CN112926922A - Responsibility judgment system, method and device, storage medium and electronic equipment - Google Patents

Responsibility judgment system, method and device, storage medium and electronic equipment Download PDF

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CN112926922A
CN112926922A CN202110293098.4A CN202110293098A CN112926922A CN 112926922 A CN112926922 A CN 112926922A CN 202110293098 A CN202110293098 A CN 202110293098A CN 112926922 A CN112926922 A CN 112926922A
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responsibility
time information
distribution
delivery
information
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CN112926922B (en
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姚铖焘
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Rajax Network Technology Co Ltd
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Rajax Network Technology Co Ltd
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Abstract

The present application provides a responsibility determination system, including: the system comprises a responsibility judgment end, a first identification device arranged at an entity object end, a second identification device arranged at a user end and a mobile device carried by a distribution resource; the responsibility judgment end is used for acquiring overtime distribution duration information of the distribution resource distribution object according to the actual delivery time information and the predicted delivery time information; and obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object according to the stay time length information and the overtime distribution time length information. The responsibility judgment system provided by the embodiment of the application can obtain a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object according to the stay time length information and the overtime distribution time length information, so that the overtime distribution responsibility can be accurately judged.

Description

Responsibility judgment system, method and device, storage medium and electronic equipment
Technical Field
The application relates to the technical field of computers, in particular to a responsibility judgment system. The present application also relates to a responsibility determination method, a responsibility determination apparatus, two information processing methods, two information processing apparatuses, two identification devices, a signal transmission apparatus, a mobile device, an electronic device, and a storage medium.
Background
With the rapid development of internet technology and mobile payment technology, offline service online has become a trend of physical store development, for example: more and more physical restaurant stores are beginning to provide take-out services on take-out service platforms. Whether it is a take-out service or other on-line sales service, it is generally necessary to provide a delivery service to a user through a corresponding delivery resource, such as: the take-out service delivers take-outs to the user through the rider. Therefore, how to provide high-quality delivery service for users has become an urgent problem to be solved for offline service and online service.
In the implementation of providing a good-quality delivery service to a user, a takeaway platform or the like generally sets a timeout limit for the delivery service in order to maintain the user's interest. The reasons for the delivery service timeout are usually two, one is that the order of the merchant or the store is slow, and the other is that the delivery resource cannot complete the delivery service on time. In order to fulfill the responsibility of overtime distribution compensation and the like for the user under the condition of overtime distribution service, how to accurately judge the responsibility of overtime distribution becomes an important problem for providing high-quality distribution service for the user.
In other scenarios, there may also be a problem of how to make an accurate responsibility determination for the overtime delivery responsibility.
Disclosure of Invention
A responsibility judgment system, a responsibility judgment method, a responsibility judgment apparatus, two information processing methods, two information processing apparatuses, two identification devices, a signal transmission apparatus, a mobile device, an electronic device, and a storage medium are provided to make an accurate responsibility judgment for an overtime delivery responsibility.
An embodiment of the present application provides a responsibility determination system, including: the system comprises a responsibility judgment end, a first identification device arranged at an entity object end, a second identification device arranged at a user end and a mobile device carried by a distribution resource; the responsibility judgment end is configured to obtain arrival time information, sent by the first identification device, of the distribution resource at an entity object end, and departure time information, sent by the first identification device, of the distribution resource from the entity object end; obtaining the staying time length information of the distribution resources at the entity object end according to the arrival time information and the departure time information; acquiring estimated delivery time information of the delivery resource for delivering the object provided by the entity object end to the user end and actual delivery time information of the delivery resource sent by the second identification device for reaching the user end; if the entity delivery time corresponding to the actual delivery time information exceeds the predicted delivery time corresponding to the predicted delivery time information, acquiring overtime distribution duration information of the distribution resource for distributing the object according to the actual delivery time information and the predicted delivery time information; according to the stay time length information and the overtime distribution time length information, obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object; the first identification device is configured to obtain the arrival time information and the departure time information according to the detected signal sent by the mobile device; sending the arrival time information and the departure time information to the responsibility judgment end; the second identification device is used for acquiring the actual delivery time information according to the detected signal sent by the mobile device; sending the actual delivery time information to the responsibility judgment end; the mobile device is configured to send out a signal detectable by the first identification device and a signal detectable by the second identification device.
Optionally, the responsibility determination end is specifically configured to obtain information of an estimated time duration of the object provided by the entity object end; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the stay time information, the overtime distribution time information and the estimated time-consuming time information.
Optionally, the responsibility determination end is specifically configured to obtain, according to the stay time length information and the estimated time-consuming time length information, a first difference between a time length corresponding to the estimated time-consuming time length information and a time length corresponding to the stay time length information; judging whether the first difference value is smaller than a first time length threshold value or not; if yes, obtaining a first overtime distribution responsibility result used for indicating that the distribution resource bears all overtime distribution responsibility, and a second overtime distribution responsibility result used for indicating that the entity object end does not bear the overtime distribution responsibility.
Optionally, the responsibility determination end is further configured to, if the first difference is not smaller than the first time threshold, obtain, according to the stay time length information and the timeout distribution time length information, a second difference between a time length corresponding to the timeout distribution time length information and a time length corresponding to the stay time length information; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the second difference and the time length corresponding to the overtime distribution time length information.
Optionally, the responsibility determination end is specifically configured to obtain a ratio between the second difference and a time length corresponding to the timeout distribution time length information; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the ratio.
Optionally, the responsibility determination end is specifically configured to determine whether the ratio is greater than a first ratio threshold; if the ratio is not larger than the first ratio threshold, obtaining a first overtime distribution responsibility result used for indicating that the distribution resources do not bear overtime distribution responsibility and a second overtime distribution responsibility result used for indicating that the entity object end bears all overtime distribution responsibility.
Optionally, the responsibility determination end is further configured to determine whether the ratio is smaller than a second ratio threshold if the ratio is larger than the first ratio threshold; if the ratio is not smaller than the second ratio threshold, obtaining a first overtime distribution responsibility result used for indicating that the distribution resources undertake all overtime distribution responsibilities, and a second overtime distribution responsibility result used for indicating that the entity object end does not undertake the overtime distribution responsibilities.
Optionally, the responsibility determining end is further configured to, if the ratio is greater than the first ratio threshold and smaller than the second ratio threshold, obtain, according to the ratio, a first responsibility ratio that the delivery resource should assume for the timeout delivery responsibility of the object, and a second responsibility ratio that the entity object end should assume for the timeout delivery responsibility of the object; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the first responsibility ratio and the second responsibility ratio.
Optionally, the responsibility determining end is specifically configured to determine, according to the first responsibility ratio, a first timeout delivery responsibility result used for indicating a timeout delivery responsibility of the delivery resource for assuming the first responsibility ratio; and determining a second overtime distribution responsibility result used for representing the overtime distribution responsibility of the entity object end for bearing the second responsibility ratio according to the second responsibility ratio.
Optionally, the first identification device is specifically configured to determine whether a currently detected signal sent by the mobile device is a signal sent by the mobile device that is detected for the first time; if so, obtaining first detection time information of a signal sent by the mobile equipment detected currently; and obtaining the arrival time information according to the first detection time information.
Optionally, the first identification device is further configured to, if a signal sent by the mobile device is not detected for the first time, obtain second detection time information of the signal sent by the mobile device detected last time; obtaining a third difference value between the time corresponding to the first detection time information and the time corresponding to the second detection time information; judging whether the third difference value is greater than a second duration threshold value; and if the third difference is greater than the second duration threshold, obtaining the arrival time information according to the first detection time information.
Optionally, the first identification device is further configured to, if the third difference is not greater than the second duration threshold, determine whether the signal sent by the mobile device detected last time is the signal sent by the mobile device detected for the first time, and so on until the arrival time information is obtained.
Optionally, the first identification device is specifically configured to obtain a finally detected signal sent by the mobile device; for the finally detected signal sent by the mobile equipment, obtaining third detection time information of the finally detected signal sent by the mobile equipment; and obtaining the leaving time information according to the third detection time information.
Optionally, the first identification device is specifically configured to, after detecting a currently detected signal sent by the mobile device, determine whether a first signal sent by the mobile device can be detected within a third time threshold; and if not, taking the currently detected signal sent by the mobile equipment as the finally detected signal sent by the mobile equipment.
Optionally, the first identification device is further configured to, if the first signal sent by the mobile device can be detected within a third time threshold, determine whether the first signal sent by the mobile device can be detected within the third time threshold after the detected first signal sent by the mobile device; if not, taking the first detected signal sent by the mobile equipment as the finally detected signal sent by the mobile equipment, and so on until the finally detected signal sent by the mobile equipment is obtained.
Optionally, the first identification device is specifically configured to detect a signal sent by the mobile device at a preset period; the mobile device is specifically configured to send out a signal that can be detected by the first identification device at the preset period.
Optionally, the responsibility determination system provided in the embodiment of the present application further includes: the electronic equipment corresponding to the entity object end is used for sending a first responsibility judgment request message for requesting responsibility judgment to the responsibility judgment end; obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result sent by the responsibility judgment end aiming at the first responsibility judgment request message;
the responsibility judgment end is specifically configured to obtain the first responsibility judgment request message sent by the electronic device corresponding to the entity object end; determining task timeout responsibility of the target delivery task for the first responsibility determination request message; and sending the first overtime distribution responsibility result and the second overtime distribution responsibility result to the electronic equipment corresponding to the entity object terminal.
Optionally, the responsibility determination system provided in the embodiment of the present application further includes: the electronic equipment corresponding to the user side is used for sending a second responsibility judgment request message for requesting responsibility judgment to the responsibility judgment side; obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result sent by the responsibility judgment end aiming at the second responsibility judgment request message;
the responsibility judgment end is specifically configured to obtain the second responsibility judgment request message sent by the electronic device corresponding to the entity object end; determining task timeout responsibility of the target delivery task for the second responsibility determination request message; and sending the first overtime distribution responsibility result and the second overtime distribution responsibility result to the electronic equipment corresponding to the entity object terminal.
Optionally, the responsibility determination system provided in the embodiment of the present application further includes: the electronic device corresponding to the distribution resource end is configured to send a third responsibility judgment request message for requesting responsibility judgment to the responsibility judgment end; obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result sent by the responsibility judgment end aiming at the third responsibility judgment request message; the responsibility judgment end is specifically configured to obtain the third responsibility judgment request message sent by the electronic device corresponding to the entity object end; determining task timeout responsibility of the target delivery task for the third responsibility determination request message; and sending the first overtime distribution responsibility result and the second overtime distribution responsibility result to the electronic equipment corresponding to the entity object terminal.
Another embodiment of the present application further provides a responsibility determination method, including: obtaining the stay time information of the distribution resources at the entity object end; acquiring the estimated delivery time information of the delivery resources for delivering the object provided by the entity object end to the user end and the actual delivery time information of the delivery resources for reaching the user end; if the entity delivery time corresponding to the actual delivery time information exceeds the estimated delivery time corresponding to the estimated delivery time information, acquiring overtime delivery duration information of the delivery resource for delivering the object; and obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object according to the stay time length information and the overtime distribution time length information.
