JP3916070B2 - Information processing apparatus and method, and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information processing apparatus and method, and a program, and in particular, an information processing apparatus capable of more suitably and safely executing processing related to recording and display of IC card usage history information, and The present invention relates to a method and a program.
[0002]
[Prior art]
In recent years, a commercial transaction method that does not use money using a credit card, a prepaid card, or the like has become widespread. One of the methods is a commercial transaction method using an IC (Integrated Circuit) card.
[0003]
An IC card is, for example, a cash card-sized plastic card embedded with an extremely thin semiconductor integrated circuit (IC chip). It is a CPU (Central Processing Unit), ROM (Read Only Memory), or RAM (Random Access Memory). It is a card which has functions such as and can record information. The IC card can record several kilobytes of data in a built-in memory and can encrypt data, so it is resistant to forgery and is applied as a recording medium such as electronic money or a telephone card.
[0004]
IC cards are divided into "contact type" and "non-contact type" depending on the method of reading and writing data, and the contact type card acquires data via contacts (terminals) installed on the card side. . In addition, the non-contact card has a built-in antenna, and performs short-range wireless communication with the terminal using weak radio waves.
[0005]
In such an IC card, history information of recent business transactions is recorded for a predetermined number. As a method for the user to browse the history information, for example, when the IC card is brought into contact with or close to a dedicated card reader that can read information from the IC card, the history information is read from the IC card through the card reader. A method using a history information reading device that acquires and displays on a display is conceivable (for example, see Non-Patent Document 1).
[0006]
[Non-Patent Document 1]
"EdyViewer Help", [Download data (self-extracting compressed file)], September 11, 2002, Bitwallet Inc., [Search January 6, 2003], Internet, <http: //www.bitwallet .co.jp / user / download / index.html>, application data “EdyViewer”, <http://www.bitwallet.co.jp/user/download/edyvw1013.exe>, HTML data, <\ Edy Viewer \ Help \ index.htm>
[0007]
[Problems to be solved by the invention]
However, in the above-described method, for example, when the user leaves the seat while the history information is displayed on the display, the history information displayed on the display is viewed by a third party other than the user. Therefore, there is a problem that personal information may be leaked.
[0008]
Furthermore, the conventional history information reading device supports only a specific type of IC card and can read the history information, but does not discriminate other types of IC cards as IC cards. However, there are many types of IC cards, and in the case of a user who owns a plurality of types of IC cards, there is a possibility that an unauthorized IC card is brought close to the IC card reader. At that time, so that the user can accurately identify the cause of the error, the history information reader determines that the IC card that has been approached is an unauthorized IC card, and that the IC card has been It is desirable to notify the user separately from the case where they are not close to each other.
[0009]
The present invention has been made in view of such a situation, and is capable of more suitably and safely executing processing related to recording and display of usage history information of an IC card. .
[0010]
[Means for Solving the Problems]
  The information processing apparatus according to the present invention includes an IC card detection unit that detects an IC card in a communicable state, a type determination unit that determines the type of an IC card detected by the IC card detection unit, and a determination by the type determination unit Based on the result, if the IC card is a legitimate type card, it is stored in the IC cardinformationThe first acquisition means for acquiring the information, the reception means for receiving the user input, and when the display instruction for the information corresponding to the IC card is received as the user input by the reception means, the first acquisition means acquires from the database WasIncluded in information I c CardRegistered corresponding to the identification informationinformationSecond acquisition means for acquiringInformation acquired by the first acquisition means, andAcquired by the second acquisition meansCombining information, Display on the display meansNew informationAs a user input by the creation means for creating and the reception means,Information displayed on the display meansIf your registration instructions are accepted,New information created by the creation means I c Card identification informationAnd a registration means for registering in the database.
[0012]
  The information acquired by the first acquisition means, the information acquired by the second acquisition means, and the new information created by the creation means are:IC card transaction history informationincludingCan be.
[0013]
  When an instruction to display information corresponding to the IC card is received as a user input by the accepting means, the display means is controlled and created by the creating means for a predetermined predetermined time.New informationInformation display control means for displayingNew informationAnd a remaining time counting means for counting the remaining display time, and the information display control means controls the display means to determine the remaining display time counted by the remaining time counting means,New informationIt can be displayed together.
[0018]
The information display control means can display the remaining display time by an indicator or a message.
[0019]
  By control of the information display control meansNew informationSynchronize with the start of the display of the specified sound,New informationIt is possible to further include a sound reporting means for informing the start of display.
  Encrypted using a different encryption key for each type of IC card, I c Information stored on the cardAnd a decryption key supply means for supplying the decryption key for decrypting the IC card detected by the IC card detection means to the IC card for supplying the decryption key by the decryption key supply means. The type of IC card can be discriminated based on the response from.
[0020]
  The information processing method of the present invention includes an IC card detection step for detecting an IC card in a communicable state, a type determination step for determining the type of an IC card detected by the processing of the IC card detection step, and a type determination step If the IC card is a legitimate type of card based on the determination result obtained in step 1, it is stored in the IC card.informationThe first acquisition control step for controlling the acquisition of the card, the reception control step for controlling the reception of the user input, and a display instruction of information corresponding to the IC card is received as the user input controlled by the process of the reception control step. In the case where the data is acquired from the database, it is controlled by the processing of the first acquisition control step.Included in information I c CardRegistered corresponding to the identification informationinformationA second acquisition control step for controlling the acquisition ofInformation acquired by being controlled by the processing of the first acquisition control step, andAcquired by being controlled by the processing of the second acquisition control stepCombining information, Display on the display meansNew informationAs a user input controlled by the creation step and the reception control step processing,Information displayed on the display meansIf your registration instructions are accepted,New information created by the creation step process I c Card identification informationAnd a registration step of registering in the database.
[0021]
  The program of the present invention includes an IC card detection step for detecting an IC card in a communicable state, a type determination step for determining the type of the IC card detected by the processing of the IC card detection step, and processing of the type determination step If the IC card is a legitimate type card based on the determination result byinformationThe first acquisition control step for controlling the acquisition of the card, the reception control step for controlling the reception of the user input, and a display instruction of information corresponding to the IC card is received as the user input controlled by the process of the reception control step. In the case where the data is acquired from the database, it is controlled by the processing of the first acquisition control step.Included in information I c CardRegistered corresponding to the identification informationinformationA second acquisition control step for controlling the acquisition ofInformation acquired by being controlled by the processing of the first acquisition control step, andAcquired by being controlled by the processing of the second acquisition control stepCombining information, Display on the display meansNew informationAs a user input controlled by the creation step and the reception control step processing,Information displayed on the display meansIf your registration instructions are accepted,New information created by the creation step process I c Card identification informationCorresponding to the above, a registration step of registering in a database is realized in a computer.
[0022]
  In the information processing apparatus, method, and program of the present invention, an IC card in a communicable state is detected, the type of the detected IC card is determined, and based on the determination result, the IC card is a valid type Stored on the IC cardinformationIs acquired, user input is accepted, and when a display instruction for information corresponding to the IC card is accepted as user input, from the database,Included in information I c CardRegistered corresponding to the identification informationinformationIs obtained,I c Combining information obtained from the card and information obtained from the database, Display on the display meansNew informationIs created,Information displayed on the display means as user inputIf your registration instructions are accepted,The new information created I c Card identification informationIt is registered in the database correspondingly.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a configuration example of the front of a PDA as an information processing apparatus to which the present invention is applied.
[0024]
As shown in FIG. 1, the PDA 1 is divided into a display portion 11 and a main body portion 13 with a central hinge portion 12 as a boundary, and is formed to be foldable via the hinge portion 12. In other words, the display unit 11 rotates about the axis of the hinge unit 12 and can be opened and closed with respect to the main body unit 13. Further, the display unit 11 is rotatable with respect to the main body unit 13 about an axis substantially perpendicular to the axis.
[0025]
A liquid crystal display (LCD) 28 and a transparent touch panel 36 laminated on the surface of the LCD 28 are provided on almost the entire surface 11-1 of the display unit 11. That is, when the touch pen 35 is placed at an arbitrary position on the LCD 28, the coordinates are detected by the touch panel 36, and predetermined processing corresponding to the detected coordinates is performed.
[0026]
For example, assuming that an image as shown in FIG. 2 is displayed on the LCD 28, the user operates the touch pen 35 to press one of the soft buttons 41-1 to 41-12 ( When the touch pen 35 is placed on any of the soft buttons 41-1 to 41-12), application software assigned to the soft button 41 is activated.
[0027]
Further, when the user operates the touch pen 35 and presses the soft button 43, the soft keyboard 50 shown in FIG. 3 is displayed in the character input area 29. When the user operates the touch pen 35 and presses an arbitrary key on the soft keyboard, a character (or symbol or the like) corresponding to the pressed key is input. That is, the coordinates where the touch pen 35 is arranged are detected by the touch panel 36, the key corresponding to the coordinates is recognized, and the character (or symbol or the like) assigned to the recognized key is input.
[0028]
Thus, the user can input characters easily and quickly using the touch pen 35 and the character input area 29 as software. Since the touch panel 36 is stacked over the entire display surface of the LCD 28, the position of the character input area 29 with respect to the LCD 28 is not limited to the position shown in FIG. For example, when the image shown in FIG. 2 is flipped vertically and horizontally, the character input area 29 is arranged in the upper part in FIG. 1 and is displayed upside down. Even in such a case, the user can input characters as in the above-described example.
[0029]
Returning to FIG. 1, a power button 31 for turning on or off the PDA 1 is provided on the right side of the figure in the hinge portion 12, and a battery (not shown) built in the PDA 1 is adjacent to the left side of the hinge unit 12. An LED (Light Emitting Diode) 30 that turns on when charging and turns off when charging is complete, and further to the left is a rotation consisting of a CCD (Charge-Coupled Devices) or CMOS (Complementary Metal Oxide Semiconductor) sensor. A possible camera 22 is provided at the left end with a capture button 23 that is operated when the camera 22 captures a subject.
[0030]
That is, when the user captures an image of a subject, the user presses the capture button 23 once to activate application software having a camera function (a function of capturing an image of the captured subject and recording an image of the captured subject). The camera 22 is rotated so that the imaging direction of the camera 22 is directed toward the subject. At this time, as will be described later, an image captured by the camera 22 (an image of the subject) is displayed on the LCD 28, so that the user confirms the position of the camera 22 while confirming the LCD 28 and uses it as a shutter button. Press the functioning capture button 23 again. As a result, the image captured by the camera 22 when the capture button 23 is pressed is stored in the memory of the PDA 1.
[0031]
On the surface 13-1 facing the display unit 11 when the main body unit 13 is folded, a button 32 on which symbols representing application software installed in the PDA 1 are printed is provided in the upper part of the figure. When the user presses the button 32 with his / her finger, the corresponding application software is activated. That is, the button 32 is a hardware button corresponding to any of the soft buttons 41-1 to 41-12 shown in FIG.
[0032]
A scroll button 33 for scrolling the image displayed on the LCD 28 is provided at the center of the area where the button 32 on the surface 13-1 is arranged.
[0033]
Further, a keyboard 34 for inputting characters (including symbols and the like) is provided below the button 32 on the surface 13-1. That is, the keyboard 34 is a keyboard as hardware corresponding to the above-described soft keyboard 50 of FIG.
[0034]
Further, below the keyboard 34, there is a built-in reader device 37 that performs short-range wireless communication with the IC card and reads information recorded on the IC card, and the IC card close to the surface 13-1 side. Is detected and wireless communication is performed.
[0035]
A surface (side surface) 13-2 perpendicular to the surface 13-1 of the main body 13 is connected to a remote controller (hereinafter simply referred to as a remote controller) or an external headphone on the upper side in the figure. Is provided with a jog dial 25 that can be pressed and rotated slightly protruding from the surface 13-2, and below that is the immediately preceding headphone jack 24. A back button 26 for canceling the operation is provided, and further below that, a hold switch 27 is provided for prohibiting the execution of the corresponding function when another button is accidentally pressed. ing.
[0036]
A connector 67 for connecting an accessory device such as a cradle is provided at a central portion of a surface (lower end surface in the drawing) 13-4 perpendicular to the surfaces 13-1 and 13-2 of the main body portion 13. Yes.
[0037]
FIG. 4 shows a configuration example of the back surface of the PDA 1. As shown in FIG. 4, at the upper left part of the hinge 12 in the figure, there is an EEPROM (Electrically Erasable and Programmable Read Only Memory) that is a nonvolatile memory that can be electrically rewritten and erased in a small and thin plastic case. Data in the memory card 143 is read and written in the slot 64 in which the removable memory card 143 storing the flash memory element, which is a kind of), or the function expansion module 121 having the same interface as the memory card 143 is mounted. A lamp 63 that is turned on when there is an infrared ray, and an infrared port 62 for communicating with other devices by infrared rays.
[0038]
The memory card 143 writes various information (data) such as images, sounds, and music supplied through the slot 64 under the control of the controller for the flash memory device provided in the slot 64 and the memory card 143, Various kinds of stored information can be read out. Therefore, since the PDA 1 can insert such a memory card 143, data can be shared with other devices via the memory card 143.
