This is the U.S. national phase of International Application No. PCT/DE03/02693 filed Aug. 7, 2003, the entire disclosure of which is incorporated herein by reference.
1. Field of the Disclosure
The disclosure relates to a method and a system for data transmission between a parcel compartment system and at least one central data processing unit in a logistic system for the operation of one or more parcel compartment systems.
2. Related Technology
Logistic systems can be used for the distribution of letters and goods shipments (packages, parcels), transportation receptacles, pallets and containers. Here, the appertaining logistic systems preferably serve to distribute shipments between a sender and a recipient, whereby, for example, important criteria are those having to do with the transportation speed, the use of warehouses and vehicles as well as the transmission of shipment data.
In order to operate a logistic system involving multiple users, machines and one or more logistics providers, certain information has to be transmitted to the various components of the system. This includes the notification of users about events within the logistic system as well as the communication between machines and data processing centers of the system.
In particular, the operation of parcel compartment systems for registered users by one or more transportation or delivery companies calls for a logistic system with various notification and communication routes. Such parcel compartment systems or machines are operated, for example, by a postal service provider for registered users for whom a delivery agent deposits parcels or other shipments into a compartment of the system. Drop-off as well as pick-up procedures can be carried out not only by the postal service provider that operates the logistic system, but also by other companies that are granted access to components of the logistic system, including the filling of the parcel compartments.
After a parcel has been deposited for the user, he has to be notified to this effect. Moreover, the logistic system has to be informed, for example, whether a user has picked up his parcel. Moreover, information about the registration of new customers, customer data, pick-up deadlines and COD amounts has to be exchanged within the logistic system.
In addition to notifications of the users of the system, there also has to be communication between the parcel compartment systems and other components of the logistic system. This includes, for example, communication with data processing centers of the postal service provider that operates the parcel compartment systems.
The communication between one or more parcel compartment systems and at least one data processing center encompasses the transmission of information about certain events. These events include, for instance, drop-off and pick-up procedures by different groups of people. This communication also comprises the transmission of information that is needed for the operation of the machines. This includes, for example, filling states, user data, identification codes, compartment data and payment information.
In order to process information, process control computer systems with process control computers are known in which external events trigger a response by the process control computer. Examples of industrial applications for the use of process control computers are the control of machines, the automation of processes, the acquisition of operating data and quality control.
German Utility Model 201 03 584 U1, for example, discloses a system for delivering and receiving shipments which is particularly suitable for e-commerce. The system comprises several automatic delivery machines (ADM) into which shipments are deposited and from which they are picked up. The system also comprises a LAMIS server-computer program for handling the operations of the system.
U.S. Pat. No. 5,051,914 describes a system for creating batches of mail for which a postal service provider grants a postage discount to a customer on the basis of certain criteria. For example, a discount is granted for presorted mailings. The system provides that a central data processing unit is connected to several customer stations at which users generate mailings. The data processing unit receives shipment information from the individual stations which the central unit then processes in such a way that mail batches fulfill the requirements of an envisaged postage discount when they are dropped off at a mail processing station.
U.S. Pat. No. 5,068,797 likewise discloses a system for optimizing the shipment of mail batches. In an embodiment of the system, it is possible, for example, that information is transmitted from the data processing unit to a processing station by e-mail. On the basis of the information, the mailings can be printed out and processed. In this case, the processing station is located near a mail depot so that the generated mailings can be dropped off directly at the depot. This eliminates the need for the transportation of mailings from a user to the processing station.
U.S. Pat. No. 5,072,401 discloses a system for the controlled drop-off of mailings in which a postage discount is likewise granted to a user under certain conditions. The system is supposed to bring about savings in terms of the transportation and sorting procedures without entailing additional effort for the sender. Since the senders cannot at all times be aware of all of the requirements for receiving postage discounts, the mailing information is processed in a central data processing unit.
WO 96/20952 A2 discloses a system for pre-processing documents. Within the system, at an administrator, there is a central computer that has a storage medium comprising at least three different storage areas. The storage areas can each be used by registered database users in order to store templates, documents or responses.
The disclosure provides a method for data transmission between a parcel compartment system and at least one central data processing unit within a logistic system for the operation of one or more parcel compartment systems that ensures effective communication between the components. In this context, the logistic system should be able to comprise one or more transportation and delivery companies that have access to the compartments of the parcel compartment system and the logistic system should comprise one or more registered users.
Moreover, the disclosure provides a system for carrying out the method.
