JP5289015B2 - Memory card reading control device and program - Google Patents

Description

  The present invention relates to a memory card reading control device and a program for reading in parallel a plurality of memory cards that record at least one of video information and operation information recorded by an in-vehicle device.

  Recorded data such as video information and operation information recorded by the drive recorder body on the vehicle side needs to be transferred to a playback device (for example, a personal computer) for browsing, analysis and storage. The recording data is transferred using a memory card such as an SD card (Secure Digital Memory Card) or a CF card (Compact Flash Card) in which data is recorded, and through a card reader connected to the playback device (for example, Patent Document 1).

JP-A 63-16785

  A conventional system employs a configuration in which one card reader is connected to one reproducing apparatus. Therefore, even if it is necessary to read a large amount of memory cards at a time in a large-scale system, the reading process is performed for each memory card. It is necessary to increase the number of card readers that read the memory card by increasing the number, or to constantly monitor the reading status in order to perform card replacement work every time reading of the memory card is completed.

  Regardless of whether the number of playback devices is increased or when the reading status is constantly monitored, the load on the reading operator increases, and it is difficult to collect recorded data in a large-scale system in the conventional system. In particular, when reading a plurality of memory cards in which recording data such as video information and operation information is recorded at a time, a memory card in which both a vehicle number and a crew number are recorded, one of the vehicle number and the crew number is There are mixed memory cards in which neither the recorded memory card nor the crew number of the vehicle number is recorded. When the vehicle number or the crew number is not written on the memory card, it is necessary to newly input the vehicle number or the crew number in order to read the memory card, which makes it difficult to collect recorded data.

  An object of the present invention is to provide a memory card reading control device and a program that can easily read a plurality of memory cards that record at least one of video information and operation information recorded by an in-vehicle device without increasing the number. Is to provide.

Memory card reader control apparatus according to the present invention, a vehicle in each of the reading means and, multiple memory cards of reading a plurality of memory cards for recording at least one parallel of the operation information and video information recorded by the vehicle unit If the information and crew information is recorded together, read - parallel reading and Rio execution of a plurality of memory cards by means of at least one of the at least one of the plurality of memory cards of the crew information and vehicle information Control means for controlling to start reading the memory card after either or both of the vehicle information and the crew information not recorded in the memory card are input when not being recorded in one memory card ; It is characterized by having.

A memory card reading control program according to the present invention is a memory card reading control program readable by a computer, and the program records at least one of video information and operation information recorded by an in-vehicle device by a computer. a reading step of reading a plurality of memory cards in parallel, if each vehicle information and crew information multiple memory cards are recorded together, parallel read and Rio execution of a plurality of memory cards by a computer, the vehicle If at least one of the information and the crew information is not recorded on at least one of the plurality of memory cards, either the vehicle information not recorded on the memory card and the crew information or Read both memory cards after both have been entered A control step of controlling so as to initiate, characterized in that to the execution.

  According to the present invention, when one memory card reading control device reads a plurality of memory cards in parallel, the plurality of memory cards are read in parallel according to the presence or absence of vehicle information or crew information of each of the plurality of memory cards. Therefore, a plurality of memory cards can be easily read without increasing the number of memory card reading control devices.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. The technical scope of the present invention is not limited to these embodiments, but covers the invention described in the claims and equivalents thereof. Moreover, it is also possible to implement with the form which added the various change in the range which does not deviate from the meaning of this invention.

  First, information recording in the drive recorder will be described. FIG. 1 is a diagram showing an example in which a drive recorder 2 is mounted on a vehicle 1. A drive recorder 2 is installed in the vehicle 1 and is connected to a first camera 3 that captures the front of the vehicle 1 and a second camera 4 that captures the rear of the vehicle 1. Video information from the first camera 3 and the second camera 4 is cyclically stored in the semiconductor storage unit 15 in the drive recorder 2. The video information stored in the semiconductor storage unit 15 is recorded in the memory card 6.

