CN110852691A

CN110852691A - Mail sign-in confirming system with receiver preset sign-in information

Info

Publication number: CN110852691A
Application number: CN201911315290.8A
Authority: CN
Inventors: 蔡绍宗
Original assignee: Jinjia Science And Technology (international) Co Ltd
Current assignee: Jinjia Science And Technology (international) Co Ltd
Priority date: 2019-12-19
Filing date: 2019-12-19
Publication date: 2020-02-28

Abstract

The invention provides a mail signing confirmation system of a receiver preset signing information, which comprises: the first information acquisition module is used for acquiring first appointed signing information which is preset by a receiver and comprises at least one of 3D signing letter data, voice data and smell data; the first information association module is used for associating the acquired first signing information with the intelligent label; the second information acquisition module is used for acquiring second signing information which is held by the receiver and comprises second designated signing information; the information comparison module is used for comparing the first designated signing information with the second designated signing information to obtain first similarity of the first designated signing information and the second designated signing information; and the sign-in confirmation module is used for confirming that the sign-in is successful when the first similarity is higher than a preset threshold value of the first similarity. The mail sign-off confirmation system for the preset sign-off information of the receiver can realize the person-to-person delivery of the mail so as to ensure the accuracy of mail delivery and protect the privacy of the receiver to the greatest extent.

Description

Mail sign-in confirming system with receiver preset sign-in information

Technical Field

The invention belongs to the technical field of mail sending and signing, and particularly relates to a mail signing confirmation system with preset signing information of a receiver.

Background

In the past, the consistent mail dispatching principle of local postal service and express delivery boundaries is to dispatch the mail according to the addressee on the mail (namely, "dispatch by address"), rather than to dispatch the mail according to the addressee indicated on the mail (namely, "dispatch by person"), which is a consistent practice of postal service in many countries or regions. Under the principle, mail delivery is mainly divided into two categories of 'no-sign-for' and 'sign-for', wherein the mail of 'no-sign-for' is delivered to the delivery address (for example, the mail is put into the mail box of the address), and delivery is completed; when the mail (including registered, express, parcel and local post express) is delivered to the delivery address, the delivery is completed only by the receipt of the receiver, and the receiver does not need to be the receiver pointed by the mail.

Therefore, the name of the recipient and the mobile phone number for contact are only auxiliary information or contact means in the conventional signing mode (the name of the recipient is simply written into Mister X/Mister Y in many times, and part of the internal postal system strictly requires to write a full name), but the 'sending by person' is theoretically more accurate than the 'sending by address'. Meanwhile, the phenomenon of private opening, hiding, destroying and resale of other express mails which may exist in the address delivery can be avoided to a certain extent in the person-based delivery theoretically, and the person-based delivery can ensure that the mails are circulated among the senders, the carriers and the receivers to the maximum extent so as to effectively avoid the damages of other unrelated persons to the mails.

For example, in order to more accurately deliver the mail to the recipient, more recipient information is not needed to confirm the identity of the recipient, such as valid identification card information and the like, and human body biological identification data such as face recognition and fingerprints and the like brought along with the popularization of intelligent equipment, but the information is very necessary for occasions with higher security level, such as related services of a financial system and the like The invention can also protect the privacy of the addressees to the greatest extent, and is provided based on the urgent need.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to provide a system for confirming the receipt of a mail, in which the receipt information is preset by a recipient, so that the privacy of the recipient can be protected to the greatest extent while the mail is delivered by people to ensure the accuracy of mail delivery.

In order to solve the above problems, the present invention provides a system for confirming the receipt of a mail, in which the receiver presets the receipt information, comprising:

the first information acquisition module is used for acquiring first signing information preset by a receiver, wherein the first signing information comprises first appointed signing information, and the first appointed signing information comprises at least one of 3D signed letter data, voice data and smell data;

the first information association module is used for associating the acquired first signing information with the intelligent label;

the second information acquisition module is used for acquiring second signing information held by the receiver, wherein the second signing information comprises second designated signing information, and the second designated signing information corresponds to the first designated signing information;

the information comparison module is used for comparing first designated signing information in the first signing information with second designated signing information in the second signing information to obtain first similarity of the first designated signing information and the second designated signing information;

and the sign-in confirmation module is used for confirming that the sign-in is successful when the first similarity is higher than a preset threshold value of the first similarity.

