JP4596635B2 - Logistics driver system and portable payment terminal - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a physical distribution driver system, and in particular, is configured to link a portable terminal carried by a driver and a portable payment terminal so that card payment of fare data can be performed immediately.
[0002]
[Prior art]
A shipping company that handles courier services, etc., allows the driver to have a portable terminal with a barcode reading function, and when the delivery package is collected and delivered, the data is input to the portable terminal and stored, and the driver is the nearest At the time of returning to the sales office, the data stored in the portable terminal is transmitted to the host computer of the shipping company via the network dedicated to the shipping company.
[0003]
However, when the driver returns to the nearest sales office, the data stored in the mobile terminal is transmitted to the host computer of the shipping company via the network dedicated to the shipping company, so he has a payment card. However, there is a problem that it is not possible to make a fare settlement immediately, and it is impossible to answer a customer's inquiry about the location of the package in real time.
[0004]
[Problems to be solved by the invention]
SUMMARY OF THE INVENTION An object of the present invention is to provide a logistics driver system capable of making card payment of fare data immediately.
[0005]
It is another object of the present invention to provide a logistics driver system that can answer inquiries from customers about the location of luggage in real time.
[0006]
[Means for Solving the Problems]
The physical distribution driver system of the present invention exists in a portable terminal that can be carried, a portable payment terminal linked to the portable terminal by wireless communication means, a mobile communication network capable of transmitting wireless data, and a payment mechanism. The payment center is composed of a payment center and a host computer placed in a processing place, and payment required information input to the portable payment terminal is transmitted to the payment center via the mobile communication network via the portable terminal. And payment completion information is transmitted to the portable terminal via the host computer and the mobile communication network, and further transmitted from the portable terminal to the portable payment terminal and based on the payment completion information at the portable payment terminal. In this case, the completed form is output.
[0007]
In addition, the logistics driver system of the present invention has a portable terminal with a built-in mobile communication function, a mobile communication network capable of transmitting wireless data, and a database for luggage management placed in a processing place. A host computer, a customer terminal and a customer telephone set in a customer premises, an Internet network connecting the customer telephone terminal and a host computer located in the processing place, and the telephone set and the processing place. A telephone network connected to a host computer, and after inputting package information such as collection and delivery of packages from the mobile terminal, the package information is transmitted to the host computer via the mobile communication network, The host computer inputs the package information to the package management database to update the data sequentially and to consult the customer via the telephone network. Contact luggage sites of the telephone, or, characterized in that to be able to respond in real time queries luggage luggage sites of the customer terminal via the Internet network.
[0008]
In addition, the logistics driver system of the present invention includes a portable terminal having a mobile communication function and a GPS function that can be carried, a mobile communication network capable of transmitting wireless data, an Internet order receiving center located in a processing area, a customer premises A customer terminal such as a personal computer placed on the Internet, and an Internet network connecting the customer terminal and the Internet order receiving center located in the processing place, using the GPS function installed in the portable terminal, And the detected current position is transmitted to the Internet order receiving center via the mobile communication network using the mobile communication function installed in the mobile terminal, and the mobile order is sent to the operator of the Internet order receiving center. The location of the driver possessing the terminal is grasped, and the customer terminal is connected to the user via the Internet network. When there is a request for picking up a package at the Internet order center, the operator of the Internet order center specifies a driver closest to the customer who has made the request, and the mobile communication is performed on the portable terminal of the driver. It is characterized in that an instruction for collection etc. is issued via a net.
[0009]
In addition, the logistics driver system of the present invention includes a portable terminal with a built-in mobile communication function that can be carried, a simple data input terminal carried by a time employee linked to the portable terminal by wireless communication means, and wireless data transmission. It consists of a possible mobile communication network and a host computer that is placed in the processing area and holds a database for package management. Upon completion of delivery, delivery completion information and time stamp information are transferred from the simplified data input terminal. The information stored in the memory and transmitted using the wireless communication means is transmitted to the portable terminal, and the portable terminal collects the data from the simplified data input terminal via the mobile communication network. To the host computer, and the host computer sends the received delivery completion information and time stamp information. To sequentially update the package management database, characterized in that the to be answered in real time based on the updated package management database queries about the whereabouts of cargo from a customer.