According to the disclosure, events at the parcel compartment system are evaluated by a communication device, after which said communication device transmits function messages associated with the events to the data processing unit, whereby the data processing unit carries out the corresponding functions and, if applicable, sends data back to the communication device of the parcel compartment system.
The disclosure also provides a system for carrying out the method.
A description will be given below of especially preferred embodiments of method sequences of the communication procedure, which can be implemented particularly advantageously in such a logistic system including one or more parcel compartment systems and at least one data processing unit.
Advantages, special features and advantageous embodiments of the disclosed method and system follow from the following description of preferred embodiments making reference to the drawing figures.
The drawings show the following:
FIG. 1—a schematic depiction of data transmission within a logistic system for the operation of parcel compartment systems;
FIG. 2—the communication sequences during the delivery of a parcel by a delivery agent without an associated payment procedure;
FIG. 3—the communication sequences during the delivery of a parcel by a delivery agent with an associated payment procedure;
FIG. 4—the communication sequences during the delivery of a small packet by a delivery agent;
FIG. 5—the communication sequences during the delivery of a parcel by a delivery agent of a logistic provider;
FIG. 6—the communication sequences during the removal of a parcel with an expired storage period by a delivery agent;
FIG. 7—the communication sequences during the unscheduled removal of a parcel by a delivery agent;
FIG. 8—the communication sequences during the delivery of a return parcel by a delivery agent;
FIG. 9—the communication sequences during the delivery of a parcel by a B2B recipient;
FIG. 10—the communication sequences during the pick-up of a parcel or small packet by a recipient without an associated payment procedure;
FIG. 11—the communication sequences during the pick-up of a parcel by a recipient with an associated payment procedure;
FIG. 12—the communication sequences during the pick-up of a B2B parcel by a recipient;
FIG. 13—the communication sequences during the retrieval of personal data;
FIG. 14—the communication sequences during the blocking of accounts;
FIG. 15—the communication sequences during the time synchronization;
FIG. 16—the communication sequences during the checking of the validity of profiles;
FIG. 17—the communication sequences during the checking of the validity of recipient information;
FIG. 18—the communication sequences during the downloading of user profiles;
FIG. 19—the communication sequences during the query about the filling status of compartments by logistic providers;
FIG. 20—the communication sequences during the query of request intervals.
Especially preferred embodiments will be described on the basis of the drawing figures and description.
The disclosure relates to the communication sequences during the exchange of information between a parcel compartment system and at least one central data processing unit of a logistic provider. Such parcel compartment systems or machines are operated, for example, by a postal service provider for registered users for whom a delivery agent deposits parcels or other shipments into a compartment of the system. Drop-off as well as pick-up procedures can be carried out not only by the postal service provider that operates the logistic system but also by other affiliated companies that are granted access to components of the logistic system, including the filling of the parcel compartments.
The central data processing unit is designated as P24B in the drawings of the figures, whereas the parcel compartment system is marked as M. These parcel compartments of the system can have different configurations. They preferably have one or more areas for depositing shipments, whereby the areas can be configured as individual lockable compartments or as continuous elevator cages that can be positioned by a transport mechanism in front of at least one lockable opening.
Basically, the communication sequences according to the disclosure look like this:
1. Activities by delivery agents, customers or a timer at the parcel compartment system are events that trigger the transmission of function messages to the central data processing unit. A communication device of the parcel compartment system evaluates the events and associates them with the appertaining function messages. A function message is present, for example, in the form of an XML file that is transmitted via an http post request. However, other formats can also be used. In an especially preferred embodiment, the function message consists of a function name and a set of parameters.
2. The central data processing unit responds with an XML file. This XML file contains the result of the function message. The result of the function message is a status code that indicates the success or failure of the execution of the function. If the parcel compartment system expects to receive data in return, the data processing unit transmits the requested data (only if the execution of the function was successful).
3. If necessary, the parcel compartment system stores the data that is are sent back by the data processing unit.
It has proven to be advantageous for the communication device of the parcel compartment system to collect events and data for later transmission to the data processing unit. Several function messages are then combined into one single request. A request can contain one or more function messages.
The following table shows examples of various user roles within a logistic system. Each user of a parcel compartment system can assume one of these roles. The role determines the access rights to the system (parcel compartment systems and central data processing unit). The system uses role identifiers (role ID) when it provides the parcel compartment system with user profiles. The designation DPAG, which stands for Deutsche Post AG, describes an example of a provider that operates a logistic system with parcel compartment systems. The designation B2B refers to a business-to-business system in which companies have access to compartments of the parcel compartment systems of the system operator. The designation Post24 stands for an example of a central data processing unit of the operating company.
