by the link button LK.

Fig. 8 is a diagram illustrating a list of bookmarks displayed when "bookmark list" is selected in the main menu DP3 of fig. 6. As shown in fig. 8, in the bookmark list, as in the performance list of fig. 7, for each data added as a bookmark by the bookmark button BM of the play menu DP11 of fig. 6, a link button LK linked to the dynamic play player is displayed.

Fig. 9 is an example of the screen display DP displayed on the display unit 34 of the manager terminal 3 focusing on the moving speed of the delivery person. Fig. 9 is an example of the screen display DP when 1 distributor a is designated, as in fig. 6, and displays a moving image DP1, a main menu DP3, and a sub-menu DP4, as in fig. 6. Fig. 9 shows a case where the "setting" tab of the submenu DP4 is selected, and control panels DP5 and DP6 for changing the display setting of the moving image DP1 are displayed below the submenu DP 4.

On the control panel DP5, 3 check boxes "plan work area", "line of movement between work areas", and "visualization of speed" are displayed so as to be selectable. When the check box of "plan work area" is pressed through the input unit 35 to check (select), for example, as shown in fig. 5A, the name of the work area (in fig. 5A, the work area BL1) is displayed on the moving image DP 1. On the other hand, when the check box of "plan job region" is pressed and the check is canceled, the job region on the moving image DP1 becomes non-displayed.

When the check box of the "inter-work area movement line" of the control panel DP5 is pressed and checked, for example, as shown in fig. 5A, the actual route RTa of the distributor a including the part corresponding to the movement section SCTBA is displayed. On the other hand, when the check box of the "inter-work-area movement line" is pressed to cancel the check, the part of the actual route Rta of the distributor a corresponding to the movement section SCTBA is not displayed.

When the check box of "speed visualization" of the control panel DP5 is pressed for checking, each trace of the actual route RTa of the dispenser a is displayed, for example, in color, so as to correspond to the moving speed of the dispenser a or the vehicle 6A at the time corresponding to the trace. In addition, a control panel DP6 is displayed below the control panel DP 5. On the other hand, when the checkbox "visualization of speed" is pressed to cancel the check, each trace of the actual path RTa returns to the same normal display as in fig. 5A, and the control panel DP6 becomes non-display.

In the control panel DP6, an arbitrary value can be input and changed (set) as a moving speed corresponding to each display color via the input unit 35. And an update button BT2 is displayed on the control panel DP6 to be selectable. When the update button BT2 of the control panel DP6 is pressed via the input section 35, the display of the actual path RTa of the moving image DP1 is updated in accordance with the setting of the control panel DP 6.

Fig. 10 is an example of the screen display DP displayed on the display unit 34 of the manager terminal 3 when the distribution date, the responsible area, and the entrance/exit mode of the actual route RT displayed on the moving image DP1 are specified. Fig. 10 shows a case where the "actual GPS" tab of the submenu DP4 is selected, and a control panel DP7 for specifying the distribution date, the responsible area, and the entrance/exit mode of the actual route RT displayed on the moving image DP1 is displayed below the submenu DP 4.

On the control panel DP7, 3 selection boxes of "date selected", "area in charge of selection", and "entrance/exit mode selected" are displayed so as to be selectable. When the selection frame of "select date" is selected via the input unit 35, a calendar based on the operation date can be displayed, and the delivery date can be specified via the input unit 35.

When the selection frame of "select responsible area" is selected via the input unit 35, all the responsible areas managed at the distribution site are displayed in a selectable list, and a specific responsible area can be specified via the input unit 35.

When the selection frame of "select entrance mode" is selected via the input unit 35, all entrance modes set in advance for the charge area specified by the selection frame of "select charge area" are displayed in a selectable list, and a specific entrance mode can be specified via the input unit 35. In addition, when a specific responsible area is not specified by the selection frame of "select responsible area", the entrance mode is not displayed and cannot be specified.

And an update button BT3 is displayed on the control panel DP7 to be selectable. When the update button BT3 of the control panel DP7 is pressed via the input section 35, the actual path RTa designated by the control panel DP7 is displayed on the moving image DP 1.