Preferably, the first and second electrodes are formed of a metal,

the first signing information also comprises first address information and first individual identification information, and the second signing information corresponds to the first signing information.

Preferably, the mail receipt confirmation system further includes:

the signing confirmation information sending module is used for sending signing confirmation information to an intelligent terminal held by a sender after the mail is confirmed to sign successfully; and/or the appropriate delivery information sending module is used for sending appropriate delivery information to the intelligent terminal held by the receiver after the mail is appropriate delivered.

Preferably, the mail receipt confirmation system further includes:

the position acquisition module is used for acquiring the real-time position of the intelligent tag;

the distance comparison module is used for comparing a first distance between the acquired real-time position and the position represented by the first address information;

and the activation module is used for activating the signing confirmation information sending module and/or the appropriate delivery information sending module when the first distance is smaller than a preset threshold value of the first distance.

Preferably, the mail receipt confirmation system further includes:

and the signing bar code generating module is used for generating a signing bar code on the intelligent terminal held by the sender so as to scan the intelligent terminal held by the receiver.

Preferably, the mail receipt confirmation system further includes:

an address changing module, configured to obtain authorized address information specified by a recipient, and change the first address information into authorized address information, and/or the system for confirming receipt of a mail further includes:

and the individual identification information changing module is used for acquiring authorized individual identification information specified by the receiver and changing the first individual identification information into the authorized individual identification information.

Preferably, the first and second electrodes are formed of a metal,

the information comparison module is also used for comparing the first signing information with the second signing information to obtain at least one second similarity of the first signing information and the second signing information;

the sign-in confirmation module is further used for judging whether the second similarity of the first address information and the address information in the second sign-in information is higher than a preset threshold value; and/or confirming successful sign-in when the second similarity between the first individual identification information and the individual identification information in the second sign-in information is higher than a preset threshold value.

Preferably, the mail receipt confirmation system further includes:

and the similarity threshold adjusting module is used for acquiring a setting instruction of the sender and/or the receiver for the first similarity preset threshold, and adjusting the first similarity preset threshold to a threshold given by the acquired setting instruction of the sender and/or the receiver.

Preferably, the mail receipt confirmation system further includes:

and the expense updating module is used for adjusting the first similarity preset threshold value to a threshold value given by the acquired setting instruction of the sender and/or the receiver, and updating the required expense according to the postage preset rule of the carrier when the threshold value given by the acquired setting instruction of the sender and/or the receiver is higher or lower than the first similarity preset threshold value.

Preferably, associating the acquired first signing information with the smart tag comprises: associating, by the sender/carrier, the obtained first receipt information with the smart tag; and/or associating the acquired first signing information with the intelligent label by the receiver; and/or associating the acquired first receipt information with the smart tag by the recipient through a network user interface of the sender and/or the carrier.

The invention provides a mail signing confirmation system for presetting signing information by a receiver, which adopts at least one of 3D signing letter data, voice data and smell data preset by the receiver for the confirmation signing of the mail, adopts information with personal attributes, particularly relating to personal privacy, of the receiver as few as possible as a prerequisite condition for signing confirmation, determines whether mail delivery enters a subsequent signing flow or not according to the threshold value of the similarity, realizes the person-to-person delivery of the mail to ensure the accuracy of mail delivery, and can protect the privacy of the receiver to the greatest extent.

Drawings

FIG. 1 is a system block diagram of a mail sign-off confirmation system for a recipient to preset sign-off information according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a mail delivery flow of a mail sign-off confirmation system for a receiver preset sign-off information according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a mail delivery flow of a mail receipt confirmation system using a recipient preset receipt information according to an embodiment of the present invention (3D sign-in letter data is used as a first designated receipt information);

FIG. 4 is a schematic diagram of a mail delivery flow of a mail sign-off confirmation system for a receiver to preset sign-off information according to an embodiment of the present invention (using voice data as the first designated sign-off information);

fig. 5 is a schematic diagram of a mail delivery flow of the mail receipt confirmation system adopting the preset receipt information of the receiver according to the embodiment of the invention (using smell data as the first designated receipt information).