[0010]
In addition, the logistics driver system of the present invention includes a portable terminal having a mobile communication function and a GPS function that can be carried, a mobile communication network capable of transmitting wireless data, and a mobile communication network that is placed in a processing area and out of the mobile communication network. It is composed of a host computer that holds a map database, detects the current latitude and longitude using the GPS function installed in the portable terminal, and moves whether or not data communication call is possible with the detected current latitude and longitude The mobile communication network is determined using the mobile communication function in which the content is converted into a database as a mobile communication range outside map and the data stored in the database is mounted on the portable terminal. To the host computer via the mobile communication network based on the received mobile communication area outside map database data. The inside / outside map database is sequentially updated, and the updated mobile communication network outside / outside database data is transmitted to the portable terminal via the mobile communication network, and the portable terminal sequentially updates the mobile communication within / outside map database. It is characterized by being updated.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0012]
(First embodiment)
FIG. 1 is a block diagram showing a configuration of a physical distribution driver system according to the first embodiment of the present invention. In FIG. 1, a logistics driver system according to a first embodiment includes a portable terminal 11 carried by a shipping company driver 10, and a portable terminal linked to the portable terminal 11 by wireless communication means such as Bluetooth ( registered trademark ). Type payment terminal 12, mobile communication network 20 capable of transmitting wireless data, a payment center 31 existing in a payment mechanism (scheme) 30, and a host computer placed in a processing place, for example, a shipping company 40 It consists of 41 and. The portable payment terminal 12 is carried by the shipping company driver 10. The mobile terminal 11 has a barcode reading function as a normal configuration.
[0013]
Bluetooth ( registered trademark ) is a short-distance digital wireless information communication system adopting a method called frequency hopping of spread spectrum communication. As a standard of Bluetooth (registered trademark ), “Ver1.0a” started to be released and “ Ver1.0b "has been released. And as a feature, it is possible to build a cableless environment, and Bluetooth (registered trademark ) is omnidirectional, and it is an information service that depends on the location such that radio waves can reach anywhere within a 10 m square area. Is possible.
[0014]
The host computer 41 in the shipping company 40 has a business management database 42 (business management database).
[0015]
Next, the operation of the physical distribution driver system according to the first embodiment will be described with reference to FIG. In FIG. 2, the above configuration is illustrated by an illustration. First,
1. The shipping company driver 10 measures the size of the package. The size of the package is measured to obtain basic data for fare calculation.
2. Next, slip information is input using a keyboard, a barcode scanner, or the like provided in the mobile terminal 11 carried by the shipping company driver 10. The slip indicates the address of the other party to which the package is transported.
3. The fare calculation is performed based on the destination address and the package size, and the fare calculation of the package is confirmed and stored in the memory built in the portable terminal 11. In this case, in the case of price exchange delivery used for mail order sales, the price for goods is confirmed.
4). The confirmed amount data (package fare data) is transmitted from the portable terminal 11 to the portable settlement terminal 12. Bluetooth ( registered trademark ) is used for the wireless communication.
5). In order to settle the confirmed fare, when the delivery requester has a card that can be settled with an IC card or the like, the portable settlement terminal 12 scans the card and inputs information necessary for settlement.
6). The information necessary for the input payment is encrypted by the portable payment terminal 12.
7). Next, information necessary for encrypted payment is transmitted from the portable payment terminal 12 to the portable terminal 11. Even in this case, Bluetooth ( registered trademark ) is used.