The information output unit 208 in fig. 3 outputs various kinds of information by transmitting data from the management server 2 to the administrator terminal 3 via the communication unit 22. The information output by the information output unit 208 includes an image signal and the like generated by the display control unit 206 and transmitted to the administrator terminal 3.

Fig. 9 is a flowchart showing an example of processing executed by the CPU of the management server 2 according to a program stored in advance. The processing shown in this flowchart is started when an instruction from the manager terminal 3 is received, for example, when the delivery date, the responsible area, and the entrance and exit mode of the actual route RT are designated through the control panel DP7 of fig. 10 and the update button BT3 is pressed.

First, in step S1, the process of the information acquisition unit 202 reads a command from the administrator terminal 3 via the communication unit 22. Then, the management information area 215 reads the time-series position information of the designated distributor A, B on the designated delivery date, the entrance/exit pattern of the designated responsible area, and the information of the amount of work in the work areas BL1 to BL 5.

Next, in step S2, the processing of the route calculation unit 203 calculates the actual routes RTa and RTb on which the designated delivery person A, B actually moves, based on the time-series positional information acquired in step S1. Next, in step S3, the actual routes RTa and RTb calculated in step S2 are subdivided into the work sections SCT1 to SCT5 and the movement section SCTBA by the processing performed by the section subdividing unit 204. Next, in step S4, the required time of each of the job sections SCT1 to SCT5 and the movement section SCTBA is calculated by the processing of the required time calculation unit 205.

Next, in step S5, the display control unit 206 generates an image signal for displaying various images including the moving image DP1 and the information image DP2(DP2a, DP2b) of the designated actual routes RTa and RTb of the distributors A, B. Next, in step S6, the image signal generated in step S5 is transmitted to the administrator terminal 3 by the processing of the information output unit 208.

Then, in step S7, the section determination unit 207 determines whether or not the playback times tva and tvb have changed. When affirmative in step S7 (S7: yes), the routine proceeds to step S8, and when negative (S7: no), the process ends. In step S8, it is determined whether the playback positions Pa and Pb corresponding to the playback times tva and tvb are included in the job sections SCT1 to SCT5 and the movement section SCTBA, and the process returns to step S5.

The administrator of the distribution site can grasp the activities of the distributors A, B at the time of distribution by confirming the dynamics of the actual routes RTa and RTb of the distributors A, B and the positions Pa and Pb of the distributors A, B on the actual routes RTa and RTb via the administrator terminal 3. Further, since the activity of the distributor A, B, the distribution time per work area, the amount of work, the time for moving between work areas, and the like can be grasped together, the activity of the distributor can be analyzed, and the work efficiency can be improved.

< administrator terminal 3 >

Next, the administrator terminal 3 will be explained. The manager terminal 3 is used for a manager of the distribution site to set and evaluate a movement route of the distributor A, B that performs delivery and distribution work. The manager terminal 3 includes various computers such as a personal computer, a tablet terminal, and a smart phone provided at a distribution site, and transmits and receives information to and from the management server 2 via the network 4.

Fig. 12 is a block diagram showing a schematic configuration of the administrator terminal 3. As shown in fig. 12, the administrator terminal 3 includes a control unit 30, a storage unit 31, a communication unit 32, a display unit 34, and an input unit 35.

The storage unit 31 is constituted by a semiconductor memory, a hard disk drive, and the like. The storage unit 31 stores an Operating System (OS), software called an application, and other various information. The software stored in the storage unit 31 includes an application program for managing delivery and delivery jobs.

The communication unit 32 is connected to the management server 2 and transmits and receives information by installing a communication protocol capable of wired communication (e.g., a network line) or wireless communication such as 3G, LTE, 4G, and 5G.

The display unit 34 is configured by a display device such as a liquid crystal display or an organic EL panel, and displays a map, icons of operation buttons for a touch panel, and the like in response to an instruction from the control unit 30. The display unit 34 also displays various images based on the image signal transmitted from the information output unit 208 of the management server 2.