Optionally, the obtaining of the information of the staying time of the distribution resource at the entity object end includes: obtaining the arrival time information of the distribution resources reaching the entity object end; obtaining the leaving time information of the distribution resource leaving the entity object end; and obtaining the stay time length information according to the arrival time information and the departure time information.
Optionally, the obtaining of the timeout delivery duration information for the delivery resource to deliver the object includes: and acquiring the overtime distribution duration information of the distribution resource for distributing the object according to the actual delivery time information and the predicted delivery time information.
Optionally, the obtaining, according to the stay time information and the timeout distribution time information, a first timeout distribution responsibility result of the distribution resource for the object and a second timeout distribution responsibility result of the entity object for the object includes: acquiring the expected time-consuming duration information of the object provided by the entity object side; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the stay time information, the overtime distribution time information and the estimated time-consuming time information.
Optionally, the obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the stay time information, the overtime distribution time information, and the expected time-consuming time information includes: obtaining a first difference value between the time length corresponding to the estimated time-consuming time length information and the time length corresponding to the stay time length information according to the stay time length information and the estimated time-consuming time length information; judging whether the first difference value is smaller than a first time length threshold value or not; if yes, obtaining a first overtime distribution responsibility result used for indicating that the distribution resource bears all overtime distribution responsibility, and a second overtime distribution responsibility result used for indicating that the entity object end does not bear the overtime distribution responsibility.
Optionally, the responsibility determination method provided in the embodiment of the present application further includes: if the first difference is not smaller than the first time threshold, obtaining a second difference between the time corresponding to the overtime distribution time information and the time corresponding to the dwell time information according to the dwell time information and the overtime distribution time information; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the second difference and the time length corresponding to the overtime distribution time length information.
Optionally, the obtaining the first timeout distribution responsibility result and the second timeout distribution responsibility result according to the second difference and the time length corresponding to the timeout distribution time length information includes: obtaining the ratio of the second difference value to the time corresponding to the overtime distribution time information; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the ratio.
Optionally, the obtaining, according to the ratio, a first timeout delivery responsibility result of the delivery resource for the object and a second timeout delivery responsibility result of the entity object for the object includes: judging whether the ratio is larger than a first ratio threshold value or not; if the ratio is not larger than the first ratio threshold, obtaining a first overtime distribution responsibility result used for indicating that the distribution resources do not bear overtime distribution responsibility and a second overtime distribution responsibility result used for indicating that the entity object end bears all overtime distribution responsibility.
Optionally, the responsibility determination method provided in the embodiment of the present application further includes: if the ratio is larger than the first ratio threshold, judging whether the ratio is smaller than a second ratio threshold; if the ratio is not smaller than the second ratio threshold, obtaining a first overtime distribution responsibility result used for indicating that the distribution resources undertake all overtime distribution responsibilities, and a second overtime distribution responsibility result used for indicating that the entity object end does not undertake the overtime distribution responsibilities.
Optionally, the responsibility determination method provided in the embodiment of the present application further includes: if the ratio is greater than the first ratio threshold and smaller than the second ratio threshold, obtaining a first responsibility ratio which the delivery resource should bear for the overtime delivery responsibility of the object and a second responsibility ratio which the entity object end should bear for the overtime delivery responsibility of the object according to the ratio; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the first responsibility ratio and the second responsibility ratio.
Optionally, the obtaining the first timeout delivery responsibility result and the second timeout delivery responsibility result according to the first responsibility ratio and the second responsibility ratio includes: determining a first overtime distribution responsibility result used for representing overtime distribution responsibility of the distribution resources for assuming the first responsibility ratio according to the first responsibility ratio; and determining a second overtime distribution responsibility result used for representing the overtime distribution responsibility of the entity object end for bearing the second responsibility ratio according to the second responsibility ratio.
Another embodiment of the present application further provides a responsibility determination device, including: a first time length information obtaining unit, configured to obtain information of a time length during which the distribution resource stays at the entity object; a time information obtaining unit, configured to obtain estimated delivery time information for the delivery resource to deliver the object provided by the entity object to the user side, and actual delivery time information for the delivery resource to reach the user side; a second time length information obtaining unit, configured to obtain the timeout delivery time length information of the object to be delivered by the delivery resource, if the entity delivery time corresponding to the actual delivery time information exceeds the expected delivery time corresponding to the expected delivery time information; and the overtime distribution responsibility result obtaining unit is used for obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object according to the stay time length information and the overtime distribution time length information.
Another embodiment of the present application further provides an information processing method, including: according to a detected signal sent by mobile equipment carried by a distribution resource, obtaining arrival time information of the distribution resource at an entity object end and obtaining departure time information of the distribution resource from the entity object end; and sending the arrival time information and the departure time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime distribution responsibility result of the distribution resource for the object provided by the entity object end and a second overtime distribution responsibility result of the entity object end for the object.
Optionally, the obtaining of the arrival time information of the delivery resource at the entity object end includes: judging whether the currently detected signal sent by the mobile equipment is the first detected signal sent by the mobile equipment; if so, obtaining first detection time information of a signal sent by the mobile equipment detected currently;
and obtaining the arrival time information according to the first detection time information.
Optionally, the information processing method provided in the embodiment of the present application further includes: if the signal sent by the mobile equipment is not detected for the first time, second detection time information of the signal sent by the mobile equipment detected last time is obtained; obtaining a first difference value between the time corresponding to the first detection time information and the time corresponding to the second detection time information; judging whether the first difference value is larger than a first time length threshold value or not; and if the first difference is larger than the first time length threshold, obtaining the arrival time information according to the first detection time information.
Optionally, the information processing method provided in the embodiment of the present application further includes: if the first difference is not greater than the first time threshold, judging whether the signal sent by the mobile device detected last time is the signal sent by the mobile device detected for the first time, and repeating the steps until the arrival time information is obtained.
Optionally, the obtaining the departure time information of the distribution resource from the entity object includes: obtaining a finally detected signal sent by the mobile equipment; for the finally detected signal sent by the mobile equipment, obtaining third detection time information of the finally detected signal sent by the mobile equipment; and obtaining the leaving time information according to the third detection time information.
Optionally, the obtaining the finally detected signal sent by the mobile device includes: after detecting a currently detected signal sent by the mobile equipment, judging whether a first signal sent by the mobile equipment can be detected within a second time length threshold value; and if not, taking the currently detected signal sent by the mobile equipment as the finally detected signal sent by the mobile equipment.
Optionally, the information processing method provided in the embodiment of the present application further includes: if the first signal sent by the mobile equipment can be detected within the second time length threshold, judging whether the second signal sent by the mobile equipment can be detected within the second time length threshold after the first signal sent by the mobile equipment is detected; if not, taking the first detected signal sent by the mobile equipment as the finally detected signal sent by the mobile equipment, and so on until the finally detected signal sent by the mobile equipment is obtained.
Another embodiment of the present application further provides an information processing apparatus, including: a time information obtaining unit, configured to obtain, according to a detected signal sent by a mobile device carried by a distributed resource, arrival time information of the distributed resource at an entity object end, and obtain departure time information of the distributed resource from the entity object end; a time information sending unit, configured to send the arrival time information and the departure time information to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout delivery responsibility result of the delivery resource for the object provided by the entity object end and a second timeout delivery responsibility result of the entity object end for the object.
Another embodiment of the present application further provides an identification device, including: the device comprises an information transmission module, a controller module and a signal detection module; the signal detection module is used for detecting signals sent by mobile equipment carried by the distribution resources; providing the detected signal emitted by the mobile device to the controller module; the controller module is used for obtaining a signal sent by the mobile equipment; according to the signal sent by the mobile equipment, obtaining the arrival time information of the distribution resource reaching the entity object end and obtaining the departure time information of the distribution resource leaving the entity object end; providing the arrival time information and the departure time information to the information transmission module; the signal transmission module is used for obtaining the arrival time information and the departure time information; and sending the arrival time information and the departure time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime distribution responsibility result of the distribution resource for the object provided by the entity object end and a second overtime distribution responsibility result of the entity object end for the object.
Optionally, the signal detection module is specifically configured to send an electromagnetic wave signal to the mobile device; and detecting an electromagnetic wave signal sent by the mobile equipment.
Optionally, the signal transmission module specifically includes a signal generation sub-module and an antenna sub-module; the signal generation submodule is used for converting the arrival time information and the departure time information into a target electric signal; loading the target electric signal onto an electromagnetic wave to generate a target electromagnetic wave signal carrying the arrival time information and the departure time information; providing the target electromagnetic wave signal to the antenna sub-module; the antenna sub-module is used for obtaining the target electromagnetic wave signal; and sending the target electromagnetic wave signal to the responsibility judgment end.
Another embodiment of the present application further provides an information processing method, including: according to the detected signal sent by the mobile equipment carried by the distribution resource, the actual delivery time information of the distribution resource for delivering the object provided by the entity object end to the user end is obtained; and sending the actual delivery time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime delivery responsibility result of the delivery resource for the object provided by the entity object end and a second overtime delivery responsibility result of the entity object end for the object.
Optionally, the obtaining actual delivery time information for delivering the object provided by the entity object end to the user end by the distribution resource includes: judging whether the currently detected signal sent by the mobile equipment is the first detected signal sent by the mobile equipment; if so, obtaining first detection time information of a signal sent by the mobile equipment detected currently; and acquiring the actual delivery time information according to the first detection time information.
Optionally, the information processing method provided in the embodiment of the present application further includes: if the signal sent by the mobile equipment is not detected for the first time, second detection time information of the signal sent by the mobile equipment detected last time is obtained; obtaining a first difference value between the time corresponding to the first detection time information and the time corresponding to the second detection time information; judging whether the first difference value is larger than a first time length threshold value or not; and if the first difference is larger than the first time length threshold, acquiring the actual delivery time information according to the first detection time information.
Optionally, the information processing method provided in the embodiment of the present application further includes: if the first difference is not larger than the first time threshold, judging whether the signal sent by the mobile equipment detected last time is the signal sent by the mobile equipment detected for the first time, and repeating the steps until the actual delivery time information is obtained.
Another embodiment of the present application further provides an information processing apparatus, including: a time information obtaining unit, configured to obtain, according to a detected signal sent by a mobile device carried by a distribution resource, actual delivery time information for delivering an object provided by an entity object end to the user end by the distribution resource; a time information sending unit, configured to send the actual delivery time information to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout delivery responsibility result of the delivery resource for the object provided by the entity object end and a second timeout delivery responsibility result of the entity object end for the object.
Another embodiment of the present application further provides an identification device, including: the device comprises an information transmission module, a controller module and a signal detection module; the signal detection module is used for detecting signals sent by mobile equipment carried by the distribution resources; providing the detected signal emitted by the mobile device to the controller module; the controller module is used for obtaining a signal sent by the mobile equipment; according to the signal sent by the mobile equipment, actual delivery time information of the delivery resource for delivering the object provided by the entity object end to the user end is obtained; providing the actual delivery time information to the information transmission module; the signal transmission module is used for obtaining the actual delivery time information; and sending the actual delivery time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime delivery responsibility result of the delivery resource for the object provided by the entity object end and a second overtime delivery responsibility result of the entity object end for the object.
