JP2007142808A - Radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To cope with the point at issue deteriorating a communication state, lowering a transfer rate between a door-horn master machine and a door-horn sub-master machine, and deteriorating the qualities of a sound signal and a picture signal due to the effect of noises in a radio communication between the door-horn master machine and the door-horn sub-master machine. <P>SOLUTION: In a radio communication system, the radio communication using a Bluetooth (R) or the like is conducted between a master machine and a sub-master machine for a television door horn system. In the system, the master machine side has a temporary storage means for the picture signal, a field-strength change detecting means for detecting the change of an electric field strength between the mutual master machine and sub-master machine, and a means for controlling a frame rate. In the system, the sub-master machine side has a sub-master machine picture processor extending a picture. In the system, the picture signal from the door-horn slave machine is stored automatically in a picture-signal memory means fitted to the master machine side, while properly controlling the frame rate in response to the detection of the change of the electric field strength in the radio communication on the master machine side. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a wireless communication system, and more particularly to a wireless communication system used for a wireless television door phone system or the like that performs voice and image signal communication wirelessly.

Conventionally, a door phone system is used in a detached house or a condominium. This type of door phone system includes a door phone slave unit, a door phone master unit, and a door phone sub master unit.
The door phone master unit is installed indoors, and can respond by voice while viewing the image of the visitor and the received voice of the visitor by the door phone slave unit with a camera installed outdoors. The door phone sub-base unit is installed indoors, and can communicate with the door phone base unit and make a voice response while viewing an image on a monitor.

  For communication between the doorphone master unit and the doorphone sub-master unit, a wired doorphone system using wiring connection and a wireless doorphone system using radio are used.

  The following Patent Document 1 is known as a system that wirelessly communicates images and sounds between a doorphone master unit and a sub-master unit. FIG. 4 shows a configuration diagram of the system described in Patent Document 1. By wirelessly communicating between the doorphone master unit and the doorphone submaster unit, when the doorphone submaster unit is installed or added, Provide a system that does not require wiring work.

In addition, the previous application filed by the present applicant (Japanese Patent Application No. 2005-131101) is disclosed in a wireless communication system that performs wireless communication using Bluetooth or the like between a master unit and a sub-master unit of a TV door phone system. Field strength change detecting means for detecting a change in the electric field strength in wireless communication between the wireless device and the sub master device, and from the master device side to the sub master device side according to the detection of the change in the electric field strength in the wireless communication. A wireless communication system for automatically storing an image signal from a doorphone slave unit to be transmitted to image signal memory means provided on the master unit side is disclosed.
JP 2000-224316 A

  However, in the wireless communication between the door phone master unit and the door phone sub master unit in the wireless door phone system used in the conventional TV door phone, the communication state deteriorates due to radio wave interference in an indoor installation place or a microwave oven, etc. There is a problem in that the quality of the audio signal and the image signal is deteriorated due to the lowering of the transfer rate between the machine and the door phone sub-master and the influence of noise. In the invention disclosed in the previous application, it is not possible to control the frame rate at the time of transmitting the image signal from the door phone slave unit from the master unit to the sub master unit.

  The present invention has been made to solve the above-described problems, and automatically stores image signals being transmitted from the doorphone master unit to the doorphone sub-master unit in the transmission side device when the communication system is used. To control the storage status of the data to be stored and prevent unnecessary data from being left, effectively utilizing the limited memory capacity, and automatically changing the communication status between the doorphone master unit and the doorphone sub-master unit If the communication state deteriorates, the communication state can be maintained while appropriately controlling the frame rate of the image signal being transmitted. For example, wireless communication applicable to an indoor wireless doorphone system The purpose is to provide a system.

  In addition, even when the communication between the doorphone master unit and the doorphone sub-master unit is interrupted, the present invention describes, for example, who the visitor was and what action was taken regarding the visitor image content at that time. An object of the present invention is to provide an indoor wireless communication system used for a TV door phone that can be used to confirm crime prevention safety and the like later.