The input unit 35 is constituted by physical switches such as numeric keys operated by the administrator, an input device (not shown) such as a touch panel provided so as to be superimposed on the display surface of the display unit 34, and the like. A switching instruction of the screen display of the display unit 34 is input via the input unit 35. The setting of the work areas (division of the delivery destinations), the assignment of the deliverers to the work areas A, B, the setting of the delivery order of the work areas and the delivery order of the delivery destinations in the work areas, and the input of the work amount in each work area can be performed via the input unit 35.

The control unit 30 includes a processor having a CPU, RAM, ROM, I/O, and the like. The control unit 30 has a functional configuration including a display control unit 301, a connection processing unit 302, an evaluation information requesting unit 303, and a server information acquiring unit 304.

The display control unit 301 generates an image signal in accordance with an operation of the input unit 35 and transmits the image signal to the display unit 34, thereby controlling screen display of the display unit 34. The screen displayed on the display unit 34 by the display control unit 301 includes a login screen for logging in the management system 100, a dispenser A, B for setting a work area and taking charge of each work area, a setting screen for setting the delivery order of the work areas and the delivery order of the delivery destinations in each work area, and the like.

The screen displayed on the display unit 34 by the display control unit 301 includes an evaluation information request screen for specifying the date of delivery, the responsible area, and the entrance/exit pattern of the actual route RT of the distributor A, B to be evaluated and requesting evaluation information, as in fig. 10.

The connection processing unit 302 executes a login process to the management server 2 using, for example, an identification number (site administrator ID) for identifying an administrator or a responsible person at a distribution site and a password.

The evaluation information requesting unit 303 transmits a request (command) for outputting the work result visualizing information to the management server 2 in response to an operation of the input unit 35 by the administrator. That is, an instruction corresponding to the setting input via the input unit 35 in the various setting screens displayed on the display unit 34 by the display control unit 301 and the display control unit 206 of the management server 2 is transmitted to the management server 2.

The server information acquisition unit 304 acquires the image signal and the like transmitted from the management server 2 (information output unit 208). When the image signal is acquired by the server information acquisition unit 304, various images are displayed on the display unit 34 (fig. 5A to 10).

[ actions of the management System 100 ]

Next, an example of the operation of the management system 100 will be described. When the delivery person A, B driving the vehicles 6A and 6B starts to operate, for example, from a delivery site, the delivery person inputs his/her own login ID and password on the login screen displayed on the display unit 14 of the delivery person terminals 1A and 1B via the input unit 15. When this input is made, the management server 2 performs a connection process with the distributor terminals 1A and 1B.

Thereafter, the dispenser terminals 1A and 1B communicate with the management server 2 at predetermined time intervals (for example, at 1-second intervals), and transmit the position information of the dispenser A, B or the vehicles 6A and 6B to the management server 2. The communication between the delivery person terminals 1A, 1B and the management server 2 is continued until the delivery person terminals 1A, 1B perform the logout operation.

On the other hand, the administrator of the distribution site inputs the site administrator ID and the password via the input unit 35 on the login screen displayed on the display unit 34 of the administrator terminal 3. When this input is made, the management server 2 performs a connection process with the administrator terminal 3.

When the administrator operates the touch panel (input unit 35) of the administrator terminal 3 and starts an application program for managing delivery and delivery jobs, the display unit 34 of the administrator terminal 3 displays an evaluation information request screen (fig. 10). When the manager inputs the output request of the work result visualization information by specifying the delivery date, the area in charge of the deliverer A, B, the entrance/exit pattern, and the like via the touch panel, the manager transmits the output request of the work result visualization information to the management server 2.

In response to the input, the management server 2 calculates the actual paths RTa and RTb of the distributor A, B specified in the work result visualization information (step S2), and subdivides the actual paths RTa and RTb into the work sections SCT1 to SCT5 and the movement section SCTBA (step S3). Further, the required time of each of the job sections SCT1 to SCT5 and the movement section SCTBA is calculated (step S4).

