CN105392160A - Embedded e-commerce system and interactive method thereof - Google Patents

Abstract

The invention relates to an embedded e-commerce system and an interactive method thereof. The embedded e-commerce system includes a mobile terminal device which is in communication connection with a background server through a wireless communication network; the mobile terminal device includes a foreground processing module; and the background server includes a background processing module. According to the embedded e-commerce system and the interactive method thereof, the defect in the prior art that the conventional embedded e-commerce system frequently fails in data transmissionrepeatedly, can be avoided.

Description

Embedded-type electric quotient system system and interactive approach thereof

Technical field

The invention belongs to the service technology field for electric business, be specifically related to a kind of embedded-type electric quotient system system and interactive approach thereof.

Background technology

Along with the technical development of embedded system, IP network and mobile network 3G/4G, the ecommerce based on embedded system will become the important component part of people's daily life, has huge industrial prospect.At present, the e-commerce technology based on embedded system has also just been in the research and development stage, and based in the e-commerce technology of embedded system, information security technology is basic and crucial.

Mobile embedded environment is a kind of insecure, dynamic network environment, and user is resource-constrained equipment so as to the mobile terminal device of access network services.Because the introducing of mobile embedded platform, transfer of data there will be disturbed phenomenon, if the packet byte number of such Wireless Data Transmission is too much, the problem that the quantity that under interference, the corrupt data transmitted will occur sharply strengthens, again and again will there is failure in such transmission data, so the Wireless Data Transmission of mobile terminal under mobile embedded e-commerce platform cannot meet the transmission of the too much packet of byte number.Via gained of the present invention, guarantee lower data transmission fails number of times, the byte number of the packet of the mobile terminal under mobile embedded e-commerce platform will within 95 bytes, can not more than the transfer of data of 95 bytes, the frequency of failure of data packet transmission can obviously reduce, and the trading efficiency that embedded-type electric quotient system is united greatly improves.

Summary of the invention

Object of the present invention provides a kind of embedded-type electric quotient system to unite and interactive approach, comprise mobile terminal device, described mobile terminal device communicates connection by cordless communication network with background server, include foreground processing module in described mobile terminal device, described background server comprises background processing module and reduces embedded-type electric business system transfers data in prior art by method and failed defect will occur again and again.

In order to overcome deficiency of the prior art, the invention provides a kind of embedded-type electric quotient system system and interaction thereof

The solution of method, specific as follows:

A kind of embedded-type electric quotient system system, comprise mobile terminal device, described mobile terminal device communicates connection by cordless communication network with background server, includes foreground processing module in described mobile terminal device, and described background server comprises background processing module;

Described foreground processing module is used for relying on communication according to data transmission principle, concentrates correctness and the transfer speed of data of taking transfer of data into account, determines that the number data bytes of a packet data package of packet is in 75-95 byte; For the byte number of the data that will send is added up; Be used for storing whole packet, then in internal memory, open up a storage area, data copy is entered this storage area; Be used for dividing into groups to data.

Described background processing module is used for relying on communication according to data transmission principle, concentrates correctness and the transfer speed of data of taking transfer of data into account, determines that the number data bytes of a packet data package of packet is in 75-95 byte; For the byte number of the data that will send is added up; Be used for storing whole packet, then in internal memory, open up a storage area, data copy is entered this storage area; Be used for dividing into groups to data.