[0039]
A reset button 65 for resetting the PDA 1 is provided on the left side of the central portion of the surface 13-3 on the opposite side of the surface 13-1 of the main body 13 and a sound is output below the reset button 65. A speaker 66 is provided.
[0040]
As described above, the connector 67 is provided in the central portion of the surface (lower end surface in the drawing) 13-4 perpendicular to the surfaces 13-1 and 13-3 of the main body portion 13 in the drawing. On the left side, a storage port 68 for storing the touch pen 35 is provided.
[0041]
FIG. 5 is a block diagram showing an example of the internal configuration of the PDA 1.
[0042]
A CPU (Central Processing Unit) 131 executes various processes according to a program stored in a ROM (Read Only Memory) 132 or a program loaded from a storage unit 139 to a RAM (Random Access Memory) 133. The RAM 133 also appropriately stores data necessary for the CPU 131 to execute various processes.
[0043]
The CPU 131, ROM 132, and RAM 133 are connected to each other via a bus 134. The bus 134 is also connected with a display control unit 136 that controls an image to be displayed on the LCD 28.
[0044]
In addition to the camera 22 and the LCD 28 described above, a VRAM 138 is connected to the display control unit 136 based on the control of the CPU 131. The display control unit 136 stores the image captured by the camera 22 in the VRAM 138, and stores the image stored in the VRAM 138 and other memory (RAM 133, storage unit 139, memory stick 143 connected to the slot 64). The image stored in is displayed on the LCD 28.
[0045]
In the bus 134, a slot in which the keyboard 34, the input buttons 137 including the various buttons 22, 32, and 33, the jog dial 25, the touch panel 36, the infrared communication port 62, the memory stick 143, or the function expansion module 121 is mounted. 64, a battery (not shown) built in the PDA 1 is charged, and a connector 67 to which a cradle 91 or the like serving as a relay device for communication with another external device 152 is connected is connected to the remote controller 101 or the headphones 153. A headphone jack 24 as an output unit, a Bluetooth module 38 that performs wireless communication with other communication devices using Bluetooth, and a reader device 37 that performs short-range wireless communication with a nearby IC card 146 are connected.
[0046]
The coordinates detected by the touch panel 36 are provided to the CPU 131 via the bus 134, and the CPU 131 acquires predetermined information corresponding to the provided coordinates.
[0047]
A storage unit 139 including a hard disk is connected to the bus 134 as necessary. A computer program read from a magnetic disk, an optical disk, a magneto-optical disk, a semiconductor memory, or the like that is appropriately attached to the external device 152 is a wireless communication or wireless LAN module via the infrared port 62, the Bluetooth module 38, or the reader device 37. (Function expansion module) Supplied to the PDA 1 as necessary by means of wireless communication via the 121 or wired communication via the cradle 91 and installed in the storage unit 139. Alternatively, a computer program read from the memory stick 143 that is appropriately mounted in the slot 64 is also installed in the storage unit 139 as necessary.
[0048]
Further, the bus 134 has an LCD open / close switch that is turned on when the display unit 11 is closed with respect to the main body 13 and is turned off when the display unit 11 is open with respect to the main body 13 144 and an LCD rotation switch 145 that is turned on when the display unit 11 is rotated by a predetermined rotation angle or more are provided.
[0049]
In other words, in this example, the CPU 131 opens or closes the main body 13 of the display unit 11 based on the on / off state of the LCD open / close switch 144 and the LCD rotation switch 145 (hereinafter referred to as LCD open / close state). And the rotation state of the camera 22 and the rotation state of the camera 22 are recognized.
[0050]
FIG. 6 is a block diagram showing a detailed configuration example of the reader device 37 of FIG.
[0051]
The IC 201 includes a CPU 211, a ROM 212, a RAM 213, an SCC (Serial Communication Controller) 214, an SPU (Signal Processing Unit) 216, and a bus 215 that interconnects these CPUs 211 to SPU 216.
[0052]
The CPU 211 expands the control program stored in the ROM 212 in the RAM 213, and, for example, based on response data transmitted from the non-contact IC card 146 and control signals supplied from the CPU 131 in FIG. Execute the process. For example, the CPU 211 generates a command to be transmitted to the non-contact IC card 146 and outputs the command to the SPU 216 via the bus 215 or performs an authentication process for data transmitted from the non-contact IC card 146. To do.
[0053]
The SCC 214 supplies the data supplied from the CPU 131 of FIG. 5 to the CPU 211 via the bus 215, or outputs the data supplied from the CPU 211 via the bus 215 to the CPU 131.
[0054]
When the response data from the contactless IC card 146 is supplied from the demodulator 204, the SPU 216 performs, for example, BPSK demodulation (Manchester code decoding) on the data and supplies the acquired data to the CPU 211. To do. In addition, when a command to be transmitted to the contactless IC card 146 is supplied via the bus 215, the SPU 216 performs BPSK (Binary Phase Shift Keying) modulation (coding to Manchester code) on the command, and acquires the acquired data. Is output to the modulation unit 202.
[0055]
The modulation unit 202 generates an ASK (Amplitude Shift Keying) modulated carrier wave having a predetermined frequency (for example, 13.56 MHz) supplied from the oscillation circuit (OSC) 203 based on data supplied from the SPU 216. The modulated wave is output from the antenna 205 as an electromagnetic wave. On the other hand, the demodulation unit 204 demodulates the modulated wave (ASK modulated wave) acquired via the antenna 205 and outputs the demodulated data to the SPU 206.
[0056]
The antenna 205 radiates a predetermined electromagnetic wave, and detects whether or not the non-contact IC card 146 is approached based on a change in load with respect to the electromagnetic wave. For example, when the non-contact IC card 146 comes close, the antenna 205 transmits and receives various data to and from the non-contact IC card 146.
[0057]
FIG. 7 is a block diagram illustrating a detailed configuration example of the non-contact IC card 146.
[0058]
The non-contact IC card 146 includes, for example, an antenna (loop antenna) 230 and a capacitor 231 shown in the figure, and an IC in which other configurations are stored in one chip, and is provided in the PDA 1 using electromagnetic induction. Various data is communicated with the reader device 37 and the like in half duplex, and is not necessarily configured as a card. The IC card is a name used for convenience of explanation, and intends a function as described above or described later. For example, a Felica chip (registered trademark) is provided as a device that provides basically the same function as the non-contact IC card 146.
[0059]
The CPU 221 expands the control program stored in the ROM 222 in the RAM 223 and controls the overall operation of the non-contact IC card 146. For example, when the electromagnetic wave radiated from the reader device 37 or the like provided in the PDA 1 is received by the antenna 230, the CPU 221 includes an IC including a card identification number set in the non-contact IC card 146 accordingly. The card information is notified to the reader device 37, or the history information of the commercial transaction is supplied to the reader device 37 in response to a request from the reader device 37.
[0060]
The LC circuit constituted by the antenna 230 and the capacitor 231 resonates with an electromagnetic wave having a predetermined frequency radiated from the reader device 37 or the like provided in the PDA 1 disposed in the vicinity. In the ASK demodulator 243, the interface unit 229 demodulates the modulated wave (ASK modulated wave) received via the antenna 230 by detecting the envelope and demodulates the demodulated data to the BPSK (Binary Phase Shift Keying) demodulator 232. Output.
[0061]
The interface unit 229 rectifies the AC magnetic field excited in the antenna 230 by the ASK demodulator 243, stabilizes it in the voltage regulator 241, and supplies each unit as a DC power source. The power of electromagnetic waves radiated from the reader device 37 or the like is adjusted so as to generate a magnetic field that covers the power necessary for the non-contact IC card 146 as will be described later.
[0062]
The oscillation circuit 244 of the interface unit 229 includes a PLL (Phase Locked Loop) circuit, and generates a clock signal having the same frequency as the clock frequency of the received signal.
[0063]
Further, when the interface unit 229 transmits a request for balance information or the like to the reader device 37 or the like provided in the PDA 1, for example, in response to the data supplied from the BPSK modulation unit 228, for example, a predetermined switching element ( The load of the antenna 230 is changed by connecting a predetermined load in parallel to the antenna 230 only when the switching element is turned on and off.
[0064]
The ASK modulation unit 242 performs ASK modulation on the BPSK modulated wave supplied from the BPSK modulation unit 228 according to the load variation of the antenna 230, and transmits the modulation component to the reader device 37 via the antenna 230 (reader device 37). (Variable terminal voltage of the antenna) (load switching method).
[0065]
When the data demodulated by the ASK demodulator 243 is BPSK modulated, the BPSK demodulator 232 demodulates the data (decodes Manchester code) based on a clock signal supplied from a PLL circuit (not shown). The demodulated data is output to the data receiving unit 233. The data receiving unit 233 appropriately outputs the supplied data to the CPU 221. The CPU 221 stores this data in the RAM 223 or the EEPROM 224.
[0066]
The data stored in the EEPROM 224 is read by the CPU 221 and supplied to the data transmission unit 227. The BPSK modulation unit 228 performs BPSK modulation (coding into Manchester code) on the data supplied from the data transmission unit 227, and outputs it to the ASK modulation unit 242.
[0067]
The EEPROM 224 stores electronic money information. The user can use this electronic money to settle the price for purchased products, services, and the like. The settlement history is also stored in the EEPROM 224.
[0068]
FIG. 8 is a diagram illustrating an example of the specification of the non-contact IC card 146.
[0069]
As described above, communication between the reader device 37 and the non-contact IC card 146 is performed by half duplex, and the communication speed is, for example, 211.875 kbps.
[0070]
Further, as shown in FIG. 8, the center frequency of the frequency band used for power transmission and data transfer from the reader device 37 to the contactless IC card 146 and data transfer from the contactless IC card 146 to the reader device 37. Is, for example, 13.56 MHz.
[0071]
The output of the radio wave output from the reader device 37 for power transmission is, for example, 350 mW, and the communication distance is, for example, about 10 cm, depending on the communication environment such as the antenna characteristics.
[0072]
As described above, data transfer from the reader device 37 to the contactless IC card 146 is performed by ASK modulating the data encoded in the Manchester code, and the modulation degree (maximum amplitude of the data signal / maximum amplitude of the carrier wave). ) Is, for example, about 0.1. Further, as described above, the data transfer from the non-contact IC card 146 to the reader device 37 converts the output data into a transmission signal by the load switching method (the antenna 170 is turned on / off according to the output data). By changing the load of
[0073]
The user of the PDA 1 as described above uses the function of the reader device 37 described above to store business transaction (settlement) history information stored in the non-contact IC card 146 or stored in the non-contact IC card 146 ( The balance information of electronic money (charged) is displayed on the LCD 28 of the PDA 1.
[0074]
That is, when the user operates the PDA 1 to start an application for performing the above-described processing and brings the non-contact IC card 146 close to the position on the reader device 37 on the surface 13-1 of the PDA 1, the CPU 131 of the PDA 1 Then, the reader device 37 is controlled to read history information and the like from the above-described non-contact IC card 146 and display it on the LCD 28.
[0075]
By executing this application, the CPU 131 transitions between a plurality of modes as shown in FIG. 9 and performs processing corresponding to each mode in each mode.
[0076]
That is, by executing the application, the CPU 131 shifts from the off mode 261 where the application is not executed to the polling mode 262, controls the reader device 37, and sets the contactless IC card 146 close to the reader device 37. Perform detection processing.
[0077]
In the off mode 261, the power of the reader device 37 is off, and the PDA 1 does not perform processing for communicating with the non-contact IC card 146 or displaying history information on the LCD 28.
[0078]
In the off mode 261, when the user operates the touch pen 35 and presses the soft button 41-8 of “IC card viewer A” in the GUI as shown in FIG. 2 displayed on the LCD 28, the input unit 137 The information is supplied to the CPU 131 via the bus 134. Based on the operation, the CPU 131 reads and executes an application corresponding to the operation stored in the storage unit 139 or the like.
[0079]
The startup process executed by the CPU 131 at that time will be described with reference to the flowchart of FIG. Moreover, it demonstrates with reference to FIG. 11 as needed.
[0080]
First, in step S1, the CPU 131 controls the reader device 37, turns on the power of the reader device 37, and executes initialization processing of the reader device 37 in step S2.
[0081]
When the initialization process is completed, in step S3, the CPU 131 determines whether or not the initialization process has been normally completed. When the CPU 131 determines that the initialization process has been completed normally, the CPU 131 determines in step S4 that the current process has been completed. The mode is shifted to a polling mode for detecting a non-contact IC card, and the activation process is terminated.
[0082]
If it is determined in step S3 that the initialization process has not been completed normally, the CPU 131 advances the process to step S5, displays an error screen 271 as shown in FIG. 11 on the LCD 28, and confirms with the user. Let
[0083]
In FIG. 11, the error screen 271 displayed on the LCD 28 displays a message “Reader device initialization failed” and an OK button 272. The user operates the touch pen 35 to press the OK button 272 (tap the OK button 272 using the touch pen 35) to confirm that the initialization has failed.
[0084]
In step S6 of FIG. 10, the CPU 131 determines whether or not the initialization failure has been confirmed by the user (whether or not the user has pressed the OK button 272), and waits until it is determined that the user has confirmed.