Detailed Description

Referring to fig. 1 to 5 in combination, according to an embodiment of the present invention, especially referring to fig. 2, a system for confirming receipt of mail is provided, which includes:

the first information acquisition module is used for acquiring first signing information preset by a receiver, the first signing information can comprise first designated signing information, first address information and first individual identification information, wherein the first designated signing information comprises at least one of 3D signed letter data, voice data and smell data, the first individual identification information can be one or more of a telephone number, a micro-signal code, a QQ account, a Facebook account or other accounts with real-name authentication of the receiver, and the first individual identification information can be selected by the receiver, for example, the first signing information can be acquired or input by a corresponding intelligent terminal (such as a mobile phone) of the receiver, or can be acquired or input by the receiver and then transmitted to the intelligent terminal of the sender, and then is input or transmitted by the sender to a corresponding carrier or even to the intelligent terminal of the sender, for example, the recipient may actually provide a first receipt to the sender or carrier via the purchaser user interface of the e-commerce platform;

a first information association module, configured to associate the acquired first receipt information with a smart tag, where the smart tag is, for example, a carrier or an identifier capable of carrying the aforementioned first receipt information, such as an RFID chip, a two-dimensional code, a single-number barcode, a QR code, and it is understood that the smart tag will be attached to a mail (a postal article), for example, after associating corresponding first receipt information; a first information association module, which may be actually the sender/carrier, associating the acquired first receipt information with the smart tag; and/or associating the acquired first signing information with the intelligent label by the receiver; and/or, the receiver associates the acquired first receipt information with the intelligent tag through a network user interface of the sender and/or the carrier;

the second information acquisition module is used for acquiring second signing information held by a receiver, wherein the second signing information comprises second designated signing information, the second designated signing information corresponds to the first designated signing information, and specifically, for example, when the first designated signing information is 3D signing and receiving object data, the second designated signing and receiving information is 3D signing and receiving object data corresponding to the 3D signing and receiving object data, even a 3D scanned real object; or for another example, when the first designated receipt information is voice data, the second designated receipt information is actual voice or voice data corresponding to the voice data; or for another example, when the first designated receipt information is smell data, the second designated receipt information is actual smell or smell data corresponding to the smell data;

the information comparison module is used for comparing first designated signing information in the first signing information with second designated signing information in the second signing information to obtain first similarity of the first designated signing information and the second designated signing information, for example, when the first designated signing information is 3D signed letter data, the second designated signing information at the moment is a real object scanned by 3D, and the similarity of the first designated signing information and the second designated signing information determines the accuracy of information comparison;

the sign-off confirming module is configured to confirm that the sign-off is successful when the first similarity is higher than a first similarity preset threshold, for example, the first similarity preset threshold is set to 90%, if the first similarity is higher than 90%, the delivery is correct, a sign-off confirming procedure may be performed, and if the first similarity is lower than 90%, a subsequent sign-off confirming procedure may not be performed, and the delivery fails.

When the first similarity is higher than the first similarity preset threshold, and the receipt is confirmed to be successful, the mail receipt confirmation system may further include: the signing confirmation information sending module is used for sending signing confirmation information to an intelligent terminal held by a sender after the mail is confirmed to sign successfully so as to feed back a signing receipt of the corresponding mail to the sender; and/or the due information sending module is used for sending the due information to an intelligent terminal held by the receiver after the mail is due so as to feed back the due receipt of the corresponding mail to the sender, and the setting aim of the due information sending module is to provide necessary information records for the corresponding postal delivery program, so that necessary evidence can be provided when disputes possibly occur among all parties (a carrier, a sender and a receiver) participating in the delivery contract. According to the technical scheme, at least one of 3D sign-in letter data, voice data and smell data preset by a receiver is adopted for confirming sign-in of the mail, information with personal attributes, particularly information related to personal privacy, of the receiver is used as a prerequisite condition for sign-in confirmation as few as possible, whether mail delivery enters a subsequent sign-in flow is determined according to the threshold value of the similarity, and the privacy of the receiver can be protected to the maximum degree while the mail is dispatched according to persons so as to guarantee the accuracy of mail delivery.