The interactive approach of described embedded-type electric quotient system system, step is as follows:

Step 1: user as service requestor by mobile terminal device submit to service request;

Step 2: background server receives the request of mobile subscriber as the supplier served, and is returned the service meeting its demand by network;

Step 3: the log-on message of service is stored in the catalogue of server;

In addition, as follows with the mode of the RFDC transmission between background server to the mobile terminal device of step 3 in step 1:

(1) when mobile terminal device needs to send data to background server, foreground processing module relies on communication according to data transmission principle in advance, concentrate correctness and the transfer speed of data of taking transfer of data into account, determine that the number data bytes of a packet data package of packet is in 75-95 byte, this grouped data includes the delimiter of 6 bytes and the data field of 69-89 byte, the delimiter of 6 described bytes is used for carrying out the manipulation of data transmission, in delimiter one byte is used as " the restriction byte of packet data package ", it is used for representing this packet data package is independently packet or have other packet data package,

(2) foreground processing module adds up the byte number of the data that will send;

(3) when the byte number after the statistics obtained in (2) is not more than the number data bytes of the packet data package determined in (1), foreground processing module just sends this data towards background server, and " the restriction byte of packet data package " is set as the first restriction byte;

(4) during the number data bytes of the byte number after the statistics obtained in (2) more than the packet data package determined in (1), then when being but less than 190 bytes, " the restriction byte of packet data package " is set as the first restriction byte, such foreground processing module just stores whole packet, in internal memory, open up a storage area again, data copy is entered this storage area; Then the determination of data byte number is performed, the number data bytes relying on the packet data package determined in (1) is divided into groups, and packet data package is sent to background server, " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(5) when the byte number after the statistics obtained in (2) is more than 190 byte, foreground processing module just stores whole packet, then in internal memory, open up a storage area, and data copy is entered this storage area; Then perform the determination of data byte number, rely on 95 byte quantity and divide into groups, and packet data package is sent to background server; " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(6) background server receives the packet data package that foreground processing module is sent, once receive " the restriction byte of packet data package " be the 3rd restriction byte, then next packet data package is received, finally read packet data package, namely received till " the restriction byte of packet data package " be the second restriction byte;

(7) when background server needs to send data to mobile terminal device, background processing module relies on communication according to data transmission principle in advance, concentrate correctness and the transfer speed of data of taking transfer of data into account, determine that the number data bytes of a packet data package of packet is in 75-95 byte, this grouped data includes the delimiter of 6 bytes and the data field of 69-89 byte, the delimiter of 6 described bytes is used for carrying out the manipulation of data transmission, in delimiter one byte is used as " the restriction byte of packet data package ", it is used for representing this packet data package is independently packet or have other packet data package,

(8) background processing module adds up the byte number of the data that will send;

(9) when the byte number after the statistics obtained in (8) is not more than the number data bytes of the packet data package determined in (7), background processing module just sends this data towards mobile terminal device, and " the restriction byte of packet data package " is set as the first restriction byte;

(10) during the number data bytes of the byte number after the statistics obtained in (8) more than the packet data package determined in (7), then when being but less than 190 bytes, " the restriction byte of packet data package " is set as the first restriction byte, such background processing module just stores whole packet, in internal memory, open up a storage area again, data copy is entered this storage area; Then the determination of data byte number is performed, the number data bytes relying on the packet data package determined in (7) is divided into groups, and packet data package is sent to mobile terminal device, " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(11) when the byte number after the statistics obtained in (8) is more than 190 byte, background processing module just stores whole packet, then in internal memory, open up a storage area, and data copy is entered this storage area; Then perform the determination of data byte number, rely on 95 byte quantity and divide into groups, and packet data package is sent to mobile terminal device; " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(12) mobile terminal device receives the packet data package that background processing module is sent, once receive " the restriction byte of packet data package " be the 3rd restriction byte, then next packet data package is received, finally read packet data package, namely received till " the restriction byte of packet data package " be the second restriction byte.

The combination of described the first restriction byte, the second restriction byte and the energy-conservation enough various character codes of the 3rd restricted codes is distinguished.

The number data bytes of a packet data package of the determination in described (1) and (7) is 95 bytes.

Utilize the present invention, such packet method of dividision into groups enters in embedded-type electric quotient system system, complete the data transmission of the wireless mode of the packet grouping between mobile terminal device and background server, also reach the transmission of the fixed qty that data are transmitted, improve the real-time of data transmission and the abundant performance of use of wireless bandwidth; Can also guarantee receive the correctness of data and reduce the generation of mistake according to the classification of restriction byte.