8). Information (data) necessary for payment is transmitted to the payment center 31 via the mobile communication network 20, for example, a wireless packet communication network, using the mobile communication function installed in the portable terminal 11. The settlement center 31 is provided in a settlement mechanism (scheme) 30 that is authorized to settle.
9. When payment at the payment center 31 is completed, payment completion information is transmitted from the payment center 31 to the host computer 41 of the shipping company 40 as electronic data. The host computer 41 sends the electronic data sent from the settlement center 31 to the business management database 42 and updates the business management database 42.
Ten. At the same time, payment completion information is transmitted from the payment center 31 to the mobile terminal 11 via the mobile communication network 20.
11． The payment completion information received by the mobile terminal 11 is transmitted to the mobile payment terminal 12. In this case, Bluetooth ( registered trademark ) is also used.
12． The portable payment terminal 12 outputs a completed form based on the payment completion information. The delivery requester can use the output completed form as a receipt.
[0016]
(Second Embodiment)
FIG. 3 is a block diagram showing a configuration of a physical distribution driver system according to the second embodiment of the present invention. 3, the logistics driver system according to the second embodiment includes a mobile terminal 13 with a built-in mobile communication function carried by a shipping company driver 10, a mobile communication network 20 capable of transmitting wireless data, a processing location For example, a host computer 41 placed in the transportation company 40, a customer terminal 51 such as a personal computer and a customer telephone 52 such as a fixed telephone placed in the customer's house 50, the customer terminal 51 and the host computer 41 of the transportation company 40 And a telephone network 60 that connects the customer telephone 52 and the host computer 41 of the shipping company 40. The host computer 41 in the shipping company 40 has a package management database (package management database) 43. The mobile terminal 13 has a barcode reading function as a normal configuration.
[0017]
Next, the operation of the physical distribution driver system according to the second embodiment will be described with reference to FIG. In FIG. 4, the above configuration is illustrated by an illustration. First,
1. The shipping company driver 10 inputs package information (information on collection, delivery, take-out, etc.) using a barcode scanner, a keyboard or the like provided in the mobile terminal 13.
2. The input package information is automatically or manually transmitted via a mobile communication network 20 capable of transmitting wireless data, for example, a wireless packet communication network, using a mobile communication function installed in the mobile terminal 13. Sent to host computer 41 of company 40.
3. The host computer 41 of the shipping company 40 receives the transmitted package information and updates the package management database (DB) 43 sequentially.
4). Based on the updated package management database (DB) 43, the host computer 41 of the shipping company 40 responds to an inquiry from the customer's telephone (including a mobile phone) 52 regarding the location of the luggage from the customer via the telephone network 60. Answer in real time.
5). Similarly, the host computer 41 of the shipping company 40 uses the updated package management database (DB) 43 based on the updated package management database (DB) 43 via the Internet network 70 to provide an Internet network 70 such as a personal computer or a mobile phone having an i-mode function. In response to an inquiry from the customer terminal 51 via
[0018]
(Third embodiment)
FIG. 5 is a block diagram showing a configuration of a physical distribution driver system according to the third embodiment of the present invention. In FIG. 5, the logistics driver system according to the third embodiment includes a mobile terminal 14 having a mobile communication function and a GPS function carried by a shipping company driver 10, a mobile communication network 20 capable of transmitting wireless data, The processing site, for example, an internet order center 44 located in the shipping company 40, a customer terminal 51 such as a personal computer placed in the customer's house 50, and the customer terminal 51 and the internet order center 44 of the shipping company 40 are connected. It consists of an Internet network 70. The mobile terminal 14 has a barcode reading function as a normal configuration.
[0019]
Next, the operation of the physical distribution driver system according to the third embodiment will be described with reference to FIG. In FIG. 6, the above configuration is illustrated by an illustration. First,
1. The position of the portable terminal 14 is detected using the GPS function, and the position information is transmitted to the Internet order receiving center 44 in the shipping company 40 using the mobile communication function.