  In addition to the video information, the drive recorder 2 acquires operation information including vehicle speed information and the like, and cyclically stores it in the semiconductor storage unit 15 in the drive recorder 2. The operation information is recorded on the memory card 6 together with the video information in association with the video information. Details of the operation information will be described later.

  FIG. 2 is a diagram illustrating an example in which the drive recorder 2 is installed in the vehicle 1. The drive recorder 2 is, for example, fixed to the end of the center panel at the lower left side of the handle, and the first camera 3 (and the second camera 4 not shown in FIG. 2), a GPS sensor 9, a vehicle speed sensor 10 (not shown), It is electrically connected to a battery 21 (not shown), an in-vehicle display unit 30 and the like. The first camera 3 is attached to the front glass surface on the back side of the vehicle interior mirror, images the front of the vehicle, and transmits video information to the drive recorder 2.

  FIG. 3 is a perspective view of the main body of the drive recorder 2. The drive recorder 2 includes a microphone 7, a photographing switch 8, a power switch 20, an LED 25, a buzzer 26, an unillustrated opening / closing sensor 27, an opening / closing knob 31 and the like. The microphone 7 collects sound in the vehicle 1. The photographing switch 8 is used for various inputs for initialization of the drive recorder 2 and the like. The LED 25 and the buzzer 26 have a function of notifying the user of the status of the drive recorder 2 by generating light emission, warning sound, or the like.

  After the memory card 6 is inserted into a slot constituting the I / F 11 to be described later, the open / close knob 31 is slid and positioned to protect the memory card 6 (situation in FIG. 3). When removing the memory card 6, the open / close knob 31 is slid in the direction of arrow A. Further, the drive recorder 2 has an open / close sensor 27 that is linked to the open / close knob 31. When the open / close knob 31 is slid to the upper part of the memory card 6 (the state shown in FIG. 3), the drive recorder 2 is OFF indicating the closed state. A signal is output, and an ON signal indicating an open state is output in a state where the memory card 6 can be extracted.

  FIG. 4 is a diagram showing an example of the appearance of a playback device as a memory card reading control device. Video information, operation information, and the like recorded in the memory cards 6-1 to 6-K are reproduced by a reproduction device 400 configured by a personal computer or the like. Memory cards 6-1 to 6-K corresponding to the number of drives are inserted into an I / F connected to a personal computer, and video information, operation information, and the like are read. The user can investigate the running state of the vehicle or the cause of the accident by verifying the reproduced video information and operation information.

  FIG. 5 is a block diagram showing an electrical configuration of the drive recorder 2. The first camera 3 is controlled so as to photograph the front of the vehicle 1 and output an analog video signal as the first video information 500, for example, a CCD image sensor (Charge Coupled Device Image Sensor) or a CMOS as a two-dimensional image sensor. It consists of an image sensor (Complementary Metal Oxide Semiconductor Image Sensor).

  The second camera 4 is installed in the vehicle 1 as the second camera, and captures a different direction from the first camera 3 such as the rear of the vehicle or the passenger compartment, and outputs an analog video signal as the second video information 501. Be controlled. When only one camera is required, it is not necessary to connect the second camera 4 to the drive recorder 2.

  The acceleration sensor 5 is configured by a so-called G sensor (Gravity Accelerative Sensor) that detects the magnitude of an impact applied to the vehicle 1 as a gravitational acceleration. The acceleration sensor 5 is made of a semiconductor that generates an electric current based on the gravitational acceleration when receiving an impact, detects the magnitude of the gravitational acceleration in the longitudinal direction and the lateral direction of the vehicle, and outputs the gravitational acceleration information 502 to the CPU 24.