Accompanying drawing explanation

Fig. 1 is the theory structure schematic diagram of embedded-type electric quotient system of the present invention system.

Embodiment

Below in conjunction with drawings and Examples, summary of the invention is described further:

With reference to shown in Fig. 1, embedded-type electric quotient system is united, and comprise mobile terminal device, described mobile terminal device communicates connection by cordless communication network with background server, include foreground processing module in described mobile terminal device, described background server comprises background processing module;

Described foreground processing module is used for relying on communication according to data transmission principle, concentrates correctness and the transfer speed of data of taking transfer of data into account, determines that the number data bytes of a packet data package of packet is in 75-95 byte; For the byte number of the data that will send is added up; Be used for storing whole packet, then in internal memory, open up a storage area, data copy is entered this storage area; Be used for dividing into groups to data.

Described background processing module is used for relying on communication according to data transmission principle, concentrates correctness and the transfer speed of data of taking transfer of data into account, determines that the number data bytes of a packet data package of packet is in 75-95 byte; For the byte number of the data that will send is added up; Be used for storing whole packet, then in internal memory, open up a storage area, data copy is entered this storage area; Be used for dividing into groups to data.

The interactive approach of described embedded-type electric quotient system system, step is as follows:

Step 1: user as service requestor by mobile terminal device submit to service request;

Step 2: background server receives the request of mobile subscriber as the supplier served, and is returned the service meeting its demand by network;

Step 3: the log-on message of service is stored in the catalogue of server;

In addition, as follows with the mode of the RFDC transmission between background server to the mobile terminal device of step 3 in step 1:

(1) when mobile terminal device needs to send data to background server, foreground processing module relies on communication according to data transmission principle in advance, concentrate correctness and the transfer speed of data of taking transfer of data into account, determine that the number data bytes of a packet data package of packet is in 95 bytes, this grouped data includes the delimiter of 6 bytes and the data field of 89 bytes, the delimiter of 6 described bytes is used for carrying out the manipulation of data transmission, in delimiter one byte is used as " the restriction byte of packet data package ", it is used for representing this packet data package is independently packet or have other packet data package,

(2) foreground processing module adds up the byte number of the data that will send;

(3) when the byte number after the statistics obtained in (2) is not more than the number data bytes of the packet data package determined in (1), foreground processing module just sends this data towards background server, " the restriction byte of packet data package " is set as the first restriction byte, in the present embodiment, the value of the first restriction byte is " 10 ", represent the not grouping of this packet, it is whole packet, the value of the 3rd restriction byte is " CA, CB, CC .... ", representative also has next packet data package, the value of the second restriction byte is " 20 ", representative does not have next packet data package,

(4) during the number data bytes of the byte number after the statistics obtained in (2) more than the packet data package determined in (1), then when being but less than 190 bytes, " the restriction byte of packet data package " is set as the first restriction byte, such foreground processing module just stores whole packet, in internal memory, open up a storage area again, data copy is entered this storage area; Then the determination of data byte number is performed, the number data bytes relying on the packet data package determined in (1) is divided into groups, and packet data package is sent to background server, " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(5) when the byte number after the statistics obtained in (2) is more than 190 byte, foreground processing module just stores whole packet, then in internal memory, open up a storage area, and data copy is entered this storage area; Then perform the determination of data byte number, rely on 95 byte quantity and divide into groups, and packet data package is sent to background server; " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(6) background server receives the packet data package that foreground processing module is sent, once receive " the restriction byte of packet data package " be the 3rd restriction byte, then next packet data package is received, finally read packet data package, namely received till " the restriction byte of packet data package " be the second restriction byte;