The way in which the 3D signature data is compared may be, for example, as follows:

the 3D scanned real object can also be defined as a 3D signed letter, which can be virtually any real object in daily life. The real object is selected in advance by a receiver, and any intelligent terminal with a 3D scanning function (such as an infrared lens with a 3D visual sensor and a 3D structured light scheme, a dot matrix projector or a point cloud depth camera) is used for acquiring corresponding 3D real object information data. The methods are mature and high in accuracy, and are actually widely applied to 3D data collection of high-requirement security applications such as faceID unlocking, and the mode of acquiring 3D signed letter data is not an object to be protected by the invention, and the invention is not repeated. The 3D physical data is made by the receiver, is provided for the sender or the carrier in advance before the request of sending, and is appointed to be one of the signing modes appointed by the receiver. When the sender or the carrier inputs the data to the intelligent label on the mail or the tracking number of the mail in the central/cloud data storage server during sending, the receiver needs to show the 3D signed letter and send the actual delivery by comparing the 3D signed letter and letter data.

In the commodity society, many commodities are produced in large quantities and have the same appearance. However, as long as the receiver adds some characteristics to the 3D sign-in letter in advance, more personalized 3D sign-in letter data can be made, such as a rice bowl without a corner, a toy car with a few hand-drawn patterns or stickers, an old purse, and even a seashell picked up by the seaside. In particular, there may be some provisions/restrictions on the physical nature of the 3D signature, such as a general size and weight that is required to be hand-held, since the physical nature of the 3D signature should not be too large or too heavy for the sender and recipient to scan.

For convenience, the recipient may designate the 3D signed-in as any presence within the door of a certain delivery location, such as a door lock or door handle within the door. The method has the advantages that the sender can more easily and successfully compare data, the door opener can also achieve the purpose of successful sending when the receiver is not at home, and further, if any existing object is designated as a fixed interphone on a security post of a building, a reliable 'substitute receiver' can be relatively and certainly existed for a long time.

The inventors have also conducted research and have considered that the scan angle at the time of signing is preferably based on the "overhead angle" from the top down, for reasons including: (1) when the receiver puts the 3D real object in the palm for scanning, only the overlooking angle is completely not shielded by own hand; (2) unlike the FaceID, which is relatively fixed when scanning the face of a human, it is often difficult to define what is its "front-back left-right" angle, and distinguishing the "front-back left-right" angle can make it take too long to send a person to scan, whereas many generally sized dead objects are designed to be placed on some objects or a desktop, so their up-down angles are relatively easy to distinguish, and thus the "overhead angle" is relatively easy to distinguish in the sense of the user.

The way of comparing the voice data may be, for example, as follows:

for example, the sender uses the intelligent terminal held by the sender to record the 'sign-in voice' provided by the receiver when signing, the intelligent terminal compares the voice characteristic parameters of the original voice data pre-specified by the receiver, and if the comparison is successful, the subsequent sign-in confirmation program can be carried out. The phrase voice data making is preferably a specific audio generated when a receiver knocks a specified object on site, and can be any one of human body knocking objects/human body knocking objects. Specifically, the voice similarity detection method includes: collecting voice audio data; extracting audio characteristic parameters from the audio data; the audio characteristic parameters comprise spectral coefficients and sound intensity; and comparing the audio characteristic parameters with the audio characteristic parameters of the pre-extracted original voice to obtain the similarity between the voice and the original voice, and taking a plurality of percentages of the passing similarity as a prerequisite condition for entering a subsequent sign-off confirmation program.

