CN107133792B - Subway payment system and payment method using mobile terminal for payment - Google Patents

Abstract

The invention discloses a subway payment system and a payment method using a mobile terminal for payment, wherein a distance sensing module is started after a signal is received by an optical sensing module of the mobile terminal and judged by a payment program module, a wireless network communication module is started after the signal is detected by the distance sensing module and judged by the payment program module, the unique identification code information of the mobile terminal is respectively sent to a first intelligent payment terminal and a second intelligent payment terminal of a subway through the wireless network communication module and then sent to a server, the server approves and calculates the bus taking expense and controls the opening of a subway gate, and fee deduction confirmation information is sent to the mobile terminal through the second intelligent payment terminal of the subway. The whole payment process is buckled, direct interaction does not exist between the mobile terminal and the server, the leakage of the unique identification code information of the mobile terminal is avoided, and the safety of the payment process is guaranteed.

Description

Subway payment system and payment method using mobile terminal for payment

Technical Field

The invention relates to the field of mobile internet, in particular to a subway payment system and a subway payment method using a mobile terminal for payment.

Background

The traditional subway payment system and payment method using mobile terminal payment requires that the mobile terminal has an NFC function, and also requires that the subway intelligent payment terminal upgrades hardware, for example, a corresponding card reader is installed, so that the subway intelligent payment system and payment method are inconvenient for both merchants and users to use.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a subway payment system and a subway payment method which are similar to NFC near field payment and are high in payment efficiency, high in safety and free of user interference and pay by using a mobile terminal.

In order to achieve the purpose, the invention adopts the following technical scheme:

a subway payment system using a mobile terminal for payment, comprising: the system comprises a mobile terminal, a subway first intelligent payment terminal, a subway second intelligent payment terminal, a first access controller, a second access controller, a first gate, a second gate, a server, a wireless interconnection network and a second access controller, wherein the wireless interconnection network is used for transmitting information among the subway first intelligent payment terminal, the subway second intelligent payment terminal and the server and among the subway first intelligent payment terminal, the subway second intelligent payment terminal and the subway second access controller;

the mobile terminal comprises a light sensing module, a payment program module, a wireless network communication module and a distance sensing module;

the optical sensing module is used for measuring the intensity of an optical signal after receiving an optical sensing module starting instruction of the payment program module and sending the detected light intensity numerical value information to the payment program module;

the payment program module is used for sending a starting instruction of the optical sensing module to the optical sensing module, receiving light intensity numerical value information sent by the optical sensing module, calculating a specific wavelength light intensity numerical value in an artificially set wavelength range from the received light intensity numerical value information, comparing the specific wavelength light intensity numerical value with an artificially set first numerical value, sending a distance sensing module starting instruction to the distance sensing module when the specific wavelength light intensity numerical value is larger than or equal to the artificially set first numerical value as a comparison result, receiving distance numerical value information sent by the distance sensing module, comparing the distance numerical value information with an artificially set second numerical value, and sending a pairing and connecting instruction of the wireless network communication module to the wireless network communication module when the distance numerical value information is smaller than or equal to the artificially set second numerical value as the comparison result, the system is also used for calling the unique identification code information of the mobile terminal, sending the unique identification code information of the mobile terminal to the wireless network communication module after the wireless network communication module establishes pairing and connection relation with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway, and receiving payee confirmation information, payer confirmation information and payment amount information sent by the wireless network communication module;

the wireless network communication module is used for receiving pairing and connection instructions of the payment program module, pairing and wireless communication connection with a subway first intelligent payment terminal and a subway second intelligent payment terminal, receiving unique identification code information of the mobile terminal sent by the payment program module and sending the unique identification code information to the subway first intelligent payment terminal and the subway second intelligent payment terminal, and receiving payee confirmation information, payer confirmation information and payment amount information sent by the subway second intelligent payment terminal and sending the payment program module;

the distance sensing module is used for measuring the distance between the mobile terminal and an opposite object after receiving a distance sensing module starting instruction sent by the payment program module and sending the detected distance value information to the payment program module;

the first intelligent payment terminal of the subway comprises a first light emitting program module, a first charging program module and a first communication program module; the second intelligent payment terminal of the subway comprises a second light emitting program module, a second charging program module and a second communication program module;

the first light emitting program module and the second light emitting program module are used for emitting light with light intensity larger than or equal to a first value set manually in a specific wavelength range set manually;

the first charging program module is used for receiving the unique identification code information of the mobile terminal sent by the first communication program module, sending the unique identification code information of the mobile terminal and the unique identification information of the first intelligent payment terminal of the subway to the server through the wireless internet, receiving the evidence opening information of the subway gate sent by the server and sending the evidence opening information of the subway gate to the first access controller; the second charging program module is used for receiving the unique identification code information of the mobile terminal sent by the second communication program module, sending the unique identification code information of the mobile terminal and the unique identification information of the second intelligent payment terminal of the subway to the server through the wireless internet, receiving the subway gate opening certificate information sent by the server, sending the subway gate opening certificate information to the second gate inhibition controller, receiving the payment amount information, the payee confirmation information and the payer confirmation information sent by the server, and sending the payment amount information, the payee confirmation information and the payer confirmation information to the second communication program module;