(7) when background server needs to send data to mobile terminal device, background processing module relies on communication according to data transmission principle in advance, concentrate correctness and the transfer speed of data of taking transfer of data into account, determine that the number data bytes of a packet data package of packet is in 95 bytes, this grouped data includes the delimiter of 6 bytes and the data field of 89 bytes, the delimiter of 6 described bytes is used for carrying out the manipulation of data transmission, in delimiter one byte is used as " the restriction byte of packet data package ", it is used for representing this packet data package is independently packet or have other packet data package,

(8) background processing module adds up the byte number of the data that will send;

(9) when the byte number after the statistics obtained in (8) is not more than the number data bytes of the packet data package determined in (7), background processing module just sends this data towards mobile terminal device, and " the restriction byte of packet data package " is set as the first restriction byte;

(10) during the number data bytes of the byte number after the statistics obtained in (8) more than the packet data package determined in (7), then when being but less than 190 bytes, " the restriction byte of packet data package " is set as the first restriction byte, such background processing module just stores whole packet, in internal memory, open up a storage area again, data copy is entered this storage area; Then the determination of data byte number is performed, the number data bytes relying on the packet data package determined in (7) is divided into groups, and packet data package is sent to mobile terminal device, " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(11) when the byte number after the statistics obtained in (8) is more than 190 byte, background processing module just stores whole packet, then in internal memory, open up a storage area, and data copy is entered this storage area; Then perform the determination of data byte number, rely on 95 byte quantity and divide into groups, and packet data package is sent to mobile terminal device; " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(12) mobile terminal device receives the packet data package that background processing module is sent, once receive " the restriction byte of packet data package " be the 3rd restriction byte, then next packet data package is received, finally read packet data package, namely received till " the restriction byte of packet data package " be the second restriction byte.

The above, it is only preferred embodiment of the present invention, not any pro forma restriction is done to the present invention, although the present invention discloses as above with preferred embodiment, but and be not used to limit the present invention, any those skilled in the art, do not departing within the scope of technical solution of the present invention, make a little change when the technology contents of above-mentioned announcement can be utilized or be modified to the Equivalent embodiments of equivalent variations, in every case be do not depart from technical solution of the present invention content, according to technical spirit of the present invention, within the spirit and principles in the present invention, to any simple amendment that above embodiment is done, equivalent replacement and improvement etc., within the protection range all still belonging to technical solution of the present invention.

Claims (4)

1. an embedded-type electric quotient system system, it is characterized in that, comprise mobile terminal device, described mobile terminal device communicates connection by cordless communication network with background server, include foreground processing module in described mobile terminal device, described background server comprises background processing module;

Described foreground processing module is used for relying on communication according to data transmission principle, concentrates correctness and the transfer speed of data of taking transfer of data into account, determines that the number data bytes of a packet data package of packet is in 75-95 byte; For the byte number of the data that will send is added up; Be used for storing whole packet, then in internal memory, open up a storage area, data copy is entered this storage area; Be used for dividing into groups to data;

Described background processing module is used for relying on communication according to data transmission principle, concentrates correctness and the transfer speed of data of taking transfer of data into account, determines that the number data bytes of a packet data package of packet is in 75-95 byte; For the byte number of the data that will send is added up; Be used for storing whole packet, then in internal memory, open up a storage area, data copy is entered this storage area; Be used for dividing into groups to data.

2. the interactive approach of embedded-type electric quotient system system according to claim 1, is characterized in that, step

As follows:

Step 1: user as service requestor by mobile terminal device submit to service request;

Step 2: background server receives the request of mobile subscriber as the supplier served, and is returned the service meeting its demand by network;

Step 3: the log-on message of service is stored in the catalogue of server;

In addition, as follows with the mode of the RFDC transmission between background server to the mobile terminal device of step 3 in step 1:

(1) when mobile terminal device needs to send data to background server, foreground processing module relies on communication according to data transmission principle in advance, concentrate correctness and the transfer speed of data of taking transfer of data into account, determine that the number data bytes of a packet data package of packet is in 75-95 byte, this grouped data includes the delimiter of 6 bytes and the data field of 69-89 byte, the delimiter of 6 described bytes is used for carrying out the manipulation of data transmission, in delimiter one byte is used as " the restriction byte of packet data package ", it is used for representing this packet data package is independently packet or have other packet data package,

(2) foreground processing module adds up the byte number of the data that will send;

(3) when the byte number after the statistics obtained in (2) is not more than the number data bytes of the packet data package determined in (1), foreground processing module just sends this data towards background server, and " the restriction byte of packet data package " is set as the first restriction byte;

(4) during the number data bytes of the byte number after the statistics obtained in (2) more than the packet data package determined in (1), then when being but less than 190 bytes, " the restriction byte of packet data package " is set as the first restriction byte, such foreground processing module just stores whole packet, in internal memory, open up a storage area again, data copy is entered this storage area; Then the determination of data byte number is performed, the number data bytes relying on the packet data package determined in (1) is divided into groups, and packet data package is sent to background server, " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(5) when the byte number after the statistics obtained in (2) is more than 190 byte, foreground processing module just stores whole packet, then in internal memory, open up a storage area, and data copy is entered this storage area; Then perform the determination of data byte number, rely on 95 byte quantity and divide into groups, and packet data package is sent to background server; " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(6) background server receives the packet data package that foreground processing module is sent, once receive " the restriction byte of packet data package " be the 3rd restriction byte, then next packet data package is received, finally read packet data package, namely received till " the restriction byte of packet data package " be the second restriction byte;

(7) when background server needs to send data to mobile terminal device, background processing module relies on communication according to data transmission principle in advance, concentrate correctness and the transfer speed of data of taking transfer of data into account, determine that the number data bytes of a packet data package of packet is in 75-95 byte, this grouped data includes the delimiter of 6 bytes and the data field of 69-89 byte, the delimiter of 6 described bytes is used for carrying out the manipulation of data transmission, in delimiter one byte is used as " the restriction byte of packet data package ", it is used for representing this packet data package is independently packet or have other packet data package,

(8) background processing module adds up the byte number of the data that will send;

(9) when the byte number after the statistics obtained in (8) is not more than the number data bytes of the packet data package determined in (7), background processing module just sends this data towards mobile terminal device, and " the restriction byte of packet data package " is set as the first restriction byte;

(10) during the number data bytes of the byte number after the statistics obtained in (8) more than the packet data package determined in (7), then when being but less than 190 bytes, " the restriction byte of packet data package " is set as the first restriction byte, such background processing module just stores whole packet, in internal memory, open up a storage area again, data copy is entered this storage area; Then the determination of data byte number is performed, the number data bytes relying on the packet data package determined in (7) is divided into groups, and packet data package is sent to mobile terminal device, " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(11) when the byte number after the statistics obtained in (8) is more than 190 byte, background processing module just stores whole packet, then in internal memory, open up a storage area, and data copy is entered this storage area; Then perform the determination of data byte number, rely on 95 byte quantity and divide into groups, and packet data package is sent to mobile terminal device; " the restriction byte of packet data package " of each packet data package is set as the 3rd restriction byte like this, and " the restriction byte of packet data package " of a grouping of the most end in grouping is set as the second restriction byte;

(12) mobile terminal device receives the packet data package that background processing module is sent, once receive " the restriction byte of packet data package " be the 3rd restriction byte, then next packet data package is received, finally read packet data package, namely received till " the restriction byte of packet data package " be the second restriction byte.

3. the interactive approach of embedded-type electric quotient system system according to claim 2, is characterized in that the combination of described the first restriction byte, the second restriction byte and the energy-conservation enough various character codes of the 3rd restricted codes is distinguished.

4. the interactive approach of embedded-type electric quotient system system according to claim 2, is characterized in that the number data bytes of a packet data package of the determination in described (1) and (7) is 95 bytes.