CN108038962B - All-purpose card-based remote electricity selling system adopting ARM9 processor and working method - Google Patents

All-purpose card-based remote electricity selling system adopting ARM9 processor and working method Download PDF

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Publication number
CN108038962B
CN108038962B CN201711396188.6A CN201711396188A CN108038962B CN 108038962 B CN108038962 B CN 108038962B CN 201711396188 A CN201711396188 A CN 201711396188A CN 108038962 B CN108038962 B CN 108038962B
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card
unit
user
transaction
card transaction
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CN108038962A (en
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不公告发明人
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SHENZHEN SANWAY ELECTRONICAL TECHNOLOGY Co.,Ltd.
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Shenzhen Sanway Electronical Technology Co ltd
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Priority to CN201510551027.4A priority patent/CN105184983B/en
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Abstract

In order to solve the problem that the safety and reliability of the one-card remote electricity selling are affected because the one-card does not adopt real-name registration, the invention provides a remote electricity selling system based on the one-card by adopting an ARM9 processor, which comprises: the system comprises an all-purpose card reading unit, a man-machine interaction unit, an all-purpose card transaction position verification unit and an all-purpose card writing unit, wherein the man-machine interaction unit comprises an all-purpose card transaction network point electronic map unit and a bus information interaction unit which are connected with each other. The invention avoids the possibility that the user steals the one-card unauthorized by the owner to carry out the electric power transaction, thereby enhancing the safety and reliability when the user purchases the electric power by using the one-card.