  The memory card 6 is a recording medium that is removable from the drive recorder 2, and is configured by an SD card (Secure Digital Memory Card) that is a programmable nonvolatile semiconductor memory card. Video information and operation information are recorded in the memory card 6. In addition, various information such as the vehicle ID, the unique ID of the memory card 6, the ID of the user (for example, a taxi crew member) who uses the memory card or the name data is separately recorded in the memory card 6. . Further, the memory card 6 is provided with a dip switch, and the memory card 6 can be set in a write-inhibited state by the operation of the dip switch.

  In this embodiment, an SD card is used as a removable storage medium. However, the present invention is not limited to this, and other removable memory cards (for example, a CF card (Compact Flash Card) or a memory) Stick etc.), a hard disk, etc. can also be used. Further, instead of the memory card 6, the drive recorder 2 can be used with a built-in hard disk. In this case, the drive recorder 2 is provided with a transmission circuit, and the video information and operation information recorded on the hard disk by wireless communication are used. What is necessary is just to comprise so that it may transmit to the reproducing | regenerating apparatus 400.

  The microphone 7 is electrically connected to the CPU 24, and is configured to collect sound inside or outside the vehicle 1 and transmit it to the CPU 24 as sound information 503. The audio information 503 is converted into a digital signal by an analog / digital converter in the CPU 24. Note that it is preferable to use a unidirectional microphone having high sensitivity on the front side of the microphone so as not to unnecessarily collect noise on the road.

  The photographing switch (photographing SW) 8 transmits a signal to the electrically connected CPU 24 when operated by the user. Thereby, the CPU 24 controls the video card information and the operation information stored in the second RAM 15 to be recorded in the memory card 6. Only the video information at the moment when the photographing SW 8 is operated may be recorded on the memory card 6.

  A GPS (Global Positioning System) receiver 9 receives radio signals including satellite orbits from a plurality of GPS satellites and time data from atomic clocks mounted on the satellites, and the time difference between the received radio waves By calculating the relative distance difference with each satellite, current location information is obtained. By capturing the radio waves of the three satellites, the position on the plane on the earth can be determined. When detecting the current location information, the GPS receiver 9 transmits GPS information 504 including position information and time information to the CPU 24.

  The vehicle speed sensor 10 is configured by a magnetic sensor or an optical sensor, and outputs the rotation of a rotor provided on the wheel shaft of the vehicle 1 as a rotation pulse signal 505. Note that the CPU 24 calculates speed information of the vehicle 1 by calculating the number of wheel rotations per unit time from the pulse signal received from the vehicle speed sensor 10.

  The interface (I / F) 11 also constitutes a slot for the memory card 6 provided in the drive recorder 2, a so-called slot portion. The I / F 11 transfers the recording information 506 including the video information and operation information transmitted from the drive recorder 2 to the inserted memory card 6, and the various information 507 stored in advance in the drive recorder 2 to the CPU 24. Forward.

  The video switch (hereinafter “video SW”) 12 is a switch for switching a camera to be photographed when a plurality of cameras are provided. In the present embodiment, the first camera 3 and the second camera 4 are connected, and one camera is selected by a selection signal 508 from the CPU 24. Video information from the selected camera is output to the image processing circuit 13 as selected video information 509. Note that the video SW 12 may be configured to have a clocking function so that switching is performed at regular time intervals.

  The image processing circuit 13 converts selected video information 509 input from the first camera 3 and the second camera 4 via the video SW 12 into a digital signal, and generates and outputs image data 510. The image processing circuit 13 is composed of JPEG-IC (Joint Photographic coding Experts Group-Integrated Circuit), and creates data in JPEG format. In this case, since JPEG-IC does not have a function of designating an address and outputting data, 30 files are written to a first RAM (Random Access Memory) 14 per second, and overwriting is performed for each file.

  The first RAM 14 temporarily stores the image data 510 converted by the image processing circuit 13. The first RAM 14 is connected to a DMA (Direct Memory Access) circuit in the CPU 24, and one out of three inputted images, that is, 10 files per second are transferred to the second RAM 15 by the DMA function and circulated. Memorized.