the first communication program module is used for establishing communication connection with a wireless network communication module of the mobile terminal, receiving the unique identification code information of the mobile terminal sent by the wireless network communication module and sending the unique identification code information to the first charging program module; the second communication program module is used for establishing communication connection with the wireless network communication module of the mobile terminal, receiving the unique identification code information of the mobile terminal sent by the wireless network communication module and sending the unique identification code information to the second charging program module, and is also used for receiving the payment amount information, the payee confirmation information and the payer confirmation information sent by the second charging program module and sending the payment amount information, the payee confirmation information and the payer confirmation information to the wireless network communication module of the mobile terminal;

the first access controller is used for receiving subway gate opening voucher information and controlling the first gate to open; the second gate inhibition controller is used for receiving the subway gate opening voucher information and controlling the second gate to be opened;

the server is used for receiving and storing the subway first intelligent payment terminal unique identification information and the mobile terminal unique identification code information which are sent by the first charging program module and are approved, sending the subway gate opening certificate information to the first charging program module after approval, receiving and storing the subway second intelligent payment terminal unique identification information and the mobile terminal unique identification code information which are sent by the second charging program module and are approved, calculating the cost according to a preset charging rule after approval, and generating the subway gate opening certificate information, the payment amount receiving information, the payee confirmation information and the payer confirmation information to be sent to the second charging program module.

Furthermore, the mobile terminal further comprises an input interface and an output interface, and when the wireless network communication module is not successfully paired with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway, the user returns the input interface and the output interface to manually pair with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway.

Further, the payment program module of the mobile terminal pays the APP for the mobile terminal.

Furthermore, the wireless network communication module, the first communication program module and the second communication program module of the mobile terminal are all bluetooth, ZigBee or WLAN.

The invention also provides a payment method of the subway payment system, which comprises the following steps: the first light emitting program module and the second light emitting program module always emit light with light intensity larger than or equal to a first value set manually in a specific wavelength range set manually, and the method further comprises the following steps:

step 1: a user opens a payment program module of the mobile terminal in advance;

step 2: the payment program module sends a starting instruction of the optical sensing module to the optical sensing module;

and step 3: the payment program module calls the unique identification code of the mobile terminal; step 3 may be run at any step prior to step 9;

and 4, step 4: the optical sensing module is started to detect the intensity of light and send the detected light intensity numerical value information to the payment program module;

and 5: when a user enters a station, the optical sensing module faces to a first intelligent payment terminal of a subway:

step 6: a payment program module of the mobile terminal receives light intensity numerical value information sent by a light sensing module, calculates a specific wavelength light intensity numerical value in an artificially set wavelength range, judges whether the specific wavelength light intensity numerical value is larger than or equal to an artificially set first numerical value or not, and sends a distance sensing module starting instruction to the distance sensing module when the judgment result is true;

and 7: the distance sensing module is started, detects the distance between the mobile terminal and the first intelligent payment terminal of the subway and sends the detected distance value information to the payment program module;

and 8: a payment program module of the mobile terminal receives distance value information sent by the distance sensing module and judges whether the distance value information is smaller than or equal to a second value set manually, and when the judgment result is true, a wireless network communication module pairing and connecting instruction is sent to the wireless network communication module;

and step 9: the wireless network communication module is started, is matched with a communication program module of a first intelligent payment terminal of the subway and establishes wireless communication connection;

step 10: the payment program module sends the called unique identification code information of the mobile terminal to the wireless network communication module;

step 11: the wireless network communication module receives the unique identification code information of the mobile terminal and sends the unique identification code information to the first communication program module;

step 12: the first communication program module receives the unique identification code information of the mobile terminal and sends the unique identification code information to the first charging program module:

step 13: the first charging program module receives the unique identification code information of the mobile terminal and sends the unique identification code information of the first intelligent payment terminal of the subway to the server through the wireless internet;

step 14: the method comprises the steps that a server receives and stores subway first intelligent payment terminal unique identification information and mobile terminal unique identification code information which are sent by a first communication program module, the server authenticates the identity of a payer through the mobile terminal unique identification code information and inquires whether the mobile terminal unique identification code information is received before, if the mobile terminal unique identification code information is not received, the position of a first subway payment terminal is inquired through the subway first intelligent payment terminal unique identification information and recorded as a first position, and after approval, subway gate opening certificate information is generated and sent to a first charging program module through a wireless internet;

step 15: the first charging program module receives the subway gate opening voucher information and sends the subway gate opening voucher information to the first access controller;

step 16: the first access controller receives subway gate opening voucher information and controls the first gate to open;

and step 17: a user enters a station; when a user leaves the station, the optical sensing module faces to a second intelligent payment terminal of the subway;

step 18: a payment program module of the mobile terminal receives light intensity numerical value information sent by a light sensing module, calculates a specific wavelength light intensity numerical value in an artificially set wavelength range, judges whether the specific wavelength light intensity numerical value is larger than or equal to an artificially set first numerical value or not, and starts sending a distance sensing module starting instruction to the distance sensing module when the judgment result is true;

step 19: the distance sensing module is started, detects the distance between the mobile terminal and the second intelligent payment terminal of the subway and sends the detected distance value information to the payment program module;

step 20: a payment program module of the mobile terminal receives distance value information sent by the distance sensing module and judges whether the distance value information is smaller than or equal to a second value set manually, and when the judgment result is true, a wireless network communication module pairing and connecting instruction is sent to the wireless network communication module;

step 21: the wireless network communication module is started, is matched with a communication program module of a second intelligent payment terminal of the subway and establishes wireless communication connection;