The communication sequences between the parcel compartment systems and the central data processing unit are explained with reference to
The drawing in
When the central data processing unit 30 receives the function message, an appertaining status code to confirm receipt is sent to the communication device 21. It also carries out the appertaining function and, if applicable, sends data back to the communication device. In some cases, it is necessary to provide a registered user with information about the event at the parcel compartment system. For example, if a parcel is deposited for him, the central data processing unit triggers a notification containing, for example, the location of the parcel compartment system, access codes or other information.
The communication sequence shown in
The delivery agent 10 logs in at the communication device 21 of the parcel compartment system 20 and, in this case, deposits a parcel of the system operator. Preferably, data located on the parcel are read in during this procedure. Such data include, for example, an Identcode of the system operator that is assigned to the parcel and which is scanned in. Moreover, a CustomerID can be read in. Through this event of depositing, communication is triggered back and forth between the communication device of the parcel compartment system and the central data processing unit. The communication device 21 evaluates the event and associates a function message with it. The function message is transmitted to the central data processing unit and on this basis, the central data processing unit carries out the appropriate functions and, if applicable, sends data back to the communication device. The function messages can be transmitted individually or in batches. For example, the communication device transmits data such as the MachineID, the point in time of the depositing, the ParcelID, the parcel type, an Identcode, a CustomerID, various modes, the compartment type and the sender. Moreover, a company type can be transmitted. This is advantageous if the parcel compartment system is used by several transportation and delivery companies that have access to certain compartments of the parcel compartment system.
The central data processing unit receives the data with the function message and sends, for example, the maximum storage period back to the parcel compartment system. The latter can then store the ParcelID, the Identcode and the maximum storage period.
The communication device of the parcel compartment system requests a profile from the central data processing unit which then transmits a customer profile.
This profile preferably contains at least a CustomerID, a release status, a PIN and the role of the customer. If more than one recipient is transmitted with this profile, then the parcel can be picked up by all of the specified persons. The parcel compartment system assigns the profile to the ParcelID and sends confirmation to the central data processing unit that the profile has been received. If the request for the customer profile is not successful, the communication device of the machine advantageously attempts another request. Only once the transmission of the profile has succeeded does the communication device send a confirmation on the basis of which, at the end of the communication, the central data processing unit sends the user a notification that a parcel has been deposited.
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The communication sequence shown in
The communication sequence shown in
The delivery agent logs in, whereby the ParcelID, the compartment number, the CustomerID and/or the Identcode of the parcel are read in. He removes the parcel in question, all of the customer-related and parcel-related data are deleted and the communication device 21 sends a function message to the central data processing unit to the effect that a parcel has been removed. Then the mode is set to 3 in order to indicate that there was an unscheduled removal of a parcel from the machine.
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The expiration of the individual time intervals, in addition to the drop-off and pick-up procedures, likewise constitutes an event that the communication device 21 of the parcel compartment system evaluates, on the basis of which it sends a corresponding function message to the central data processing unit.
If a function message is not answered within a certain period of time, the sender has to send the request once again. In order to ensure the correct execution of repeated requests on the sender and recipient side, an unambiguous RequestID is associated with each request. This identification is sent, for instance, with the XML file. The same identification then has to be sent with the response XML file of the original recipient. The RequestID gives the sender and the recipient of a request various checking possibilities. For one thing, it can check whether the same function was requested several times. Secondly, a response can be associated with a function message.
Number | Date | Country | Kind |
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102 38 344 | Aug 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE03/02693 | 8/7/2003 | WO | 00 | 2/15/2005 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2004/018116 | 3/4/2004 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5051914 | Sansone et al. | Sep 1991 | A |
5068797 | Sansone et al. | Nov 1991 | A |
5072401 | Sansone et al. | Dec 1991 | A |
5774053 | Porter | Jun 1998 | A |
6344796 | Ogilvie et al. | Feb 2002 | B1 |
Number | Date | Country |
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100 00 830 | Jul 2001 | DE |
201 03 584 | Aug 2001 | DE |
WO 9620952 | Jul 1996 | WO |
WO 9620952 | Jul 1996 | WO |
Number | Date | Country | |
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20050288977 A1 | Dec 2005 | US |