  In order to achieve the above object, a wireless communication system according to the present invention is a wireless communication system that performs wireless communication between a master unit and a sub-master unit of a television doorphone system. Main unit image processing unit that performs image compression, image signal memory means that temporarily stores the image signal, and electric field strength change detection that detects a change in electric field strength in wireless communication between the parent unit and the sub-base unit A sub master image processing unit that performs image expansion on the sub master device side, and transmitting the image signal from the doorphone slave device to the sub master device side on the master device side. An image transfer rate control means for controlling a frame rate, and the master unit appropriately controls the frame rate of the image signal in response to detection of a change in electric field strength in the wireless communication on the master unit side. ~ side The image signal from the intercom slave to be transmitted to et the sub base-side, automatically and storing, in the image signal memory means of the base-side.

  The wireless communication system of the present invention is preferably wirelessly connected between the parent device and the sub-main device using a frequency hopping spread spectrum wireless transmission technology (Bluetooth (registered trademark)) using a 2.4 GHz band radio wave. It is characterized by performing communication. In this case, it is possible to use a radio transmission system of a band that is normally used.

  In the wireless communication system of the present invention, preferably, on the base unit side, a video decoder that converts the image signal, an image compression unit that performs the image compression, and transmission / reception of the image signal are performed by wireless communication means. A radio control unit; a microcomputer that controls the image signal processing and the radio control unit; an electric field strength detection unit that detects an electric field strength of the communication signal; and an error information detection unit. An image expansion unit that performs the image expansion; a wireless control unit that wirelessly transmits and receives the image signal; a microcomputer that performs control of the image signal processing and control of the wireless control unit; Electric field strength detecting means for detecting electric field strength, bit error rate detecting means, and display means for displaying the frame rate of the image being communicated. Based on the detection results of the electric field strength detection means and the error information detection means or the bit error rate detection means obtained by observing the communication status between the parent machines from each other, the sub-parent A frame rate of the image signal from the door phone slave unit to be transmitted to the device side is appropriately controlled, and an image communication state is displayed at a speed of the frame rate. In this case, since the image communication state can be displayed at the frame rate, the user can visually check the image communication state.

Further, the wireless communication system of the present invention is preferably configured to transmit the image signal from the doorphone slave unit transmitted from the master unit side to the sub master unit side in response to detection of a change in electric field strength in the wireless communication. The image signal memory is configured to automatically delete the stored image data from the image signal memory means when communication between the parent device and the sub-parent device is completed without interruption while appropriately controlling a frame rate. Memory control means for controlling the means is provided.
In this case, unnecessary data can be prevented from being stored in the image signal memory means.

  In the wireless communication system of the present invention, preferably, a hold button is added to the sub-master device side, and the display of the display means for displaying the frame rate of the image signal being communicated is displayed. When the wireless communication status between the parent devices is not good, the wireless communication between the parent device and the sub-parent device is temporarily interrupted by pressing the hold button. In this case, if the wireless communication status is not good, the wireless communication is temporarily interrupted, and the user moves to the base unit during that time, or moves the sub base unit to a place with good communication status. Thus, the call can be resumed while checking the video of the visitor in good condition.

  In the wireless communication system of the present invention, preferably, when the hold button is pressed on the sub-master side, the entrance handset is informed to the visitor by voice or music. Features. In this case, when the hold button is pressed and the call between the master unit and the door phone slave unit is put on hold by the hold control means, the visitor can be informed that the call is put on hold by voice or music. The visitor can pause the conversation, and when the call is resumed with the doorphone cordless handset by pressing the hold button, the visitor can resume the conversation from the conversation at the time of the interruption. Can be resumed.

  In the wireless communication system of the present invention, preferably, when the wireless communication between the parent device and the sub-parent device is interrupted for some reason, the holding sound automatically flows to the entrance child device on the parent device side. It is characterized in that it can be selected to set control in advance. In this case, when communication between the main unit and the sub-base unit is interrupted without any prior notice, the visitor tries to continue the call without knowing the situation. You can let your visitors know.