[0085]
If the CPU 131 determines that the initialization failure has been confirmed by the user, the CPU 131 deletes the error screen 271 in step S7, ends the application (IC card viewer A) while remaining in the off mode, and starts the startup process. finish.
[0086]
That is, when the application (IC card viewer A) is activated, the CPU 131 performs initialization processing of the reader device 37, shifts to the polling mode when the initialization processing is normally completed, and displays an error screen when the initialization processing fails. Display, and the application (IC card viewer A) is terminated.
[0087]
The CPU 131 of the PDA 1 that has performed the startup process as described above and has shifted from the off mode 261 to the polling mode 262 in FIG. 9 next performs a process of detecting the close contactless IC card 146.
[0088]
The polling process executed in the polling mode 262 will be described with reference to the flowcharts of FIGS. Further, description will be made with reference to FIGS. 14 to 17 as necessary.
[0089]
First, in step S21, the CPU 131 controls the display control unit 136 to display the initial screen 281 as shown in FIG.
[0090]
In FIG. 14, an initial screen 281 displays a message “Hold the card over the reader so that it does not cover the logo”, and the user inserts the non-contact IC card 146 into the reader device according to the message. 37.
[0091]
An upward arrow display switching button 281A is displayed on the lower right side of the initial screen 281. The user presses the display switching button 281A (tap the display switching button 281A using the touch pen 35). Accordingly, as shown in FIG. 15, the initial screen 281 and the character input area 29 can be displayed on the LCD 28 at the same time.
[0092]
In FIG. 15, a downward arrow is displayed on the display switching button 281 </ b> A. When the user presses the display switching button 281 </ b> A, the CPU 131 controls the display control unit 136, as shown in FIG. 14. In this state, an initial screen 281 is displayed on the LCD 28.
[0093]
The CPU 131 that has displayed the initial screen 281 as described above controls the reader device 37 in step S22 of FIG. 12, and applies to the non-contact IC card 146 close to the reader device 37 on the surface 13-1. , IC card detection signal is output.
[0094]
The IC card detection signal is a signal based on a predetermined protocol for communication performed between the non-contact IC card 146 and the reader device 37. When the non-contact IC card 146 corresponding to the reader device 37 comes close to the reader device 37, the non-contact IC card 146 receives this IC card detection signal and responds thereto. Based on this response, the reader device 37 detects that the non-contact IC card 146 is approached.
[0095]
Therefore, when a card other than the non-contact IC card 146 is approached, or when a non-contact IC card not compatible with the communication protocol (for example, an IC card made by another company with a different communication protocol) is approached, Since these cards do not respond to the IC card detection signal output from the reader device 37, the reader device 37 determines that the non-contact IC card 146 is not in proximity.
[0096]
In step S23, the CPU 131 determines whether or not there is a communicable non-contact IC card 146 within the communicable range. If it is determined that the communicable non-contact IC card 146 exists, the CPU 131 advances the processing to step S24, Supply the encryption key (decryption key) corresponding to the card type and request IC card information.
[0097]
There are a plurality of types of non-contact IC cards 146 depending on applications and companies to be operated. For example, a contactless IC card that is operated by a transportation company and used for payment of the transportation fare, a contactless IC card that is used for commercial transactions at certain member stores or the Internet, or operated by a telephone company, There are contactless IC cards, etc. that are used to pay telephone charges when using a telephone.
[0098]
Each card is customized to be optimal for each usage method, and the information stored in these cards is also different from each other and is not unified. That is, normally, these non-contact IC cards encrypt and store the information for safety. The encryption key (decryption key) used for the encryption process and the decryption process at that time also depends on the type of the card. Different. In some cases, the non-contact IC card stores some or all of the information in plain text without encryption. In this case, the content of the information stored without encryption also varies depending on the type of the card.
[0099]
Therefore, in step S24, as described above, the CPU 131 supplies an encryption key (decryption key) of the type targeted by the application (IC card viewer A) to the adjacent non-contact IC card 146 as described above. IC card information, which is information about the non-contact IC card 146, including the ID number assigned to the non-contact IC card is requested.
[0100]
When the contactless IC card 146 for which the IC card information is requested is a type of IC card corresponding to the application, it is encrypted and stored using the encryption key (decryption key) supplied from the reader device 37. The IC card information is decrypted and supplied to the reader device 37.
[0101]
When the non-contact IC card 146 close to the reader device 37 is a type of IC card that does not correspond to the application, the non-contact IC card 146 uses the encryption key (decryption key) acquired from the reader device 37 to encrypt the card. Since the stored IC card information cannot be decrypted, the IC card information request from the reader device 37 cannot be responded, or an error response is made.
[0102]
Based on the response (presence / absence) from the non-contact IC card 146 as described above, the CPU 131 determines in step S25 in FIG. It is determined whether or not there is. When the reader device 37 acquires the IC card information supplied from the non-contact IC card 146 and determines that the IC card is the target type of IC card, the CPU 131 proceeds to step S26 to control the reader device 37. Then, history information relating to the settlement history, the balance of electronic money, and the like is acquired from the non-contact IC card 146.
[0103]
Then, in step S27, the CPU 131 turns off the power of the reader device 37 that has completed the communication process. In step S28, the CPU 131 shifts the mode from the current polling mode to the balance display mode, and ends the polling process.
[0104]
In step S25, the response to the IC card information request cannot be obtained from the adjacent non-contact IC card 146 or an error response is acquired, and the adjacent non-contact IC card 146 is not the target of the application. If the CPU 131 determines that the IC card is a card, the CPU 131 proceeds to step S29 and does not respond by supplying an encryption key (decryption key) of a non-target type in the same manner as in step S24 described above. Request type of IC card information. When requesting a plurality of types, the CPU 131 repeats the process of step S29 for each type.
[0105]
In step S30, if a response to the above-described processing is obtained from the non-contact IC card 146 and it is determined that the type of IC card is not a target, the CPU 131 advances the processing to step S31 and completes the communication processing. The power of 37 is turned off.
[0106]
It should be noted that the identification processing of the type of IC card that is not the application target may not be performed. In that case, if it is determined in step S25 that the close contactless IC card 146 is a type of IC card that is not a target of the application, the CPU 131 omits the processes of steps S29 and S30 and performs the process of step S31. The reader device 37 whose communication processing is completed is turned off.
[0107]
The CPU 131 that has finished the process of step S31 displays a reading error screen as shown in FIG. 16 on the LCD 28 in step S32.
[0108]
In FIG. 16, a reading error screen 282 is displayed on the LCD 28. On the reading error screen 282, a message “Reading has failed. Check if the card is compatible with IC card viewer A and hold the card correctly over the reader.” And an OK button 283 that the user presses after confirming Is displayed.
[0109]
In step S33 of FIG. 12, the CPU 131 controls the touch panel 36 to determine whether or not the user has pressed the OK button 283, and waits until it is determined that the user has pressed it.
[0110]
If it is determined that the user has pressed the OK button 283 and confirmed that it is a reading error, the CPU 131 turns on the reader device 37 in step S34, returns the process to step S22, and the subsequent processing. repeat.
[0111]
If it is determined in step S23 that there is no communicable IC card, the CPU 131 advances the processing to step S41 in FIG. 13 and determines whether or not a predetermined time has elapsed.
[0112]
If it is determined that a predetermined time has elapsed, the CPU 131 proceeds to step S42, turns off the power of the reader device 37, and displays a card detection error screen as shown in FIG. 17 in step S43. indicate.
[0113]
In FIG. 17, a card detection error screen 284 is displayed on the LCD 28. On the card detection error screen 284, the message “Card not found. Are you sure you want to exit the application? Are you sure?” And when the user presses, the termination of the application (IC card viewer A) is instructed. And an OK button 285 for canceling the end of the application (IC card viewer A) when pressed by the user.
[0114]
In step S44, the CPU 131 controls the touch panel 36 to determine whether or not the user has instructed termination of the application by pressing the OK button 285 in FIG. 17. Then, after the application is terminated and the mode is shifted to the off mode 261, the polling process is terminated.
[0115]
If it is determined in step S44 that the user has not pressed the OK button 285 and the end is not instructed, the CPU 131 proceeds to step S46, and the user presses the cancel button 286. It is determined whether the application termination is canceled and polling is resumed. When determining that the user has not pressed the cancel button 286 and has not instructed the resumption of polling, the CPU 131 returns the process to step S44 and repeats the subsequent processes. If it is determined in step S46 that the user presses the cancel button 286 and polling is resumed, the CPU 131 returns the process to step S34 in FIG. 12, and repeats the subsequent processes.
[0116]
That is, the CPU 131 waits until the user operates the OK button 285 or the cancel button 286 on the card detection error screen 284 in FIG. 17, and when pressed, executes processing based on an instruction corresponding to the button. To do.
[0117]
If it is determined in step S30 in FIG. 12 that the non-contact IC card 146 in proximity to the reader device 37 is not the type of IC card that is not an application target, the process proceeds to step S42 in FIG. The subsequent processing is repeated.
[0118]
If it is determined in step S41 that the predetermined time has not elapsed, the CPU 131 advances the process to step S47, and has been instructed to shift to the history deletion mode 265 in FIG. 9 based on the user's instruction. Determine whether or not.
[0119]
When it is determined that the user has operated the PDA 1 to instruct the transition to the history deletion mode 265, the CPU 131 proceeds to step S48 to turn off the reader device 37, and in step S49, the history deletion mode After shifting to H.265, the polling process is terminated. The history deletion mode 265 will be described later.
[0120]
If it is determined in step S47 that transition to the history deletion mode has not been instructed, the CPU 131 returns the process to step S22 in FIG. 12, and repeats the subsequent processes.
[0121]
That is, in the polling process, the CPU 131 waits until there is a communicable IC card while outputting an IC card detection signal. If a communicable IC card is not detected for a predetermined time, the card detection error screen 284 is displayed. Is displayed on the LCD 28, and a user instruction is accepted.
[0122]
At this time (when the non-contact IC card 146 is not in proximity to the reader device 37), when the user instructs to shift to the history deletion mode, the CPU 131 shifts to the history deletion mode.
[0123]
In addition, when a communicable IC card is detected, the CPU 131 determines the type of the IC card, and when corresponding to an application, acquires history information from the non-contact IC card 146, and shifts to the balance display mode. To do.
[0124]
When it is determined that the non-contact IC card 146 that is in close proximity does not support the application, the CPU 131 displays a reading error screen 282 and accepts a user instruction.
[0125]
That is, the CPU 131 executes processing corresponding to the type of each card, such as displaying a different screen on the LCD 28 depending on the type of the non-contact IC card 146 detected by the reader device 37. Thus, when an error occurs, the CPU 131 can display the cause of the error on the LCD 28 in more detail, and the user can easily understand what kind of unauthorized processing has been performed and use a more appropriate method. Can respond.
[0126]
Further, as shown in FIG. 9, in order to start the application from the off mode 261 where the application is not started and execute various processes such as history display and balance display described later, Polling processing as shown in the flowcharts of FIGS. 12 and 13 in the polling mode 262 must be performed to detect a valid non-contact IC card 146.
[0127]
Thereby, as will be described later, it is possible to suppress unauthorized viewing of the history information of the non-contact IC card 146 managed by the PDA 1 and displayed on the LCD 28.
[0128]
As described above, the CPU 131 which has shifted from the polling mode 262 of FIG. 9 to the balance display mode 263, next, the latest electronic money charged in the non-contact IC card 146 based on the acquired history information. A balance display process for displaying balance information is executed.
[0129]
The balance display processing by the PDA 1 will be described with reference to the flowcharts of FIGS. Further, description will be made with reference to FIGS. 20 to 23 as necessary.
[0130]
First, in step S61, the CPU 131 displays a balance display screen as shown in FIG. 20 on the LCD 28, and in step S62, the IC card information and history information acquired from the non-contact IC card 146 close to the reader device 37. The balance display information to be displayed on the balance display screen is generated. In step S63, the display control unit 136 is controlled to display the generated balance display information on the balance display screen. In step S64, the predetermined balance prepared in advance is displayed. A display start sound is output from the speaker.
[0131]
20, the balance display screen 291 displayed on the LCD 28 is approached based on the IC card information requested and acquired in step S24 of FIG. 12 and the history information acquired by the process of step S26 of FIG. IC card balance information regarding the ID number of the non-contact IC card 146 (No: 2222-1111-2222-1111) and the balance of electronic money currently charged to the non-contact IC card 146 (current value balance ¥ 407) 292 is displayed. With this display, the user can grasp the current balance of the non-contact IC card 146.
[0132]
The balance display screen 291 further includes a return button 293 that instructs to shift to the polling mode when pressed (tapped) by the user, and shifts to the history display / save mode when pressed (tapped) by the user. A history button 294 is displayed.
[0133]
Further, a timeout counter 295 indicating the remaining display time of the balance display screen 291 is displayed at the top of the balance display screen 291. The balance display screen 291 is displayed for a predetermined time (for example, 30 seconds). The time-out counter 295 includes an indicator whose display changes as the remaining display time decreases, and a message “T seconds remaining until display ends” (T is the remaining time (in the example of FIG. 20, in seconds)). Has been. By displaying the timeout counter 295, the user can grasp the remaining display time of the balance display screen 291.