Optionally, the signal detection module is specifically configured to send an electromagnetic wave signal to the mobile device; and detecting an electromagnetic wave signal sent by the mobile equipment.
Optionally, the signal transmission module specifically includes a signal generation sub-module and an antenna sub-module; the signal generation submodule is used for converting the actual delivery time information into a target electric signal; loading the target electric signal to an electromagnetic wave to generate a target electromagnetic wave signal carrying the actual delivery time information; providing the target electromagnetic wave signal to the antenna sub-module; the antenna sub-module is used for sending the target electromagnetic wave signal to the responsibility judgment end.
Another embodiment of the present application further provides a signal sending method, including:
generating a signal which can be detected by a first identification device arranged at an entity object end and a second identification device arranged at a user end, wherein an object provided by the entity object end is delivered to the user end through a distribution resource, the signal is a signal used by the first identification device to obtain information of arrival time of the distribution resource at the entity object end and information of departure time of the distribution resource from the entity object end, and the signal used by the second identification device to obtain information of actual delivery time of the distribution resource for delivering the object to the user end; the signal is emitted.
Optionally, the sending out the signal that can be detected by the first identification device disposed at the entity object end and the second identification device disposed at the user end includes: the signal is sent out in a preset period.
Another embodiment of the present application further provides a signal transmitting apparatus, including: a signal generating unit, configured to generate a signal that can be detected by a first identification device disposed at an entity object end and a second identification device disposed at a user end, where an object provided by the entity object end is delivered to the user end through a distribution resource, where the signal is a signal that is used by the first identification device to obtain arrival time information of the distribution resource at the entity object end and departure time information of the distribution resource from the entity object end, and a signal that is used by the second identification device to obtain actual arrival time information of the distribution resource for delivering the object to the user end; and the signal sending unit is used for sending the signal.
Another embodiment of the present application further provides a mobile device, including: the device comprises a signal transceiving module, an energy conversion module, a demodulator module and a controller module; the signal receiving and transmitting module is used for receiving a first signal sent by first identification equipment arranged at an entity object end and second identification equipment arranged at a user end; providing the first signal to the energy conversion module; obtaining a second signal sent by the demodulator module and detectable by the first identification device and the second identification device; emitting the second signal; the energy conversion module is used for obtaining the first signal; converting the first signal into electric energy to be supplied to the controller; the controller is used for generating a target signal; sending the target signal to the demodulator module; the demodulator module is used for receiving the target signal; and generating the second signal according to the target signal.
Optionally, the first signal is an electromagnetic wave signal; the energy conversion module comprises an impedance matching submodule, an electric energy generation submodule and an electric energy stabilization submodule; the impedance matching sub-module is used for receiving the first signal; eliminating a reflected signal in the first signal; providing the first signal with the reflection signal eliminated to the electric energy generation submodule; the electric energy generation submodule is used for obtaining the first signal after the reflection signal is eliminated; obtaining initial electric energy through the first signal after the reflection signal is eliminated; providing the initial power to the power stabilization submodule; the electric energy stabilizing sub-module is used for receiving the initial electric energy; performing voltage stabilization treatment on the initial electric energy to obtain the electric energy; providing the electrical energy to the controller.
Optionally, the demodulator module is specifically configured to convert the target signal into a target electrical signal; and loading the target electric signal on an electromagnetic wave to generate the second signal.
Another embodiment of the present application further provides an electronic device, including: a processor; and the memory is used for storing a computer program, and the device executes the method provided by the embodiment after being powered on and running the program of the computer program through the processor.
In another embodiment of the present application, a storage medium is further provided, where a computer program is stored, and the computer program is executed by a processor to perform the method provided in the foregoing embodiment of the present application.
Compared with the prior art, the method has the following advantages:
an embodiment of the present application provides a responsibility determination system, including: the system comprises a responsibility judgment end, a first identification device arranged at an entity object end, a second identification device arranged at a user end and a mobile device carried by a distribution resource; the responsibility judgment end is configured to obtain arrival time information, sent by the first identification device, of the distribution resource at an entity object end, and departure time information, sent by the first identification device, of the distribution resource from the entity object end; obtaining the staying time length information of the distribution resources at the entity object end according to the arrival time information and the departure time information; acquiring estimated delivery time information of the delivery resource for delivering the object provided by the entity object end to the user end and actual delivery time information of the delivery resource sent by the second identification device for reaching the user end; if the entity delivery time corresponding to the actual delivery time information exceeds the predicted delivery time corresponding to the predicted delivery time information, acquiring overtime distribution duration information of the distribution resource for distributing the object according to the actual delivery time information and the predicted delivery time information; according to the stay time length information and the overtime distribution time length information, obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object; the first identification device is configured to obtain the arrival time information and the departure time information according to the detected signal sent by the mobile device; sending the arrival time information and the departure time information to the responsibility judgment end; the second identification device is used for acquiring the actual delivery time information according to the detected signal sent by the mobile device; sending the actual delivery time information to the responsibility judgment end; the mobile device is configured to send out a signal detectable by the first identification device and a signal detectable by the second identification device. The responsibility judgment system provided by the embodiment of the application can obtain a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object according to the stay time length information and the overtime distribution time length information, so that the overtime distribution responsibility can be accurately judged.
Drawings
Fig. 1 is a scene schematic diagram of a responsibility determination system provided in an embodiment of the present application.
Fig. 2 is a schematic diagram of a responsibility determination system provided in the first embodiment of the present application.
Fig. 3 is a flowchart of a method for obtaining a distribution responsibility result according to a first embodiment of the present application.
Fig. 4 is a flowchart of a method for obtaining time of arrival information according to a first embodiment of the present application.
Fig. 5 is a flowchart of a responsibility determination method provided in a second embodiment of the present application.
Fig. 6 is a schematic diagram of a responsibility determination device provided in a third embodiment of the present application.
Fig. 7 is a flowchart of an information processing method provided in a fourth embodiment of the present application.
Fig. 8 is a schematic diagram of an information processing apparatus provided in an embodiment of the present application.
Fig. 9 is a first schematic diagram of an identification device provided in an embodiment of the present application.
Fig. 10 is a second schematic diagram of an identification device according to an embodiment of the present application.
Fig. 11 is a flowchart of an information processing method provided in a seventh embodiment of the present application.
Fig. 12 is a flowchart of a signal transmission method provided in a tenth embodiment of the present application.
Fig. 13 is a schematic diagram of a signal transmitting apparatus provided in an eleventh embodiment of the present application.
Fig. 14 is a first schematic diagram of a mobile device provided in a twelfth embodiment of the present application.
Fig. 15 is a second schematic view of an identification device according to a twelfth embodiment of the present application.
Fig. 16 is a schematic diagram of an electronic device provided in an embodiment of the present application.
Detailed Description
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of implementation in many different ways than those herein set forth and of similar import by those skilled in the art without departing from the spirit of this application and is therefore not limited to the specific implementations disclosed below.
In order to more clearly show the responsibility determination system provided in the embodiment of the present application, an application scenario of the responsibility determination system provided in the embodiment of the present application is first introduced. The responsibility judgment system provided by the embodiment of the application is generally applied to a takeout overtime distribution responsibility judgment scene, can also be applied to a medicine distribution and goods delivery overtime distribution responsibility judgment scene, and can also be applied to other same or similar scenes. Specifically, in the embodiment of the present application, a scenario in which the responsibility determination system is applied to take out timeout delivery responsibility determination is taken as an example, the responsibility determination system provided in the embodiment of the present application is described, and for a case in which the responsibility determination system provided in the embodiment of the present application is applied to other scenarios, please refer to a case in which the responsibility determination system is applied to a scenario in which take out timeout delivery responsibility determination is performed in detail, which is not described herein again.
In the scenario of determining delivery responsibility during takeover, the delivery resource is generally a rider or a takeout deliverer, the entity object end is generally a merchant end, a shop end and the like providing takeout services, and the user end is a user end taking out from the merchant end and the shop end, at this time, the object provided by the entity object end for delivering the delivery resource is takeout. Please refer to fig. 1, which is a schematic view of a scenario of a responsibility determination system according to an embodiment of the present application, where fig. 1 includes: the electronic device 101 corresponding to the user side, the electronic device 102 corresponding to the merchant side, the electronic device 103 corresponding to the rider, and the server 104 corresponding to the responsibility determination side.
The electronic device 101 corresponding to the user side, the electronic device 102 corresponding to the merchant side, and the electronic device 103 corresponding to the rider are all electronic devices installed with takeout programs or software, such as: a mobile phone with a takeout APP (Application program) installed, and the like.
The server 104 corresponding to the responsibility determination end is generally a server or a server cluster capable of implementing the responsibility determination function, such as: a server or a server cluster on which a computer program for responsibility determination is loaded; the server 104 corresponding to the responsibility judgment end may also be a server or a server cluster for controlling a responsibility judgment device for realizing the responsibility judgment function, which is installed with a program or software capable of realizing the responsibility judgment function.
Specifically, taking the server 104 corresponding to the responsibility determination end as an example of a server for controlling a responsibility determination device for implementing the discretionary function, the following describes in detail a scenario of takeout timeout delivery responsibility determination provided in the embodiment of the present application:
after the user triggers the trigger control installed on the electronic device 101 corresponding to the user side and used for sending the responsibility judgment request message, the electronic device 101 corresponding to the user side sends the responsibility judgment request message to the server 104 corresponding to the responsibility judgment side. In addition, in a specific implementation process, after a merchant triggers a trigger control for sending a responsibility judgment request message, which is installed on the electronic device 102 corresponding to the merchant terminal, the electronic device 102 corresponding to the merchant terminal sends the responsibility judgment request message to the server 104 corresponding to the responsibility judgment terminal; after the rider triggers a trigger control for sending the responsibility judgment request message, which is installed on the electronic device 103 corresponding to the rider, the electronic device 103 corresponding to the rider may send the responsibility judgment request message to the server 104 corresponding to the responsibility judgment end.
After receiving the responsibility judgment request message, the server 104 corresponding to the responsibility judgment end obtains a first overtime distribution responsibility result of the rider for take-out and a second overtime distribution responsibility result of the merchant end for take-out.
In a specific implementation process, the server 104 corresponding to the responsibility judgment end acquires in advance arrival time information of a rider arriving at a merchant end and departure time information of the rider leaving the merchant end, which are sent by first identification equipment arranged at the merchant end; according to the arrival time information and the departure time information, obtaining the stay time information of the rider at the merchant end; the method comprises the steps of obtaining predicted delivery time information of a rider for delivering the takeout provided by a merchant to a user end, and actual delivery time information of the rider for reaching the user end, which is sent by a second identification device arranged at the user end.
After obtaining the responsibility judgment request message, the server 104 corresponding to the responsibility judgment end first judges whether the entity delivery time corresponding to the actual delivery time information exceeds the expected delivery time corresponding to the expected delivery time information. And if the entity delivery time corresponding to the actual delivery time information exceeds the expected delivery time corresponding to the expected delivery time information, obtaining a first overtime distribution responsibility result for indicating that the rider does not undertake overtime distribution responsibility and a second overtime distribution responsibility result for indicating that the merchant does not undertake overtime distribution responsibility. If the entity delivery time corresponding to the actual delivery time information exceeds the predicted delivery time corresponding to the predicted delivery time information, acquiring overtime delivery duration information of delivery takeoffs delivered by the rider according to the actual delivery time information and the predicted delivery time information; and obtaining a first overtime distribution responsibility result of the rider for takeout and a second overtime distribution responsibility result of the merchant end for takeout according to the stay time information and the overtime distribution time information.