Description

All-purpose card-based remote electricity selling system adopting ARM9 processor and working method
Technical Field
The invention belongs to the technical field of remote communication, and particularly relates to a remote electricity selling system based on a one-card and adopting an ARM9 processor and a working method.
Background
The conventional electricity selling system utilizes a contact type IC card or a keyboard type prepayment electric energy meter. The contact type IC card meter has the defect that a user can easily contact with a metering unit of the meter. The user must touch the meter to purchase electricity, thus forming electricity stealing holes or the meter is damaged artificially. The electricity purchasing method based on the conventional electricity selling system generally comprises self-electricity purchasing and IC card electricity purchasing: the self-electricity-purchasing requires a user to personally go to an electricity-selling place of a power supply department to purchase electricity, and is limited by the working time and the region of the electricity-selling department; the IC card type power purchase has the defects that user information is easy to leak, a card is easy to lose and the like, and is limited by time and regions. On the other hand, consumption based on one-card communications (e.g., a municipal all-purpose card for buses) is becoming increasingly common, for example, in some drugstores and supermarkets, where users can complete transactions without entering passwords in a manner similar to the use of bank cards. This greatly reduces the inconvenience of the user when using multiple cards with separate functions. However, since the conventional one-card cannot realize real-name registration and sale in a short period of time, the one-card cannot be used as it is instead of an IC card.
Disclosure of Invention
The invention aims to solve the problem that the safety and reliability of a one-card are influenced when remote electricity selling is carried out without adopting real-name registration, and the safety and reliability problems are caused by the situation that the one-card of other people is stolen or the one-card which is not used by the people is used for carrying out electricity transaction and the like.
Therefore, the invention provides a remote electricity selling system based on a one-card, which comprises: the system comprises an all-purpose card reading unit, a man-machine interaction unit, an all-purpose card transaction position verification unit and an all-purpose card writing unit, wherein the man-machine interaction unit comprises an all-purpose card transaction network electronic map unit and a public transportation information interaction unit and is connected with the all-purpose card transaction network electronic map unit and the public transportation information interaction unit, and the system is characterized in that:
the all-purpose card reading unit reads the number of the all-purpose card;
the one-card transaction website electronic map unit is used for determining the geographic position of the one-card historical transaction occurrence associated with the number based on the geographic position of the one-card transaction website in the preset area and the electronic map of the preset area;
the bus information interaction unit is used for receiving the line information of a bus line which is taken and paid by using the one-card specified by the user;
the system comprises a man-machine interaction unit, a power purchase request and a one-card transaction place, wherein the man-machine interaction unit is used for receiving the power purchase request appointed by a user and the one-card transaction place input by the user, displaying an electronic map stored in an electronic map unit of the one-card transaction network point to the user and receiving map data appointed by the user;
the one-card transaction position verification unit automatically verifies the one-card transaction position input by the user and received by the one-card transaction network point electronic map unit and the public transportation information interaction unit according to the number of the one-card transaction;
and the one-card writing unit modifies the one-card information according to the verification result of the one-card transaction record verification unit and the power purchase request specified by the user.
Further, the bus information interaction unit comprises: the bus information input unit and the bus information storage unit.
Furthermore, the bus information input unit adopts a touch screen.
Furthermore, the bus information input unit adopts a keyboard.
Further, the human-computer interaction unit comprises a touch screen.
Further, the one-card transaction position verification unit comprises a communication unit which verifies whether the one-card transaction position and the line information of the bus line input by the user are correct or not by inquiring the database of the one-card server.
Further, the remote electricity selling system based on the all-in-one card further comprises a printing unit, and the printing unit prints electricity selling information according to the modification result of the all-in-one card writing unit.
Furthermore, the public transportation information input unit and the human-computer interaction unit share the same touch screen.
Further, the geographic location where the historical transaction of the one-card associated with the number occurs includes the geographic location where the most recent transactions of the one-card associated with the number occurred.
According to the technical scheme, the invention has the beneficial effects that: the possibility that the user steals the one-card unauthorized by the owner to carry out the electric power transaction is avoided, so that the safety and the reliability of the user when using the one-card to purchase the electricity are enhanced.
Drawings
Fig. 1 is a block diagram illustrating a remote electricity selling system based on a smart card according to a preferred embodiment of the present invention;
fig. 2 shows a circuit diagram of a one-card write unit.
Detailed Description
Preferred embodiments of the present invention will be described in detail below with reference to the accompanying fig. 1-2.
As shown in fig. 1, the all-purpose card based remote electricity selling system 100 may be integrated into an ATM style, or may be configured as a separately configured electronic system. The remote electricity selling system 100 based on the all-purpose card comprises: the system comprises a one-card reading unit 10, a man-machine interaction unit 40, a one-card transaction position verification unit 50 and a one-card writing unit 60.
The man-machine interaction unit 40 is used for receiving a power purchase request appointed by a user and a one-card transaction place input by the user, displaying an electronic map stored in the one-card transaction site electronic map unit 20 to the user and receiving map data appointed by the user, the man-machine interaction unit 40 comprises the one-card transaction site electronic map unit 20 and a bus information interaction unit 30 and is connected with the one-card transaction site electronic map unit 20 and the bus information interaction unit 30, the one-card reading unit 10 is connected with the man-machine interaction unit 40, the one-card transaction site electronic map unit 20 and the bus information interaction unit 30 are both connected with the one-card transaction position verification unit 50, and the one-card transaction position verification unit 50 is connected with the one-card writing unit 60.
In the remote electricity selling system 100 based on the one-card, the one-card reading unit 10 reads the number of the one-card; the all-purpose card reading unit 10 transmits radio electromagnetic waves with preset frequency to the all-purpose card, when the all-purpose card approaches the all-purpose card reading unit, the all-purpose card is excited by the electromagnetic waves transmitted by the all-purpose card reading unit, an IC resonance circuit in the all-purpose card generates resonance and receives electromagnetic wave energy, and when the all-purpose card receives enough energy, data stored in the card is transmitted to the all-purpose card reading unit in a radio wave mode. The one-card reading unit then transmits the data to the one-card transaction website electronic map unit 20.