  According to the wireless communication system according to the present invention, when the communication system is installed or used, a change in the communication state between the doorphone master unit and the doorphone sub-master unit is automatically detected, and when the communication state deteriorates, The image signal during communication is automatically stored in the memory at the transmitting device, and the image signal when the communication state is interrupted and the call is interrupted can be confirmed later. Applicable to door phone system.

  The wireless communication system of the present invention uses Bluetooth (registered trademark), which is an example of a wireless communication system, for communication between the doorphone master unit and the doorphone sub-master unit, and informs the user that the wireless communication state is bad, It is possible to check the communication environment status of the communication system, and the communication system can always be maintained in a favorable environment.

  This Bluetooth is a radio transmission technology of a frequency hopping / spread spectrum method using a 2.4 GHz band radio wave that can be freely used without a license. For example, the maximum transmission speed in the specification 1.0 is 1 Mbps.

Moreover, the wireless communication system of the present invention minimizes the degradation of the image signal and maintains the transmission of the image signal as much as possible, and when the communication is interrupted due to some cause and the transmission of the image signal cannot be maintained. The image signal that was about to be transmitted is automatically stored in the memory device, and the image can be confirmed afterwards, so that it is possible to confirm the visitor and to confirm safety for crime prevention. It is. The wireless communication system of the present invention can be preferably used as a wireless television door phone system.
Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 shows a wireless television door phone system which is Embodiment 1 of the wireless communication system of the present invention. The wireless TV door phone system of FIG. 1 generally includes a parent device 40 and a sub-parent device 41. In the parent device 40, 42 is a parent device video decoder, 43 is a parent device image compression unit, 44 is a parent device image compression processing memory, 45 is a parent device image compression method selection unit, 46 is a parent device microcomputer, and 47 is a parent device. 50 is a base unit signal processing unit, 48 is a base unit reception signal processing unit, 49 is a base unit transmission unit, 50 is a base unit reception unit, 51 is a base unit transmission / reception selector switch, 52 is a base unit error information detection unit, and 53 is A base unit radio control unit, 54 is a base unit antenna, 37 is a display unit, 18 is a field strength detection unit, and 69 is a field strength change detection unit.

On the other hand, in the sub master unit 41, 55 is a sub master unit image decompression unit, 56 is a sub master unit image decompression processing memory, 57 is a sub master unit image decompression method selection unit, 58 is a sub master unit microcomputer, and 59 is a sub master unit. A signal processing unit for transmitting a master unit, 60 a signal processing unit for receiving a sub unit, 61 a sub unit transmitting unit, 62 a sub unit receiving unit, 63 a sub base unit transmission / reception changeover switch, and 64 a sub base unit electric field An intensity detection unit, 65 is a sub-base unit bit error rate detection unit, 66 is a sub-base unit radio control unit, 67 is a sub-base unit antenna, 38 is a sub-base unit display unit, and 73 is a field strength change detection unit.
Both base unit radio control unit 53 and sub base unit radio control unit 66 preferably adopt a Bluetooth baseband chip.

  The master unit 40 receives an image signal such as an NTSC (National Television Standards Committee) signal from a door phone slave unit (not shown), and transmits the image signal to the sub master unit 41. A case where a Bluetooth ACL (Asynchronous Connection Oriented) link is used for communication between the sub-base unit 41 and the sub-base unit 41 will be described below.

  An image signal such as an NTSC signal from the door phone slave unit is input to the master unit video decoder 42 as a door phone slave unit image input, and this image signal is converted into an image signal (digital signal) such as a YUV signal by the master unit video decoder 42. Is done.

  The image signal converted by the master video decoder 42 is output to a monitor (not shown) such as an LCD (Liquid Crystal Display) and sent to the master image compression unit 43. The image signal sent to the master image compression unit 43 is compressed using the master image compression processing memory 44. As an image compression method for this compression, it is desirable to use a JPEG (Joint Photographic Experts Group) encoding method or an MPEG-4 (Moving Picture Experts Group Phase 4) encoding method.