After the server 104 corresponding to the responsibility determination end obtains the first timeout distribution responsibility result and the second timeout distribution responsibility result, the first timeout distribution responsibility result and the second timeout distribution responsibility result are respectively sent to the electronic device 101 corresponding to the user end, the electronic device 102 corresponding to the merchant end, and the electronic device 103 corresponding to the rider. The electronic device 101 corresponding to the user side, the electronic device 102 corresponding to the merchant side, and the electronic device 103 corresponding to the rider show the first timeout distribution responsibility result and the second timeout distribution responsibility result when the first timeout distribution responsibility result and the second timeout distribution responsibility result are obtained. In addition, the electronic device 102 corresponding to the merchant terminal may distribute the responsibility result according to the first timeout and the second timeout; obtaining first overtime distribution responsibility indemnity and carrying out indemnity to the user terminal; the electronic device 103 corresponding to the rider obtains the second overtime distribution responsibility compensation according to the first overtime distribution responsibility result and the second overtime distribution responsibility result, and compensates the user side.
It should be noted that the first identification device is an electronic device disposed at a doorway of a merchant or a store or in the store, the second identification device is an electronic device disposed in an office building where a user company is located, a community or a building where the user is located, or a takeaway point or an express delivery point, and the mobile device is an electronic device carried by a rider or disposed on a vehicle used by the rider. In the embodiment of the present application, the installation manners and the installation positions of the first identification device, the second identification device, and the mobile device are not specifically limited as long as the respective functions can be realized. The specific functions of the first identification device, the second identification device and the mobile device are as follows:
the first identification equipment is used for acquiring arrival time information and departure time information according to a detected signal sent by the mobile equipment; sending arrival time information and departure time information to a server 104 corresponding to the responsibility judgment end;
the second identification equipment is used for acquiring actual delivery time information according to the detected signal sent by the mobile equipment; sending actual delivery time information to a server 104 corresponding to the responsibility judgment end;
a mobile device for emitting a signal detectable by the first identification device and a signal detectable by the second identification device.
In the embodiment of the present application, an application scenario of the responsibility determination system provided in the embodiment of the present application is not specifically limited, for example: the responsibility judgment system provided by the application can also be used for judging the responsibility of overtime delivery of the goods, and the details are not repeated here. The embodiment corresponding to the application scenario of the responsibility determination system is provided to facilitate understanding of the responsibility determination system provided in the present application, and is not intended to limit the responsibility determination system provided in the present application.
First embodiment
A responsibility determination system is provided in a first embodiment of the present application, which is described below with reference to fig. 2 to 5.
Fig. 2 is a schematic diagram of a responsibility determination system provided in the first embodiment of the present application. The responsibility determination system shown in fig. 2 includes: the system comprises a responsibility determination end 201, a first identification device 202 arranged at an entity object end, a second identification device 203 arranged at a user end and a mobile device 204 carried by a distribution resource.
The responsibility judgment system according to the first embodiment of the present application can be applied to judgment of delivery responsibility for takeout overtime, and can also be applied to judgment of delivery responsibility for medicine delivery and delivery overtime for goods delivery. When the method is applied to take-out overtime distribution responsibility judgment, the entity object end is generally a merchant end, a store end and the like which provide take-out services, the user end is a user end which takes out at the merchant end and the store end, and at this time, an object provided by the entity object end for distributing resources is take-out. When the method is applied to medical delivery responsibility judgment, the entity object end is generally a pharmacy end and the like providing medical selling services, the user end is a user end taking out from a pharmacy endpoint, and at this time, an object provided by the entity object end for delivering resource delivery is a medicine.
A responsibility judgment end 201, configured to obtain arrival time information of the delivery resource at the entity object end and departure time information of the delivery resource from the entity object end, where the arrival time information is sent by the first identification device 202; according to the arrival time information and the departure time information, obtaining the stay time information of the distribution resources at the entity object end; acquiring the estimated delivery time information of the delivery resource for delivering the object provided by the entity object end to the user end and the actual delivery time information of the delivery resource sent by the second identification device 203 for reaching the user end; if the actual delivery time information corresponds to the entity delivery time (T)1) Information pair exceeding expected delivery timeExpected delivery time (T)2) Acquiring the overtime distribution duration information of the distribution resource distribution object according to the actual delivery time information and the predicted delivery time information; and according to the stay time length information and the overtime distribution time length information, obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object.
In the first embodiment of the present application, the responsibility determining terminal 201 is generally a server or a server cluster capable of implementing the responsibility determining function, such as: a server or a server cluster on which a computer program for responsibility determination is loaded; the responsibility judgment terminal 201 may also be an electronic device installed with a program or software capable of realizing the responsibility judgment function.
A first identification device 202, configured to obtain time-of-arrival information and time-of-departure information according to a detected signal sent by the mobile device 204; the arrival time information and the departure time information are transmitted to the responsibility determination terminal 201.
The second identification device 203 is used for acquiring actual delivery time information according to the detected signal sent by the mobile device 204; the actual delivery time information is sent to the responsibility judgment end 201.
A mobile device 204 for emitting a signal detectable by the first identification device 202 and a signal detectable by the second identification device 203.
In the first embodiment of the present application, the specific implementation process of the responsibility determination end 201 obtaining, according to the stay time information and the timeout distribution time information, a first timeout distribution responsibility result of the distribution resource for the object and a second timeout distribution responsibility result of the entity object end for the object is as follows: firstly, the expected time-consuming duration information of the object provided by the entity object side is obtained. And then, obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result according to the stay time information, the overtime distribution time information and the estimated time-consuming time information.
The specific implementation process for obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the stay time information, the overtime distribution time information and the estimated time-consuming time information comprises the following steps: according to the stay time information and the estimated time-consuming time information, obtaining the time (T) corresponding to the estimated time-consuming time information3) A time length (T) corresponding to the stay time length information4) A first difference therebetween; judging whether the first difference is less than the first time length threshold (S)1) (ii) a If yes, a first overtime distribution responsibility result used for indicating that the distribution resource bears all overtime distribution responsibility and a second overtime distribution responsibility result used for indicating that the entity object end does not bear the overtime distribution responsibility are obtained. Specifically, the first difference is T4-T3If T is4-T3≤S1Then, a first timeout delivery responsibility result for indicating that the delivery resource assumes all the timeout delivery responsibility and a second timeout delivery responsibility result for indicating that the entity object side does not assume the timeout delivery responsibility are obtained. Wherein S is1The threshold value is preset according to an empirical value, such as: 2 minutes, 5 minutes, etc.
In the first embodiment of the present application, if T4-T3>S1Then, the responsibility judgment end 201 further obtains the time length (T) corresponding to the overtime distribution time length information according to the stay time length information and the overtime distribution time length information1-T2) A second difference ((T) between the time periods corresponding to the stay time period information1-T2)-T4) (ii) a And obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result according to the second difference and the time length corresponding to the overtime distribution time length information. The specific implementation process is as follows: obtaining the ratio of the second difference value to the time corresponding to the overtime distribution time information
Figure BDA0002983178780000151
And obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result according to the ratio.
In the first embodiment of the present application, please refer to fig. 3, which is a flowchart of a method for obtaining a delivery responsibility result in the first embodiment of the present application, wherein an implementation process of obtaining a first timeout delivery responsibility result and a second timeout delivery responsibility result according to a ratio is shown.
Step S301: judging whether the ratio is greater than the firstProportional threshold (S)2) (ii) a If the ratio is not greater than the first ratio threshold, step S302 is executed, and step S302: a first timeout delivery responsibility result for indicating that the delivery resource does not assume the timeout delivery responsibility and a second timeout delivery responsibility result for indicating that the entity object side assumes all the timeout delivery responsibility are obtained. I.e., if
Figure BDA0002983178780000152
A first timeout delivery responsibility result is obtained indicating that the delivery resource does not assume the timeout delivery responsibility and a second timeout delivery responsibility result indicating that the entity object assumes all of the timeout delivery responsibility.
Then, if the ratio is greater than the first ratio threshold, that is,
Figure BDA0002983178780000153
step S303 is executed, step S303: judging whether the ratio is smaller than a second ratio threshold value (S)3) (ii) a If the ratio is not less than the second ratio threshold, step S304 is executed, and step S304: a first timeout delivery responsibility result for indicating that the delivery resource assumes all of the timeout delivery responsibility and a second timeout delivery responsibility result for indicating that the entity object side does not assume the timeout delivery responsibility are obtained. I.e., if
Figure BDA0002983178780000154
A first timeout delivery responsibility result is obtained indicating that the delivery resource assumes all of the timeout delivery responsibility and a second timeout delivery responsibility result indicating that the entity object does not assume the timeout delivery responsibility.
Finally, if the ratio is greater than the first ratio threshold and less than the second ratio threshold, that is,
Figure BDA0002983178780000161
step S305 is executed, step S305: obtaining a first ratio of responsibilities (P) that the delivery resource should assume for the overtime delivery responsibilities of the objects based on the ratio1) And timeout delivery of objects by entity object sideSecond ratio of responsibility (P) to responsibility2) (ii) a Step S306: and obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result according to the first responsibility ratio and the second responsibility ratio. Specifically, according to a first overtime distribution responsibility result which is used for indicating that the distribution resources bear overtime distribution responsibility of a first responsibility ratio; and determining a second overtime distribution responsibility result used for representing the overtime distribution responsibility of the entity object end for bearing the second responsibility ratio according to the second responsibility ratio.
In the first embodiment of the present application,
Figure BDA0002983178780000162
P2=1-P1. It should be noted that, in the first embodiment of the present application, the first timeout distribution responsibility result and the second timeout distribution responsibility result may also be obtained in an alternative manner or a significantly modified manner that is equivalent to the above-provided implementation for specifically achieving the obtaining of the first timeout distribution responsibility result and the second timeout distribution responsibility result, which is not described herein again.
In the first embodiment of the present application, please refer to fig. 4, which is a flowchart of a method for obtaining arrival time information in the first embodiment of the present application, wherein a process of obtaining arrival time information of a distributed resource at an entity object end by a first identification device 202 is shown.
Step S401: judging whether the currently detected signal sent by the mobile device 204 is the first detected signal sent by the mobile device 204; if yes, the method further executes step S402, where step S402: obtaining first detection time information of detecting a currently detected signal emitted by the mobile device 204; step S403: and obtaining the arrival time information according to the first detection time information.
If the signal sent by the mobile device 204 is not detected for the first time, the step S404 is further executed, and the step S404: obtaining second detection time information of detecting a signal emitted by the mobile device 204 detected last time; step S405: obtaining a third difference value between the time corresponding to the first detection time information and the time corresponding to the second detection time information; step S406: judging whether the third difference value is greater than a second duration threshold value; if yes, the method further executes step S407, where step S407: and obtaining the arrival time information according to the first detection time information.