The management server 2 generates an image signal for displaying various images (fig. 5A to 10) including the moving image DP1 and the information image DP2(DP2a, DP2b) of the designated actual route RTa and RTb of the distributor A, B, and transmits the image signal to the manager terminal 3 (steps S5 and S6). Further, the playback positions Pa, Pb, etc. of the moving image DP1 are changed in accordance with the passage of the playback times tva, tvb of the moving image DP1, and the display of the information image DP2 is changed (steps S5 to S8).

The administrator of the distribution site can grasp the activities of the distributors A, B at the time of distribution by confirming the dynamics of the actual routes RTa and RTb of the distributors A, B and the positions Pa and Pb of the distributors A, B on the actual routes RTa and RTb via the administrator terminal 3. Further, since the activity of the distributor A, B, the distribution time per work area, the amount of work, the movement time between work areas, and the like can be grasped at the same time, the activity of the distributor can be analyzed, and the work efficiency can be improved.

The present embodiment can provide the following effects.

(1) The work result visualizing device 5 visualizes the work results of the workers who sequentially pass through the plurality of work areas. The work result visualization device 5 includes: a storage unit 21 that stores position information of each of the plurality of work areas BL1 to BL 5; an information acquisition unit 202 that acquires position information of the distributor A, B or the vehicles 6A and 6B, time information corresponding to the position information, and information on the amount of work in each of the plurality of work areas BL1 to BL 5; a section subdividing unit 204 which subdivides the actual path RT into a plurality of work sections SCT1 to SCT5 and a movement section SCTBA on the basis of information on the actual path RT on which the distributor A, B or the vehicles 6A and 6B actually move and the position information on each of the plurality of work areas BL1 to BL5 stored in the storage unit 21; a display unit 34 for displaying the actual route RT on a map image; a display control unit 206 that controls the display unit 34 to display a moving image DP1 that displays the position of the dealer A, B or the vehicles 6A and 6B on the actual route RT so that the position of the dealer A, B or the vehicles 6A and 6B on the actual route RT changes with the passage of the broadcast times tva and tvb, based on the position information and the time information acquired by the information acquisition unit 202; and a section determination unit 207 that determines which of the plurality of work sections SCT1 to SCT5 and the movement section SCTBA (fig. 3 and 12) subdivided by the section subdivision unit 204 the position of the distributor A, B or the vehicles 6A and 6B displayed on the moving image DP1 is included.

The display controller 206 controls the display unit 34 to display the moving image DP1 together with the information image DP2 that displays the information on the amount of work acquired by the information acquirer 202 in the section determined by the section determiner 207.

This makes it possible to grasp the actual route RT of the delivery worker at the time of delivery, the movement of the delivery worker on the actual route RT, the delivery time, the work amount, the movement time between work areas, and the like for each work area at the same time, and therefore, the quality of the work efficiency and the movement of the delivery worker can be easily analyzed, and for example, the cause of the quality of the work efficiency can be easily and accurately analyzed.

(2) The display control unit 206 controls the display unit 34 to change the information on the amount of work in the section determined by the section determination unit 207 in synchronization with the broadcast times tva and tvb as the broadcast times tva and tvb pass. That is, when the section where the positions Pa and Pb of the distributors are located moves to another section as the broadcast times tva and tvb pass, the section displayed on the information image DP2 is automatically switched accordingly, and therefore, it is not necessary for the user such as the manager to perform the switching operation of the information image DP2, and the analysis can be focused.

(3) The display controller 206 controls the display unit 34 to display a list (fig. 7) showing the selectable results of the work for each section determined by the section determination unit 207, and to display the positions of the distributors A, B or the vehicles 6A and 6B in the selected section on the real route RT of the moving image DP1 when the results of the work for each section are selected.

For example, by a simple operation of pressing a link button LK (fig. 7) displayed in association with a section of interest of the performance list, it is possible to move to a screen display DP (fig. 6) of the dynamic playback player and to perform dynamic playback from a playback position corresponding to the section of interest. In other words, the performance list can be seamlessly moved to the dynamic playback player by a simple operation, and the efficiency of dynamic analysis can be improved.