The way of comparison of the odour data can be for example as follows:

related acquisition and analysis techniques for odor data have also been disclosed in the prior art, for example, in patent document CN109313112, wherein the japanese Aroma Bit is a data company providing odor analysis services, whose gas sensor technology uses 35 different films to detect odor, respectively, and is called a quartz crystal microbalance, which is capable of measuring the frequency change of a quartz crystal resonator to determine the mass change of each area. As a specific illustrative example, the company claims to have provided a digital description of the difference in odour between the Coca-Cola (Pepsi) and the Coca-Cola (Coca-Cola), the inventors believe that in the future, by simply installing such odour sensors on the intelligent terminal of the addressee and the intelligent terminal carried by the sender, the addressee will have the ability to produce odour data and the sender will have the ability to use a unique odour provided by the addressee on site as a prerequisite for entering a subsequent receipt confirmation procedure, such as the odour of an aroma chemical. Regarding the category range of the smell data, the inventor thinks that it is enough to analyze what possibility the intelligent terminal of the receiver and the intelligent terminal held by the sender are in the future and what data of the actual environment can be received/stored/transmitted, as the prior art, the detailed description is omitted, and the invention does not intend to improve the comparison method of the similarity of the corresponding smell data.

Further, the mail receipt confirmation system further includes: the position acquisition module is used for acquiring the real-time position of the intelligent tag; the distance comparison module is used for comparing a first distance between the acquired real-time position and the position represented by the first address information; and the activation module is used for activating the signing confirmation information sending module and/or the appropriate delivery information sending module when the first distance is smaller than a preset threshold value of the first distance. In the technical scheme, the function action area of the receipt confirmation information sending module and/or the delivery acceptance information sending module is necessarily limited, corresponding follow-up procedures such as sending the receipt confirmation information or sending the delivery acceptance information can be carried out only when the sender is located in the area range indicated by the first address information, the determination of the area range is limited by the first distance preset threshold, and the specific value can be set by the sender or the receiver, so that the sender can be more effectively ensured to privately confirm the receipt without permission of the receiver and without actual delivery. At this moment, it can be understood that the aforementioned module can be set in a handheld intelligent terminal of a sender, for example, and the corresponding intelligent terminal should have an intelligent information reading/transmitting device used when reading data stored in an intelligent tag and used when completing a terminal delivery step, a camera for scanning a 3D real object, or a microphone for receiving short voice or an odor receiving sensor, and must be built-in with indoor and/or outdoor intelligent positioning functions such as beidou, GPS, mobile phone GPRS network positioning, bluetooth positioning, wifi positioning, 5G positioning, and other positioning instruments adopting a triangulation method.

The mail sign-in confirmation system further includes: and the signing bar code generating module is used for generating a signing bar code on the intelligent terminal held by the sender so as to scan the intelligent terminal held by the receiver.

When the receiver may not be able to perform direct delivery action with the sender due to personal reasons, in this case, the mail receipt confirmation system further includes: an address changing module, configured to obtain authorized address information specified by a recipient, and change the first address information into authorized address information, and the system for confirming receipt of mail further includes: and the individual identification information changing module is used for acquiring authorized individual identification information specified by the receiver and changing the first individual identification information into the authorized individual identification information. That is, at this time, the receiver can authorize others to hold corresponding confirmation information to carry out the final confirmation link of mail delivery. It can be understood that, when the receiver has authorization for others (such as the door opener) to receive the corresponding mail, the corresponding second receipt information is changed to authorized receipt information, the authorized receipt information includes authorized address information and authorized individual identification information, and also includes second designated receipt information, and the second designated receipt information is preferably given by the receiver.

Further, the information comparison module is used for comparing the first signing information with the second signing information to obtain at least one second similarity of the first signing information and the second signing information; the sign-in confirmation module is further used for judging whether the second similarity of the first address information and the address information in the second sign-in information is higher than a preset threshold value; and/or when the second similarity of the individual identification information in the first individual identification information and the individual identification information in the second signing information is higher than a preset threshold, the signing success is confirmed, the method can further verify the identity accuracy of the receiver (or an authorized person when the receiver designates the authorized person) on the premise that the first designated signing information and the second designated signing information are determined to be accurate, the delivery accuracy is further improved, and it can be understood that when the first preset similarity threshold is set to be high enough, the further comparison work cannot be carried out.