[0134]
As will be described later, whether the user presses the return button 293 within a predetermined time (for example, 30 seconds) after the balance display screen 291 as described above is displayed, and instructs to shift to the polling mode. Then, the history button 294 is pressed to instruct the transition to the history display / save mode.
[0135]
When the display time of the balance display screen 291 exceeds a predetermined time (for example, 30 seconds), the LCD 28 displays a display end screen as described later.
[0136]
In the lower right corner of the LCD 28 in FIG. 20, a display switching button 291A for switching the displayed balance display screen 291 to the display shown in FIG. 21 when the user presses (tap) is displayed. Has been. When the balance display screen 291 is displayed as shown in FIG. 20, an upward arrow is displayed on the display switching button 291A.
[0137]
In FIG. 21, a balance display screen 291 and a character input area 29 are displayed on the LCD 28 at the same time. In the state as shown in FIG. 21, a downward arrow is displayed on the display switching button 291A. In this state, when the user operates the display switching button 291A (taps on the display switching button 291A of the LCD 28), the CPU 131 controls the display control unit 136 to switch the display of the LCD 28, as shown in FIG. A balance display screen 291 as shown is displayed.
[0138]
Returning to FIG. 18, the CPU 131 that has displayed the balance display screen 291 as described above by the processing of steps S61 to S64 advances the processing to step S65 and controls the timeout counter 295 on the balance display screen 291 to control the display of the timeout counter 295. Processing is executed, and processing related to display time counting is performed.
[0139]
In step S66, the CPU 131 determines whether or not a predetermined time (for example, 30 seconds) has elapsed. If it is determined that the predetermined time has not elapsed, the CPU 131 advances the process to step S67.
[0140]
In step S67, the CPU 131 determines whether or not the user has instructed the transition to the polling mode, and the user has not pressed the return button 293 of FIG. 20 (or FIG. 21) (the return button 293 of the LCD 28). If it is determined that transition to the polling mode has not been instructed, the process proceeds to step S68.
[0141]
In step S68, the CPU 131 determines whether or not the user has instructed the transition to the history display / save mode, and the user has not pressed the history button 294 in FIG. 20 (or FIG. 21) (on the LCD 28). If the history button 294 has not been tapped) and it is determined that the transition to the history display / save mode has not been instructed, the process proceeds to step S69.
[0142]
In step S69, the CPU 131 determines whether or not switching of the balance display screen 291 is instructed by the user, and the user presses the display switching button 291A in FIG. 20 (or FIG. 21) (display on the LCD 28). Tapping the switch button 291A), and when it is determined that the display switching of the balance display screen 291 has been instructed, the process proceeds to step S70, and after switching the balance display screen 291 as described above, the process proceeds to step S65. Return and repeat the subsequent processing.
[0143]
If it is determined in step S69 that the user has not pressed the display switching button 291A in FIG. 20 (or FIG. 21) and the display switching of the balance display screen 291 has not been instructed, the CPU 131 proceeds to step S70. The processing is omitted, the processing is returned to step S65, and the subsequent processing is repeated.
[0144]
As described above, the CPU 131 controls the display control unit 136 to repeat the processes of steps S65 to S70 and display the balance display screen 291 on the LCD 28 for a predetermined time (for example, 30 seconds).
[0145]
In step S67, if the user depresses the return button 293 in FIG. 20 (or FIG. 21) (taps on the return button 293 on the LCD 28) and determines that the transition to the polling mode is instructed, the CPU 131 Then, the process proceeds to step S71, the mode is shifted from the balance display mode 263 of FIG. 9 which is the current mode to the polling mode 262, and the balance display process is terminated.
[0146]
If it is determined in step S68 that the user has pressed the history button 294 of FIG. 20 (or FIG. 21) (tap on the history button 294 of the LCD 28) and the transition to the history display / save mode is instructed, the CPU 131 Advances the processing to step S72, shifts the mode from the balance display mode 263 of FIG. 9 which is the current mode to the history display / save mode 264, and ends the balance display processing.
[0147]
As described above, after displaying the balance display screen 291 for a predetermined time, if it is determined in step S66 that the predetermined time has elapsed, the CPU 131 advances the process to step S81 in FIG.
[0148]
In step S81 of FIG. 19, the CPU 131 controls the display control unit 136 to display the display end screen as shown in FIG. 22 on the LCD 28 instead of the balance display screen 291 displayed on the LCD 28.
[0149]
In FIG. 22, on the display end screen 296 displayed on the LCD 28, a message 297 “Display finished” and “If you want to display again, please try again.” With this message 297, the user can grasp that the balance display has ended, and can understand the operation to be performed next.
[0150]
In addition to the message 297, the display end screen 296 displays a return button 293, a history button 294, and a timeout counter 295.
[0151]
The history button 294 is displayed in a state that cannot be pressed by the user. Even if the user taps the history button 294 on the LCD 28, the history button 294 on the balance display screen 291 in FIG. 20 (or FIG. 21) is displayed. Thus, the transition to the history display / save mode is not performed. The timeout counter 295 is displayed in a time-out state.
[0152]
That is, when the user instructs to shift to another mode on the display end screen 296, the user can only press the return button 293 to instruct to shift to the polling mode.
[0153]
Note that a display switching button 296A for switching the display of the display end screen 296 when the user presses is displayed at the lower right corner of the LCD 28 in FIG. In the state of FIG. 22, an upward arrow is displayed on the display switching button 296A. When the user presses the display switching button 296A, the display end screen 296 is switched to a display as shown in FIG. A display end screen 296 and a character input area 29 are displayed on the LCD 28 simultaneously.
[0154]
At this time, a downward arrow is displayed on the display switching button 296A. When the user presses the display switching button 296A, the CPU 131 controls the display control unit 136 to display the display end screen 296 in FIG. Switch to a display that looks like this.
[0155]
That is, each time the user presses the display switching button 296A, the display size of the display end screen 296 changes, and the display is alternately switched to the display as shown in FIG.
[0156]
Referring back to FIG. 19, the CPU 131 that has displayed the display end screen 296 as described above on the LCD 28 by the process of step S81 determines whether or not the user has instructed to shift to the polling mode in step S82.
[0157]
When it is determined that the user has not pressed the return button 293 in FIG. 22 (or FIG. 23) and the transition to the polling mode is not instructed, the CPU 131 advances the process to step S83, and the user displays the display. It is determined whether switching is instructed.
[0158]
When the user presses the display switching button 296A in FIG. 22 (or FIG. 23) (by tapping on the display switching button 296A on the LCD 28), when it is determined that the display switching of the display end screen 296 is instructed, In step S84, the CPU 131 controls the display control unit 136 so that the display of the display end screen 296 displayed on the LCD 28 is the state shown in FIG. 23 when the state shown in FIG. In this case, the state is switched to the state shown in FIG. 22, the process is returned to step S82, and the subsequent processes are repeated.
[0159]
If it is determined in step S83 that display switching has not been instructed, the CPU 131 omits the process in step S84, returns the process to step S82, and repeats the subsequent processes.
[0160]
As described above, the CPU 131 waits until the user presses the return button 293 while repeating the processes of steps S82 to S84.
[0161]
In step S82, when the user depresses the return button 293 (by tapping on the return button 293 of the LCD 28) and determines that the transition to the polling mode has been instructed, the CPU 131 performs the process in FIG. Proceeding to S71, the current mode is shifted from the balance display mode 263 of FIG. 9 to the polling mode 262, and the balance display process is terminated.
[0162]
As described above, the CPU 131 executes the balance display process as described above in the balance display mode of FIG. 9, and stores the balance information of the non-contact IC card 146 close to the reader device 37 for a predetermined time (for example, For 30 seconds). When the predetermined time has elapsed, the CPU 131 controls the display control unit 136 to display the display end screen 296 on the LCD 28 instead of the balance display screen 291.
[0163]
In this way, even when the user brings the non-contact IC card 146 close to the reader device 37 in the polling mode and causes the IC card information and history information to be read into the PDA 1, the user can perform only a predetermined time. Since the balance information is not displayed, for example, it is possible to prevent the third party from viewing the balance information by leaving the PDA 1 while the balance information is displayed.
[0164]
As will be described later, in order to view the history information read into the PDA 1, the user must press the history button 294 on the balance display screen 291 described above. Therefore, by restricting the display time of the balance display screen 291 as described above, it is possible to suppress browsing by a third party, for example, by leaving the PDA 1 while the balance information is displayed. Can do.
[0165]
That is, the PDA 1 cannot move from the polling mode 262 of FIG. 9 to the history display / save mode 264 without going through the balance display mode 263, and further, the display time of the balance display screen 291 displayed in the balance display mode 263 The PDA 1 can manage and display the IC card information and history information of the non-contact IC card 146 read in the polling mode 262 more safely.
[0166]
In the balance display process as described above, the PDA 1 that has shifted from the balance display mode 293 of FIG. 9 to the history display / save mode 294 by the process of step S72 of FIG. 18 displays and stores history information of the non-contact IC card 146. History information display / save processing is executed.
[0167]
The history information display / storing process by the PDA 1 will be described with reference to the flowcharts of FIGS. Further, description will be made with reference to FIGS. 26 to 31 as necessary.
[0168]
First, in step S101, the CPU 131 displays a history display screen. In step S102, the CPU 131 controls the storage unit 139 and the like, and history information corresponding to the IC card information acquired from the non-contact IC card 146 in the polling mode 262 is stored in the history information database configured in the storage unit 139 and the like. Determine if it exists.
[0169]
As will be described later, the PDA 1 stores the history information acquired from the non-contact IC card 146 in a predetermined storage area such as the storage unit 139, the memory card 143 installed in the slot 64, or the RAM 133 for each non-contact IC card 146. Create and store a database.
[0170]
In step S102, the CPU 131 refers to the database, and history information corresponding to the IC card information acquired this time (the non-contact IC card 146 that has read the IC card information) has been read before and is stored in the database. It is determined whether it is registered.
[0171]
If it is determined that the corresponding history information exists in the database, the CPU 131 proceeds to step S103, acquires the history information from the database, and uses the history information acquired in step S104 using a predetermined encryption key (decryption key). To decrypt.
[0172]
When registering the IC card information and history information acquired from the non-contact IC card 146 in the database, the PDA 1 encrypts the IC card information and history information and then stores them in the predetermined storage area. Thereby, the stored information can be prevented from being read illegally, and the IC card information, history information, etc. can be managed safely.
[0173]
The CPU 131 that has decrypted the history information acquired from the database proceeds to step S105, and uses the IC card information and history information acquired from the non-contact IC card 146, the history information acquired from the database, and the like to display the latest display. Create history information for
[0174]
In step S106, the CPU 131 performs mark processing as will be described later on the unsaved history information constituted by the history information acquired from the non-contact IC card 146, and in step S107, the display created as described above. History information is displayed on the history display screen by controlling the display control unit 136.
[0175]
If it is determined in step S102 that the history information corresponding to the IC card information acquired from the non-contact IC card 146 does not exist in the database, the CPU 131 omits the processes in steps S103 and S104 and performs the process in step S105. Then, the latest display history information is created using the IC card information and history information acquired from the non-contact IC card 146. In step S106, unsaved history information (all history information) is marked, In S107, the created history information for display is displayed.
[0176]
FIG. 26 is a schematic diagram illustrating a configuration example of a history display screen displayed on the LCD 28.
[0177]
In FIG. 26, a history display screen 301 displayed on the LCD 28 displays a history information list 302 composed of remarks and the like including transaction date and time, transaction amount in the transaction, and transaction details. ing.
[0178]
In the history information list 302, each history information is displayed in order from the top. For example, the history information on the third line from the top is 11:09 on November 1, 2002 (02/11). / 01 11:09) indicates that a withdrawal of 441 yen (¥ 441) was made.
[0179]
In the history information list 302, unsaved history information is displayed with a predetermined mark 303 added to the left end. In the case of FIG. 26, rectangular marks 303 are displayed for all six cases in the history information list 302, and all these history information is configured by history information read from the non-contact IC card 146 this time. It is shown that.
[0180]
By the way, although not displayed on the history display screen 301, each history information included in the history information (and history information managed in the database) of the non-contact IC card 146 is assigned an ID number. The history information can identify the number of information of the corresponding non-contact IC card 146.
[0181]
Since the storage area of the non-contact IC card 146 is very small, the non-contact IC card 146 can store only a predetermined number (for example, six) of history information. Therefore, when the number of commercial transactions exceeding the number (for example, 6) is performed, the non-contact IC card 146 deletes the oldest history information and stores the latest history information. That is, the non-contact IC card 146 always stores a predetermined number (for example, six) of latest history information.
[0182]
Accordingly, the history information read from the non-contact IC card 146 by the PDA 1 is also the latest history information of a predetermined number (for example, 6), and these history information is continuous with the history information already registered in the database. Not necessarily. In such a case, when history information is registered in the database, history information that is discontinuous in the database (assigned ID numbers are discontinuous) is registered in the database.