In addition, if the third difference is not greater than the second duration threshold; step S408 is further performed, step S408: and judging whether the signal sent by the mobile device 204 detected last time is the signal sent by the mobile device 204 detected for the first time, and so on until the arrival time information is obtained.
It should be noted that, in the first embodiment of the present application, the process of obtaining the actual delivery time information by the second identification device 203 is the same as the principle of obtaining the arrival time information by the first identification device 202, and therefore, details of the process of obtaining the actual delivery time information by the second identification device 203 are not repeated herein.
Referring to fig. 2 again, in the first embodiment of the present application, a specific implementation process of the first identification device 202 obtaining the departure time information is as follows: first, a signal sent by the mobile device 204 that is finally detected is obtained; then, for the finally detected signal sent by the mobile device 204, third detection time information for detecting the finally detected signal sent by the mobile device 204 is obtained; and finally, obtaining the leaving time information according to the third detection time information.
The way to obtain the final detected signal emitted by the mobile device 204 is: determining whether a first signal from the mobile device 204 can be detected within a third time threshold; if not, taking the currently detected signal sent by the mobile device 204 as the finally detected signal sent by the mobile device 204; if the first signal sent by the mobile device 204 can be detected within the third time length threshold, after the detected first signal sent by the mobile device 204, whether the first signal sent by the mobile device 204 can be detected within the third time length threshold is judged; if not, the first signal sent by the detected mobile device 204 is taken as the signal sent by the finally detected mobile device 204, and so on until the signal sent by the finally detected mobile device 204 is obtained.
In the responsibility determination system provided in the first embodiment of the present application, the first identification device 202 and the second identification device 203 are specifically configured to detect a signal sent by the mobile device 204 at a preset period; accordingly, the mobile device 204 is specifically configured to emit a signal that can be detected by the first identification device 202 at a preset period.
The responsibility determination system provided in the first embodiment of the present application further includes: the electronic device corresponding to the entity object terminal is configured to send a first responsibility judgment request message for requesting responsibility judgment to the responsibility judgment terminal 201; the first and second timeout delivery responsibility results transmitted by the responsibility judgment terminal 201 for the first responsibility judgment request message are obtained.
The responsibility judgment end 201 is specifically configured to obtain a first responsibility judgment request message sent by the electronic device corresponding to the entity object end; judging task overtime responsibility of the target delivery task aiming at the first responsibility judgment request message; and sending the first overtime distribution responsibility result and the second overtime distribution responsibility result to the electronic equipment corresponding to the entity object terminal. In addition, the first overtime distribution responsibility result and the second overtime distribution responsibility result can be simultaneously provided for the electronic equipment corresponding to the user side and the electronic equipment corresponding to the distribution resource.
The responsibility determination system provided in the first embodiment of the present application further includes: the electronic device corresponding to the resource distribution end is configured to send a second responsibility judgment request message for requesting responsibility judgment to the responsibility judgment end 201; obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result sent by the responsibility judgment end 201 aiming at the second responsibility judgment request message;
the responsibility judgment end 201 is specifically configured to obtain a second responsibility judgment request message sent by the electronic device corresponding to the entity object end; judging task overtime responsibility of the target delivery task aiming at the second responsibility judgment request message; and sending the first overtime distribution responsibility result and the second overtime distribution responsibility result to the electronic equipment corresponding to the entity object terminal.
The responsibility determination system provided in the first embodiment of the present application further includes: the electronic device corresponding to the resource distribution end is configured to send a third responsibility judgment request message for requesting responsibility judgment to the responsibility judgment end 201; obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result sent by the responsibility judgment end 201 aiming at the third responsibility judgment request message;
the responsibility judgment end 201 is specifically configured to obtain a third responsibility judgment request message sent by the electronic device corresponding to the entity object end; judging task overtime responsibility of the target delivery task aiming at the third responsibility judgment request message; and sending the first overtime distribution responsibility result and the second overtime distribution responsibility result to the electronic equipment corresponding to the entity object terminal.
The responsibility determination system provided in the first embodiment of the present application can obtain a first overtime distribution responsibility result of a distribution resource for an object and a second overtime distribution responsibility result of an entity object for the object according to the stay time information and the overtime distribution time information, thereby implementing accurate determination of the overtime distribution responsibility.
Second embodiment
Corresponding to the application scenario of the responsibility determination system provided in the embodiment of the present application and the responsibility determination system provided in the first embodiment, a second embodiment of the present application provides a responsibility determination method. Since the second embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application and the responsibility determination system provided in the first embodiment, the description is relatively simple, and for the relevant points, please refer to the application scenario of the responsibility determination system provided in the embodiment of the present application and the partial description of the responsibility determination system provided in the first embodiment. The second embodiment described below is merely illustrative.
Please refer to fig. 5, which is a flowchart illustrating a method for determining responsibility according to a second embodiment of the present application.
In step S501, the information of the staying time of the distributed resources at the entity object side is obtained.
In the second embodiment of the present application, a specific implementation process for obtaining the information of the staying time of the distribution resource at the entity object end is as follows: firstly, obtaining the arrival time information of the distribution resources arriving at the entity object end; then, obtaining the leaving time information of the distribution resource leaving the entity object end; and finally, obtaining the stay time length information according to the arrival time information and the departure time information.
In step S502, the expected delivery time information of the delivery resource delivering the object provided by the entity object to the ue and the actual delivery time information of the delivery resource reaching the ue are obtained.
In step S503, if the actual delivery time corresponding to the actual delivery time information exceeds the expected delivery time corresponding to the expected delivery time information, the timeout delivery duration information of the delivery resource delivery object is obtained.
In the second embodiment of the present application, a specific implementation process for obtaining the timeout distribution duration information of the distribution resource distribution object is as follows: and obtaining the overtime distribution duration information of the distribution resource distribution object according to the actual delivery time information and the predicted delivery time information.
In step S504, a first timeout distribution responsibility result of the distribution resource for the object and a second timeout distribution responsibility result of the entity object for the object are obtained according to the stay time information and the timeout distribution time information.
In the second embodiment of the present application, the specific implementation process of obtaining the first timeout distribution responsibility result of the distribution resource for the object and the second timeout distribution responsibility result of the entity object end for the object according to the stay time information and the timeout distribution time information is as follows: firstly, acquiring the expected time-consuming duration information of an entity object providing object; and then, obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result according to the stay time information, the overtime distribution time information and the estimated time-consuming time information.
The implementation manner of obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the stay time information, the overtime distribution time information and the estimated time-consuming time information is as follows: according to the stay time length information and the estimated time length information, obtaining a first difference value between the time length corresponding to the estimated time length information and the time length corresponding to the stay time length information; judging whether the first difference value is smaller than a first time length threshold value or not; if yes, a first overtime distribution responsibility result used for indicating that the distribution resource bears all overtime distribution responsibility and a second overtime distribution responsibility result used for indicating that the entity object end does not bear the overtime distribution responsibility are obtained.
In addition, if the first difference is not smaller than the first time threshold, a second difference between the time corresponding to the overtime distribution time information and the time corresponding to the dwell time information is obtained according to the dwell time information and the overtime distribution time information; and obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result according to the second difference and the time length corresponding to the overtime distribution time length information. Specifically, the process of obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the second difference and the time length corresponding to the overtime distribution time length information is as follows: obtaining the ratio of the second difference value to the time corresponding to the overtime distribution time information; and obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result according to the ratio.
In the second embodiment of the present application, the specific implementation process of obtaining the first timeout distribution responsibility result of the distribution resource for the object and the second timeout distribution responsibility result of the entity object end for the object according to the ratio is as follows:
firstly, judging whether the ratio is greater than a first ratio threshold value; if the ratio is not larger than the first ratio threshold, obtaining a first overtime distribution responsibility result used for indicating that the distribution resources do not bear the overtime distribution responsibility and a second overtime distribution responsibility result used for indicating that the entity object end bears all the overtime distribution responsibility.
Secondly, if the ratio is larger than the first ratio threshold, judging whether the ratio is smaller than a second ratio threshold; if the ratio is not less than the second ratio threshold, obtaining a first overtime distribution responsibility result used for indicating that the distribution resources undertake all overtime distribution responsibility, and a second overtime distribution responsibility result used for indicating that the entity object end does not undertake the overtime distribution responsibility.
Thirdly, if the ratio is larger than the first ratio threshold and smaller than the second ratio threshold, obtaining a first responsibility ratio which is supposed to be undertaken by the distribution resources aiming at the overtime distribution responsibility of the object and a second responsibility ratio which is supposed to be undertaken by the entity object end aiming at the overtime distribution responsibility of the object according to the ratio; and obtaining a first overtime distribution responsibility result and a second overtime distribution responsibility result according to the first responsibility ratio and the second responsibility ratio. The specific implementation process for obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the first responsibility ratio and the second responsibility ratio is as follows: determining a first overtime distribution responsibility result used for representing the overtime distribution responsibility of the distribution resources for bearing the first responsibility ratio according to the first responsibility ratio; and determining a second overtime distribution responsibility result used for representing the overtime distribution responsibility of the entity object end for bearing the second responsibility ratio according to the second responsibility ratio.
According to the responsibility judgment method provided by the second embodiment of the application, the first overtime distribution responsibility result of the distribution resource for the object and the second overtime distribution responsibility result of the entity object for the object can be obtained according to the stay time length information and the overtime distribution time length information, so that the overtime distribution responsibility can be accurately judged.
Third embodiment
A third embodiment of the present application provides a responsibility determination device corresponding to an application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application. Since the third embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application, the description is relatively simple, and for the relevant points, please refer to the partial description of the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application. The third embodiment described below is merely illustrative.
Please refer to fig. 6, which is a schematic diagram of a responsibility determination device provided in a third embodiment of the present application.
A responsibility determination device provided in a third embodiment of the present application includes: a first duration information obtaining unit 601, configured to obtain duration information of the retention duration of the distribution resource at the entity object; a time information obtaining unit 602, configured to obtain expected delivery time information for the distribution resource to deliver the object provided by the entity object to the user side, and actual delivery time information for the distribution resource to reach the user side; a second duration information obtaining unit 603, configured to obtain timeout delivery duration information of the object to be delivered by the delivery resource if the entity delivery time corresponding to the actual delivery time information exceeds the expected delivery time corresponding to the expected delivery time information; a timeout distribution responsibility result obtaining unit 604, configured to obtain, according to the stay time information and the timeout distribution time information, a first timeout distribution responsibility result of the distribution resource for the object and a second timeout distribution responsibility result of the entity object for the object.
Optionally, the first time length information obtaining unit 601 is specifically configured to obtain arrival time information of the delivery resource arriving at the entity object; obtaining the leaving time information of the distribution resource leaving the entity object end; and obtaining the stay time length information according to the arrival time information and the departure time information.
Optionally, the time information obtaining unit 602 specifically obtains the timeout delivery duration information for the delivery resource to deliver the object according to the actual delivery time information and the predicted delivery time information.