As mentioned above, the set high or low of the first preset similarity threshold will affect the accuracy of mail delivery, and therefore, preferably, the mail receipt confirmation system further comprises: and the similarity threshold adjusting module is used for acquiring a setting instruction of the sender and/or the receiver for a first similarity preset threshold, and adjusting the first similarity preset threshold to a threshold given by the acquired setting instruction of the sender and/or the receiver so as to set the first similarity preset threshold in a personalized manner according to the importance of the mail or the personal tendency of the receiver or the sender. At this time, the mail receipt confirmation system further includes: and the expense updating module is used for updating the increased or decreased expense according to the postage preset rule of the carrier when the threshold value given by the obtained setting instruction of the sender and/or the receiver is higher or lower than the first similarity preset threshold value after the first similarity preset threshold value is adjusted to the threshold value given by the obtained setting instruction of the sender and/or the receiver. When the number of senders and recipients is large, the senders and the recipients have more detailed requirements on the mail dispatching service, and the requirement that the recipient or the sender can increase or decrease the first preset similarity threshold is given, so that freight calculation of the carrier can be adjusted more conveniently according to the increase or decrease of the similarity of the sender/recipient requirements, for example, 1% freight cost is paid for each increase of the similarity by 1%, 1% freight cost discount can be obtained for each decrease of the similarity by 1%, and the greater personalized requirements of users can be better met.

The following is further described with reference to a specific example (taking 3D sign-in letter data as a specific example) in fig. 3, in order to further clarify the technical solution of the present invention.

When sending a mail, the sender/receiver provides three designated reference values such as a receiver individual identification code 1 (designated reference value 1), a delivery location 1 (designated reference value 2) and 3D sign-on letter data (designated reference value 3) to the carrier through an electronic interface, and the three specified reference values are inputted to the smart tag attached to the mail by the sender/receiver or the carrier with a smart terminal held by the sender (of course, the data provided by the sender is initially obtained from the receiver in advance, i.e., is specified by the receiver in advance), or, of course, the specified reference value may be input into the smart tag and then attached to the mail, for example, the recipient may input the specified reference value into a batch of smart tags in advance, then the batch of intelligent labels are sent to a sender/carrier, and the sender/carrier can attach to the mail for use each time when distributing the batch of mails;

when a sender sends a delivery to a carrier, an intelligent terminal held by the carrier sends related information 1 of 'mail already posted' to an intelligent terminal 3 held by a receiver; when the sender sends out the mail, the intelligent terminal 2 must be carried at the same time;