[0183]
As described above, when the ID numbers of the history information of the history information in the history information list 302 are not consecutive, that is, when there is history information that has been erased and does not remain, the history information list on the history display screen 301 is displayed. A dotted line may be displayed at a corresponding portion of 302.
[0184]
Further, when all the history information in the history information list 302 cannot be displayed on the history display screen 301 at a time, a scroll bar or the like may be displayed so that the user can scroll the history information list 302. Further, the font size of the history information list 302 may be changed according to the number of cases to be displayed.
[0185]
At the bottom of the history display screen 301, the user presses the return button 304 that instructs to shift to the balance display mode 263, and the history information displayed on the history display screen 301 when the user presses. A save button 305 for instructing to save the history information of the list 302 in the database is displayed.
[0186]
In addition to the above, the history display screen 301 includes an ID number of the non-contact IC card 146 corresponding to the displayed history information, balance information of electronic money that is currently charged, and a history display screen 301. The total number of the history information list 302 displayed in is displayed.
[0187]
In FIG. 26, a display switching button 301A for instructing switching of the display size of the history display screen 301 is displayed at the lower right corner of the LCD 28 when the user presses it. When the history display screen 301 is displayed on the entire LCD 28 as shown in FIG. 26, an upward arrow is displayed on the display switching button 301A. In this state, when the user presses the display switching button 301A (on the LCD 28) When tapping on the display switching button 301A), the CPU 131 controls the display control unit 136 to switch the display of the history display screen 301 to the display as shown in FIG.
[0188]
In FIG. 27, a history display screen 301 and a character input area 29 are displayed on the LCD 28. The history display screen 301 in FIG. 27 is basically the same as that in FIG. 26 except that the display size is different from the history display screen in the case of FIG. However, in the history display screen 301 in FIG. 27, the column for displaying the history information list 302 is smaller than in the case of FIG. 26, so the number of items that can be displayed simultaneously is different from the case of FIG.
[0189]
In the case of FIG. 27, a downward arrow is displayed on the display switching button 301A. In this state, when the user presses the display switching button 301A (when the user taps the display switching button 301A on the LCD 28), the CPU 131 displays The control unit 136 is controlled to switch the display on the history display screen 301 to a display as shown in FIG.
[0190]
That is, every time the user presses the display switching button 301A, the display size of the history display screen 301 is alternately switched from the state of FIG. 26 to the state of FIG. 27 or from the state of FIG. 27 to the state of FIG. .
[0191]
When the history information read from the non-contact IC card 146 is empty, that is, when history information is read from the non-contact IC card 146 that has never been used for commercial transactions, the non-contact IC is naturally stored in the database. Since there is no history information corresponding to the card 146, the history display screen 301 displayed on the LCD 28 has a message 306 “no transaction history” instead of the history information list 302, as shown in FIG. Is displayed. Thereby, the user can easily grasp that there is no history information.
[0192]
Also in the case of FIG. 28, when the user presses the display switching button 301A, the display size of the history display screen 301 is changed and the character input area 29 can be displayed simultaneously as shown in FIG. it can.
[0193]
Returning to FIG. 24, the CPU 131 that has displayed the history information by the process of step S107 advances the process to step S111 of FIG.
[0194]
In step S111, the CPU 131 determines whether or not to shift to the balance display mode.
[0195]
If the user has not pressed the return button 304 (not tapped on the return button 304 on the LCD 28) in any of FIGS. 26 to 29 and determines that the balance display mode is not to be entered, the CPU 131 The process proceeds to step S112, and it is determined whether or not an instruction to save a history is given.
[0196]
When the user presses the save button 305 in any of FIG. 26 to FIG. 29 (when the user taps the save button 305 of the LCD 28), the CPU 131 controls the display control unit 136 to display on the LCD 28 as shown in FIG. Display a history saving confirmation screen.
[0197]
In FIG. 30, on the history saving confirmation screen 307 displayed superimposed on the history display screen 301 on the LCD 28, a message “Do you want to save the data read from the card in the main body?” Pressed by the user. Thus, an OK button 308 for instructing to save the history and a cancel button 309 for stopping the history saving when the user presses are displayed.
[0198]
The user presses the save button 305 on the history display screen 301 and further presses and confirms the OK button on the displayed history save confirmation screen 307 to instruct the save of the history.
[0199]
As described above, when it is determined that history storage is instructed, the CPU 131 proceeds to step S113 to encrypt the history information to be stored.
[0200]
In step S114, it is determined whether or not history information corresponding to the IC card information, that is, history information corresponding to the same contactless IC card 146 as the history information to be stored exists in the database. In step S115, the history information of the database is updated with the history information to be stored. Further, in step S117, the CPU 131 updates the displayed history information by deleting the mark of the history information, etc., returns the process to step S111, and repeats the subsequent processes.
[0201]
If it is determined in step S114 that the history information corresponding to the IC card information does not exist in the database, the CPU 131 proceeds to step S116 to create new history information in the database, and displays it in step S117. After the history information is updated, the process returns to step S111 and the subsequent processes are repeated.
[0202]
That is, as shown in FIG. 31, for example, in the database 320 configured in the storage area of the storage unit 139, history information is registered for each ID number of IC card information (for each corresponding non-contact IC card 146). When the latest history information is stored, the CPU 131 searches for the history information corresponding to the contactless IC card 146 to which the history information corresponds. When the history information exists, the CPU 131 stores the history information to be stored. The history information is updated, and when the corresponding history information does not exist, the history information to be stored is newly registered in association with the IC card information.
[0203]
For example, in the case of FIG. 31, the database 320 includes the history information 321 corresponding to the non-contact IC card 146 having the ID number “1111-0000-1111-0000” and the ID number “2222-1111-2222-1111”. The history information 322 corresponding to the non-contact IC card 146 is included.
[0204]
When such a database 320 is instructed to store the latest history information 331 corresponding to the non-contact IC card 146 with the ID number “2222-1111-2222-1111”, the CPU 131 receives history information from the database 320. 322 is searched and the contents of the searched history information 332 are updated using the history information 331.
[0205]
In addition, when the storage of the latest history information 332 corresponding to the contactless IC card 146 with the ID number “5555-7777-5555-7777” is instructed to such a database 320, the CPU 131 stores the database 320 in the database 320. Search is performed, but since there is no history information corresponding to the history information 332, the history information 332 is newly generated and registered in the database 320.
[0206]
By the way, when it is determined in step S112 that the user does not press the save button 305 of the history display screen 301 or the user presses the cancel button 309 on the history save confirmation screen 307 and the history save instruction is not instructed, The CPU 131 returns the process to step S111 and repeats the subsequent processes.
[0207]
As described above, the CPU 131 repeats the processes of steps S111 to S117 to perform the process on the history display screen 301.
[0208]
In step S111, if the CPU 131 determines that the user presses the return button 304 and shifts to the balance display mode, the CPU 131 proceeds to step S118, shifts to the balance display mode, and ends the history information display / storage process. To do.
[0209]
As described above, since the PDA 1 stores the history information read from the non-contact IC card 146, the user can browse past history information other than the history information recorded on the non-contact IC card 146. Can do.
[0210]
The PDA 1 stores the history information acquired from the non-contact IC card 146 as information for each corresponding non-contact IC card 146 in the database 320 generated in the storage unit 139 or the like. As described above, since the PDA 1 automatically generates the database 320 configured by the history information for each corresponding contactless IC card 146, the history information and the like can be managed more safely and easily. it can.
[0211]
Further, when the PDA 1 causes the non-contact IC card 146 to approach the reader device 37 in the polling mode 262 and presses the history button 294 on the balance display screen 291 displayed for a predetermined time in the balance display mode 263. Only the history information corresponding to the non-contact IC card 146 close to the reader device 37 is displayed on the history display screen 301, so that it is possible to prevent the history information from being illegally viewed by a third party. Can be displayed more safely.
[0212]
By the way, in the polling mode 262 in FIG. 9, when the processing in step S49 in FIG. 13 has shifted to the history deletion mode 265, the PDA 1 stores the history information registered in the database 230 formed in the storage area such as the storage unit 139. Execute the history deletion process to be deleted.
[0213]
The history deletion process by the PDA 1 will be described with reference to the flowcharts of FIGS. Further, description will be made with reference to FIGS. 34 to 38 as necessary.
[0214]
First, in step S131, the CPU 131 controls the display control unit 136 to display a history deletion screen. In step S132, the CPU 131 controls a part including a storage area in which a database such as the storage unit 139 is formed. Display the history list registered in the database on the delete screen.
[0215]
FIG. 34 is a schematic diagram illustrating a configuration example of a history deletion screen displayed on the LCD 28.
[0216]
34, the history list described above is displayed on the history deletion screen 341 displayed on the LCD 28 as history information 342 for each corresponding non-contact IC card 146 (as history information 342 for each ID number).
[0217]
The history information 342 includes the date and time when the history was last registered, the balance information at that time, the number of registered histories, the ID number of the corresponding contactless IC card, and the like.
[0218]
The history information 342 is provided with a check box 343 so that the user can select history information 342 to be deleted, as will be described later.
[0219]
If the history information 342, that is, the history information registered in the database has a large number of history records and cannot be displayed on the history deletion screen 341 at the same time, a scroll bar is displayed, and the user deletes the history deletion screen 341. The history information 342 displayed on the screen may be scrollable. Further, the font size of the history information 342 may be changed according to the number of the history information 342 displayed, or the history information 342 displayed at a time is displayed as one page and displayed in page units. You may do it. In that case, a switching button for switching the page to be displayed (history information 342) is separately provided.
[0220]
Further, at the bottom of the history deletion screen 341, all the check boxes 343 are checked when the user presses, and an all selection button 344 for selecting all history information, and when the user presses the check box 343, A selection cancel button 345 for canceling all the checks, a delete button 346 for deleting the history information 342 in which the check box 343 is checked when pressed by the user, and a cancel for canceling the history deletion processing when the user presses A button 347 is provided.
[0221]
In addition, a display switching button 341A for switching the display size of the history deletion screen 341 when the user presses is provided in the lower right corner of the LCD 28. When the user presses the display switching button 341A in the state of FIG. As shown in FIG. 35, the display size of the history deletion screen 341 is switched, and the history deletion screen 341 and the character input area 29 are displayed on the LCD 28 at the same time.
[0222]
Note that when the user presses the display switching button 341 in the state of FIG. 35, the display size of the history deletion screen 341 is switched to the state shown in FIG.
[0223]
Returning to FIG. 32, the CPU 131 that has finished the process of step S132 checks the check box 343 of the history deletion screen 341 in step S133 (the user checks the check box of the LCD 28 when the check box 343 is unchecked). Or the user unchecks the check box 343 of the history deletion screen 341 (the user taps the check box 343 of the LCD 28 when the check box 343 is already checked). Thus, it is determined whether or not the history check has been updated.
[0224]
If it is determined that the history check has been updated, the CPU 131 updates information regarding deletion candidates held in the RAM 133 or the like in step S134. The CPU 131 lists histories whose check boxes 343 are checked as deletion candidates, holds them in the RAM 133, etc., and deletes the histories listed as deletion candidates when deleting histories as will be described later. To do. In step S134, the CPU 131 updates the information regarding the deletion candidate in accordance with the update of the state of the check box 343 by the user.
[0225]
The CPU 131 that has updated the deletion candidate advances the process to step S135.
[0226]
If it is determined in step S133 that the history check has not been updated, the CPU 131 omits the process of step S134 and proceeds to step S135.
[0227]
In step S <b> 135, the CPU 131 determines whether or not to perform a batch check based on a batch check instruction input when the user presses the all selection button 344.
[0228]
If it is determined that the user has pressed the all selection button 344 and instructed the batch check, the CPU 131 sets all the check boxes 343 to be checked in step S136, and adds all the histories to the above-described deletion candidates. . The CPU 131 that has finished the process of step S136 advances the process to step S137.
[0229]
If it is determined in step S135 that the user has not pressed the all selection button 344 and the batch check is not to be performed, the CPU 131 skips the process of step S136 and advances the process to step S137.
[0230]
In step S137, the CPU 131 determines whether the user has pressed the selection cancel button 345, and determines whether to cancel all at once. When the user depresses the selection cancel button 345 to instruct to cancel all the check boxes 343 and, based on the instruction, determines to cancel all the check boxes, the CPU 131 sets all the check boxes 343 in step S138. The state is set to an unchecked state, all histories are deleted from the deletion candidates, and the process proceeds to step S139.
[0231]
If it is determined in step S137 that the user has not pressed the selection cancel button 345 and the batch release is not performed, the CPU 131 skips the process of step S138 and advances the process to step S139.
[0232]
In step S139, the CPU 131 determines whether the user has pressed the delete button 346, and determines whether to delete the history.
[0233]
When the user has not pressed the delete button 346, the deletion of the history is not instructed, and it is determined that the history is not deleted, the CPU 131 proceeds to step S140 and determines whether or not to cancel the deletion process. judge.
[0234]
If the user has not pressed the cancel button 347 and determines that the deletion process is not to be stopped, the CPU 131 returns the process to step S133 and repeats the subsequent processes.
[0235]
In step S140, if the user presses the cancel button 347 to instruct to cancel the deletion process, and based on the instruction, the CPU 131 determines in step S141 that the deletion process is to be stopped. Transition from the deletion mode 265 to the polling mode 262 ends the history deletion processing.