(4) The plurality of work sections SCT1 to SCT5 and the movement section SCTBA subdivided by the section subdividing section 204 include work sections SCT1 to SCT5 corresponding to the plurality of work areas BL1 to BL5 and a movement section SCTBA between the 1 st area and the 2 nd area consecutive from the plurality of work areas BL1 to BL 5. The information on the amount of work displayed on the information image DP2 includes information on whether the section determined by the section determination unit 207 is a work section or a movement section.

This makes it possible to easily determine whether the positions Pa and Pb of the distributors displayed on the moving image DP1 are in the work section or the movement section, and to perform analysis corresponding to the determination.

(5) The work result visualization device 5 further includes an input unit 35, and the input unit 35 is configured to select or not select an element including an image that can be selected and displayed on the display unit 34. The display control unit 206 controls the display unit 34 to display a plurality of information images DP2 including an information image DP2 displaying information on the amount of work acquired by the information acquisition unit 202 in the section determined by the section determination unit 207, the information images DP1 to SCT5 displaying information on the amount of work acquired by the information acquisition unit 202 in each of the plurality of work sections SCT1 to SCT5 and the movement section SCTBA subdivided by the section subdivision unit 204, so that the positions Pa and Pb of the dealer A, B or the vehicles 6A and 6B in the section corresponding to the information image DP2 selected by the input unit 35 are displayed on the actual route RT of the moving image DP1 so that the information image DP2 corresponding to the predetermined section is selected by the input unit 35.

This makes it possible to confirm the display content of the information image DP2, and to display the motion of the section on the moving image DP1 by a simple operation when focusing on a specific section, for example, from the viewpoint of work efficiency.

(6) The actual route RT displayed on the map image of the moving image DP1 is composed of a plurality of point images that are displayed so as to be selectable and that show the positions where the dispenser A, B and the vehicles 6A and 6B actually move. The display controller 206 controls the display unit 34 to display, in different manners, a dot image corresponding to a time before the dot image corresponding to the playback times tva and tvb and a dot image corresponding to a time after the dot image corresponding to the playback times tva and tvb, among the plurality of dot images constituting the real path RT. Thus, for example, when the operator A, B wants to confirm the movement of a specific position on the actual routes RTa and RTb, the time instants tva and tvb corresponding to the position can be easily confirmed.

(7) The actual route RT displayed on the map image of the moving image DP1 is composed of a plurality of point images that are displayed so as to be selectable and that show the positions where the dealer A, B and the vehicles 6A and 6B actually move. When a specific dot image among the plurality of dot images constituting the actual route RT is selected, the display controller 206 controls the display unit 34 to display the time information TI corresponding to the specific dot image (fig. 5B). This makes it possible to immediately refer to the timing of the trace other than the playback position, and to improve the speed (efficiency) of the analysis.

(8) The information acquisition unit 202 acquires the position information of the distributor A, B on the 1 st and 2 nd work days, the time information corresponding to the position information, and the information on the work volume on the 1 st and 2 nd work days of the plurality of work areas BL1 to BL 5.

The section subdividing unit 204 subdivides the actual paths RTa and RTb into a plurality of operation sections SCT1 to SCT5 and a movement section SCTBA, respectively, based on information on the actual paths RTa and RTb actually moved by the distributor A, B on the 1 st and 2 nd operation days and position information on each of the plurality of operation areas BL1 to BL5 stored in the storage unit 21. The display unit 34 displays the actual routes RTa and RTb calculated by the route calculation unit 203 on the map image.

The display control unit 206 controls the display unit 34 to display the position Pa of the distributor a on the actual route RTa corresponding to the broadcast time tva and the position Pb of the distributor B on the actual route RTb corresponding to the broadcast time tvb on the moving image DP1 based on the position information and the time information acquired by the information acquisition unit 202.

The section determination unit 207 determines which of the plurality of work sections SCT1 to SCT5 and the movement section SCTBA subdivided by the section subdivision unit 204 the position of the distributor A, B on each of the 1 st and 2 nd work days displayed on the moving image DP1 is included. The display controller 206 controls the display unit 34 to display the moving image DP1 together with the information image DP2a showing the information on the amount of work on the 1 st work day acquired by the information acquirer 202 and the information image DP2b showing the information on the amount of work on the 2 nd work day in the section determined by the section determiner.