2. Based on the location information sent from the mobile terminal 14, the shipping company driver 10 closest to the customer can be specified.
3. A customer makes a package collection request or re-delivery request from the customer terminal 51 such as a personal computer to the Internet order receiving center 44 of the shipping company 40 via the Internet network 70.
4). A collection / redelivery request from the customer is received at the Internet order receiving center 44 of the shipping company 40. It should be noted that the collection time and redelivery time information specified by the customer in the collection / redelivery request from the customer can be stored in a database, and the necessary number of drivers can be prepared in advance by analyzing the time information. .
5). The operator of the Internet order receiving center 44 issues an instruction for collection / redelivery immediately via the mobile communication network 20 to the portable terminal 14 of the driver closest to the customer who has requested collection / redelivery.
6). The driver 10 closest to the customer displays and prints out various instruction information received via the mobile communication network 20 on the mobile terminal 14. As a result, it is possible to reach the customer's home that has requested collection / redelivery in a short time.
[0020]
(Fourth embodiment)
FIG. 7 is a block diagram showing a configuration of a physical distribution driver system according to the fourth embodiment of the present invention. In FIG. 7, the logistics driver system according to the fourth embodiment includes a portable terminal 15 with a mobile communication function carried by a shipping company driver 10 and a time employee 80 linked to the portable terminal 15 by wireless communication means. A simple data input terminal 81 carried by the user, a mobile communication network 20 capable of transmitting wireless data, and a host computer which is placed in a processing place, for example, a transportation company 40 and has a database 43 for luggage management It consists of 41 and.
[0021]
The wireless data communication between the mobile terminal 15 and the simple data input terminal 81 is linked by, for example, Bluetooth ( registered trademark ). Since Bluetooth ( registered trademark ) has been described in the first embodiment, it will not be described again here. The host computer 41 in the shipping company 40 has a package management database (package management database) 43. The portable terminal 15 has a barcode reading function as a normal configuration.
[0022]
Next, the operation of the physical distribution driver system according to the fourth embodiment will be described with reference to FIG. In FIG. 8, the above-described configuration is illustrated by an illustration. First,
1. Time data such as part-time workers and part-time workers 80 are input using a simple data input terminal 81 for data relating to delivery and the like entrusted to the shipping company. The simple data input terminal 81 has a barcode reading function and a timer function, and upon completion of delivery, the delivery completion information and time stamp information are input and stored in a memory.
2. A time employee 80 such as a part-time worker transfers data such as delivery completion information input and stored from the simple data input terminal 81 to the portable terminal 15 using wireless data communication, for example, BleuTooth.
3. Input data from a plurality of simple data input terminals 81 aggregated to the mobile terminal 15 by the shipping company driver 10, automatically or manually, using the mobile communication network 20, for example, a wireless packet communication network, from the mobile terminal 15. To the host computer 41 of the shipping company 40.
4). The host computer 41 of the shipping company 40 sequentially updates the package management database (DB) 43 based on data such as delivery completion information transmitted from the mobile terminal 15.
5). Based on the updated package management database (DB) 43, the host computer 41 of the shipping company 40 can answer inquiries about the location of packages from customers in real time.
[0023]
(Fifth embodiment)
FIG. 9 is a block diagram showing a configuration of a physical distribution driver system according to the fifth embodiment of the present invention. In FIG. 9, the logistics driver system according to the fifth embodiment includes a mobile terminal 16 having a mobile communication function and a GPS function carried by a shipping company driver 10, a mobile communication network 20 capable of transmitting wireless data, And a host computer 41 placed in a processing place, for example, the transportation company 40. The host computer 41 in the shipping company 40 has a map database (DB) 45 outside the mobile communication network. The portable terminal 16 has a barcode reading function as a normal configuration.