The one-card transaction website electronic map unit 20 comprises a memory, a touch screen and a peripheral circuit, wherein the peripheral circuit is used for driving the memory and the touch screen, and the memory stores an electronic map of a preset area, a geographical position of the one-card transaction website in the preset area and the electronic map of the preset area. All the transaction network points with the opened one-card transaction function are identified on the electronic map, including but not limited to: recharging points, drug stores, supermarkets, shopping malls, entertainment places, catering places and the like. The user can select a point on the electronic map which identifies the geographical location where the historical transaction of the one-card occurs, and determine the geographical location where the historical transaction of the one-card associated with the number occurs. For example, the user may sequentially select points corresponding to the one-card rechargeable points of the Wangfu well department store, the Wangfu well jinxiang big pharmacy and the subway one-number-line Wangfu well station on the map according to the geographical position where the one-card exchange which has recently occurred is located.
The bus information interaction unit 30 is used for receiving bus route information designated by a user, and comprises a bus information input unit 301, a bus information storage unit 302 and a peripheral circuit (not shown). The bus information storage unit 302 stores a bus route list in a preset area, and the peripheral circuit is used for driving the bus information input unit 301 and the bus information storage unit 302. After the user selects the geographical position of the historical transaction occurrence of the one-card associated with the serial number on the one-card transaction site electronic map unit 20, the user continues to input the bus route information which is recently taken and paid by the one-card transaction site through the touch screen (the touch screen can share the same touch screen with the touch screen of the one-card transaction site electronic map unit 20). According to the preferred embodiment of the invention, line numbers of all public transportation lines, such as 300, 8, 101, 88, 740 and the like are displayed on the touch screen, and the user selects three public transportation lines, such as 8, 88, 740, which are recently taken and paid by one card, in turn through the touch screen. According to an embodiment of the present invention, the bus information input unit 301 is a touch screen. According to another embodiment of the present invention, the bus information input unit 301 employs a keyboard. According to another embodiment of the present invention, the bus information input unit 301 and the human-computer interaction unit 40 share the same touch screen.
The one-card transaction position verification unit 50 automatically verifies the geographical position of the historical transaction occurrence of the one-card selected by the user and associated with the number received by the one-card transaction point electronic map unit 20 and the one-card transaction position (i.e. the line number of the bus line which is taken and paid by the one-card specified by the user) input by the user received by the bus information interaction unit 30 according to the number of the one-card. Specifically, the one-card transaction position verification unit 50 includes a communication unit 70, and the communication unit 70 verifies whether the one-card transaction position and the line information of the bus line input by the user are correct by querying a database of a one-card server of a municipality department. And if the number of the input data is incorrect, a prompt is given to the user through the man-machine interaction unit 40, and the user is prompted to re-input the data through the one-card transaction site electronic map unit 20 and the bus information interaction unit 30 within a preset allowable repetition number. When the preset (for example, 2) allowable repetition times are exceeded, the user is prompted to be unable to purchase the electricity by using the remote electricity selling system, for example, in a touch screen mode.
If the user verifies that the transaction position of the one-card and the line information of the bus line input by the user are correct, the one-card writing unit 60 modifies the one-card information according to the power purchase request specified by the user. As shown in fig. 2, the one-card writing unit 60 includes an ARM9 processor, a man-machine interaction module, a radio frequency module, a buzzer management module, a clock and power management module, an antenna, and a fingerprint identification device. The ARM9 processor controls the radio frequency processing module to complete reading and writing of the radio frequency card, and is responsible for data communication with a computer through a communication interface and monitoring of the whole one-card writing unit 60 of the human-computer interaction modules such as a keyboard and a display device. The special chip FMl702N for the non-contact card reader is connected with an ARM9 processor in a parallel communication mode, and under the control of the ARM9 processor, the reader communicates with the radio frequency card through a radio frequency processing module and an antenna. The one-card write-in unit 60 records the time for acquiring data by adopting a low-power consumption real-time clock/calendar chip; a PC or USB device (optional, not shown) is connected to the ARM9 processor through a serial input, a serial output and an interrupt handler, which supports various conventional USB full-speed devices that communicate with USB devices according to the corresponding USB protocols. The fingerprint recognition circuit is to prevent the all-purpose card writing unit 60 from being rewritten by a non-administrator or an operator, and various fingerprint recognition modules in the prior art can be used. The reader-writer is a medium for communication between the radio frequency one-card-through card and other equipment, and an antenna of the reader-writer and a coil of the one-card-through card generate resonance to transmit data so as to complete communication between the read-write module and the card. The FMl702N chip used in the one-card write unit 60 supports a 13.56MHz radio frequency communication protocol, is a core module and a key interface chip which realize wireless communication with a radio frequency one-card, can modulate data in a transmission buffer area by setting a corresponding register to generate a transmission signal, and transmits the transmission signal in the form of electromagnetic waves through an antenna driven by TXI and TX2 pins (not shown), and the one-card responds by adopting load modulation of an RF field. Response signals of the card are acquired by the antenna and sent back to an RX pin through an antenna matching circuit, an FMl702N chip internal receiving buffer detects and demodulates the signals and processes the signals according to the setting of a register (not shown), and then data are sent to a parallel interface and read by an ARM9 processor.
According to other embodiments of the present invention, the remote electricity selling system 100 based on the one-card further comprises a printing unit 80 for printing electricity selling information according to the modified result of the one-card writing unit 60.
The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the technical solutions of the present invention, so long as the technical solutions can be realized on the basis of the above embodiments without creative efforts, which should be considered to fall within the protection scope of the patent of the present invention.