That is, since the movements of the plurality of distributors and the distribution date are displayed on the same moving image DP1, the activities of the actual routes RTa and RTb and the actual routes RTa and RTb for each distribution date, the distribution time for each work area, the amount of work, the movement time between work areas, and the like can be easily compared and analyzed. In addition, by comparing activities of a plurality of distributors, the influence of activity differences on the work efficiency can be analyzed, and the work efficiency can be improved.

(9) The display controller 206 controls the display unit 34 to display the position of the distributor a corresponding to the playback time tva and the position of the distributor B corresponding to the playback time tvb independently of each other. This makes it possible to display the moving image DP1 so as to match the intention of a user such as a manager, by fixing the broadcast position of one distributor and moving the broadcast position of another distributor, thereby enabling high-level analysis.

(10) The display control unit 206 controls the display unit 34 to display the actual route Rta and the actual route RTb on the map image in different ways from each other. Since the plurality of actual paths RTa and RTb are displayed so as to be easily recognized, the comparison analysis can be easily performed visually.

The above embodiment can be modified into various modes. The following describes modifications. In the above-described embodiment, the example in which the work result visualizing device 5 visualizes the work result of the delivery worker who performs the delivery and delivery work has been described, but the work result visualizing device may be of any type as long as it visualizes the work result of the worker who passes through the plurality of work areas in sequence. For example, the results of work performed during a work such as a facility check performed by each user may be visualized.

In the above embodiment, the information acquiring unit 202 acquires the position information calculated on the side of the distributor terminals 1A and 1B, but the configuration of the information acquiring unit that acquires the position information of the operator is not limited to this. For example, the management server 2 may calculate the position based on a GPS signal or the like received at the distributor terminals 1A and 1B.

In the above embodiment, the route calculation unit 203 has the actual route RT as a trace of points arranged in time series from the start point to the end point corresponding to the position of the dispenser, but the route calculation unit may be of any form as long as it calculates the actual route along which the operator actually moves. For example, the actual path may be calculated by connecting the position traces in time series, or may be calculated based on a moving average of the position traces.

In the above embodiment, the display control unit 206 of the management server 2 controls the display unit 34 of the administrator terminal 3, but the display control unit that controls the display unit is not limited to this. That is, the display control unit 301 of the administrator terminal 3 may generate an image signal of the screen display DP as shown in fig. 5A to 10.

The present invention has been described as the work result visualizing device 5, and the present invention can also be used as a work result visualizing method for visualizing the work results of operators who sequentially pass through a plurality of work areas. Namely, the work result visualization method includes: acquiring position information of the distributor A, B or the vehicles 6A and 6B, time information corresponding to the position information, and information on the work volume of each of the plurality of work areas BL1 to BL5 (step S1 in fig. 11); calculating an actual route RT on which the distributor A, B or the vehicles 6A and 6B actually move based on the acquired position information and time information (step S2); subdividing the calculated actual path RT into a plurality of work sections SCT1 to SCT5 and a movement section SCTBA based on position information of each of a plurality of work areas BL1 to BL5 stored in advance (step S3); displaying the calculated actual route RT on the map image (steps S5, S6); displaying a moving image DP1 showing the positions of the dealer A, B or the vehicles 6A and 6B on the actual route RT corresponding to the specific broadcast times tva and tvb, so that the positions of the dealer A, B or the vehicles 6A and 6B on the actual route RT corresponding to the specific broadcast times tva and tvb change with time, based on the acquired position information and time information (steps S5 and S6); determining which of the plurality of subdivided work sections SCT1 to SCT5 and the movement section SCTBA the position of the dispenser A, B or the vehicles 6A and 6B displayed on the moving image DP1 (steps S7 and S8); the information image DP2 displaying the information on the acquired amount of work in the determined section is displayed simultaneously with the moving image DP1 (steps S5 and S6).