  The compressed image signal is taken into the parent microcomputer 46 using the I / O port of the parent microcomputer (hereinafter, microcomputer is an abbreviation for microcomputer) 46. The image signal captured by the base unit microcomputer 46 is sent to the base unit transmission signal processing unit 47 in the base unit radio control unit 53 via a logical interface such as UART (Universal Asynchronous Receiver Transmitter).

  In base unit transmission signal processing unit 47, an error detection code is added to the image signal, and the image signal to which the error detection code is added is subjected to encryption processing, data whitening processing, and error correction coding processing. . The image signal that has been subjected to signal processing is modulated by the parent device transmission unit 49 and transmitted from the parent device antenna 54 via the parent device transmission / reception changeover switch 51. A signal transmitted from base unit antenna 54 is received by sub base unit antenna 67.

  The signal received by the sub master antenna 67 is sent to the sub master receiver 62 via the sub master transmission / reception changeover switch 63 in the sub master radio controller 66 and received by the sub master receiver 62. The signal is demodulated. The demodulated image signal is sampled according to the detected timing, and then subjected to processing corresponding to each function of error correction, reverse whitening, decryption, and error detection in the sub master reception signal processing unit 60. . The image signal subjected to the signal processing by the sub master unit reception signal processing unit 60 is taken into the sub master microcomputer 58 via a logical interface such as UART. The image signal captured by the sub master microcomputer 58 is sent to the sub master image decompression unit 55.

  The image signal sent to the master image decompression unit 55 is decompressed using the sub master image decompression processing memory 56. As the image expansion method, the JPEG encoding method or the MPEG-4 encoding method is desirable. The expanded image signal is output to a monitor (not shown) such as an LCD.

  At this time, when the image signal is transmitted from the parent device 40 to the sub-parent device 41 as described above, the parent device 40 detects the electric field strength of the signal received via the antenna 54 and the parent device transmission / reception selector switch 51. This is performed by the base unit electric field intensity detection unit 18. The level of the electric field strength is represented by an RSSI (Received Signal Strength Indicator) value, the RSSI value is detected, and the detection result is sent to the parent microcomputer 46.

  In the sub master unit 41, the sub master unit field strength detection unit 64 detects the electric field strength of the signal received via the antenna 67 and the sub master unit transmission / reception selector switch 63. The level of the electric field strength is represented by an RSSI value. This RSSI value is detected, and the detection result is sent to the sub master microcomputer 58. In this way, the RSSI value is observed in the mutual device of the parent device 40 and the sub parent device 41, and the parent device 40 and the sub parent device 41 respectively perform necessary control as appropriate.

  On the other hand, when the image signal is transmitted from the parent device 40 to the sub parent device 41, the detection of the bit error rate of the signal received via the sub parent device antenna 67 and the sub parent device transmission / reception selector switch 63 This is performed by the sub master bit error rate detection unit 65 through the signal processing unit 60. The bit error rate is detected by detecting CRC (Cyclic Redundancy Check) data and sending the detection result to the sub-master microcomputer 58.

  Furthermore, if the communication state between the parent device 40 and the sub parent device 41 is good in the monitor such as an LCD (liquid crystal display device) of the display unit 38 under the control of the sub parent device microcomputer 57, the frame rate at that time is displayed. The value is displayed. When the communication state is not established or the communication cannot be maintained, for example, an image is not transmitted to the monitor of the display unit 38, and the monitor is controlled to be turned off because there is no image.

  Thus, the display on the display unit 38 indicates to the user that the wireless doorphone system is operating (communication is possible or is in communication), or that the device is not in an operating state due to an abnormality or failure of the communication environment. It is possible to notify in a visible form, and to make it easier for the user to determine the operation status.

FIG. 2 shows a flowchart of electric field strength detection, bit error rate detection and display control, which are frame rate control operations under the control of the sub master microcomputer 58.
In the flowchart of FIG. 2, first, in step S1, the electric field strength and the bit error rate of the signal transmitted from the parent device 40 to the sub-parent device 41 are detected. In step 2, it is determined whether or not the communication state between the parent device 40 and the sub parent device 41 can be maintained. If the communication state can be maintained, the frame rate at that time is displayed using the display unit 38 in step 3 as the operation state. Display the value.