step 22: the payment program module sends the called unique identification code information of the mobile terminal to the wireless network communication module;

step 23: the wireless network communication module receives the unique identification code information of the mobile terminal and sends the unique identification code information to the second communication program module;

step 24: the second communication program module receives the unique identification code information of the mobile terminal and sends the unique identification code information to the second charging program module:

step 25: the second charging program module receives the unique identification code information of the mobile terminal and sends the unique identification code information of the second intelligent payment terminal of the subway to the server through the wireless internet;

step 26: the server receives and stores the unique identification information of the second intelligent subway payment terminal and the unique identification code information of the mobile terminal, which are sent by the second communication program module, authenticates the identity of a payer through the unique identification code information of the mobile terminal, inquires whether the unique identification code information of the mobile terminal is received before, inquires the position of the second intelligent subway payment terminal through the unique identification information of the second intelligent subway payment terminal and records the position as a second position if the unique identification code information of the mobile terminal is received, calculates the bus taking cost required from the first position to the second position according to a preset charging rule and the recorded first position and second position after approval, according to the calculation result, the amount of the payee is increased, the amount of the payer is reduced, and subway gate opening voucher information, payment amount receiving information, payee confirmation information and payer confirmation information are generated and sent to the second charging program module;

step 27: the second charging program module receives subway gate opening certificate information, payment amount information, payee confirmation information and payer confirmation information, and sends the subway gate opening certificate information to the second gate inhibition controller; sending the received payment amount information, the payee confirmation information and the payer confirmation information to a communication program module of a second intelligent payment terminal of the subway;

step 28: the second gate inhibition controller receives the subway gate opening voucher information and controls the second gate to be opened;

step 29: the second communication program module receives the payee confirmation information, the payer confirmation information and the received payment amount confirmation information and sends the received payment amount confirmation information to the wireless network communication module of the mobile terminal:

step 30: the wireless network communication module sends the information to a payment program module;

step 31: and the payment program module displays the information on the interface of the mobile terminal.

Further, step 9 is followed by step 9.1: during the first pairing, returning to the system interface of the mobile terminal to pair with a communication program module of the subway payment terminal; and step 21.1 is also included after the step 21, and when the system interface is paired for the first time, the system interface returned to the mobile terminal is paired with the communication program module of the subway payment terminal.

Compared with the prior art, the technical scheme of the invention has the following beneficial effects:

the invention provides a new subway payment system and a payment method using a mobile terminal for payment, wherein a distance sensing module is started after a signal is received by an optical sensing module of the mobile terminal and judged by a payment program module, a wireless network communication module is started after the signal is detected by the distance sensing module and judged by the payment program module, when a user enters a station, unique identification code information of the mobile terminal is sent to a first intelligent payment terminal of the subway through the wireless network communication module, the first intelligent payment terminal of the subway receives the unique identification code information and sends the unique identification code information to a server, the unique identification code information is approved by the server and generates opening voucher information of a subway gate, the opening voucher information of the subway gate is sent to a first gate inhibition controller through the intelligent payment terminal to control the opening of the first gate, and the user can enter the; when a user is out of the station, the unique identification code information of the mobile terminal is sent to a second intelligent subway payment terminal through the wireless network communication module, the second intelligent subway payment terminal receives the unique identification code information and sends the unique identification code information to a server, the second intelligent subway payment terminal approves the information and calculates the bus taking cost and generates the subway gate opening certificate information and the fee deduction confirmation information, the subway gate opening certificate information is sent to a second gate controller through the second intelligent subway payment terminal to control the second gate to be opened, and the fee deduction confirmation information is sent to the wireless network communication module through the second intelligent subway payment terminal and is displayed when the fee deduction confirmation information is transmitted to the payment program module. The whole payment process is buckled, direct interaction does not exist between the mobile terminal and the server, data interaction is only realized between the mobile terminal and the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway, the leakage of the unique identification code information of the mobile terminal is avoided, the safety of the payment process is guaranteed, and the mobile terminal does not need to have an NFC function, and a user does not need to carry an IC card, so that the payment method is more convenient. According to the invention, the payment program module is only required to be opened in advance, the user only needs to return to a system interface to realize the pairing of the wireless network communication module of the mobile terminal and the intelligent payment terminal during the first payment, and then the payment can be completed only by approaching the mobile terminal to the first intelligent payment terminal and the second intelligent payment terminal of the subway without user interference during the whole payment process, so that the payment efficiency is high, the safety is high, and the automatic payment experience is provided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic composition diagram of the present embodiment;

FIG. 2 is a schematic view of an inbound flow of the present embodiment;

fig. 3 is a schematic outbound flow chart of the present embodiment.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, which is a schematic view of a payment system according to an embodiment of the present invention, in this embodiment, a subway payment system using mobile phone payment includes: the system comprises a mobile phone, a subway first intelligent payment terminal, a subway second intelligent payment terminal, a first access controller, a second access controller, a first gate, a second gate, a server and a wireless interconnection network, wherein the wireless interconnection network is used for transmitting information among the subway first intelligent payment terminal, the subway second intelligent payment terminal and the server and among the subway first intelligent payment terminal, the subway second intelligent payment terminal and the subway second access controller;

the mobile phone comprises an optical sensing module, a payment APP, a wireless network communication module and a distance sensing module;