when the dispatcher arrives at the dispatching place 1 (the designated reference value 2) (or the fault tolerance range is the diameter range of 10M or below), the dispatcher activates the intelligent tag by the intelligent terminal 2 held by the dispatcher, so that communication between the intelligent tag and the intelligent terminal 2 is established; the smart tag transmits a recipient individual identification code 1 (designated reference value 1) and a delivery place 1 (designated reference value 2) and 3D sign-on letter data (designated reference value 3) recorded in the smart tag to the smart terminal 2; the smart terminal 2 starts its built-in smart positioning function, checks whether the comparison of the data of the delivery location 1 (designated reference value 2) received from the smart tag is correct? If so, the intelligent terminal 2 immediately sends information 2 containing the correct 'mail arrival' by the data comparison of the confirmed delivery location 1 (the designated reference value 2) to the intelligent terminal 3 carrying the recipient individual identification code 1 and the sender intelligent terminal 1 according to the recipient individual identification code 1 (the designated reference value 1) received from the intelligent label; when the intelligent terminal 3 of the receiver receives the related information 2, the response information 2A is used as a mail 'check sign-in'. The signing mode of the designated reference value 1 can also be a signing bar code generated by the intelligent terminal 2 of the sender, the recipient is requested to scan and sign by the intelligent terminal 3 carrying the individual identification code 1 of the recipient, and the intelligent terminal 3 confirms the identity of the intelligent terminal 3 when scanning and signing, so that the mode of 'please scan you for me' for the sender who scans the intelligent terminal 2 by the intelligent terminal 3 is adopted; meanwhile, the dispatcher can also scan the real object of the 3D signed letter of the receiver by the intelligent terminal 2 and compare the real object with the 3D signed letter data (the specified reference value 3) for confirmation (the way that the intelligent terminal 2 scans the dispatcher who specifies the reference value 3 says 'let I scan your real object'); the sender completes the delivery of the mail entity, and meanwhile, the intelligent terminal 2 of the sender sends a message 3 of 'sign-in completed' delivery notice to the intelligent terminal 1 of the sender; when the dispatch location needs to be changed, i.e. dispatch location 1 needs to be defined again (specified reference value 2), the following steps are provided: when the intelligent terminal 2 checks that the data comparison of the delivery place 1 (the designated reference value 2) received from the intelligent label is incorrect, namely the delivery place 1 (the designated reference value 2) is incorrect, the intelligent terminal 2 immediately sends a message 4 of 'the mail cannot arrive due to the delivery place is incorrect' to the intelligent terminal 3 of the receiver according to the individual identification code 1 (the designated reference value 1) of the receiver received from the intelligent label; when the intelligent terminal 3 receives the relevant information 4, the recipient can redefine the delivery location through the intelligent terminal 3 (i.e., change the designated reference value 2 to the designated reference value 4), at this time, the intelligent terminal 2 starts its built-in intelligent positioning function, and checks whether the data comparison of the redefined delivery location 2 (the designated reference value 4) received from the intelligent terminal 3 of the recipient is correct? If yes, the intelligent terminal 2 immediately sends information 2 containing confirmation that the data comparison of the dispatching place 2 (the designated reference value 4) is correct and 'the mail has arrived' to the intelligent terminal 3 and the sender intelligent terminal 1 according to the individual recipient identification code 1 (the designated reference value 1) received from the intelligent label; when the intelligent terminal 3 receives the related information 2, the response information 2A is used as a mail to confirm signing, the signing mode of the specified reference value 1 can also be that the intelligent terminal 2 of the sender generates a signing bar code, the recipient is requested to scan and sign by the intelligent terminal 3 with the individual identification code 1 of the recipient, the intelligent terminal 3 simultaneously confirms the identity of the intelligent terminal 3 when scanning and signing, and the mode of' please scan you for the sender who scans the intelligent terminal 2 by the intelligent terminal 3; meanwhile, the sender scans the real object of the 3D sign-in letter of the receiver by the intelligent terminal 2 and compares the real object with the 3D sign-in letter data (the specified reference value 3) to determine (the method is that the sender who scans the specified reference value 3 by the intelligent terminal 2 says 'let I scan your real object'); the sender completes the delivery of the mail entity, and the intelligent terminal 2 of the sender sends a message 3 of 'sign-off is completed' to the intelligent terminal 1 of the sender.