  The display content at this time represents, for example, a frame rate value as a numerical value at the right corner of the monitor. In addition, it is not a numerical value, but it can be a character such as “good”, “strong”, “weak”, a symbol such as ○, x, etc. Good. If it is not in the communication state in step 2, since no image is transmitted to the display unit 38 in step 11, the display unit 38 is turned off and the control flow is terminated.

  In step S4, it is determined whether or not the detected electric field strength and bit error rate are lower than a preset threshold value. If the electric field strength is lower than the threshold level in step S4, it is determined that the communication state is not good, and image recording is started in the master image signal memory unit 68 in step S5.

If the electric field strength and bit error rate detected in step S4 are higher than a preset threshold value, it is determined that the communication state is good, and in step S6, the automatic image in the master image signal memory unit 68 is determined. The recording is terminated, and the process returns to step S1 in order to continue communication.
At this time, since the communication state is good, the frame rate is the maximum value.

  If the communication state is not good in step S4 and image recording is started in the master image compression memory unit 68, the bit error rate is compared with the reference value in step S7. In S8, the frame rate is reduced to reduce the amount of transmission data, thereby reducing the occurrence of communication errors as much as possible and maintaining communication.

On the other hand, when the bit error rate is equal to or higher than the reference value, in step S9, the frame rate is increased in order to realize good image transmission, and control is performed so that smooth moving image transmission is performed.
Next, in step S10, the bit error rate measurement value at that time is replaced with a bit error rate reference value, which is used as a reference for comparison with the next observation result.

In this way, the frame rate is appropriately controlled based on the transition of the observed value of the bit error rate, and the moving image is controlled as best as possible while maintaining the communication state.
Further, when communication data is stored in the master image signal memory unit 68 in the master unit 40 of FIG. 1, the communication between the master unit 40 and the sub master unit 41 ends normally, that is, on the sub master unit 41 side. When the communication end operation is performed, the microcomputer 46 controls to delete the data stored in the master image signal memory unit 68. As a result, unnecessary video data for which a call has been completed is stored in the master image signal memory unit 68 having a finite data storage capacity value, thereby causing a reduction in the remaining data storage capacity in the master image signal memory unit 68. Can be prevented.

A second embodiment of the present invention will be described with reference to FIG.
In the second embodiment of FIG. 3, the following elements are added to the first embodiment of FIG. A base unit hold button 71 is added to the base unit 40, and a sub base unit hold button 72 is added to the sub base unit 41. If the wireless communication status between the master unit 40 and the sub master unit 41 is not good due to the frame rate display of the sub master unit display unit 38 that displays the frame rate of the image being communicated, the sub master unit is suspended. When the button 72 is pressed, the master microcomputer 46 controls communication between the master unit 40 and the sub master unit 41 so that wireless communication between the master unit 40 and the sub master unit 41 is temporarily interrupted.

  As a result, the wireless communication between the parent device 40 and the sub parent device 41 can be temporarily interrupted, and during that time, the user can move to the parent device 40 or the sub parent device in a place with good communication state. It is possible to resume the call while moving the machine 41 and confirming the video of the visitor in a good state.

  At this time, when the main unit microcomputer 46 confirms that it has entered the hold state, the voice data is sent from the voice data memory 75 to the front cordless handset (the door phone cordless handset installed at the front door, not shown). It transmits via the process part 74, and notifies a visitor that communication is on hold in the door inside. As a result, the visitor temporarily interrupts the conversation, and when the call is resumed by pressing the master unit hold button 71 or the sub master unit hold button 72, the visitor starts from the conversation at the time of the interruption. Since the call can be resumed, the call can be resumed smoothly.