the optical sensing module is used for measuring the optical signal intensity after receiving an optical sensing module starting instruction of the payment APP and sending the detected light intensity numerical value information to the payment APP;

the payment APP is used for sending a starting instruction of the optical sensing module to the optical sensing module, receiving light intensity numerical value information sent by the optical sensing module, calculating specific wavelength light intensity numerical values in a manually set wavelength range from the received light intensity numerical value information, comparing the specific wavelength light intensity numerical values with manually set first numerical values, sending a starting instruction of the distance sensing module to the distance sensing module when the comparison result shows that the specific wavelength light intensity numerical values are larger than or equal to the manually set first numerical values, receiving distance numerical value information sent by the distance sensing module, comparing the distance numerical value information with manually set second numerical values, and sending a pairing and connecting instruction of the wireless network communication module to the wireless network communication module when the comparison result shows that the distance numerical value information is smaller than or equal to the manually set second numerical values, the system is also used for calling the unique identification code information of the mobile phone, sending the unique identification code information of the mobile phone to the wireless network communication module after the wireless network communication module establishes a pairing and connection relationship with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway, and receiving payee confirmation information, payer confirmation information and payment amount information sent by the wireless network communication module;

the wireless network communication module is used for receiving pairing and connection instructions of the payment APP, pairing and wireless communication connection with the subway first intelligent payment terminal and the subway second intelligent payment terminal, receiving unique mobile phone identification code information sent by the payment APP and sending the unique mobile phone identification code information to the subway first intelligent payment terminal and the subway second intelligent payment terminal, and receiving payee confirmation information, payer confirmation information and payment amount information sent by the subway second intelligent payment terminal and sending the payment APP;

the distance sensing module is used for measuring the distance between the mobile phone and the opposite object after receiving a distance sensing module starting instruction sent by the payment APP and sending the detected distance value information to the payment APP;

the first intelligent payment terminal of the subway comprises a first light emitting program module, a first charging program module and a first communication program module; the second intelligent payment terminal of the subway comprises a second light emitting program module, a second charging program module and a second communication program module;

the first light emitting program module and the second light emitting program module are used for emitting light with light intensity larger than or equal to a first value set manually in a specific wavelength range set manually;

the first charging program module is used for receiving the unique identification code information of the mobile phone sent by the first communication program module, sending the unique identification code information and the unique identification information of the first intelligent payment terminal of the subway to the server through the wireless internet, receiving the evidence opening information of the subway gate sent by the server and sending the evidence opening information to the first access controller; the second charging program module is used for receiving the unique identification code information of the mobile phone sent by the second communication program module, sending the unique identification code information of the mobile phone and the unique identification information of the second intelligent payment terminal of the subway to the server through the wireless internet, receiving the subway gate opening certificate information sent by the server, sending the subway gate opening certificate information to the second gate inhibition controller, receiving the payment amount information, the payee confirmation information and the payer confirmation information sent by the server, and sending the payment amount information, the payee confirmation information and the payer confirmation information to the second communication program module;

the first communication program module is used for establishing communication connection with a wireless network communication module of the mobile phone, receiving the unique identification code information of the mobile phone sent by the wireless network communication module and sending the unique identification code information to the first charging program module; the second communication program module is used for establishing communication connection with the wireless network communication module of the mobile phone, receiving the unique identification code information of the mobile phone sent by the wireless network communication module and sending the unique identification code information to the second charging program module, and is also used for receiving the payment amount information, the payee confirmation information and the payer confirmation information sent by the second charging program module and sending the payment amount information, the payee confirmation information and the payer confirmation information to the wireless network communication module of the mobile phone;

the first access controller is used for receiving subway gate opening voucher information and controlling the first gate to open; the second gate inhibition controller is used for receiving the subway gate opening voucher information and controlling the second gate to be opened;

the server is used for receiving and storing the subway first intelligent payment terminal unique identification information and the mobile phone unique identification code information which are sent by the first charging program module and are approved, sending the subway gate opening certificate information to the first charging program module after approval, receiving and storing the subway second intelligent payment terminal unique identification information and the mobile phone unique identification code information which are sent by the second charging program module and are approved, calculating the cost according to a preset charging rule after approval, and generating the subway gate opening certificate information, the payment amount information, the payee confirmation information and the payer confirmation information to be sent to the second charging program module.

Specifically, the mobile phone further comprises an input interface and an output interface, and when the wireless network communication module is not successfully paired with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway, the user returns to the input interface and the output interface to manually pair with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway.

Specifically, the wireless network communication module, the first communication program module and the second communication program module of the mobile phone are all bluetooth, ZigBee or WLAN.

In the subway payment system of the invention, the mobile phone does not need to be connected with the server through a wireless internet, the first intelligent payment terminal and the second intelligent payment terminal of the subway are media of the mobile phone and the server, the mobile phone only needs to send the unique identification code information of the mobile phone to the first intelligent payment terminal and the second intelligent payment terminal of the subway through Bluetooth, ZigBee or WLAN, the first intelligent payment terminal of the subway is connected with the server through the wireless internet, the server approves to generate the opening certificate information of the subway gate and sends the opening certificate information to the first gate inhibition controller to control the opening of the first gate, the second intelligent payment terminal of the subway is connected with the server through the wireless internet, the server approves to generate the opening certificate information of the subway gate and sends the opening certificate information to the second gate inhibition controller to control the opening of the second gate, the fare deduction information is generated after approval and sent to the second, and returning the fee deduction information to the mobile phone to complete the whole payment process.