  The second RAM 15 cyclically stores the video information converted into image data by the image processing circuit 13 and the operation information. For example, SDRAM (Synchronous Dynamic Random Access Memory) is used for the first RAM 14 and the second RAM 15. Since SDRAM is designed to operate in synchronization with the CPU clock, it has a short I / O waiting time, and can be accessed faster than conventional DRAM (Dynamic Random Access Memory). This is because it is suitable for the control for processing the video data at a high speed.

  The nonvolatile ROM 16 stores a control program 17 and the like for comprehensively controlling the hardware resources constituting the drive recorder 2. A mask ROM may be used as the nonvolatile ROM 16, but a program can be written and erased by using a flash memory which is a programmable nonvolatile semiconductor memory, an EEPROM (Erasable Programmable Read Only Memory), a ferroelectric memory, or the like. It becomes possible.

  The control program 17 is stored in the non-volatile ROM 16 and is read by the CPU 24 when the drive recorder 2 is activated, and functions as a program for controlling each part and for data calculation processing. The accessory switch (ACC switch) 19 is electrically integrated with an engine start key cylinder provided in the vehicle 1. When the switch is turned on by the user's key operation, an accessory on signal 511 is transmitted to the CPU 24 and the power supply control circuit 22 of the drive recorder 2. When the drive recorder 2 receives the accessory on signal 511 of the ACC switch 19, the power is supplied from the power control circuit 22 and control is started. Note that an ignition key output signal (IG ON signal) can be used instead of the output signal of the ACC switch 19.

  The power switch (power SW) 20 transmits a power-on signal to the CPU 24 and the power control circuit 22 of the drive recorder 2 when the user performs a switch operation. This can be used when it is desired to operate the drive recorder 2 without turning on the ACC switch 17.

  The battery 21 is provided in the vehicle 1 and supplies power to the main body of the drive recorder 2. The battery supplies power to the power control circuit 22. The battery 21 may be any battery that can be installed in a vehicle and can generate an electromotive force of 12V. The power control circuit 22 supplies power from the battery 21 to the CPU 24 and each part of the drive recorder 2. Details of the power supply control circuit 22 will be described later.

  A CPU (Central Processing Unit) 24 operates as a control device of the drive recorder 2 and is configured by a microcomputer or the like. Based on the control program 17, the CPU 24 executes control of each part of the drive recorder 2 and data calculation processing.

  The LED 25 is lit while the drive recorder 2 is activated due to the supply of power from the CPU 24 and notifies the user that the drive recorder 2 is being activated. Further, when an abnormality occurs in the drive recorder 2, the CPU 24 performs predetermined blinking to notify the user of the occurrence of the abnormality.

  When an abnormality occurs in the drive recorder 2, the buzzer 26 is configured to generate a predetermined warning sound by the CPU 24 and notify the user of the occurrence of the abnormality. The open / close sensor 27 is configured to output an open signal and a close signal in accordance with the movement of the open / close knob 31 when the memory card 6 is inserted or removed. An RTC (Real Time Clock) 28 generates a signal corresponding to the current time and transmits it to the CPU 24.

  The display unit 30 is composed of a liquid crystal display or the like, and reproduces video information recorded on the memory card 6. Although FIG. 2 shows the case where the display of the navigation device mounted on the vehicle is used as the display unit 30, a separate display may be used as the display unit 30. The use of the display unit 30 makes it possible to verify the cause of the accident on the spot when an accident occurs. In any case, the drive recorder 2 preferably has an output port for outputting video information.

  Note that the drive recorder 2 is housed in the same housing as the first camera 3, the second camera 4, the GPS receiver 9, and / or the display unit 30 as an apparatus dedicated to video recording, and may be configured integrally. Good. The drive recorder 2 can also be configured as a function of the in-vehicle navigation device.

  FIG. 6 is a block diagram showing an electrical configuration of the power supply control circuit 22. The power supply control circuit 22 includes a first power supply circuit 40, a second power supply circuit 41, a third power supply circuit 42, a first detection unit 43, a second detection unit 44, a third detection unit 45, a backup battery 46, and the like. ing.