[0024]
FIG. 10 is a block diagram showing a configuration of the mobile terminal shown in FIG. In FIG. 10, a mobile terminal with a mobile communication function and a GPS function includes a CPU 101, a mobile communication function unit 102, a GPS logic unit 103, a mobile communication range out-of-range determination logic unit 104, an out-of-range map database (DB). ) 105 and various interface (IF) units 106. It is assumed that the power supply unit 107 is connected so as to supply power to the above components.
[0025]
The CPU 101 controls each of the above-described components, and includes, for example, a microcomputer. The mobile communication function unit 102 has a function equivalent to that of a mobile phone or the like, and is built in a mobile terminal carried by a shipping company driver.
[0026]
The GPS logic unit 103 is built in the GPS chip and determines the current position (latitude and longitude) based on data transmitted from a GPS satellite.
[0027]
The mobile communication area outside determination logic unit 104 is an area where data communication can be efficiently performed at the current position (latitude and longitude) determined by the GPS logic unit 103, that is, within the mobile communication area, or the data communication is inefficient. It is determined whether the area is out of the mobile communication range.
[0028]
The out-of-range map DB (database) 105 includes data on the out-of-range and out-of-range data of the mobile communication network determined by the mobile communication range out-of-range determination logic unit 104 and the current position (latitude and longitude) determined by the GPS logic unit 103. A database (DB) is created by matching with map data based on the data.
[0029]
The various interface (IF) unit 106 is a general term for interfaces normally provided in a mobile terminal carried by a shipping company driver.For example, an interface for charging a mobile terminal or a barcode reading on a mobile terminal The interface etc. are included.
[0030]
Next, the operation of the physical distribution driver system according to the fifth embodiment will be described with reference to FIGS. In FIG. 11, the above configuration is illustrated by an illustration. First,
1. The current position (latitude and longitude) is determined using the GPS function (determination by the GPS logic unit 103).
2. The mobile communication function-equipped mobile terminal 16 determines whether the mobile communication area is within or outside the mobile communication area. That is, in the determined current position (latitude and longitude), the radio wave condition is good, there are few retransmissions, and the mobile communication can be performed efficiently, that is, the mobile communication area, or the data communication is inefficient, that is, the mobile Determine if you are out of range. (Judgment by outside mobile communication area judgment logic unit 104)
3. Above, 1.2. Using this result, the mobile communication area / out of service area and its latitude and longitude are converted into a map DB (database). (Outside mobile communication area map DB105)
4). The contents of the mobile communication area map DB (database) 105 constructed as described above are transmitted to the host computer 41 via the mobile communication network 20, for example, a wireless packet communication network, manually or automatically.
5). Based on the data in the mobile communication network outside map DB 105 transmitted from the mobile terminal 16 via the mobile communication network 20, the mobile communication network outside map DB (database) 45 of the host computer 41 is updated. .
6). The contents of the updated mobile communication network outside map DB (database) 45 are transmitted to the mobile terminal 16 using the mobile communication network 20. Since the mobile communication network outside map DB 45 of the host computer 41 includes data of the outside map DB transmitted from a plurality of mobile terminals, the map outside the coverage map DB 105 held by the mobile terminal 16 is larger. It has become.
7). Renewal data from the host computer 41 is received, and the out-of-service map DB (database) 105 of the portable terminal 16 is sequentially updated. The shipping company driver 10 can eliminate useless data transmission by looking at the outside map DB 105 of the mobile terminal. In the case of out of service area, the mobile terminal 16 does not make a data communication call, cancels the call until the service area automatic recognition is performed, stores it as untransmitted data to the mobile terminal, performs service area automatic recognition In this case, it is possible to perform data transmission from the portable terminal 16 via the mobile communication network 20 including transmission of the stored untransmitted data.
[0031]
【The invention's effect】
As described above, the physical distribution driver system of the present invention has an effect that it is possible to make card payment of fare data immediately.
[0032]
In addition, the physical distribution driver system of the present invention has an effect that it can answer inquiries from customers about the location of luggage in real time.