Fig. 2 is an inbound payment process of the present invention, and fig. 3 is an outbound payment process of the present invention. In the payment method of the invention, the light emitting program modules of the first intelligent payment terminal and the second intelligent payment terminal of the subway always emit light with the light intensity larger than or equal to the first value set by people in the specific wavelength range set by people, a user holds a mobile phone to detect the light intensity information, and the payment APP in the mobile phone judges and starts the distance sensing module, and then judging to start the wireless network communication module, completing the transmission of the unique identification code information of the mobile phone, receiving and sending the first intelligent payment terminal of the subway to the server to generate the subway gate opening certificate information so as to open the first gate, receiving and sending the second intelligent payment terminal of the subway to the server to approve and calculate the bus fee so as to generate the subway gate opening certificate information and the fee deduction confirmation information, and respectively returning the subway gate opening certificate information and the fee deduction confirmation information to the second intelligent payment terminal of the subway so as to open the second gate, and finally returning the second gate to the mobile phone payment APP for display. The specific implementation comprises the following steps:

step 1: a user downloads and installs a payment APP into the mobile phone from a third-party payment mechanism to finish operations such as registration authorization and the like; a user opens a payment APP of a mobile phone in advance;

step 2: the payment APP sends an optical sensing module starting instruction to the optical sensing module;

and step 3: calling the unique identification code of the mobile phone by the payment APP; step 3 may be run at any step prior to step 9; specifically, the unique identification code of the mobile phone may be at least one of IMSI, IMEI, MEID, MAC address of bluetooth, MAC address of WIFI, or bank card number;

and 4, step 4: the optical sensing module is started, detects the intensity of light and sends the detected light intensity numerical value information to the payment APP;

and 5: when a user enters a station, the optical sensing module faces to a first intelligent payment terminal of a subway:

step 6: a payment APP of the mobile phone receives light intensity numerical value information sent by a light sensing module and calculates to obtain a specific wavelength light intensity numerical value in an artificially set wavelength range, judges whether the specific wavelength light intensity numerical value is larger than or equal to an artificially set first numerical value or not, and sends a distance sensing module starting instruction to the distance sensing module when the judgment result is true;

and 7: the distance sensing module is started, detects the distance between the mobile phone and the first intelligent payment terminal of the subway and sends the detected distance value information to the payment APP;

and 8: the payment APP of the mobile phone receives the distance value information sent by the distance sensing module and judges whether the distance value information is smaller than or equal to a second value set manually, and when the judgment result is true, a wireless network communication module pairing and connecting instruction is sent to the wireless network communication module;

and step 9: the wireless network communication module is started, is matched with a communication program module of a first intelligent payment terminal of the subway and establishes wireless communication connection;

step 10: the payment APP sends the called mobile phone unique identification code information to the wireless network communication module;

step 11: the wireless network communication module receives the unique identification code information of the mobile phone and sends the unique identification code information to the first communication program module;

step 12: the first communication program module receives the unique identification code information of the mobile phone and sends the unique identification code information to the first charging program module:

step 13: the first charging program module receives the unique identification code information of the mobile phone and sends the unique identification code information of the first intelligent payment terminal of the subway to the server through the wireless internet;

step 14: the method comprises the steps that a server receives and stores subway first intelligent payment terminal unique identification information and mobile phone unique identification code information which are sent by a first communication program module, the server authenticates the identity of a payer through the mobile phone unique identification code information and inquires whether the mobile phone unique identification code information is received before, if the mobile phone unique identification code information is not received, the position of a first subway payment terminal is inquired through the subway first intelligent payment terminal unique identification information and recorded as a first position, and after approval, subway gate opening certificate information is generated and sent to a first charging program module through a wireless internet;

step 15: the first charging program module receives the subway gate opening voucher information and sends the subway gate opening voucher information to the first access controller;

step 16: the first access controller receives subway gate opening voucher information and controls the first gate to open;

and step 17: a user enters a station; when a user leaves the station, the optical sensing module faces to a second intelligent payment terminal of the subway;

step 18: a payment APP of the mobile phone receives light intensity numerical value information sent by a light sensing module and calculates to obtain a specific wavelength light intensity numerical value in an artificially set wavelength range, judges whether the specific wavelength light intensity numerical value is larger than or equal to an artificially set first numerical value or not, and starts sending a distance sensing module starting instruction to the distance sensing module when the judgment result is true;

step 19: the distance sensing module is started, detects the distance between the mobile phone and the second intelligent payment terminal of the subway and sends the detected distance value information to the payment APP;

step 20: the payment APP of the mobile phone receives the distance value information sent by the distance sensing module and judges whether the distance value information is smaller than or equal to a second value set manually, and when the judgment result is true, a wireless network communication module pairing and connecting instruction is sent to the wireless network communication module;

step 21: the wireless network communication module is started, is matched with a communication program module of a second intelligent payment terminal of the subway and establishes wireless communication connection;

step 22: the payment APP sends the called mobile phone unique identification code information to the wireless network communication module;

step 23: the wireless network communication module receives the unique identification code information of the mobile phone and sends the unique identification code information to the second communication program module;

step 24: the second communication program module receives the unique identification code information of the mobile phone and sends the unique identification code information to the second charging program module:

step 25: the second charging program module receives the unique identification code information of the mobile phone and sends the unique identification code information of the second intelligent payment terminal of the subway to the server through the wireless internet;