  The first power supply circuit 40 starts operating when the ACC switch 19 or the power switch 20 is turned on and functions as a constant voltage power supply that receives power from the battery 21 rated at 12.0V and outputs 6.0V. To do. The output from the first power supply circuit 40 is supplied to the first camera 3, the second camera 4, and the like.

  The second power supply circuit 41 functions as a constant voltage power supply that receives power from the 6.0 V rated first power supply circuit 40 and outputs 3.3V. The output from the second power supply circuit 41 is supplied to the JPEG circuit, the GPS receiver 9, the CPU 24, and the like that constitute the image processing circuit 13.

  The third power supply circuit 42 functions as a constant voltage power supply that receives power from the 3.3V rated second power supply circuit 41 and outputs 1.8V. The output from the third power supply circuit 41 is supplied to the CPU 24 and the like.

  The 1st detection part 43 detects the output voltage of the battery 21, and outputs the 1st voltage reduction signal S1 to CPU24, when the output voltage from the battery 21 falls below 8.0V. Further, the second detection unit 44 detects the output voltage of the first power supply circuit 40, and when the output voltage from the first power supply circuit 40 decreases to 3.7 V or less, the second detection voltage signal S2 is sent to the CPU 24. Output. Further, the third detection unit 45 detects the output voltage of the second power supply circuit 41, and outputs the reset signal S3 to the image processing circuit 13 when the output voltage of the second power supply circuit 41 decreases to 3.0 V or less. Each element is output to the JPEG circuit, the GPS receiver 9 and the CPU 24, and each element is reset to prevent malfunction due to a low voltage.

  The backup battery 46 is composed of two capacitors, and even when the output voltage of the battery 21 drops, the power that can drive at least the JPEG circuit, the GPS receiver 9 and the CPU 24 that constitute the image processing circuit 13 for a predetermined time. It is comprised so that it can supply. If an impact is applied to the vehicle due to a collision accident or the like, the battery 21 may be damaged, or the battery 21, the power control circuit 22, and the connection line may be disconnected. The backup battery 46 supplies the stored power to the CPU 24 and the like so that video information and the like being processed can be stored as much as possible even in such a case.

  FIG. 7 is a block diagram showing an electrical configuration of the playback device 400. Interfaces (I / F) 411-1 to 411 -K respectively corresponding to the memory cards 6-1 to 6 -K are insertion ports of the memory cards 6-1 to 6 -K provided in the playback device 400, so-called. The slot part is configured. The I / Fs 411-1 to 411 -K transfer video information, operation information, and the like recorded on the memory card 6 to the playback device 400 side.

  The RAM 414 is used for temporarily storing data when the CPU 424 performs image processing of video information transferred from the memory cards 6-1 to 6-K, information processing of operation information, and the like. For example, an SDRAM is used as the RAM 414.

  The nonvolatile ROM 416 stores a control program 417 and the like for comprehensively controlling the hardware resources constituting the playback device 400. As the nonvolatile ROM 16, for example, an EEPROM, a ferroelectric memory, or the like is used.

  The control program 417 is stored in the non-volatile ROM 416, and is read out to the CPU 424 when the playback device 400 is activated, and functions as a program for controlling each unit and data calculation processing.

  The CPU 424 as a control unit operates as a control device of the playback device 400 and is configured by a microcomputer or the like. Based on the control program 417, the CPU 424 executes control of each unit of the playback device 400, data calculation processing, and the like.

  The operation unit 430 includes a keyboard, a mouse, and the like, and is used as a means for performing an operation input to the CPU 424 when the user operates the playback device 400. The display unit 440 includes a liquid crystal display device and the like, and is used to appropriately display video information, operation information, and the like recorded on the memory card 6.