Optionally, the overtime distribution responsibility result obtaining unit 604 is specifically configured to obtain information of an expected time-consuming duration of the object provided by the entity object; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the stay time information, the overtime distribution time information and the estimated time-consuming time information.
Optionally, the obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the stay time information, the overtime distribution time information, and the expected time-consuming time information includes: obtaining a first difference value between the time length corresponding to the estimated time-consuming time length information and the time length corresponding to the stay time length information according to the stay time length information and the estimated time-consuming time length information; judging whether the first difference value is smaller than a first time length threshold value or not; if yes, obtaining a first overtime distribution responsibility result used for indicating that the distribution resource bears all overtime distribution responsibility, and a second overtime distribution responsibility result used for indicating that the entity object end does not bear the overtime distribution responsibility.
Optionally, the overtime distribution responsibility result obtaining unit 604 is further configured to, if the first difference is not smaller than the first time threshold, obtain, according to the stay time length information and the overtime distribution time length information, a second difference between a time length corresponding to the overtime distribution time length information and a time length corresponding to the stay time length information; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the second difference and the time length corresponding to the overtime distribution time length information.
Optionally, the obtaining the first timeout distribution responsibility result and the second timeout distribution responsibility result according to the second difference and the time length corresponding to the timeout distribution time length information includes: obtaining the ratio of the second difference value to the time corresponding to the overtime distribution time information; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the ratio.
Optionally, the obtaining, according to the ratio, a first timeout delivery responsibility result of the delivery resource for the object and a second timeout delivery responsibility result of the entity object for the object includes: judging whether the ratio is larger than a first ratio threshold value or not; if the ratio is not larger than the first ratio threshold, obtaining a first overtime distribution responsibility result used for indicating that the distribution resources do not bear overtime distribution responsibility and a second overtime distribution responsibility result used for indicating that the entity object end bears all overtime distribution responsibility.
Optionally, the overtime distribution responsibility result obtaining unit 604 is further configured to determine whether the ratio is smaller than a second ratio threshold if the ratio is larger than the first ratio threshold; if the ratio is not smaller than the second ratio threshold, obtaining a first overtime distribution responsibility result used for indicating that the distribution resources undertake all overtime distribution responsibilities, and a second overtime distribution responsibility result used for indicating that the entity object end does not undertake the overtime distribution responsibilities.
Optionally, the overtime distribution responsibility result obtaining unit 604 is further configured to, if the ratio is greater than the first ratio threshold and smaller than the second ratio threshold, obtain, according to the ratio, a first responsibility ratio that the distribution resource should assume for the overtime distribution responsibility of the object, and a second responsibility ratio that the entity object end should assume for the overtime distribution responsibility of the object; and obtaining the first overtime distribution responsibility result and the second overtime distribution responsibility result according to the first responsibility ratio and the second responsibility ratio.
Optionally, the obtaining the first timeout delivery responsibility result and the second timeout delivery responsibility result according to the first responsibility ratio and the second responsibility ratio includes: determining a first overtime distribution responsibility result used for representing overtime distribution responsibility of the distribution resources for assuming the first responsibility ratio according to the first responsibility ratio; and determining a second overtime distribution responsibility result used for representing the overtime distribution responsibility of the entity object end for bearing the second responsibility ratio according to the second responsibility ratio.
Fourth embodiment
A fourth embodiment of the present application provides an information processing method, which corresponds to an application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application. Since the fourth embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application, the description is relatively simple, and for the relevant points, please refer to the partial description of the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application. The fourth embodiment described below is merely illustrative.
Fig. 7 is a flowchart of an information processing method according to a fourth embodiment of the present application.
In step S701, according to the detected signal sent by the mobile device carried by the distributed resource, the arrival time information of the distributed resource arriving at the entity target and the departure time information of the distributed resource leaving the entity target are obtained.
In the fourth embodiment of the present application, a specific implementation process for obtaining the arrival time information of the distribution resource at the entity object side is as follows: judging whether the currently detected signal sent by the mobile equipment is the first detected signal sent by the mobile equipment; if so, acquiring first detection time information of a signal sent by the mobile equipment detected currently; acquiring arrival time information according to the first detection time information; if the signal sent by the mobile equipment is not detected for the first time, second detection time information of the signal sent by the mobile equipment detected last time is obtained; obtaining a first difference value between the time corresponding to the first detection time information and the time corresponding to the second detection time information; judging whether the first difference value is larger than a first time length threshold value or not; and if the first difference is larger than the first time length threshold, obtaining the arrival time information according to the first detection time information.
In addition, if the first difference is not greater than the first time threshold, whether the signal sent by the mobile device detected last time is the signal sent by the mobile device detected first time is judged, and the like is repeated until the arrival time information is obtained.
In the fourth embodiment of the present application, a specific implementation process for obtaining departure time information of a distribution resource from an entity object side is as follows: firstly, obtaining a finally detected signal sent by the mobile equipment; then, for the finally detected signal sent by the mobile device, obtaining third detection time information of the finally detected signal sent by the mobile device; and finally, obtaining the leaving time information according to the third detection time information.
The specific implementation process of obtaining the finally detected signal sent by the mobile device is as follows: after detecting a signal sent by the currently detected mobile equipment, judging whether a first signal sent by the mobile equipment can be detected within a second time length threshold value; if not, taking the signal sent by the currently detected mobile equipment as the signal sent by the finally detected mobile equipment; if the first signal sent by the mobile equipment can be detected within the second time length threshold, judging whether the second signal sent by the mobile equipment can be detected within the second time length threshold after the first signal sent by the mobile equipment is detected; and if not, taking the first signal sent by the detected mobile equipment as the signal sent by the finally detected mobile equipment, and repeating the steps until the signal sent by the finally detected mobile equipment is obtained.
In step S702, the arrival time information and the departure time information are sent to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout distribution responsibility result of the distribution resource for the object provided by the entity object end and a second timeout distribution responsibility result of the entity object end for the object.
The information processing method provided in the fourth embodiment of the present application may send the arrival time information and the departure time information to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout distribution responsibility result of a distribution resource for an object provided by an entity object end and a second timeout distribution responsibility result of the entity object end for the object, so as to ensure accurate determination of the timeout distribution responsibility.
Fifth embodiment
A fifth embodiment of the present application provides an information processing apparatus corresponding to an application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the information processing method provided in the fourth embodiment. Since the fifth embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the information processing method provided in the fourth embodiment, the description is relatively simple, and for the relevant points, reference may be made to the partial description of the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the information processing method provided in the fourth embodiment. The fifth embodiment described below is merely illustrative.
Please refer to fig. 8, which is a schematic diagram of an information processing apparatus provided in an embodiment of the present application.
An information processing apparatus according to a fifth embodiment of the present application includes: a time information obtaining unit 801, configured to obtain, according to a detected signal sent by a mobile device carried by a distributed resource, arrival time information of the distributed resource arriving at an entity object end, and obtain departure time information of the distributed resource departing from the entity object end; a time information sending unit 802, configured to send the arrival time information and the departure time information to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout distribution responsibility result of the distribution resource for the object provided by the entity object end and a second timeout distribution responsibility result of the entity object end for the object.
Optionally, the time information obtaining unit 801 is specifically configured to determine whether a currently detected signal sent by the mobile device is a first detected signal sent by the mobile device; if so, obtaining first detection time information of a signal sent by the mobile equipment detected currently; and obtaining the arrival time information according to the first detection time information.
Optionally, the time information obtaining unit 801 is further configured to, if a signal sent by the mobile device is not detected for the first time, obtain second detection time information of the signal sent by the mobile device detected last time; obtaining a first difference value between the time corresponding to the first detection time information and the time corresponding to the second detection time information; judging whether the first difference value is larger than a first time length threshold value or not; and if the first difference is larger than the first time length threshold, obtaining the arrival time information according to the first detection time information.
Optionally, the time information obtaining unit 801 is further configured to, if the first difference is not greater than the first time length threshold, determine whether the signal sent by the mobile device detected last time is the signal sent by the mobile device detected for the first time, and so on until the arrival time information is obtained.
Optionally, the time information obtaining unit 801 is specifically configured to obtain a finally detected signal sent by the mobile device; for the finally detected signal sent by the mobile equipment, obtaining third detection time information of the finally detected signal sent by the mobile equipment; and obtaining the leaving time information according to the third detection time information.
Optionally, the obtaining the finally detected signal sent by the mobile device includes: after detecting a currently detected signal sent by the mobile equipment, judging whether a first signal sent by the mobile equipment can be detected within a second time length threshold value; and if not, taking the currently detected signal sent by the mobile equipment as the finally detected signal sent by the mobile equipment.
Optionally, the time information obtaining unit 801 is further configured to, if the first signal sent by the mobile device can be detected within a second duration threshold, determine whether the second signal sent by the mobile device can be detected within the second duration threshold after the detected first signal sent by the mobile device; if not, taking the first detected signal sent by the mobile equipment as the finally detected signal sent by the mobile equipment, and so on until the finally detected signal sent by the mobile equipment is obtained.
Sixth embodiment
A sixth embodiment of the present application provides an information processing apparatus corresponding to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the information processing method provided in the fourth embodiment, and the information processing apparatus provided in the fifth embodiment. Since the sixth embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the information processing method provided in the fourth embodiment, and the information processing apparatus provided in the fifth embodiment, the description is relatively simple, and for the relevant points, reference may be made to partial descriptions of the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the information processing method provided in the fourth embodiment, and the information processing apparatus provided in the fifth embodiment. The sixth embodiment described below is merely illustrative.
Please refer to fig. 9, which is a first schematic diagram of an identification apparatus provided in an embodiment of the present application.
An identification device provided in a sixth embodiment of the present application includes: an information transmission module 901, a controller module 902 and a signal detection module 903; the signal detection module 903 is configured to detect a signal sent by a mobile device carried by a distribution resource; providing the detected signal emitted by the mobile device to the controller module 902; the controller module 902 is configured to obtain a signal sent by the mobile device; according to the signal sent by the mobile equipment, obtaining the arrival time information of the distribution resource reaching the entity object end and obtaining the departure time information of the distribution resource leaving the entity object end; providing the arrival time information and the departure time information to the information transmission module 901; the signal transmission module 901 is configured to obtain the arrival time information and the departure time information; and sending the arrival time information and the departure time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime distribution responsibility result of the distribution resource for the object provided by the entity object end and a second overtime distribution responsibility result of the entity object end for the object.
Optionally, the signal detection module 903 is specifically configured to send an electromagnetic wave signal to the mobile device; and detecting an electromagnetic wave signal sent by the mobile equipment.
Optionally, the signal transmission module 901 specifically includes a signal generation sub-module and an antenna sub-module; the signal generation submodule is used for converting the arrival time information and the departure time information into a target electric signal; loading the target electric signal onto an electromagnetic wave to generate a target electromagnetic wave signal carrying the arrival time information and the departure time information; providing the target electromagnetic wave signal to the antenna sub-module; the antenna sub-module is used for obtaining the target electromagnetic wave signal; and sending the target electromagnetic wave signal to the responsibility judgment end. Specifically, an identification device provided in a sixth embodiment of the present application is shown in fig. 10, which is a second schematic diagram of an identification device provided in the sixth embodiment of the present application. Fig. 10 includes: information transmission module 1001, controller module 1002 and signal detection module 1003, wherein, information transmission module 1001 includes: a signal generation sub-module 1001-1 and an antenna sub-module 1001-2. The specific implementation manner of the signal detection module 1003 is generally an RFID (Radio Frequency Identification, or Radio Frequency Identification) card reader, and of course, the signal detection module 1003 may also be an electromagnetic wave transceiver in other forms, which is not limited herein.