step 26: the server receives and stores the unique identification information of the subway second intelligent payment terminal and the unique identification code information of the mobile phone sent by the second communication program module, authenticates the identity of the payer through the unique identification code information of the mobile phone and inquires whether the unique identification code information of the mobile phone is received before, if so, inquires the position of the subway second intelligent payment terminal through the unique identification information of the subway second intelligent payment terminal and records the position as a second position, after approval, the bus cost required from the first position to the second position is calculated according to a preset charging rule and the recorded first position and second position, the amount of the payee is increased and reduced according to the calculation result, and the subway gate opening certificate information, the payment amount information, the payee confirmation information and the payer confirmation information are sent to the second charging program module;

step 27: the second charging program module receives subway gate opening certificate information, payment amount information, payee confirmation information and payer confirmation information, and sends the subway gate opening certificate information to the second gate inhibition controller; sending the received payment amount information, the payee confirmation information and the payer confirmation information to a communication program module of a second intelligent payment terminal of the subway;

step 28: the second gate inhibition controller receives the subway gate opening voucher information and controls the second gate to be opened;

step 29: the second communication program module receives the payee confirmation information, the payer confirmation information and the received payment amount confirmation information and sends the received payment amount confirmation information to the wireless network communication module of the mobile phone:

step 30: the wireless network communication module sends the information to a payment APP;

step 31: and the payment APP displays the information on the mobile phone interface.

Further, step 9 is followed by step 9.1: during the first pairing, returning to the system interface of the mobile phone for pairing with a communication program module of the subway payment terminal; and step 21.1 is also included after the step 21, and when the system interface is paired for the first time, the system interface returned to the mobile phone is paired with the communication program module of the subway payment terminal.

The invention provides a new subway payment system and a payment method using a mobile terminal for payment, wherein a distance sensing module is started after a signal is received by an optical sensing module of the mobile terminal and judged by a payment program module, a wireless network communication module is started after the signal is detected by the distance sensing module and judged by the payment program module, when a user enters a station, unique identification code information of the mobile terminal is sent to a first intelligent payment terminal of the subway through the wireless network communication module, the first intelligent payment terminal of the subway receives the unique identification code information and sends the unique identification code information to a server, the unique identification code information is approved by the server and generates opening voucher information of a subway gate, the opening voucher information of the subway gate is sent to a first gate inhibition controller through the intelligent payment terminal to control the opening of the first gate, and the user can enter the; when a user is out of the station, the unique identification code information of the mobile terminal is sent to a second intelligent subway payment terminal through the wireless network communication module, the second intelligent subway payment terminal receives the unique identification code information and sends the unique identification code information to a server, the second intelligent subway payment terminal approves the information and calculates the bus taking cost and generates the subway gate opening certificate information and the fee deduction confirmation information, the subway gate opening certificate information is sent to a second gate controller through the second intelligent subway payment terminal to control the second gate to be opened, and the fee deduction confirmation information is sent to the wireless network communication module through the second intelligent subway payment terminal and is displayed when the fee deduction confirmation information is transmitted to the payment program module. The whole payment process is buckled, direct interaction does not exist between the mobile terminal and the server, data interaction is only realized between the mobile terminal and the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway, the leakage of the unique identification code information of the mobile terminal is avoided, the safety of the payment process is guaranteed, and the mobile terminal does not need to have an NFC function, and a user does not need to carry an IC card, so that the payment method is more convenient. According to the invention, the payment program module is only required to be opened in advance, the user only needs to return to a system interface to realize the pairing of the wireless network communication module of the mobile terminal and the intelligent payment terminal during the first payment, and then the payment can be completed only by approaching the mobile terminal to the first intelligent payment terminal and the second intelligent payment terminal of the subway without user interference during the whole payment process, so that the payment efficiency is high, the safety is high, and the automatic payment experience is provided.

The above description describes preferred embodiments of the invention, but it should be understood that the invention is not limited to the above embodiments, and should not be viewed as excluding other embodiments. Modifications made by those skilled in the art in light of the teachings of this disclosure, which are well known or are within the skill and knowledge of the art, are also to be considered as within the scope of this invention.

Claims (6)

1. A subway payment system using a mobile terminal for payment is characterized by comprising: the system comprises a mobile terminal, a subway first intelligent payment terminal, a subway second intelligent payment terminal, a first access controller, a second access controller, a first gate, a second gate, a server, a wireless interconnection network and a second access controller, wherein the wireless interconnection network is used for transmitting information among the subway first intelligent payment terminal, the subway second intelligent payment terminal and the server and among the subway first intelligent payment terminal, the subway second intelligent payment terminal and the subway second access controller;

the mobile terminal comprises a light sensing module, a payment program module, a wireless network communication module and a distance sensing module;

the optical sensing module is used for measuring the intensity of an optical signal after receiving an optical sensing module starting instruction of the payment program module and sending the detected light intensity numerical value information to the payment program module;