[0236]
In step S139, when the user presses the delete button 346 to instruct deletion of the history, and based on the instruction, it is determined that the history is to be deleted, the CPU 131 proceeds to step S151 in FIG. Proceed.
[0237]
In step S151 in FIG. 33, the CPU 131 determines whether or not a history exists in the deletion candidates held in the RAM 133, and when it is determined that there is a history, that is, when there is a history in which the check box 343 has been checked. In step S152, the display control unit 136 is controlled to display a deletion confirmation screen as shown in FIG.
[0238]
In FIG. 37, on the deletion confirmation screen 351 displayed on the LCD 28 in a manner superimposed on the history deletion screen 341, a message “Delete history data from the main unit? Are you sure?” Is not deleted. ”Message is displayed, and it is easy to understand that the user is deleting the history stored in PDA1. .
[0239]
The deletion confirmation screen 351 is provided with an OK button 352 for deleting history data from the database when pressed by the user, and a cancel button 353 for canceling deletion of history data when pressed by the user. Yes.
[0240]
When the CPU 131 displaying the deletion confirmation screen 351 as described above determines whether or not history deletion is instructed by the user pressing the OK button 352 in step S153, In step S154, the deletion candidate history data is deleted from the database, and in step S155, the display control unit 136 is controlled to display a deletion completion confirmation screen as shown in FIG.
[0241]
In FIG. 38, the deletion completion confirmation screen 354 superimposed on the history deletion screen 341 and displayed on the LCD 28 has been confirmed by the message “Data deletion is complete.” And the user pressing it. An OK button 355 for notifying that is displayed.
[0242]
In step S156, the CPU 131 that has displayed the deletion completion confirmation screen 354 determines whether or not the deletion completion confirmation has been confirmed by pressing the OK button 355 of the deletion completion confirmation screen 354, and the deletion completion is confirmed by the user. Wait until it is determined.
[0243]
If the user presses the OK button 355 and determines that the deletion end has been confirmed, the CPU 131 returns the process to step S141 in FIG. 32, and shifts the mode to the polling mode 262, and then ends the history deletion process. .
[0244]
In step S153 in FIG. 33, it is determined that the user has not pressed the OK button 352 and the deletion of the history is not instructed in a state where the deletion confirmation screen 351 shown in FIG. If so, the CPU 131 advances the process to step S157 to determine whether or not the user has instructed to cancel the deletion.
[0245]
When it is determined that the user has not pressed the cancel button 353 on the deletion confirmation screen 351 shown in FIG. 37 and the deletion cancellation is not instructed, the CPU 131 returns the process to step S153, and the subsequent processes. repeat.
[0246]
That is, the CPU 131 waits until the user presses the OK button 352 or the cancel button 353 while repeating the processing of steps S153 and S157 while the deletion confirmation screen 351 of FIG.
[0247]
If it is determined in step S157 that the user has pressed the cancel button 353 and an instruction to cancel the deletion is issued, the CPU 131 controls the display control unit 136 to delete the deletion confirmation screen 351 in FIG. The process returns to step S140, and the subsequent processes are repeated.
[0248]
If it is determined in step S151 in FIG. 33 that no history exists in the deletion candidate after the history is instructed by the user (when there is no checked check box 353), the CPU 131 The process proceeds to step S158, and the display control unit 136 is controlled to display a deletion error screen as shown in FIG.
[0249]
In FIG. 36, a deletion error screen 348 that is superimposed on the history deletion screen 341 and displayed on the LCD 28 displays a message “Please execute after selecting a card history.” An OK button 349 for confirming that the error has occurred is displayed.
[0250]
The CPU 131 displaying the deletion error screen 341 waits until the user presses the OK button 349. When the user presses the OK button 349, the process returns to step S140 in FIG. 32 and the subsequent processing is repeated.
[0251]
As described above, the history deletion process is performed in the history deletion mode 265. Thereby, the PDA 1 can delete the history registered in the database based on the user's instruction.
[0252]
Note that the history deletion process described above can be executed based on the user's instruction even when the user does not bring the non-contact IC card 146 close to the reader device 37 in the polling mode 262 as described above. . Thereby, the user can delete the history information recorded in the PDA 1 more easily.
[0253]
Further, as described above, in the history deletion process, the confirmation screen is displayed many times. As a result, it is possible to prevent the user from deleting history information by mistake, to prolong the work time, and to prevent unauthorized deletion processing by a third party.
[0254]
As described above, the PDA 1 can read, manage, and display the history information of the non-contact IC card 146 using the reader device 37 more safely and more preferably.
[0255]
Note that a plurality of applications can be stored in the storage area such as the storage unit 139 of the PDA 1 as long as the storage capacity permits. As shown in FIG. 2, the user selects from these applications. Can be executed.
[0256]
That is, the PDA 1 can store applications for other types of non-contact IC cards 146 in addition to the application for managing and displaying the history information of the specific non-contact IC card 146 described above.
[0257]
In this way, the user can select an application to be activated according to the type of the non-contact IC card 146, and the PDA 1 can correspond to a plurality of non-contact IC cards 146.
[0258]
In such a case, the process executed by the corresponding application may differ depending on the type of the non-contact IC card 146.
[0259]
Hereinafter, an application (IC card viewer B) that performs processing different from that of the above-described application (IC card viewer A) will be described.
[0260]
In the case of the IC card viewer B, unlike the case of the IC card viewer A, the PDA 1 uses the reader device 37 to read history information and the like stored in the non-contact IC card 146 adjacent thereto, and this non-contact IC Only the balance information of the electronic money charged in the card 146 is displayed.
[0261]
Even when this application (IC card viewer B) is executed, the CPU 131 makes a transition between a plurality of modes as in the case of the above-described application (IC card viewer A), and performs processing corresponding to each mode in each mode. Do.
[0262]
FIG. 39 is a diagram showing a state of mode transition by executing an application (IC card viewer B).
[0263]
In FIG. 39, the CPU 131 executes the application (IC card viewer B) to shift from the off mode 361 where the application is not executed to the polling mode 362, and controls the reader device 37 to approach the reader device 37. A process for detecting the contactless IC card 146 is performed.
[0264]
Then, the PDA 1 shifts to a balance display mode 363 based on a user instruction, and displays the acquired balance information on the LCD 28.
[0265]
That is, in the case of this application (IC card viewer B), unlike the case of FIG. 9, there is no mode corresponding to the history display / save mode 264 and the history deletion mode 265.
[0266]
In the off mode 361, the power of the reader device 37 is turned off, and the PDA 1 does not perform processing for performing communication with the non-contact IC card 146 or displaying history information on the LCD 28.
[0267]
In the off mode 361, when the user operates the touch pen 35 and presses the soft button 41-11 of “IC card viewer B” on the GUI as shown in FIG. 2 displayed on the LCD 28, the input unit 137 The information is supplied to the CPU 131 via the bus 134. Based on the operation, the CPU 131 reads and executes an application (IC card viewer B) corresponding to the operation stored in the storage unit 139 or the like.
[0268]
The startup process executed by the CPU 131 at this time is the same as the startup process described with reference to the flowchart of FIG.
[0269]
That is, when the application (IC card viewer B) is activated, the CPU 131 performs initialization processing of the reader device 37, shifts to the polling mode when the initialization processing is normally completed, and displays an error screen when the initialization processing fails. Display, and the application (IC card viewer B) is terminated.
[0270]
The CPU 131 of the PDA 1 that has performed the above-described activation process and has shifted from the off mode 361 to the polling mode 362 in FIG. 39 next performs a process of detecting the contactless IC card 146 that is in close proximity.
[0271]
The polling process executed in the polling mode 362 is basically the same as that described with reference to the flowcharts of FIGS.
[0272]
That is, first, in step S21, the CPU 131 controls the display control unit 136 to display the initial screen 371 as shown in FIG.
[0273]
In FIG. 40, an initial screen 381 displays a message “Please hold the card over the reader unit so as not to cover the logo.” According to the message, the user inserts the non-contact IC card 146 into the reader device. 37.
[0274]
Note that an upward arrow display switching button 371A is displayed on the lower right side of the initial screen 281. The user presses the display switching button 371A (tap the display switching button 371A using the touch pen 35). Thus, the CPU 131 controls the display control unit 136 to switch the display size of the initial screen 371 so that the initial screen 371 and the character input area 29 are simultaneously displayed on the LCD 28 as shown in FIG. it can.
[0275]
In the state of FIG. 41, when the user presses down the display switching button 371A of the downward arrow, the CPU 131 controls the display control unit 136 to display the initial screen 371 on the LCD 28 in the state as shown in FIG.
[0276]
The CPU 131 that has displayed the initial screen 21 as described above controls the reader device 37 in step S22 of FIG. 12, and controls the contactless IC card 146 that is close to the reader device 37 on the surface 13-1. , IC card detection signal is output.
[0277]
In step S23, the CPU 131 determines whether or not there is a communicable non-contact IC card 146 within the communicable range. If it is determined that the communicable non-contact IC card 146 exists, the CPU 131 advances the processing to step S24, Supply the encryption key (decryption key) corresponding to the card type and request IC card information.
[0278]
In step S24, as described above, the CPU 131 supplies an encryption key (decryption key) of the type targeted by the application (IC card viewer B) to the close contactless IC card 146 as described above. IC card information that is information about the non-contact IC card 146 including the ID number assigned to the contact IC card is requested.
[0279]
When the contactless IC card 146 for which the IC card information is requested is a type of IC card corresponding to the application, it is encrypted and stored using the encryption key (decryption key) supplied from the reader device 37. The IC card information is decrypted and supplied to the reader device 37.
[0280]
When the non-contact IC card 146 close to the reader device 37 is a type of IC card that does not correspond to the application, the non-contact IC card 146 uses the encryption key (decryption key) acquired from the reader device 37 to encrypt the card. Since the stored IC card information cannot be decrypted, the IC card information request from the reader device 37 cannot be responded, or an error response is made.
[0281]
Based on the response (presence / absence) from the non-contact IC card 146 as described above, the CPU 131 determines in step S25 in FIG. It is determined whether or not there is. When the reader device 37 acquires the IC card information supplied from the non-contact IC card 146 and determines that the IC card is the target type of IC card, the CPU 131 proceeds to step S26 to control the reader device 37. Then, history information including balance information regarding the balance of electronic money and the like is acquired from the non-contact IC card 146.
[0282]
Then, in step S27, the CPU 131 turns off the power of the reader device 37 that has completed the communication process. In step S28, the CPU 131 shifts the mode from the current polling mode to the balance display mode, and ends the polling process.
[0283]
In step S25, the response to the IC card information request cannot be obtained from the adjacent non-contact IC card 146 or an error response is acquired, and the adjacent non-contact IC card 146 is not the target of the application. If the CPU 131 determines that the IC card is a card, the CPU 131 proceeds to step S29 and does not respond by supplying an encryption key (decryption key) of a non-target type in the same manner as in step S24 described above. Request type of IC card information. When requesting a plurality of types, the CPU 131 repeats the process of step S29 for each type.
[0284]
In step S30, if a response to the above-described processing is obtained from the non-contact IC card 146 and it is determined that the type of IC card is not a target, the CPU 131 advances the processing to step S31 and completes the communication processing. The power source 37 is turned off, and a reading error screen as shown in FIG. 42 is displayed on the LCD 28 in step S32.
[0285]
In FIG. 42, the LCD 28 displays a reading error screen 372 so as to be superimposed on the initial screen 371. On the reading error screen 372, a message “Reading has failed. Check that the card is compatible with IC card viewer B and hold the card correctly over the reader.” And an OK button 373 to be pressed after the user confirms the message. Is displayed.
[0286]
In step S33 of FIG. 12, the CPU 131 controls the touch panel 36 to determine whether or not the user has pressed the OK button 373, and waits until it is determined that the user has pressed the button.
[0287]
When it is determined that the user has pressed the OK button 373 and confirmed that it is a reading error, the CPU 131 turns on the reader device 37 in step S34, returns the process to step S22, and the subsequent processes. repeat.
[0288]
If it is determined in step S23 that there is no communicable IC card, the CPU 131 advances the processing to step S41 in FIG. 13 and determines whether or not a predetermined time has elapsed.
[0289]
If it is determined that a predetermined time has elapsed, the CPU 131 proceeds to step S42, turns off the reader device 37, and displays a card detection error screen as shown in FIG. 43 in step S43. indicate.
[0290]
In FIG. 43, the LCD 28 displays a card detection error screen 374 superimposed on the initial screen 371. On the card detection error screen 374, the message “Card is not found. Are you sure you want to exit the application? Are you sure?” And when the user presses, the termination of the application (IC card viewer B) is instructed. OK button 375 and a cancel button 376 for canceling the end of the application (IC card viewer B) when pressed by the user.
[0291]
In step S44, the CPU 131 controls the touch panel 36 to determine whether or not the user has instructed to end the application by pressing the OK button 375 in FIG. 43. Then, after the application is terminated and the mode is shifted to the off mode 361, the polling process is terminated.