Claims (1)

1. A remote electricity selling system based on a one-card comprises: the system comprises an all-purpose card reading unit, a man-machine interaction unit, an all-purpose card transaction position verification unit and an all-purpose card writing unit, wherein the man-machine interaction unit comprises an all-purpose card transaction network point electronic map unit and a public transportation information interaction unit and is connected with the all-purpose card transaction network point electronic map unit and the public transportation information interaction unit;
the all-purpose card reading unit reads the number of the all-purpose card; the method is characterized in that:
the one-card transaction website electronic map unit is used for determining the geographic position of the one-card historical transaction occurrence associated with the number based on the geographic position of the one-card transaction website in the preset area and the electronic map of the preset area;
the bus information interaction unit is used for receiving the line information of a bus line which is taken and paid by using the one-card specified by the user; after the user selects the geographical position of the historical transaction occurrence of the one-card associated with the number on the electronic map unit of the one-card transaction website, the user continues to input the bus route information which is recently taken and paid by the one-card through the touch screen; displaying the line number of each bus line on a touch screen, and sequentially selecting three bus lines which are recently taken and paid by one card by a user through the touch screen;
the system comprises a man-machine interaction unit, a power purchase request and a one-card transaction place, wherein the man-machine interaction unit is used for receiving the power purchase request appointed by a user and the one-card transaction place input by the user, displaying an electronic map stored in an electronic map unit of the one-card transaction network point to the user and receiving map data appointed by the user;
the one-card transaction position verification unit automatically verifies the one-card transaction position input by the user and received by the one-card transaction network point electronic map unit and the public transportation information interaction unit according to the number of the one-card transaction; the one-card transaction position verification unit comprises a communication unit, and the communication unit verifies whether the one-card transaction position and the line information of the bus line input by the user are correct or not by inquiring a database of the one-card server;
the one-card writing-in unit modifies the one-card information according to the verification result of the one-card transaction record verification unit and the power purchase request specified by the user;
the one-card writing unit comprises an ARM9 processor; the ARM9 processor controls the radio frequency processing module to complete reading and writing of the radio frequency card, and is responsible for data communication with a computer through a communication interface and monitoring of a keyboard, display equipment and a whole one-card writing unit.
CN201711396188.6A 2015-09-01 2015-09-01 All-purpose card-based remote electricity selling system adopting ARM9 processor and working method Active CN108038962B (en)

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CN201711396188.6A CN108038962B (en) 2015-09-01 2015-09-01 All-purpose card-based remote electricity selling system adopting ARM9 processor and working method
CN201510551027.4A CN105184983B (en) 2015-09-01 2015-09-01 Long-range electricity-selling system based on all-purpose card

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CN108038962B true CN108038962B (en) 2020-09-25

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CN201711396334.5A Pending CN108091039A (en) 2015-09-01 2015-09-01 The higher long-range electricity-selling system based on all-purpose card of safety and reliability
CN201711395418.7A Active CN108038961B (en) 2015-09-01 2015-09-01 Remote electricity selling system based on all-purpose card
CN201510551027.4A Active CN105184983B (en) 2015-09-01 2015-09-01 Long-range electricity-selling system based on all-purpose card
CN201711396209.4A Active CN108038963B (en) 2015-09-01 2015-09-01 Remote electricity selling system based on all-purpose card and adopting ARM9 processor
CN201711396188.6A Active CN108038962B (en) 2015-09-01 2015-09-01 All-purpose card-based remote electricity selling system adopting ARM9 processor and working method

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CN201711395418.7A Active CN108038961B (en) 2015-09-01 2015-09-01 Remote electricity selling system based on all-purpose card
CN201510551027.4A Active CN105184983B (en) 2015-09-01 2015-09-01 Long-range electricity-selling system based on all-purpose card
CN201711396209.4A Active CN108038963B (en) 2015-09-01 2015-09-01 Remote electricity selling system based on all-purpose card and adopting ARM9 processor

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CN108091039A (en) * 2015-09-01 2018-05-29 陈国栋 The higher long-range electricity-selling system based on all-purpose card of safety and reliability

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Publication number Publication date
CN108038963A (en) 2018-05-15
CN108038961B (en) 2021-07-27
CN108038961A (en) 2018-05-15
CN105184983A (en) 2015-12-23
CN108038963B (en) 2019-12-20
CN108038962A (en) 2018-05-15
CN108091039A (en) 2018-05-29
CN105184983B (en) 2018-06-29

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