the payment program module is used for sending a starting instruction of the optical sensing module to the optical sensing module, receiving light intensity numerical value information sent by the optical sensing module, calculating a specific wavelength light intensity numerical value in an artificially set wavelength range from the received light intensity numerical value information, comparing the specific wavelength light intensity numerical value with an artificially set first numerical value, sending a distance sensing module starting instruction to the distance sensing module when the specific wavelength light intensity numerical value is larger than or equal to the artificially set first numerical value as a comparison result, receiving distance numerical value information sent by the distance sensing module, comparing the distance numerical value information with an artificially set second numerical value, and sending a pairing and connecting instruction of the wireless network communication module to the wireless network communication module when the distance numerical value information is smaller than or equal to the artificially set second numerical value as the comparison result, the system is also used for calling the unique identification code information of the mobile terminal, sending the unique identification code information of the mobile terminal to the wireless network communication module after the wireless network communication module establishes pairing and connection relation with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway, and receiving payee confirmation information, payer confirmation information and payment amount information sent by the wireless network communication module;

the wireless network communication module is used for receiving pairing and connection instructions of the payment program module, pairing and wireless communication connection with a subway first intelligent payment terminal and a subway second intelligent payment terminal, receiving unique identification code information of the mobile terminal sent by the payment program module and sending the unique identification code information to the subway first intelligent payment terminal and the subway second intelligent payment terminal, and receiving payee confirmation information, payer confirmation information and payment amount information sent by the subway second intelligent payment terminal and sending the payment program module;

the distance sensing module is used for measuring the distance between the mobile terminal and the subway intelligent payment terminal after receiving a distance sensing module starting instruction sent by the payment program module and sending the detected distance value information to the payment program module;

the first intelligent payment terminal of the subway comprises a first light emitting program module, a first charging program module and a first communication program module; the second intelligent payment terminal of the subway comprises a second light emitting program module, a second charging program module and a second communication program module;

the first light emitting program module and the second light emitting program module are used for emitting light with light intensity larger than or equal to a first value set manually in a specific wavelength range set manually;

the first charging program module is used for receiving the unique identification code information of the mobile terminal sent by the first communication program module, sending the unique identification code information of the mobile terminal and the unique identification information of the first intelligent payment terminal of the subway to the server through the wireless internet, receiving the evidence opening information of the subway gate sent by the server and sending the evidence opening information of the subway gate to the first access controller; the second charging program module is used for receiving the unique identification code information of the mobile terminal sent by the second communication program module, sending the unique identification code information of the mobile terminal and the unique identification information of the second intelligent payment terminal of the subway to the server through the wireless internet, receiving the information of the subway gate opening certificate sent by the server, sending the information to the second gate inhibition controller, receiving the information of the payment amount received by the server, the confirmation information of the payee and the confirmation information of the payer, and sending the information to the second communication program module;

the first communication program module is used for establishing communication connection with a wireless network communication module of the mobile terminal, receiving the unique identification code information of the mobile terminal sent by the wireless network communication module and sending the unique identification code information to the first charging program module; the second communication program module is used for establishing communication connection with the wireless network communication module of the mobile terminal, receiving the unique identification code information of the mobile terminal sent by the wireless network communication module and sending the unique identification code information to the second charging program module, and is also used for receiving the payment amount information, the payee confirmation information and the payer confirmation information sent by the second charging program module and sending the payment amount information, the payee confirmation information and the payer confirmation information to the wireless network communication module of the mobile terminal;

the first access controller is used for receiving subway gate opening voucher information and controlling the first gate to open; the second gate inhibition controller is used for receiving the subway gate opening voucher information and controlling the second gate to be opened;

the server is used for receiving and storing the subway first intelligent payment terminal unique identification information and the mobile terminal unique identification code information which are sent by the first charging program module and are approved, sending the subway gate opening certificate information to the first charging program module after approval, receiving and storing the subway second intelligent payment terminal unique identification information and the mobile terminal unique identification code information which are sent by the second charging program module and are approved, calculating the cost according to a preset charging rule after approval, and generating the subway gate opening certificate information, the payment amount receiving information, the payee confirmation information and the payer confirmation information to be sent to the second charging program module.

2. The subway payment system using mobile terminal payment as claimed in claim 1, wherein: the mobile terminal further comprises an input interface and an output interface, and when the wireless network communication module is not successfully matched with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway, a user returns the input interface and the output interface to be manually matched with the first intelligent payment terminal of the subway and the second intelligent payment terminal of the subway.

3. The subway payment system using mobile terminal payment as claimed in claim 1, wherein: and the payment program module of the mobile terminal is used for paying the APP for the mobile terminal.

4. The subway payment system using mobile terminal payment as claimed in claim 1, wherein: the wireless network communication module, the first communication program module and the second communication program module of the mobile terminal are all Bluetooth, ZigBee or WLAN.

5. A payment method of a subway payment system using mobile terminal payment according to any one of claims 1 to 4, comprising: the first light emitting program module and the second light emitting program module always emit light with light intensity larger than or equal to a first value set manually in a specific wavelength range set manually, and the method further comprises the following steps:

step 1: a user opens a payment program module of the mobile terminal in advance;

step 2: the payment program module sends a starting instruction of the optical sensing module to the optical sensing module;

and step 3: the payment program module calls the unique identification code of the mobile terminal; step 3 may be run at any step prior to step 9;

and 4, step 4: the optical sensing module is started to detect the intensity of light and send the detected light intensity numerical value information to the payment program module;

and 5: when a user enters a station, the optical sensing module faces to a first intelligent payment terminal of a subway:

step 6: a payment program module of the mobile terminal receives light intensity numerical value information sent by a light sensing module, calculates a specific wavelength light intensity numerical value in an artificially set wavelength range, judges whether the specific wavelength light intensity numerical value is larger than or equal to an artificially set first numerical value or not, and sends a distance sensing module starting instruction to the distance sensing module when the judgment result is true;