  The map information recording unit 450 is composed of a recording medium such as a hard disk or a DVD, and records map information including road information and speed limit information. The card information recording unit 460 is configured by a recording medium such as a hard disk and is used for recording video information, operation information, and the like recorded on the memory card 6.

The operation information is the following information.
1. Gravitational acceleration information (G1, G2) detected on each axis of the acceleration sensor 5.
2. Position information and time information of the vehicle 1 detected from the GPS receiver 9.
3. Speed information detected from the vehicle speed sensor 10.
4). ON / OFF information of the ACC switch 19.
In addition, you may make it include operation information, such as the lighting state of lights, such as a blinker, and the steering angle of a steering wheel, and the information regarding driving | running | working and driving | running | working of the vehicle 1, for example.

  FIG. 8 is a diagram showing a processing flow of parallel reading by the card reader. The processing flow shown in FIG. 8 is executed mainly by the CPU 424 of the playback apparatus 400 cooperating with each component of the playback apparatus 400 according to the control program 417.

  In FIG. 8, in order to read the first memory card 6-1 among K (K is an integer of 2 or more) memory cards 6-1 to 6-K, first, in step S1, the CPU 424 The counter (not shown) is set to 1.

  Next, in step S2, the CPU 424 determines whether or not the memory card 6-N is inserted in the I / F 411-N (N is an integer between 1 and K). Next, in step S3, the CPU 424 checks whether or not a vehicle number as vehicle information is recorded in the data recorded in the memory card 6-N.

  When the vehicle number is recorded, in step S4, the CPU 424 checks whether or not the crew number as crew information is recorded in the data recorded on the memory card 6-N. On the other hand, if the vehicle number is not recorded, in step S5, the status character on the screen of the display unit 440 is updated or the color of the status character is changed to notify the user that the vehicle number is not recorded. An alarm is issued by sounding through a speaker (not shown).

  When it is determined in step S4 that the crew number is recorded, in step S6, the CPU 424 starts reading the memory card 6-N. On the other hand, if it is determined that the crew number is not recorded, in step S7, the status character on the screen of the display unit 440 is updated or the status character is updated to notify the user that the crew number is not recorded. An alarm is generated by changing the color or by generating sound through a speaker (not shown).

  After reading the memory card 6-N in step S7, in step S8, the CPU 424 determines whether N is equal to K, that is, whether all the memory cards 6-1 to 6-K can be read. Judge whether or not. If N is not equal to K, 1 is added to a counter (not shown) in step S9 to determine whether or not the next memory card 6-N can be read, and the process returns to step S2. On the other hand, if N is equal to K, the process flow is terminated.

  At the end of the processing flow, the reading state (during processing, completion, before processing, etc.) of each memory card 6-1 to 6-K can be grasped by displaying the reading state on the display unit 440. If it is determined in step S2 that the memory card 6-N is not inserted, or after an alarm is issued in steps S5 and S7, the process proceeds to step S9.

  According to the processing flow shown in FIG. 8, since a plurality of I / Fs are recognized and read simultaneously by a single playback device, a plurality of reading ports can be read by a single playback device without adding additional playback devices. Can be secured. Therefore, it is freed from the replacement work of the memory card that has occurred in each read processing unit. In addition, since it is not necessary to constantly monitor the reading state of the memory card, another operation can be performed during the reading process of the memory card.

  When a plurality of memory cards 6-1 to 6-K are simultaneously inserted into the I / Fs 411-1 to 411-K, only the memory card on which both the vehicle number and the crew number are recorded is read first, A memory card in which at least one of the number and the crew number is not recorded can be read later by inputting the vehicle number or the crew number from the operation unit 430 as described later. Thereby, parallel reading of the memory card can be performed more efficiently.

  FIG. 9 is a diagram showing a processing flow of reading by the card reader according to the input when at least one of the vehicle number input and the crew number is not recorded on the memory card. The processing flow shown in FIG. 9 is performed when a memory card 6-N in which no vehicle number is recorded is inserted into the I / F 411-N. First, in step S11, the CPU 424 causes the operation unit 430 to execute the vehicle number. It is determined whether or not is input.