When the recipient individual identification needs to be changed, that is, the recipient individual identification 1 needs to be defined again (the specified reference value 1): the smart terminal 2 starts its built-in smart positioning function, checks whether the comparison of the data of the delivery location 1 (designated reference value 2) received from the smart tag is correct? If yes, the intelligent terminal 2 immediately sends information 2 containing confirmation that the data comparison of the dispatching place 1 (the designated reference value 2) is correct and 'the mail has arrived' to the intelligent terminal 3 and the sender intelligent terminal 1 according to the recipient individual identification code 1 (the designated reference value 1) received from the intelligent label; is the intelligent terminal 3 carrying the recipient individual identification code 1 at the dispatch location (designated reference value 2) when the intelligent terminal 3 receives the relevant information 2? If not, for example, when the user is not at the delivery location (the designated reference value 2) due to going out, the receiver can issue a re-authorization to the intelligent terminal 2 through the intelligent terminal 3 to another intelligent terminal 4 carrying the personal individual identification code 2 of the authorized person (i.e. changing the designated reference value 1 to the designated reference value 5); at this time, the intelligent terminal 2 sends information 5 containing the correct 'mail has arrived' by confirming the data comparison of the dispatching place 1 (the designated reference value 2) to the intelligent terminal 4 with the authorized person and the sender intelligent terminal 1; when the intelligent terminal 4 receives the relevant information 5, the response information 5A is used as a mail 'check sign-in'. The signing mode of the specified reference value 5 can also be a signing bar code generated by the intelligent terminal 2 of the sender, the authorized person is requested to scan and sign by the intelligent terminal 4 carrying the individual identification code 2 of the authorized person, and the intelligent terminal 2 confirms the identity of the intelligent terminal 4 when scanning and signing, so that the mode of 'please scan you and me' for the sender who scans the intelligent terminal 4 by the intelligent terminal 2 is adopted; meanwhile, the deliverer scans and reads the real object of the 3D sign-in letter of the authorized person by the intelligent terminal 2, and compares the real object with the 3D sign-in letter data (the specified reference value 3) of the authorized person to be certain (the way that the deliverer who scans the specified reference value 3 by the intelligent terminal 2 says 'let i scan your real object'); the sender completes the delivery of the mail entity, and meanwhile, the intelligent terminal 2 of the sender sends a message 3 of 'sign-in completed' delivery notice to the intelligent terminal 1 of the sender; the intelligent terminal 2 records the digital evidence that the mail reaches the delivery place (the designated reference values 1, 2, 3, 4, 5, 6 and 7) in the whole process, and records the information related to the sign-in or authorized sign-in of information 2/2A and/or information 3 and/or information 4 and/or information 5/5A communicated with the intelligent terminals 1, 3 and 4; after the deliverer finishes the delivery on the current day, uploading all relevant data in the intelligent terminal 2 to the central/cloud data storage server.

The aforementioned sender is to be understood as a machine, robot, etc. of a natural or unnatural person; preferably, the personal individual identification code 2 (the smart terminal 4) of the authorized person cannot be authorized any more, because the authorization is not original right; the delivery unit has no contract relation with the authorized person, so that the phenomenon that the inventor thinks that the concept of 'Assignment' is temporarily not applicable downwards is avoided.

The smart tag carries relevant data with the objective of maintaining dispatch services when the central/cloud data storage server fails/fails to connect. In practice, all data may be stored in the centralized/cloud data storage server. The dispatcher can scan the 'mail tracking number' on the mail label to obtain relevant data from the central/cloud data storage server and complete the dispatching steps. The method can achieve direct processing of the central/cloud data, and avoids artificial errors or interference to a greater extent, for example, when the 3D sign-in and receipt data is not stored in the intelligent tag, the 3D real object is directly compared with the cloud data when the recipient signs, so that the sender or all other persons in the process cannot know in advance even if the sender or all other persons in the process do not know, and the method has a great effect on protecting personal information of the recipient.

Fig. 4 and 5 respectively show the corresponding processing modes when the 3D sign-and-sign letter data is replaced by the voice data (i.e. the designated reference value 6) and the smell data (i.e. the designated reference value 7), which are the same in all three processing modes, and the description of the invention is not repeated.

It is readily understood by a person skilled in the art that the advantageous ways described above can be freely combined, superimposed without conflict.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the technical principle of the present invention, and these improvements and modifications should also be regarded as the protection scope of the present invention.

Claims

1. A mail sign-in confirming system for a receiver to preset sign-in information is characterized by comprising the following steps:

2. An endorsement confirmation system according to claim 1,

3. A receipt confirmation system according to claim 2, further comprising:

4. A receipt confirmation system according to claim 3, further comprising:

5. An endorsement confirmation system according to claim 4, further comprising:

6. A receipt confirmation system according to claim 2, further comprising:

the address changing module is used for acquiring authorized address information specified by a receiver and changing the first address information into the authorized address information; and/or, further comprising:

7. An endorsement confirmation system according to claim 2,

8. A receipt confirmation system according to claim 1, further comprising:

9. A receipt confirmation system according to claim 8, further comprising:

10. A receipt confirmation system according to claim 1, wherein:

associating the obtained first sign-on information with the smart tag comprises: associating, by the sender/carrier, the obtained first receipt information with the smart tag; and/or associating the acquired first signing information with the intelligent label by the receiver; and/or associating the acquired first receipt information with the smart tag by the recipient through a network user interface of the sender and/or the carrier.