and 7: the distance sensing module is started, detects the distance between the mobile terminal and the first intelligent payment terminal of the subway and sends the detected distance value information to the payment program module;

and 8: a payment program module of the mobile terminal receives distance value information sent by the distance sensing module and judges whether the distance value information is smaller than or equal to a second value set manually, and when the judgment result is true, a wireless network communication module pairing and connecting instruction is sent to the wireless network communication module;

and step 9: the wireless network communication module is started, is matched with a communication program module of a first intelligent payment terminal of the subway and establishes wireless communication connection;

step 10: the payment program module sends the called unique identification code information of the mobile terminal to the wireless network communication module;

step 11: the wireless network communication module receives the unique identification code information of the mobile terminal and sends the unique identification code information to the first communication program module;

step 12: the first communication program module receives the unique identification code information of the mobile terminal and sends the unique identification code information to the first charging program module:

step 13: the first charging program module receives the unique identification code information of the mobile terminal and sends the unique identification code information of the first intelligent payment terminal of the subway to the server through the wireless internet;

step 14: the method comprises the steps that a server receives and stores subway first intelligent payment terminal unique identification information and mobile terminal unique identification code information which are sent by a first communication program module, the server authenticates the identity of a payer through the mobile terminal unique identification code information and inquires whether the mobile terminal unique identification code information is received before, if the mobile terminal unique identification code information is not received, the position of a first subway payment terminal is inquired through the subway first intelligent payment terminal unique identification information and recorded as a first position, and after approval, subway gate opening certificate information is generated and sent to a first charging program module through a wireless internet;

step 15: the first charging program module receives the subway gate opening voucher information and sends the subway gate opening voucher information to the first access controller;

step 16: the first access controller receives subway gate opening voucher information and controls the first gate to open;

and step 17: a user enters a station; when a user leaves the station, the optical sensing module faces to a second intelligent payment terminal of the subway;

step 18: a payment program module of the mobile terminal receives light intensity numerical value information sent by a light sensing module, calculates a specific wavelength light intensity numerical value in an artificially set wavelength range, judges whether the specific wavelength light intensity numerical value is larger than or equal to an artificially set first numerical value or not, and starts sending a distance sensing module starting instruction to the distance sensing module when the judgment result is true;

step 19: the distance sensing module is started, detects the distance between the mobile terminal and the second intelligent payment terminal of the subway and sends the detected distance value information to the payment program module;

step 20: a payment program module of the mobile terminal receives distance value information sent by the distance sensing module and judges whether the distance value information is smaller than or equal to a second value set manually, and when the judgment result is true, a wireless network communication module pairing and connecting instruction is sent to the wireless network communication module;

step 21: the wireless network communication module is started, is matched with a communication program module of a second intelligent payment terminal of the subway and establishes wireless communication connection;

step 22: the payment program module sends the called unique identification code information of the mobile terminal to the wireless network communication module;

step 23: the wireless network communication module receives the unique identification code information of the mobile terminal and sends the unique identification code information to the second communication program module;

step 24: the second communication program module receives the unique identification code information of the mobile terminal and sends the unique identification code information to the second charging program module:

step 25: the second charging program module receives the unique identification code information of the mobile terminal and sends the unique identification code information of the second intelligent payment terminal of the subway to the server through the wireless internet;

step 26: the server receives and stores the unique identification information of the second intelligent subway payment terminal and the unique identification code information of the mobile terminal, which are sent by the second communication program module, authenticates the identity of a payer through the unique identification code information of the mobile terminal, inquires whether the unique identification code information of the mobile terminal is received before, inquires the position of the second intelligent subway payment terminal through the unique identification information of the second intelligent subway payment terminal and records the position as a second position if the unique identification code information of the mobile terminal is received, calculates the bus taking cost required from the first position to the second position according to a preset charging rule and the recorded first position and second position after approval, according to the calculation result, the amount of the payee is increased, the amount of the payer is reduced, and subway gate opening voucher information, payment amount receiving information, payee confirmation information and payer confirmation information are generated and sent to the second charging program module;

step 27: the second charging program module receives subway gate opening certificate information, payment amount information, payee confirmation information and payer confirmation information, and sends the subway gate opening certificate information to the second gate inhibition controller; sending the received payment amount information, the payee confirmation information and the payer confirmation information to a communication program module of a second intelligent payment terminal of the subway;

step 28: the second gate inhibition controller receives the subway gate opening voucher information and controls the second gate to be opened;

step 29: the second communication program module receives the payee confirmation information, the payer confirmation information and the received payment amount confirmation information and sends the received payment amount confirmation information to the wireless network communication module of the mobile terminal:

step 30: the wireless network communication module sends the payee confirmation information, the payer confirmation information and the received and paid amount confirmation information to the payment program module;

step 31: and the payment program module displays the payee confirmation information, the payer confirmation information and the received and paid amount confirmation information on the mobile terminal interface.

6. A payment method as defined in claim 5, wherein: step 9 is followed by step 9.1: during the first pairing, returning to the system interface of the mobile terminal to pair with a communication program module of the subway payment terminal; and step 21.1 is also included after the step 21, and when the system interface is paired for the first time, the system interface returned to the mobile terminal is paired with the communication program module of the subway payment terminal.

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