As described above, the work result visualization program is stored in the storage unit 21 of the management server 2, but may be stored in an external storage medium such as a flash memory. The work result visualization program can also be acquired from outside the management system 100 via the network 4.

The above description is only an example, and the above embodiments and modifications are not intended to limit the present invention as long as the features of the present invention are not impaired. One or more of the above-described embodiments and modifications may be arbitrarily combined, or modifications may be combined with each other.

Description of the reference numerals

1A, 1B: a distributor terminal; 2: a management server; 3: a manager terminal; 4: a network; 5: a job result visualization device; 6A, 6B: a vehicle; 10: a control unit; 11: a storage unit; 12: a wireless unit; 13: a sensor section; 13 a: a GPS sensor; 13 b: a gyroscope sensor; 14: a display unit; 15: an input section; 20: a control unit; 21: a storage unit; 22: a communication unit; 24: a display unit; 25: an input section; 30: a control unit; 31: a storage unit; 32: a communication unit; 34: a display unit; 35: an input section; 100: a management system; 101: a display control unit; 102: a connection processing unit; 103: a position information notification unit; 201: a connection processing unit; 202: an information acquisition unit; 203: a path calculation unit; 204: a section subdivision section; 205: a required time calculation unit; 206: a display control unit; 207: a section determination unit; 208: an information output unit; 211: a distributor information area; 212: a vehicle information area; 213: a delivery destination information area; 214: a map information area; 215: a management information area; 301: a display control unit; 302: a connection processing unit; 303: an evaluation information request unit; 304: a server information acquisition unit.

Claims (13)

1. A work result visualization device for visualizing work results of workers who sequentially pass through a plurality of work areas, the work result visualization device comprising:

a storage unit that stores position information of each of the plurality of work areas;

an information acquisition unit that acquires position information of the operator, time information corresponding to the position information, and information on the amount of work in each of the plurality of work areas;

a section subdividing unit that subdivides the actual path into a plurality of sections based on information on an actual path along which the operator actually moves and position information on each of the plurality of work areas stored in the storage unit;

a display unit that displays the actual route on a map image;

a display control unit that controls the display unit to display a moving image that displays the position of the operator on the actual route so that the position of the operator on the actual route changes with the passage of a playback time, based on the position information and the time information acquired by the information acquisition unit; and

a section determination unit that determines which of the plurality of sections subdivided by the section subdivision unit the position of the operator displayed in the moving image playback is included in,

the display control unit controls the display unit to display an information image, which displays the information on the amount of work acquired by the information acquisition unit in the section determined by the section determination unit, simultaneously with the moving image.

2. Work product visualization apparatus as in claim 1,

the display control unit controls the display unit to change the information on the amount of work in the section determined by the section determination unit in synchronization with the playback time as the playback time elapses.

3. Work product visualization apparatus as in claim 2,

the display control unit controls the display unit to display a list in which the work result for each section determined by the section determination unit is selectable, and to display the position of the operator in the selected section on the actual path of the moving image when the work result for each section is selected.

4. Work product visualization apparatus according to any one of claims 1 to 3,

the plurality of sections subdivided by the section subdividing section include work sections corresponding to the plurality of work areas and a moving section between the 1 st area and the 2 nd area that are continuous among the plurality of work areas,

the information on the amount of work displayed on the information image includes information on whether the section determined by the section determination unit is the work section or the movement section.

5. Work product visualization apparatus according to any one of claims 1 to 4,

further comprising a selection unit for selecting or not selecting an element including an image which can be selected and displayed on the display unit,

the display control unit controls the display unit to display a plurality of selectable information images including an information image displaying information on the amount of work acquired by the information acquisition unit in the section determined by the section determination unit, the plurality of information images displaying information on the amount of work acquired by the information acquisition unit in each of the plurality of sections subdivided by the section subdivision unit, and to display the position of the operator in the section corresponding to the information image selected by the selection unit on the actual path of the moving image when the information image corresponding to the predetermined section is selected by the selection unit.