  Further, when the hold setting switch 70 of the parent device 40 is pressed and the wireless communication between the parent device 40 and the sub parent device 41 is interrupted for some reason due to a signal from the error information detection unit 52, the parent device microcomputer It can be set in advance that 46 automatically controls transmission of audio data from the audio data memory 75 to the entrance unit. As a result, when communication between the parent device 40 and the sub-parent device 41 is interrupted without any prior notice, the visitor tries to continue the call without knowing the situation, so the call is temporarily interrupted by the hold sound. You can let your visitors know.

  In the second embodiment of the present invention, preferably, Bluetooth is used as the wireless transmission method, and the transmission signal from the parent device 40 is received by the sub-parent device 41 in the communication of the image signal using the Bluetooth ACL link. The strength level can be detected and the bit error rate can be detected.

  Data transferred by controlling the frame rate of the image when transferring the image signal by detecting the electric field strength level and the bit error rate when the communication state between the parent device 40 and the sub-parent device 41 deteriorates. Even if the transfer rate drops due to the deterioration of the communication state, the amount of data to be transferred is reduced, the amount of data to be transferred is reduced, and the communication state is smoothed while suppressing the deterioration of the image signal. be able to.

  Furthermore, by displaying the communication status on the display unit as a frame rate value, the wireless doorphone system is operating (communication is possible or in communication) to the user, or the device is in an operating status due to an abnormality or failure in the communication environment. It is possible to easily notify the user of the operating condition of the door phone by informing the user that there is no such information.

  Further, in FIG. 1, during the communication between the master unit 40 and the sub master unit 41 that is performed by the sub master unit 41 via the master unit 40 in response to the visitor from the door phone slave unit, A change in the electric field strength level output from the machine electric field strength detecting unit 18 is detected by the parent machine electric field strength change detecting unit 69. The detection result is notified to the base microcomputer 46, and when the base microcomputer 46 determines that the communication state is not good, the frame rate is controlled to reduce the amount of transmission data and the image to be transmitted to the sub base 41 side. The base unit microcomputer 46 controls the base unit image signal memory unit 68 so that the signal data is temporarily stored in the base unit image signal memory unit 68.

  As a result, the visitor's image is recorded on the parent device 40 side while maintaining the communication state. Even when the call with the visitor is interrupted for some reason, the visitor's image is recorded on the parent device 40 side.

  Since the visitor does not know that the communication between the indoor parent device and the sub parent device has been interrupted, there is no response from the indoor parent device 40 or the sub parent device 41. I will leave without leaving. When the device user moves to the parent device 40 side, it can be confirmed later by the video that the visitor has come at the parent device 40.

  In addition, after the communication environment between the parent device 40 and the sub parent device 41 is restored, it can be confirmed on the video that a visitor has come from the sub parent device 41. In addition, even when a call is made between the parent device 40 and the sub-parent device 41, it is possible to check an image during a period in which communication is interrupted later. Thereby, even when there is no information such as a voice message, it is possible to confirm who the visitor is and to confirm safety in crime prevention.

FIG. 1 is a configuration diagram showing Embodiment 1 of the wireless door phone system of the present invention. FIG. 2 is a flowchart showing the quantization table selection means and display control on the sub-master unit side in the image communication of the wireless door phone system of the first embodiment of the present invention. FIG. 3 is a diagram of a system configuration example showing a second embodiment of the wireless door phone system of the present invention. FIG. 4 is a diagram of a configuration example of a conventional television door phone system.