[0292]
If it is determined in step S44 that the user has not pressed the OK button 375 and the end is not instructed, the CPU 131 advances the process to step S46, and the user presses the cancel button 376. It is determined whether the application termination is canceled and polling is resumed. When determining that the user has not pressed the cancel button 376 and has not instructed the resumption of polling, the CPU 131 returns the process to step S44 and repeats the subsequent processes. If it is determined in step S46 that the user presses the cancel button 376 and the polling is resumed, the CPU 131 returns the process to step S34 in FIG. 12, and repeats the subsequent processes.
[0293]
That is, the CPU 131 waits until the user operates the OK button 375 or the cancel button 376 on the card detection error screen 374 in FIG. 43, and when pressed, executes processing based on an instruction corresponding to the button. To do.
[0294]
If it is determined in step S30 in FIG. 12 that the non-contact IC card 146 in proximity to the reader device 37 is not the type of IC card that is not an application target, the process proceeds to step S42 in FIG. The subsequent processing is repeated.
[0295]
If it is determined in step S41 that the predetermined time has not elapsed, the CPU 131 returns the process to step S22 in FIG. 12, and repeats the subsequent processes.
[0296]
As described above with reference to FIG. 39, since the history deletion mode does not exist in the IC card viewer B, the processes in steps S47 to S49 in FIG. 13 are omitted.
[0297]
That is, in the polling process, the CPU 131 waits until an IC card capable of communication exists while outputting an IC card detection signal. If no IC card capable of communication is detected for a predetermined time, the card detection error screen 374 is displayed. Is displayed on the LCD 28, and a user instruction is accepted.
[0298]
When a communicable IC card is detected, the CPU 131 detects the type of the IC card, and when corresponding to an application, acquires the history information from the non-contact IC card 146 and enters the balance display mode 363. Transition.
[0299]
When it is determined that the non-contact IC card 146 that is in close proximity does not support the application, the CPU 131 displays a reading error screen 372 and accepts a user instruction.
[0300]
That is, the CPU 131 executes processing corresponding to the type of each card, such as displaying a different screen on the LCD 28 depending on the type of the non-contact IC card 146 detected by the reader device 37. Thus, when an error occurs, the CPU 131 can display the cause of the error on the LCD 28 in more detail, and the user can easily understand what was inappropriate.
[0301]
Also, as shown in FIG. 39, in order to start the application from the off mode 361 where the application is not started and to execute processing such as displaying a balance, which will be described later, the user in the polling mode 362 in FIG. In addition, a polling process as shown in the flowchart of FIG. 13 must be performed to detect a valid non-contact IC card 146.
[0302]
Thereby, it can suppress that the history information of the non-contact IC card 146 is browsed by a third party.
[0303]
As described above, the CPU 131 shifted from the polling mode 362 in FIG. 39 to the balance display mode 363, and then the latest electronic money charged in the contactless IC card 146 based on the acquired history information. A balance display process for displaying balance information is executed.
[0304]
The balance display process by the PDA 1 will be described with reference to the flowcharts of FIGS. Further, description will be made with reference to FIGS. 46 to 49 as necessary.
[0305]
First, in step S171, the CPU 131 displays a balance display screen as shown in FIG. 46 on the LCD 28, and in step S172, the IC card information and history information acquired from the non-contact IC card 146 close to the reader device 37. The balance display information to be displayed on the balance display screen is generated. In step S173, the display control unit 136 is controlled to display the generated balance display information on the balance display screen. Display start sound is output from the speaker.
[0306]
46, the balance display screen 381 displayed on the LCD 28 displays the balance of electronic money charged in the adjacent non-contact IC card 146 based on the history information acquired by the process of step S26 of FIG. IC card balance information 382 regarding the current card remaining amount ¥ 620) is displayed. By this display, the user can grasp the current electronic money balance of the non-contact IC card 146.
[0307]
The balance display screen 381 further displays a return button 383 for instructing the transition to the polling mode when the user presses (tap) the balance display screen 381. As described above, since the transaction information is not managed or displayed in the IC card viewer B, the balance display screen 381 includes buttons corresponding to the history button 294 of the balance display screen 291 in FIG. Not provided.
[0308]
A timeout counter 384 indicating the remaining display time of the balance display screen 381 is displayed at the top of the balance display screen 381. The balance display screen 381 is displayed for a predetermined time (for example, 30 seconds). The time-out counter 384 is composed of an indicator whose display changes every time the remaining display time decreases, and a message “T seconds until display end” (T is the remaining time (in the example of FIG. 46, in seconds)). Has been. By displaying the timeout counter 384, the user can grasp the remaining display time of the balance display screen 381.
[0309]
As will be described later, the user presses the return button 383 within a predetermined time (for example, 30 seconds) after the balance display screen 381 as described above is displayed, and instructs to shift to the polling mode. When the display time of the balance display screen 381 exceeds a predetermined time (for example, 30 seconds), a display end screen as described later is displayed on the LCD 28.
[0310]
In addition, in the lower right corner of the LCD 28 in FIG. 46, an up arrow display switching button 381A is displayed that switches the display size of the displayed balance display screen 381 when pressed (tapped) by the user. In the state of FIG. 46, when the user presses this display switching button 381A, the CPU 131 controls the display control unit 136 to switch the display size of the balance display screen 381, and as shown in FIG. The balance display screen 381 and the character input area 29 are displayed simultaneously.
[0311]
In the state shown in FIG. 47, when the user presses down the display switching button 381A of the downward arrow (taps on the display switching button 381A of the LCD 28), the CPU 131 controls the display control unit 136 to display the balance display screen. The display size of 381 is switched to the state shown in FIG.
[0312]
Returning to FIG. 44, the CPU 131 that has displayed the balance display screen 381 as described above by the processing of steps S171 to S174 proceeds to step 175 and controls the timeout counter 384 on the balance display screen 381 to control the display of the timeout counter 384. Processing is executed, and processing related to display time counting is performed.
[0313]
In step S176, the CPU 131 determines whether or not a predetermined time (for example, 30 seconds) has elapsed. If it is determined that the predetermined time has not elapsed, the CPU 131 advances the process to step S177.
[0314]
In step S177, the CPU 131 determines whether or not the user has instructed the transition to the polling mode 362, and the user has not pressed the return button 383 in FIG. 46 (or FIG. 47) (the return button on the LCD 28). If it is determined that the transition to the polling mode 362 is not instructed, the process proceeds to step S178.
[0315]
In step S178, the CPU 131 determines whether or not the user has instructed switching of the balance display screen 381, and the user presses the display switching button 381A in FIG. 46 (or FIG. 47) (display on the LCD 28). If it is determined that the display of the balance display screen 381 has been instructed, the process proceeds to step S179, the display size of the balance display screen 381 is switched as described above, and then step S175 is performed. The processing is returned to and the subsequent processing is repeated.
[0316]
If it is determined in step S178 that the user has not pressed the display switching button 381A shown in FIG. 46 (or FIG. 47) and switching of the display size of the balance display screen 381 is not instructed, the CPU 131 proceeds to step S179. The process is omitted, the process returns to step S175, and the subsequent processes are repeated.
[0317]
As described above, the CPU 131 controls the display control unit 136 to repeat the processing of steps S175 to S179, and displays the balance display screen 381 on the LCD 28 for a predetermined time (for example, 30 seconds).
[0318]
If it is determined in step S177 that the user has pressed the return button 383 in FIG. 46 (or FIG. 47) (tap on the return button 383 on the LCD 28) and the transition to the polling mode 362 has been instructed, the CPU 131 Advances the process to step S180, shifts the mode from the balance display mode 363 of FIG. 39, which is the current mode, to the polling mode 362, and ends the balance display process.
[0319]
After the balance display screen 381 is displayed for a predetermined time as described above, when it is determined in step S176 that the predetermined time has elapsed, the CPU 131 advances the process to step S191 in FIG.
[0320]
In step S191 in FIG. 45, the CPU 131 controls the display control unit 136 to display the display end screen as shown in FIG. 48 on the LCD 28 instead of the balance display screen 381 displayed on the LCD 28.
[0321]
In FIG. 48, on the display end screen 386 displayed on the LCD 28, a message 387 “Display has been completed” and “If you want to display again, please try again.” With this message 387, the user can grasp that the balance display has ended, and can understand the operation to be performed next.
[0322]
On the display end screen 386, in addition to the message 387, a return button 383 and a timeout counter 384 are displayed. The timeout counter 384 is displayed in a time-out state.
[0323]
The user confirms that the balance display screen 381 has been displayed on the display end screen 386, presses the return button 383, and instructs to shift to the polling mode 362.
[0324]
48, a display switching button 386A for switching the display size of the display end screen 386 when the user presses is displayed at the lower right corner of the LCD 28 in FIG. In the state of FIG. 48, when the user presses the display switch button 386A of the upward arrow, the CPU 131 controls the display control unit 136 to change the display size of the display end screen 386 to the display size as shown in FIG. The display end screen 386 and the character input area 29 are displayed on the LCD 28 at the same time.
[0325]
In the state of FIG. 49, when the user presses down the display switching button 386A of the downward arrow, the CPU 131 controls the display control unit 136 to switch the display size of the display end screen 386 to the state shown in FIG.
[0326]
That is, each time the user presses the display switching button 386A, the display size of the display end screen 386 changes and is alternately switched to the display size as shown in FIG.
[0327]
Returning to FIG. 45, the CPU 131 that has displayed the display end screen 386 as described above on the LCD 28 by the process of step S <b> 191 determines whether or not the user has instructed the transition to the polling mode 362 in step S <b> 192.
[0328]
If it is determined that the user has not pressed the return button 383 in FIG. 48 (or FIG. 49) and the transition to the polling mode 362 has not been instructed, the CPU 131 leaves the balance display mode 363 as the mode, The process proceeds to step S193, and it is determined whether or not the user has instructed switching of the display.
[0329]
When the user depresses the display switching button 386A of FIG. 48 (or FIG. 49) (by tapping on the display switching button 386A of the LCD 28), it is determined that switching of the display size of the display end screen 386 is instructed. In step S194, the CPU 131 controls the display control unit 136 to change the display size of the display end screen 386 displayed on the LCD 28 to the state shown in FIG. 49 when the state shown in FIG. If so, the state is switched to the state shown in FIG. 48, the process returns to step S192, and the subsequent processes are repeated.
[0330]
If it is determined in step S193 that display switching is not instructed, the CPU 131 omits step S194, returns to step S192, and repeats the subsequent processing.
[0331]
As described above, the CPU 131 waits until the user presses the return button 383 while repeating the processing of steps S192 to S194.
[0332]
In step S192, when the user depresses the return button 383 (by tapping on the return button 383 of the LCD 28) and determines that the transition to the polling mode 362 is instructed, the CPU 131 performs the process in FIG. Proceeding to step S180, the current mode is shifted from the balance display mode 363 of FIG. 39 to the polling mode 362, and the balance display process is terminated.
[0333]
As described above, the CPU 131 executes the balance display process as described above in the balance display mode of FIG. 39, and stores the balance information of the non-contact IC card 146 close to the reader device 37 for a predetermined time (for example, For 30 seconds). When the predetermined time has elapsed, the CPU 131 controls the display control unit 136 to display the display end screen 386 on the LCD 28 instead of the balance display screen 381.
[0334]
By doing in this way, even when the user brings the non-contact IC card 146 close to the reader device 37 in the polling mode 362 and loads the IC card information and history information into the PDA 1, a predetermined time is determined. Since the balance information is only displayed, it is possible to prevent the third party from viewing the balance information, for example, by leaving the PDA 1 while the balance information is displayed.
[0335]
Further, by limiting the display time of the balance display screen 381 displayed in the balance display mode 363, the PDA 1 displays the IC card information and history information of the non-contact IC card 146 read in the polling mode 362 more safely. can do.
[0336]
As described above, even in this application (IC card viewer B), the PDA 1 can read and display the history information of the non-contact IC card 146 using the reader device 37 more safely and more suitably. it can.
[0337]
That is, the PDA 1 performs processing corresponding to a plurality of types of non-contact IC cards 146 by selecting and executing a target application from a plurality of applications stored in the storage unit 139 or the like. In addition, different processes using the non-contact IC card 146 can be performed.
[0338]
In the above description, the application is selected to be activated by the user. However, the present invention is not limited to this. For example, the type of the non-contact IC card 146 to which the PDA 1 is adjacent in the polling mode is determined. On the basis of this, an application corresponding to the contactless IC card 146 that is brought close may be selected and activated.
[0339]
The CPU 131 of the PDA 1 can detect a plurality of types of non-contact IC cards 146 in the polling process, perform different processes according to the types of the detected non-contact IC cards 146, and display different screens. This has been described with reference to the flowcharts of FIGS.
[0340]
Similarly, the CPU 131 performs different processing according to the detected type of the non-contact IC card 146 and starts different applications, so that the PDA 1 is brought into proximity as described above. An application corresponding to the contact IC card 146 can be selected and activated.
[0341]
After the application selected as described above is activated, the same processing as described above may be performed, and the description thereof is omitted.