6. Work product visualization apparatus according to any one of claims 1 to 5,

the actual route displayed on the map image of the moving image is composed of a plurality of point images each showing a position where the operator actually moves and being selectable,

the display control unit controls the display unit to display, in different manners, a dot image corresponding to a time before the dot image corresponding to the playback time and a dot image corresponding to a time after the dot image corresponding to the playback time among the plurality of dot images constituting the actual path.

7. Work product visualization apparatus according to any one of claims 1 to 5,

the actual route displayed on the map image of the moving image is composed of a plurality of point images which are displayed so as to be selectable and show the position where the operator actually moves,

the display control unit controls the display unit to display time information corresponding to a specific dot image among the plurality of dot images constituting the actual route, when the specific dot image is selected.

8. Work product visualization apparatus according to any one of claims 1 to 7,

the information acquisition unit acquires position information of the worker on each of a 1 st work day and a 2 nd work day, time information corresponding to the position information, and information on the work volume on each of the 1 st work day and the 2 nd work day in each of the plurality of work areas,

the section subdividing unit subdivides the 1 st actual path and the 2 nd actual path into a plurality of sections based on information on a 1 st actual path on the 1 st work day along which the operator actually moves and a 2 nd actual path on the 2 nd work day along which the operator actually moves, and position information on each of the plurality of work areas stored in the storage unit,

the display part displays the 1 st actual path and the 2 nd actual path on the map image,

the display control unit controls the display unit to display the position of the operator on the 1 st actual route corresponding to the 1 st broadcast time and the position of the operator on the 2 nd actual route corresponding to the 2 nd broadcast time on the moving image, based on the position information and the time information acquired by the information acquisition unit,

the section determination unit determines which of the plurality of sections subdivided by the section subdivision unit the position of the worker on each of the 1 st work day and the 2 nd work day displayed in the moving image playback is included in,

the display control unit controls the display unit to display the moving image together with a 1 st information image for displaying the information on the amount of work on the 1 st work day acquired by the information acquisition unit and a 2 nd information image for displaying the information on the amount of work on the 2 nd work day in the section determined by the section determination unit.

9. Work product visualization apparatus as in claim 8,

the display control unit controls the display unit to display the position of the operator corresponding to the 1 st broadcast time and the position of the operator corresponding to the 2 nd broadcast time independently of each other.

10. Work product visualization apparatus according to claim 8 or 9,

the display control unit controls the display unit to display the 1 st actual route and the 2 nd actual route on the map image in different ways.

11. A work result visualization system is characterized by comprising:

work product visualization apparatus as claimed in any one of claims 1 to 10; and

and a mobile terminal that moves together with the operator and transmits position information of the operator and time information corresponding to the position information to the work result visualization device.

12. A work result visualization method for visualizing work results of workers who sequentially pass through a plurality of work areas, the work result visualization method comprising:

acquiring position information of the operator, time information corresponding to the position information, and information on the amount of work in each of the plurality of work areas;

subdividing the actual path into a plurality of sections based on information on the actual path along which the operator actually moves and position information on each of the plurality of work areas stored in advance;

displaying the actual path on a map image;

displaying a moving image that displays the position of the worker on the actual route so that the position of the worker on the actual route changes with the passage of the time of display, based on the acquired position information and the acquired time information;

determining which of a plurality of subdivided sections the position of the worker displayed in the moving image display is included in;

an information image displaying the acquired information on the amount of work in the determined section is displayed simultaneously with the moving image.

13. A work result visualization program for visualizing work results of workers who sequentially pass through a plurality of work areas, the program being configured to cause a computer to execute:

acquiring position information of the operator, time information corresponding to the position information, and information on the amount of work in each of the plurality of work areas;

subdividing the actual path into a plurality of sections based on information on the actual path along which the operator actually moves and position information on each of the plurality of work areas stored in advance;

displaying the actual path on a map image;

displaying a moving image that displays the position of the worker on the actual route so that the position of the worker on the actual route changes with the passage of the time of display, based on the acquired position information and the acquired time information;

determining which of a plurality of subdivided sections the position of the worker displayed in the moving image display is included in;

an information image displaying the acquired information on the amount of work in the determined section is displayed simultaneously with the moving image.

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