Explanation of symbols

18 Electric field strength detection unit (electric field strength detection means)
37 Main unit display section (display means)
38 Sub-master display (display)
40 Master 41 Sub-Master 42 Master Video Decoder (Master Image Processing Unit)
43 Master image compression unit (Master image processing unit)
44 Master Unit Image Compression Processing Memory 45 Master Unit Image Compression Method Selection Unit 46 Master Unit Microcomputer (Image Transfer Rate Control Unit)
47 Base unit transmission signal processing unit 48 Base unit reception signal processing unit 49 Base unit transmission unit 50 Base unit reception unit 51 Base unit transmission / reception changeover switch 52 Base unit error information detection unit (error information detection means)
53 Master unit radio control unit 54 Master unit antenna 55 Sub master unit image expansion unit (sub master unit image processing unit)
56 Memory for sub master image expansion processing (sub master image processor)
57 Sub master image expansion method selection unit (sub master image processing unit)
58 Sub-base unit microcomputer 59 Sub-base unit transmission signal processing unit 60 Sub-base unit reception signal processing unit 61 Sub-base unit transmission unit 62 Sub-base unit reception unit 63 Sub-base unit transmission / reception changeover switch 64 Sub-base unit electric field strength detection unit (Field strength detection means)
65 Sub-base unit bit error rate detection unit (bit error rate detection means)
66 Sub master radio control unit 67 Sub master antenna 68 Master image signal memory unit (image signal memory means)
69 Base unit electric field strength change detection section (electric field strength change detection means)
70 Hold setting switch 71 Master unit hold button 72 Sub master unit hold button 73 Sub master unit electric field strength change detection unit 74 Audio output processing unit 75 Audio data memory

Claims (7)

In a wireless communication system that performs wireless communication between the master unit and the sub master unit of the TV door phone system,
In the base unit side, a base unit image processing unit that performs digital conversion and image compression of the image signal, image signal memory means for temporarily storing the image signal, and wireless communication between the base unit and the sub base unit Electric field strength change detecting means for detecting a change in electric field strength of the image, and an image transfer speed control means for controlling a frame rate when transmitting the image signal from the door phone slave unit to the sub master unit side,
The sub master unit includes a sub master image processing unit that performs image expansion,
In the base unit, the door phone is transmitted from the base unit side to the sub base unit side while appropriately controlling the frame rate of the image signal in response to detection of a change in electric field strength in the wireless communication. A wireless communication system, wherein the image signal from a machine is automatically stored in the image signal memory means on the parent machine side.   2. The wireless communication system according to claim 1, wherein wireless communication is performed between the parent device and the sub-master device by a frequency hopping / spread spectrum wireless communication unit using a 2.4 GHz band radio wave. The base unit includes a video decoder that converts the image signal, an image compression unit that performs the image compression, a wireless control unit that transmits and receives the image signal by wireless communication means, and control of the image signal processing; A microcomputer for controlling the wireless control unit, an electric field intensity detecting means for detecting an electric field intensity of the communication signal, and an error information detecting means,
On the sub-master side, an image expansion unit that performs the image expansion, a wireless control unit that wirelessly transmits and receives the image signal, a microcomputer that controls the image signal processing and the wireless control unit, and An electric field strength detecting means for detecting the electric field strength of the image signal, a bit error rate detecting means, and a display means for displaying the frame rate of the image during communication;
Based on the detection results of the electric field strength detection means and the error information detection means or the bit error rate detection means obtained by observing the communication status between the master unit and the sub-master unit mutually, 2. The frame rate of the image signal from the doorphone slave unit transmitted from the machine side to the sub-master unit side is appropriately controlled, and the image communication state is displayed by the speed of the frame rate. The wireless communication system according to 2.   While appropriately controlling the frame rate of the image signal from the doorphone slave unit to be transmitted from the master unit side to the sub master unit in response to detection of a change in electric field strength in the wireless communication, Memory control means is provided for controlling the image signal memory means so that the stored image data is automatically deleted from the image signal memory means when communication between the sub-masters is completed without interruption. The wireless communication system according to claim 1 or 2.   When a hold button is added on the side of the sub-base unit and the wireless communication status between the base unit and the sub-base unit is not good due to the display of the display means for displaying the frame rate of the image signal being communicated The wireless communication system according to claim 3 or 4, wherein the wireless communication between the parent device and the sub-parent device is temporarily interrupted by pressing the hold button.   6. The wireless communication system according to claim 5, wherein when the hold button is pressed on the side of the sub-base unit, the entrance side unit is informed to the visitor side by voice or music. .   It is set in advance that when the wireless communication between the base unit and the sub-base unit is interrupted for some reason, the base unit automatically controls the hold sound to flow to the entrance unit. The wireless communication system according to claim 5, wherein the wireless communication system can be selected.