Seventh embodiment
A seventh embodiment of the present application provides another information processing method corresponding to an application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the information processing method provided in the fourth embodiment of the present application. Since the seventh embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the information processing method provided in the fourth embodiment of the present application, the description is relatively simple, and for the relevant points, reference may be made to the partial descriptions of the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the information processing method provided in the fourth embodiment of the present application. The seventh embodiment described below is merely illustrative.
Please refer to fig. 11, which is a flowchart illustrating an information processing method according to a seventh embodiment of the present application.
In step S1101, the actual delivery time information of the delivery resource delivering the object provided by the entity object to the user end is obtained according to the detected signal sent by the mobile device carried by the delivery resource.
In a seventh embodiment of the present application, a process of obtaining actual delivery time information for delivering an object provided by an entity object end to a user end by a delivery resource is as follows: judging whether the currently detected signal sent by the mobile equipment is the first detected signal sent by the mobile equipment; if so, acquiring first detection time information of a signal sent by the mobile equipment detected currently; acquiring actual delivery time information according to the first detection time information; if the signal sent by the mobile equipment is not detected for the first time, second detection time information of the signal sent by the mobile equipment detected last time is obtained; obtaining a first difference value between the time corresponding to the first detection time information and the time corresponding to the second detection time information; judging whether the first difference value is larger than a first time length threshold value or not; and if the first difference is larger than the first time length threshold, acquiring actual delivery time information according to the first detection time information.
In addition, if the first difference is not greater than the first time threshold, whether the signal sent by the mobile device detected last time is the signal sent by the mobile device detected first time is judged, and the like is repeated until the actual delivery time information is obtained.
In step S1102, the actual delivery time information is sent to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout delivery responsibility result of the delivery resource for the object provided by the entity object end and a second timeout delivery responsibility result of the entity object end for the object.
The information processing method provided in the seventh embodiment of the present application may send the actual delivery time information to the responsibility determination end, where the responsibility determination end is configured to obtain a first timeout delivery responsibility result of the delivery resource for the object provided by the entity object end and a second timeout delivery responsibility result of the entity object end for the object, so as to ensure accurate determination of the timeout delivery responsibility.
Eighth embodiment
An eighth embodiment of the present application provides an information processing apparatus corresponding to an application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the information processing method provided in the seventh embodiment. Since the eighth embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the information processing method provided in the seventh embodiment, the description is relatively simple, and for the relevant points, reference may be made to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and a part of the description of the information processing method provided in the seventh embodiment. The eighth embodiment described below is merely illustrative.
Referring to fig. 8 again, an information processing apparatus according to an embodiment of the present application includes: a time information obtaining unit 801, configured to obtain, according to a detected signal sent by a mobile device carried by a distribution resource, actual delivery time information for delivering an object provided by an entity object end to the user end by the distribution resource; a time information sending unit 802, configured to send the actual delivery time information to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout delivery responsibility result of the delivery resource for the object provided by the entity object end and a second timeout delivery responsibility result of the entity object end for the object.
Optionally, the time information obtaining unit 801 is specifically configured to determine whether a currently detected signal sent by the mobile device is a first detected signal sent by the mobile device; if so, obtaining first detection time information of a signal sent by the mobile equipment detected currently; and acquiring the actual delivery time information according to the first detection time information.
Optionally, the time information obtaining unit 801 is further configured to, if a signal sent by the mobile device is not detected for the first time, obtain second detection time information of the signal sent by the mobile device detected last time; obtaining a first difference value between the time corresponding to the first detection time information and the time corresponding to the second detection time information; judging whether the first difference value is larger than a first time length threshold value or not; and if the first difference is larger than the first time length threshold, acquiring the actual delivery time information according to the first detection time information.
Optionally, the time information obtaining unit 801 is further configured to, if the first difference is not greater than the first time threshold, determine whether the signal sent by the mobile device detected last time is the signal sent by the mobile device detected for the first time, and so on until the actual time information is obtained.
Ninth embodiment
A ninth embodiment of the present application provides an information processing apparatus corresponding to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the information processing method provided in the seventh embodiment, and the information processing apparatus provided in the eighth embodiment. Since the ninth embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the information processing method provided in the seventh embodiment, and the information processing apparatus provided in the eighth embodiment, the description is relatively simple, and for the relevant points, reference may be made to partial descriptions of the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the information processing method provided in the seventh embodiment, and the information processing apparatus provided in the eighth embodiment. The ninth embodiment described below is merely illustrative.
Referring to fig. 9 again, the identification apparatus provided in the embodiment of the present application includes: an information transmission module 901, a controller module 902 and a signal detection module 903; the signal detection module 903 is configured to detect a signal sent by a mobile device carried by a distribution resource; providing the detected signal emitted by the mobile device to the controller module 902; the controller module 902 is configured to obtain a signal sent by the mobile device; according to the signal sent by the mobile equipment, actual delivery time information of the delivery resource for delivering the object provided by the entity object end to the user end is obtained; providing the actual delivery time information to the information transmission module 901; the signal transmission module 901 is configured to obtain the actual delivery time information; and sending the actual delivery time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime delivery responsibility result of the delivery resource for the object provided by the entity object end and a second overtime delivery responsibility result of the entity object end for the object.
Optionally, the signal detection module 903 is specifically configured to send an electromagnetic wave signal to the mobile device; and detecting an electromagnetic wave signal sent by the mobile equipment.
Optionally, the signal transmission module 901 specifically includes a signal generation sub-module and an antenna sub-module; the signal generation submodule is used for converting the actual delivery time information into a target electric signal; loading the target electric signal to an electromagnetic wave to generate a target electromagnetic wave signal carrying the actual delivery time information; providing the target electromagnetic wave signal to the antenna sub-module; the antenna sub-module is used for sending the target electromagnetic wave signal to the responsibility judgment end. Specifically, as shown in fig. 10, the identification device provided in the ninth embodiment of the present application includes: information transmission module 1001, controller module 1002 and signal detection module 1003, wherein, information transmission module 1001 includes: a signal generation sub-module 1001-1 and an antenna sub-module 1001-2. The signal detection module 1003 is generally implemented as an RFID card reader.
Tenth embodiment
Corresponding to an application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application, a tenth embodiment of the present application provides a signal transmission method. Since the tenth embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application, the description is relatively simple, and for the relevant points, please refer to the partial description of the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the responsibility determination method provided in the second embodiment of the present application. The tenth embodiment described below is merely illustrative.
Please refer to fig. 12, which is a flowchart illustrating a signaling method according to a tenth embodiment of the present application.
In step S1201, a signal detected by a first identification device disposed at the entity object and a second identification device disposed at the user end is generated, and the object provided by the entity object is delivered to the user end through the distribution resource.
In the first embodiment of the present application, the signal is a signal used by the first identification device to obtain arrival time information when the distribution resource arrives at the entity object end and departure time information when the distribution resource departs from the entity object end, and the signal used by the second identification device to obtain actual arrival time information when the distribution resource arrives at the user end.
In step S1202, a signal is issued.
The specific implementation process of sending out the signals which can be detected by the first identification device arranged at the entity object end and the second identification device arranged at the user end is as follows: the signal is sent out in a preset period.
The signal transmission method according to the tenth embodiment of the present application can send out signals that can be detected by the first identification device disposed at the entity object end and the second identification device disposed at the user end, so that the first identification device can obtain the arrival time information and the departure time information according to the signals, and the second identification device obtains the actual arrival time information according to the signals. Therefore, the delivery and delivery time can be monitored.
Eleventh embodiment
An eleventh embodiment of the present application provides a signal transmission device corresponding to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the signal transmission method provided in the tenth embodiment. Since the eleventh embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and the signal transmission method provided in the tenth embodiment, the description is relatively simple, and for the relevant points, reference may be made to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, and a part of the description of the signal transmission method provided in the tenth embodiment. The eleventh embodiment described below is merely illustrative.
Please refer to fig. 13, which is a schematic diagram of a signal transmitting apparatus according to an eleventh embodiment of the present application.
A signal transmission device according to an eleventh embodiment of the present application includes: a signal generating unit 1301, configured to generate a signal that can be detected by a first identification device disposed at an entity object end and a second identification device disposed at a user end, where an object provided by the entity object end is delivered to the user end through a distribution resource, where the signal is a signal that the first identification device is configured to obtain arrival time information of the distribution resource at the entity object end and departure time information of the distribution resource from the entity object end, and the second identification device is configured to obtain actual arrival time information of the distribution resource delivering the object to the user end; a signal sending unit 1302, configured to send the signal.
Twelfth embodiment
A twelfth embodiment of the present application provides a mobile device, which corresponds to an application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the signal transmission method provided in the tenth embodiment, and the signal transmission apparatus provided in the eleventh embodiment. Since the twelfth embodiment is basically similar to the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the signal transmission method provided in the tenth embodiment, and the signal transmission device provided in the eleventh embodiment, the description is relatively simple, and for the relevant points, reference may be made to partial descriptions of the application scenario of the responsibility determination system provided in the embodiment of the present application, the responsibility determination system provided in the first embodiment, the signal transmission method provided in the tenth embodiment, and the signal transmission device provided in the eleventh embodiment. The twelfth embodiment described below is merely illustrative.
Please refer to fig. 14, which is a first schematic diagram of a mobile device according to a twelfth embodiment of the present application.
A mobile device provided in a twelfth embodiment of the present application includes: a signal transceiving module 1401, an energy conversion module 1402, a demodulator module 1403, and a controller module 1404; the signal transceiver module 1401 is configured to receive a first signal sent by a first identification device disposed at an entity object end and a second identification device disposed at a user end; providing the first signal to the energy conversion module 1402; obtaining a second signal sent by the demodulator module 1403 and detectable by the first identification device and the second identification device; emitting the second signal; the energy conversion module 1402 is configured to obtain the first signal, convert the first signal into electric energy, and provide the electric energy to the controller 1404; the controller 1404 is configured to generate a target signal; sending the target signal to the demodulator module 1403; the demodulator module 1403 is used for receiving the target signal; and generating the second signal according to the target signal.
Optionally, the first signal is an electromagnetic wave signal; the energy conversion module 1402 comprises an impedance matching sub-module, an electric energy generation sub-module and an electric energy stabilization sub-module; the impedance matching sub-module is used for receiving the first signal; eliminating a reflected signal in the first signal; providing the first signal with the reflection signal eliminated to the electric energy generation submodule; the electric energy generation submodule is used for obtaining the first signal after the reflection signal is eliminated; obtaining initial electric energy through the first signal after the reflection signal is eliminated; providing the initial power to the power stabilization submodule; the electric energy stabilizing sub-module is used for receiving the initial electric energy; performing voltage stabilization treatment on the initial electric energy to obtain the electric energy; the electrical energy is provided to the controller 1404.