  If it is determined that the vehicle number has been input, in step S12, the CPU 424 determines whether or not the crew number has been input by the operation unit 30, and if it is determined that the vehicle number has not been input, Return to S11.

  When it is determined in step S12 that the crew number has been input, in step S13, the CPU 424 determines whether or not another memory card is being read, and it is determined that no crew number has been input. If so, the process returns to step S11.

  If it is determined in step S13 that the other memory card is not being read, in step S14, the CPU 424 starts reading the memory card 6-N and ends this processing flow. If it is determined that reading is in progress, the process returns to step S11.

  FIG. 10 is a diagram showing a display example of the reading status of the card reader. The display shown in FIG. 10 is performed by the display unit 440. On the left side of FIG. 10, the drive name, vehicle number, crew name, and reading status are shown. In this case, since the vehicle number is not recorded in the memory card inserted in the I drive, the drive name and the vehicle number are marked (for example, blinking, displayed in red letters), A comment “not entered” is added (step S5 in FIG. 8). Also, since the crew name is not recorded on the memory card inserted in the K drive, the drive name and crew name are marked (for example, blinking, displayed in red letters), and the reading status is “Enter crew name” A comment “Not done” is added (step S7 in FIG. 8).

  On the right side of FIG. 10, the details of the reading status of the FO drive (in this case, the F drive) are shown. As a result, the details of the reading status of each of the FO drives can be easily grasped.

It is a figure which shows the example which mounted the drive recorder in the vehicle. It is a figure which shows the example which installed the drive recorder etc. in the vehicle. It is a perspective view of a drive recorder main body. It is a figure which shows the example of an external appearance of a reproducing | regenerating apparatus. It is a block diagram which shows the electric constitution of a drive recorder. It is a block diagram which shows the electric constitution of a power supply control circuit. It is a block diagram which shows the electric constitution of a reproducing | regenerating apparatus. It is a figure which shows the processing flow of the processing flow of the parallel reading of a card reader. It is a figure which shows the processing flow of reading of the card reader according to those input, when at least one of a vehicle number input and a crew member number is not recorded on the memory card. It is a figure which shows the example of a display of the reading condition of a card reader.

Explanation of symbols

6-1 to 6-K memory card 400 playback device 411-1 to 411 -K interface (I / F)
414 RAM
416 Non-volatile ROM
417 Control program 424 CPU
430 Operation unit 440 Display unit 450 Map information recording unit 460 Card information recording unit

Claims (4)

Reading means for reading in parallel a plurality of memory cards that record at least one of video information and operation information recorded by the in-vehicle device,
If each vehicle information and crew information of the plurality of memory cards are recorded together, the parallel read Rio execution of a plurality of memory cards by said read - means, among the crew information and the vehicle information If at least one of the information is not recorded on at least one of the plurality of memory cards, one or both of the vehicle information and the crew information not recorded on the memory card are input. Control means for controlling to start reading the memory card after being
A memory card reading control device comprising: A computer-readable memory card reading control program, the program being read by a computer
A reading step of reading in parallel a plurality of memory cards that record at least one of video information and operation information recorded by the in-vehicle device;
If each vehicle information and crew information of the plurality of memory cards are recorded together is to read Rio executed in parallel the plurality of memory cards by a computer, at least one of said crew information and the vehicle information Is not recorded on at least one of the plurality of memory cards, after one or both of the vehicle information and the crew information not recorded on the memory card are input A control step for controlling to start reading the memory card ;
A memory card reading control program characterized in that   The memory card reading control program according to claim 2, further executing an alarm step of issuing an alarm when the computer detects that the vehicle information or crew information is not recorded in the memory card.   4. The memory card reading control program according to claim 2, further comprising a display step of displaying the reading status of the memory card by the computer.

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