[0033]
In addition, the physical distribution driver system of the present invention has an effect that an instruction can be given to the driver closest to the customer's house in response to a collection request or re-delivery request from the customer.
[0034]
Moreover, the physical distribution driver system of the present invention has an effect of collecting the results of business consignment from time employees.
[0035]
In addition, the physical distribution driver system of the present invention has the effect of automatically recognizing whether or not a data communication call can be made and eliminating unnecessary data transmission.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a physical distribution driver system according to a first embodiment of the present invention;
FIG. 2 is a diagram for explaining the operation of the physical distribution driver system according to the first embodiment of the present invention;
FIG. 3 is a block diagram showing a configuration of a logistics driver system according to a second embodiment of the present invention;
FIG. 4 is a diagram for explaining the operation of a physical distribution driver system according to a second embodiment of the present invention;
FIG. 5 is a block diagram showing a configuration of a logistics driver system according to a third embodiment of the present invention;
FIG. 6 is a diagram for explaining the operation of a logistics driver system according to a third embodiment of the present invention;
FIG. 7 is a block diagram showing a configuration of a physical distribution driver system according to a fourth embodiment of the present invention;
FIG. 8 is a diagram for explaining the operation of a logistics driver system according to a fourth embodiment of the present invention;
FIG. 9 is a block diagram showing a configuration of a logistics driver system according to a fifth embodiment of the present invention;
10 is a block diagram showing the configuration of the mobile terminal shown in FIG.
FIG. 11 is a diagram for explaining the operation of a physical distribution driver system according to a fifth embodiment of the present invention.
[Explanation of symbols]
10 Shipping company driver
11 Mobile devices
12 Portable payment terminal
13 Mobile terminal with built-in mobile communication function
14 Mobile terminal with mobile communication function and GPS function
15 Mobile terminal with built-in mobile communication function
16 Mobile terminal with built-in mobile communication function and GPS function
20 Mobile communication network
30 Settlement mechanism (scheme)
31 Settlement center
40 shipping company
41 Host computer
42 Business management database
43 Luggage management database
44 Internet Order Center
45 Map DB outside mobile communication network
50 Customer home
51 Customer terminal
52 Customer phone
60 Telephone network
70 Internet network
80-hour employees
81 Simple data input terminal
101 CPU
102 Mobile communication function
103 GPS logic
104 Mobile communication area judgment logic part
105 Mobile communication area map DB
106 Interface (IF) section
107 Power supply

Claims (2)

The slip information including the address of the other party to which the package is transported is input by the first input means and the barcode scanner, and the fare is calculated based on the size of the package and the address of the other party.
A mobile terminal that transmits money amount data including the fare to the mobile payment terminal by short-range communication;
A logistics driver system comprising a mobile communication network in which the mobile terminal communicates with a payment center,
The portable payment terminal has a second input means and a card scanning means;
Based on the information input by the second input means and the card scanning means, information necessary for settlement of the amount data sent from the portable terminal is encrypted and transmitted to the portable terminal by the short-range communication. Is,
The mobile terminal transmits encrypted information necessary for the settlement to the settlement center via the mobile communication network,
The settlement center transmits settlement completion information to the portable terminal via the mobile communication network when the settlement regarding the amount data is completed, via the short-range communication,
The logistics driver system, wherein the portable payment terminal receives the payment completion information from the portable terminal by the short-range communication and completes the payment. The portable settlement terminal used in the logistics driver system according to claim 1,
A second input means and a card scanning means;
The information input to the second input means and the information necessary for the settlement of the amount data sent from the mobile terminal input by the card scanning means are encrypted, and the mobile terminal is connected to the mobile terminal by short-range communication. Is to send,
The portable payment terminal, wherein the portable payment terminal transmits the payment completion information to the portable payment terminal by the short-range communication, and the portable payment terminal completes payment based on the payment completion information.

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