Optionally, the demodulator module 1403 is specifically configured to convert the target signal into a target electrical signal; and loading the target electric signal on an electromagnetic wave to generate the second signal.
Specifically, the identification device provided in the twelfth embodiment of the present application is shown in fig. 15, which is a second schematic view of the identification device provided in the twelfth embodiment of the present application. Fig. 15 includes: the power conversion module 1502 comprises a signal transceiving module 1501, a power conversion module 1502, a demodulator module 1503 and a controller module 1504, wherein the power conversion module 1502 comprises an impedance matching sub-module 1502-1, a power generation sub-module 1502-2 and a power stabilization sub-module 1502-3. When both the first signal and the second signal are electromagnetic wave signals, the signal transmission/reception module 1401 is generally an antenna. What is called the impedance matching submodule 1502-1 is typically implemented by lumped parameter elements (such as capacitors, inductors) or distributed parameter elements (microstrip lines). The electric energy generation sub-module 1502-2 generally converts the electromagnetic wave signal with the reflection signal eliminated into initial electric energy (generally, converts the electromagnetic wave signal with the reflection signal eliminated into alternating current as the initial electric energy), provides the voltage-amplified electromagnetic wave signal to the electric energy stabilization sub-module 1502-3, and performs voltage stabilization on the voltage-amplified electromagnetic wave signal by the electric energy stabilization sub-module 1502-3 to obtain the electric energy.
Thirteenth embodiment
A thirteenth embodiment of the present application provides an electronic device corresponding to the responsibility determination method provided by the second embodiment, the responsibility information processing method provided by the fourth embodiment, the information processing method provided by the seventh embodiment, and the signal transmission method provided by the tenth embodiment. Since the thirteenth embodiment is basically similar to the responsibility determination method provided in the second embodiment, the responsibility information processing method provided in the fourth embodiment, the information processing method provided in the seventh embodiment, and the signal transmission method provided in the tenth embodiment of the present application, the description is relatively simple, and the relevant points can be referred to only the partial descriptions of the responsibility determination method provided in the second embodiment, the responsibility information processing method provided in the fourth embodiment, the information processing method provided in the seventh embodiment, and the signal transmission method provided in the tenth embodiment of the present application. The thirteenth embodiment described below is merely illustrative.
Please refer to fig. 16, which is a schematic diagram of an electronic device provided in the first embodiment of the present application.
A thirteenth embodiment of the present application provides an electronic device, including: a processor 1601; and a memory 1602 for storing a computer program, wherein the apparatus executes the method provided by the above embodiments of the present application after being powered on and running the computer program by the processor 1601.
It should be noted that, for the detailed description of the electronic device provided in the thirteenth embodiment of the present application, reference may be made to the related descriptions of the responsibility determination method provided in the second embodiment of the present application, the responsibility information processing method provided in the fourth embodiment of the present application, the information processing method provided in the seventh embodiment of the present application, and the signal sending method provided in the tenth embodiment of the present application, and details are not repeated here.
Fourteenth embodiment
A fourteenth embodiment of the present application provides a storage medium corresponding to the responsibility determination method provided by the second embodiment, the responsibility information processing method provided by the fourth embodiment, the information processing method provided by the seventh embodiment, and the signal transmission method provided by the tenth embodiment of the present application. Since the fourteenth embodiment is basically similar to the responsibility determination method provided in the second embodiment, the responsibility information processing method provided in the fourth embodiment, the information processing method provided in the seventh embodiment, and the signal transmission method provided in the tenth embodiment of the present application, the description is relatively simple, and the relevant points can be referred to only the partial descriptions of the responsibility determination method provided in the second embodiment, the responsibility information processing method provided in the fourth embodiment, the information processing method provided in the seventh embodiment, and the signal transmission method provided in the tenth embodiment of the present application. The fourteenth embodiment described below is merely illustrative.
A storage medium according to a fourteenth embodiment of the present application stores a computer program, and the computer program is executed by a processor to perform the method according to the foregoing embodiment of the present application.
It should be noted that, for the detailed description of the storage medium provided in the fourteenth embodiment of the present application, reference may be made to the related descriptions of the responsibility determination method provided in the second embodiment of the present application, the responsibility information processing method provided in the fourth embodiment, the information processing method provided in the seventh embodiment, and the signal sending method provided in the tenth embodiment, and details are not repeated here.
Although the present invention has been described with reference to the preferred embodiments, it should be understood that the scope of the present invention is not limited to the embodiments described above, and that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the present invention.
In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.
The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or Flash memory (Flash RAM). Memory is an example of a computer-readable medium.
1. Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other physical classes of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic disk storage or other magnetic storage media, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable Media does not include non-Transitory computer readable Media (transient Media), such as modulated data signals and carrier waves.
2. As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Claims (10)

1. A responsibility determination system, comprising: the system comprises a responsibility judgment end, a first identification device arranged at an entity object end, a second identification device arranged at a user end and a mobile device carried by a distribution resource;
the responsibility judgment end is configured to obtain arrival time information, sent by the first identification device, of the distribution resource at an entity object end, and departure time information, sent by the first identification device, of the distribution resource from the entity object end; obtaining the staying time length information of the distribution resources at the entity object end according to the arrival time information and the departure time information; acquiring estimated delivery time information of the delivery resource for delivering the object provided by the entity object end to the user end and actual delivery time information of the delivery resource sent by the second identification device for reaching the user end; if the entity delivery time corresponding to the actual delivery time information exceeds the predicted delivery time corresponding to the predicted delivery time information, acquiring overtime distribution duration information of the distribution resource for distributing the object according to the actual delivery time information and the predicted delivery time information; according to the stay time length information and the overtime distribution time length information, obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object;
the first identification device is configured to obtain the arrival time information and the departure time information according to the detected signal sent by the mobile device; sending the arrival time information and the departure time information to the responsibility judgment end;
the second identification device is used for acquiring the actual delivery time information according to the detected signal sent by the mobile device; sending the actual delivery time information to the responsibility judgment end;
the mobile device is configured to send out a signal detectable by the first identification device and a signal detectable by the second identification device.
2. A responsibility determination method, comprising:
obtaining the stay time information of the distribution resources at the entity object end;
acquiring the estimated delivery time information of the delivery resources for delivering the object provided by the entity object end to the user end and the actual delivery time information of the delivery resources for reaching the user end;
if the entity delivery time corresponding to the actual delivery time information exceeds the estimated delivery time corresponding to the estimated delivery time information, acquiring overtime delivery duration information of the delivery resource for delivering the object;
and obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object according to the stay time length information and the overtime distribution time length information.
3. A responsibility determination device, comprising:
a first time length information obtaining unit, configured to obtain information of a time length during which the distribution resource stays at the entity object;
a time information obtaining unit, configured to obtain estimated delivery time information for the delivery resource to deliver the object provided by the entity object to the user side, and actual delivery time information for the delivery resource to reach the user side;
a second time length information obtaining unit, configured to obtain the timeout delivery time length information of the object to be delivered by the delivery resource, if the entity delivery time corresponding to the actual delivery time information exceeds the expected delivery time corresponding to the expected delivery time information;
and the overtime distribution responsibility result obtaining unit is used for obtaining a first overtime distribution responsibility result of the distribution resource for the object and a second overtime distribution responsibility result of the entity object end for the object according to the stay time length information and the overtime distribution time length information.
4. An information processing method characterized by comprising:
according to a detected signal sent by mobile equipment carried by a distribution resource, obtaining arrival time information of the distribution resource at an entity object end and obtaining departure time information of the distribution resource from the entity object end;
and sending the arrival time information and the departure time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime distribution responsibility result of the distribution resource for the object provided by the entity object end and a second overtime distribution responsibility result of the entity object end for the object.
5. An information processing apparatus characterized by comprising:
a time information obtaining unit, configured to obtain, according to a detected signal sent by a mobile device carried by a distributed resource, arrival time information of the distributed resource at an entity object end, and obtain departure time information of the distributed resource from the entity object end;
a time information sending unit, configured to send the arrival time information and the departure time information to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout delivery responsibility result of the delivery resource for the object provided by the entity object end and a second timeout delivery responsibility result of the entity object end for the object.
6. An identification device, comprising: the device comprises an information transmission module, a controller module and a signal detection module;
the signal detection module is used for detecting signals sent by mobile equipment carried by the distribution resources; providing the detected signal emitted by the mobile device to the controller module;
the controller module is used for obtaining a signal sent by the mobile equipment; according to the signal sent by the mobile equipment, obtaining the arrival time information of the distribution resource reaching the entity object end and obtaining the departure time information of the distribution resource leaving the entity object end; providing the arrival time information and the departure time information to the information transmission module;
the signal transmission module is used for obtaining the arrival time information and the departure time information; and sending the arrival time information and the departure time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime distribution responsibility result of the distribution resource for the object provided by the entity object end and a second overtime distribution responsibility result of the entity object end for the object.
7. An information processing method characterized by comprising:
according to the detected signal sent by the mobile equipment carried by the distribution resource, the actual delivery time information of the distribution resource for delivering the object provided by the entity object end to the user end is obtained;
and sending the actual delivery time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime delivery responsibility result of the delivery resource for the object provided by the entity object end and a second overtime delivery responsibility result of the entity object end for the object.
8. An information processing apparatus characterized by comprising:
a time information obtaining unit, configured to obtain, according to a detected signal sent by a mobile device carried by a distribution resource, actual delivery time information for delivering an object provided by an entity object end to the user end by the distribution resource;
a time information sending unit, configured to send the actual delivery time information to a responsibility determination end, where the responsibility determination end is configured to obtain a first timeout delivery responsibility result of the delivery resource for the object provided by the entity object end and a second timeout delivery responsibility result of the entity object end for the object.
9. An identification device, comprising: the device comprises an information transmission module, a controller module and a signal detection module;
the signal detection module is used for detecting signals sent by mobile equipment carried by the distribution resources; providing the detected signal emitted by the mobile device to the controller module;
the controller module is used for obtaining a signal sent by the mobile equipment; according to the signal sent by the mobile equipment, actual delivery time information of the delivery resource for delivering the object provided by the entity object end to the user end is obtained; providing the actual delivery time information to the information transmission module;
the signal transmission module is used for obtaining the actual delivery time information; and sending the actual delivery time information to a responsibility judgment end, wherein the responsibility judgment end is used for obtaining a first overtime delivery responsibility result of the delivery resource for the object provided by the entity object end and a second overtime delivery responsibility result of the entity object end for the object.
10. A signal transmission method, comprising:
generating a signal which can be detected by a first identification device arranged at an entity object end and a second identification device arranged at a user end, wherein an object provided by the entity object end is delivered to the user end through a distribution resource, the signal is a signal used by the first identification device to obtain information of arrival time of the distribution resource at the entity object end and information of departure time of the distribution resource from the entity object end, and the signal used by the second identification device to obtain information of actual delivery time of the distribution resource for delivering the object to the user end;
the signal is emitted.
CN202110293098.4A 2021-03-18 2021-03-18 Responsibility judgment system, method, device, storage medium and electronic equipment Active CN112926922B (en)

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