[0342]
At present, the standard of the non-contact IC card 146 is not unified, and the communication method and the like vary depending on the manufacturer. For example, the ID number whose specifications are unified to the non-contact IC card 146 of each company. It is also possible to start an application corresponding to the non-contact IC card 146 of another company, and further, the non-contact IC card 146 in the polling process described with reference to the flowcharts of FIGS. Processing related to the type determination can also be performed more easily.
[0343]
That is, in the polling process described with reference to the flowcharts of FIGS. 12 and 13, the CPU 131 first determines whether or not a communicable non-contact IC card 146 is detected, and the communicable non-contact IC card 146. Is detected, the type of the non-contact IC card 146 is further determined. When the ID number having the same specification is assigned to the non-contact IC card 146, the CPU 131 is allowed to approach the ID number. It is possible to detect that the non-contact IC card 146 is approached only by obtaining it from the non-contact IC card 146 and to determine the type of the card.
[0344]
In the above, the case where the history information of the non-contact IC card 146 is managed and displayed using the PDA 1 has been described. However, any information processing apparatus having the above-described configuration and capable of executing the above-described series of processes. The model is not limited. For example, a mobile terminal such as a notebook personal computer, a mobile phone, a personal computer, or a home appliance may be used.
[0345]
In the above description, a non-contact IC card has been described as an IC card that refers to history information. Further, the information read, managed, and displayed by the PDA 1 from the non-contact IC card 146 is described as history information of commercial transactions using the non-contact IC card 146. However, the present invention is not limited to this. Any information may be used as long as it is stored in the memory.
[0346]
Furthermore, in the example described above, the memory mounted in the slot 64 is the memory card 143, but there is no limitation as long as the recording medium can accommodate the slot 64. For example, although not shown, other semiconductor memories, magnetic disks, optical disks, magneto-optical disks, etc. may be used.
[0347]
When a series of processing is executed by software, a program constituting the software is installed on the PDA 1 from a network or a recording medium. However, the recording medium is not only directly attached to the PDA 1, but may be attached to another device as necessary. In this case, the program is installed in the PDA 1 when the other device and the PDA 1 communicate with each other.
[0348]
As shown in FIG. 5, this recording medium is distributed not only for the apparatus main body but also for the semiconductor memory such as the memory card 143 storing the program, which is distributed in order to supply the program to the user. However, for example, a magnetic disk (including a floppy disk), an optical disk (including a CD-ROM (compact disk-read only memory), a DVD (digital versatile disk)), or a magneto-optical disk (MD (mini-disk)) Etc.). Furthermore, it is configured by a ROM 132 storing a program, a storage unit 139 as a hard disk, and the like supplied to the user in a state of being incorporated in the apparatus main body in advance.
[0349]
In the above, the processing shown in each flowchart is executed by the CPU 131 of FIG. 5 by software, but it is executed by hardware by preparing hardware for executing each processing. Of course, it is possible.
[0350]
Further, in the present specification, the step of describing the program recorded on the recording medium is not limited to the processing performed in chronological order according to the described order, but may be performed in parallel or It also includes processes that are executed individually.
[0351]
【The invention's effect】
As described above, according to the present invention, information can be recorded, managed, and displayed. In particular, processing relating to recording and display of usage history information of the IC card can be executed more suitably and safely.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an example of a front configuration of a PDA to which the present invention is applied.
FIG. 2 is a perspective view showing an example of an image displayed on the LCD of the PDA of FIG.
3 is a diagram showing an example of an image displayed in a character input area of the LCD of the PDA in FIG. 1. FIG.
4 is a perspective view showing a configuration example of the back surface of the PDA in FIG. 1. FIG.
FIG. 5 is a block diagram showing an example of the internal configuration of the PDA shown in FIG. 1;
6 is a block diagram illustrating a detailed configuration example of the reader device in FIG. 5;
7 is a block diagram illustrating a configuration example of a contactless IC card corresponding to the reader device of FIG. 5;
8 is a diagram showing an example of specifications of the non-contact IC card of FIG.
9 is a schematic diagram showing an example of mode transition when the IC card viewer A is executed in the PDA of FIG. 1; FIG.
FIG. 10 is a flowchart illustrating an example of activation processing.
11 is a diagram showing a configuration example of an error screen displayed on the LCD of the PDA of FIG. 1. FIG.
FIG. 12 is a flowchart illustrating an example of polling processing.
FIG. 13 is a flowchart following FIG. 12 for explaining an example of polling processing;
14 is a diagram showing a configuration example of an initial screen displayed on the LCD of the PDA in FIG. 1. FIG.
15 is a diagram showing another configuration example of the initial screen displayed on the LCD of the PDA in FIG. 1. FIG.
16 is a diagram showing a configuration example of a read error screen displayed on the LCD of the PDA in FIG. 1. FIG.
17 is a diagram showing a configuration example of a card detection error screen displayed on the LCD of the PDA of FIG. 1. FIG.
FIG. 18 is a flowchart illustrating an example of a balance display process.
FIG. 19 is a flowchart illustrating an example of the balance display process, following FIG.
20 is a diagram showing a configuration example of a balance display screen displayed on the LCD of the PDA in FIG. 1. FIG.
FIG. 21 is a diagram showing another configuration example of a balance display screen displayed on the LCD of the PDA of FIG. 1;
22 is a diagram showing a configuration example of a display end screen displayed on the LCD of the PDA in FIG. 1. FIG.
FIG. 23 is a diagram showing another configuration example of a display end screen displayed on the LCD of the PDA of FIG.
FIG. 24 is a flowchart for explaining history information display / save processing;
25 is a flowchart continued from FIG. 24 for explaining history information display / save processing.
26 is a diagram showing a configuration example of a history display screen displayed on the LCD of the PDA of FIG. 1. FIG.
27 is a diagram showing another configuration example of a history display screen displayed on the LCD of the PDA in FIG. 1. FIG.
FIG. 28 is a diagram showing still another configuration example of a history display screen displayed on the LCD of the PDA of FIG.
FIG. 29 is a diagram showing still another configuration example of a history display screen displayed on the LCD of the PDA in FIG. 1;
30 is a diagram showing a configuration example of a history storage confirmation screen displayed on the LCD of the PDA in FIG. 1. FIG.
FIG. 31 is a schematic diagram showing how database information is updated by the storage unit of the PDA of FIG. 1;
FIG. 32 is a flowchart for explaining history deletion processing;
FIG. 33 is a flowchart following FIG. 32 for explaining history deletion processing;
34 is a diagram showing a configuration example of a history deletion screen displayed on the LCD of the PDA in FIG. 1. FIG.
FIG. 35 is a diagram showing another configuration example of a history deletion screen displayed on the LCD of the PDA in FIG. 1;
36 is a diagram showing a configuration example of a deletion error screen displayed on the LCD of the PDA of FIG. 1. FIG.
37 is a diagram showing a configuration example of a deletion confirmation screen displayed on the LCD of the PDA of FIG. 1. FIG.
38 is a diagram showing a configuration example of a deletion completion confirmation screen displayed on the LCD of the PDA in FIG. 1. FIG.
FIG. 39 is a schematic diagram showing an example of mode transition when the IC card viewer B is executed in the PDA of FIG. 1;
40 is a diagram showing still another configuration example of the initial screen displayed on the LCD of the PDA of FIG. 1. FIG.
FIG. 41 is a diagram showing still another configuration example of the initial screen displayed on the LCD of the PDA in FIG.
42 is a diagram showing another configuration example of the read error screen displayed on the LCD of the PDA of FIG. 1. FIG.
43 is a diagram showing another configuration example of the card detection error screen displayed on the LCD of the PDA in FIG. 1. FIG.
FIG. 44 is a flowchart illustrating another example of balance display processing.
FIG. 45 is a flowchart following FIG. 44 for explaining another example of the balance display process.
46 is a diagram showing still another configuration example of the balance display screen displayed on the LCD of the PDA in FIG. 1. FIG.
47 is a diagram showing still another configuration example of the balance display screen displayed on the LCD of the PDA in FIG. 1. FIG.
FIG. 48 is a diagram showing still another configuration example of the display end screen displayed on the LCD of the PDA in FIG.
49 is a diagram showing still another configuration example of the display end screen displayed on the LCD of the PDA in FIG. 1. FIG.
[Explanation of symbols]
1 PDA, 28 LCD, 36 touch panel, 37 reader device, 131 CPU, 136 display control unit, 139 storage unit, 146 non-contact IC card, 261 off mode, 262 polling mode, 263 balance display mode, 264 history display / storage mode 265, history deletion mode, 271 error screen, 281 initial screen, 282 reading error screen, 284 card detection error screen, 291 balance display screen, 296 display end screen, 301 history display screen, 307 history storage confirmation screen, 320 database, 341 History deletion screen, 348 deletion error screen, 351 deletion confirmation screen, 354 deletion end confirmation screen, 361 off mode, 362 polling mode, 363 balance display mode, 371 initial screen, 372 reading error screen, 374 card detection error screen, 381 balance display screen, 387 display end screen

Claims (8)

In an information processing apparatus that communicates with an IC card capable of recording information and displays information corresponding to the IC card on a predetermined display unit,
IC card detection means for detecting the IC card in a communicable state;
Type discrimination means for discriminating the type of the IC card detected by the IC card detection means,
Based on the determination result by the type determination unit, when the IC card is a legitimate type card, a first acquisition unit that acquires information stored in the IC card;
Accepting means for accepting user input;
When an instruction to display information corresponding to the IC card is received as the user input by the receiving unit, the identification information of the IC card included in the information acquired by the first acquiring unit is stored from a database. Second acquisition means for acquiring correspondingly registered information ;
Creating means for creating new information to be displayed on the display means by combining the information obtained by the first obtaining means and the information obtained by the second obtaining means;
When the registration means of the information displayed on the display means is accepted as the user input by the accepting means, the new information created by the creating means is associated with the identification information of the IC card. An information processing apparatus comprising: registration means for registering in the database. The information acquired by the first acquisition unit, the information acquired by the second acquisition unit, and the new information generated by the generation unit include history information of the commercial transaction of the IC card. The information processing apparatus according to claim 1. When an instruction to display information corresponding to the IC card is accepted as the user input by the accepting means, the display means is controlled to control the new means created by the creating means for a predetermined time. Information display control means for displaying various information ,
A remaining time counting means for counting the remaining display time of the new information ,
The information processing control unit according to claim 1, wherein the information display control unit controls the display unit to display the remaining display time counted by the remaining time counting unit together with the new information. apparatus. The information processing apparatus according to claim 3, wherein the information display control unit displays the remaining display time by an indicator or a message. The apparatus further comprises a sounding means for reporting a predetermined sound in synchronization with the start of display of the new information under the control of the information display control means and notifying the start of display of the new information. 3. The information processing apparatus according to 3. A decryption key for decrypting information stored in the IC card , encrypted using a different encryption key for each type of the IC card, for the IC card detected by the IC card detection means And a decryption key supply means for supplying
The information processing apparatus according to claim 1, wherein the type determination unit determines the type of the IC card based on a response from the IC card to the supply of the decryption key by the decryption key supply unit. . An information processing method of an information processing apparatus that communicates with an IC card capable of recording information and displays information corresponding to the IC card on a predetermined display means,
An IC card detection step for detecting the IC card in a communicable state;
A type determining step for determining the type of the IC card detected by the processing of the IC card detecting step;
A first acquisition control step for controlling acquisition of information stored in the IC card when the IC card is a valid type of card based on the determination result of the type determination step;
An acceptance control step for controlling acceptance of user input;
When an instruction to display information corresponding to the IC card is received as the user input controlled by the process of the reception control step, the information is controlled and acquired from the database by the process of the first acquisition control step. A second acquisition control step for controlling acquisition of information registered corresponding to the identification information of the IC card included in the information ;
The first of the information obtained is controlled by the processing of the acquisition control step, and, by combining the information obtained is controlled by the processing of the second acquisition control step, the newly to be displayed on said display means and the creation step to create such information,
When the registration instruction of the information displayed on the display means is received as the user input controlled by the process of the reception control step, the new information created by the process of the creation step is changed to the IC And a registration step of registering in the database in correspondence with the card identification information . In a program for performing communication with an IC card capable of recording information and causing a computer to perform processing for displaying information corresponding to the IC card on a predetermined display means,
An IC card detection step for detecting the IC card in a communicable state;
A type determining step for determining the type of the IC card detected by the processing of the IC card detecting step;
A first acquisition control step for controlling acquisition of information stored in the IC card when the IC card is a valid type of card based on the determination result of the type determination step;
An acceptance control step for controlling acceptance of user input;
When an instruction to display information corresponding to the IC card is received as the user input controlled by the process of the reception control step, the information is controlled and acquired from the database by the process of the first acquisition control step. A second acquisition control step for controlling acquisition of information registered corresponding to the identification information of the IC card included in the information ;
The first of the information obtained is controlled by the processing of the acquisition control step, and, by combining the information obtained is controlled by the processing of the second acquisition control step, the newly to be displayed on said display means and the creation step to create such information,
Wherein as the user input is controlled by processing in reception control step, when the registration instruction of the information displayed on the display means is received, the new information generated by the processing of the creation step, the IC And a registration step of registering in the database in correspondence with the card identification information .

Images