JP2009118269A - Direction adjustment controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To adjust the receiving state of microwaves to be always good state, regardless of operator's level of skill. <P>SOLUTION: An FPU system has a function of remotely controlling rotation receivers 21, 31 so that a radio carrier wave transmitted from a transmitting station MS1, MS2 is properly received in a rotation receiver 21 of a base station BS1 and a rotation receiver 31 of the center CS by a direction adjustment operation terminal 51 provided in the center CS. The direction adjustment operation terminal 51 displays guide information on adjustment items which are subject to validation or adjustment besides information representing the received state of the rotation receivers 21, 31 on a display device 69. On this occasion, the terminal sets priority to the adjustment items displayed as the guide information and displays the guidance messages of the adjustment items according to the set priority in order. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a direction adjustment control device for remotely controlling a receiving direction of a receiving antenna of a base station, for example, in a system for relaying a broadcasting material such as a video at a coverage point to a broadcasting station by transmitting it to a broadcasting station.

  When broadcasting a news program or a sports program, broadcast materials such as images captured by a television camera at a coverage point are transmitted from a relay vehicle by microwaves, and this microwave is installed at a base, for example, on a mountaintop with good visibility. A transmission system is used in which the data is received at a station, further transmitted to the head office by microwaves, and recorded or broadcast.

By the way, in this type of transmission system, in order to transmit broadcast material with high quality, the receiving direction of the receiving antenna of the base station is accurately adjusted so that the microwave transmitted from the relay vehicle is reliably received by the base station. There is a need to. Therefore, the conventional system employs an FPU (Field Pick-up Unit) remote control system. This system is provided with a rotary receiving antenna capable of changing the receiving direction at a base station, a direction adjusting control device at the center of a broadcasting station, etc., and the receiving direction of the rotating receiving antenna is adjusted by an operator in the direction adjusting control device. Remote control is possible by operation. The FPU remote control system is provided with an adjustment support function, and information indicating a microwave reception state at the base station, for example, a received electric field level is displayed on the direction adjustment control device. Therefore, the operator can perform an operation for remote control while referring to the information indicating the displayed reception state.
JP 2005-73007 A

  However, the direction adjustment control device used in the conventional FPU remote control system simply displays information indicating the reception state of the microwave, such as the reception electric field level. For this reason, an operator who is unfamiliar with the adjustment work may not know what procedure and content adjustment operation should be performed by relying solely on the information indicating the displayed microwave reception state. Even an experienced operator cannot always perform an appropriate procedure or adjustment operation when there are many adjustment items, and as a result, the reception state may not be set to a good state. It was.

  The present invention has been made paying attention to the above circumstances, and its purpose is to adjust the direction in which the receiving state of the microwave in the receiving apparatus can always be adjusted to a good state regardless of the skill of the operator. It is to provide a control device.

  In order to achieve the above object, the present invention relates to a transmitter that wirelessly transmits an information signal arranged at a transmission point from an antenna having directivity, and a directivity of an information signal that is arranged at a reception point and wirelessly transmitted from the transmitter. In a direction adjustment control device for remotely controlling the reception direction of the antenna of the reception device in a transmission system having a reception device that receives the reception device with an antenna, information indicating the reception state of the information signal in the reception device is received. In addition to means for acquiring and displaying from the above and means for generating a remote control signal in response to an adjustment operation by the operator and transmitting the remote control signal to the receiving device to remotely control the receiving direction of the antenna of the receiving device And a guide information presentation control means. Then, the guide information presentation control means generates operation guide information for supporting the adjustment operation, and presents the generated operation guide information to the operator.

Therefore, according to the present invention, in the direction adjustment control device, not only information indicating the reception state in the reception device but also operation guide information for supporting the adjustment operation is presented to the operator. For this reason, even if the operator is unfamiliar or has a large number of adjustment items, it is possible to always perform an appropriate adjustment operation with an appropriate procedure by referring to the operation guide information. It is possible to set the reception state to a good state. In addition, it is possible to shorten the time required for adjustment and increase the work efficiency.
That is, it is possible to provide a direction adjustment control device capable of always adjusting the microwave reception state in the reception device to a good state regardless of the skill level of the operator.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic configuration diagram of a transmission system with an FPU remote control function in which a direction adjustment control device according to an embodiment of the present invention is used.
This transmission system is used, for example, when relaying a marathon or a relay race, and a plurality of transmission stations (here, two are exemplified) MS1 and MS2 are arranged along a road RD serving as a course. . A base station BS1 is installed at the top of the mountain MT. This base station BS1 relays broadcast material composed of video and audio transmitted from the transmitting station MS1 to a center CS such as a broadcasting station, and is installed by selecting a place where the line of sight can be seen with respect to the center CS. The base station BS1 and the center CS are connected via a wired dedicated line (not shown). This wired dedicated line is used to transmit the control signal when the base station BS1 is remotely controlled from the center CS.

FIG. 2 is a block diagram showing the configuration of the transmission stations MS1 and MS2, the base station BS1, and the center CS that constitute the transmission system.
The transmitting stations MS1 and MS2 are provided with transmitters (TX) 11 and 12, respectively. These transmitters 11 and 12 encode a video and audio of a subject captured by a television camera (not shown), and then multiplex them to generate a transmission stream. Then, the intermediate frequency signal is modulated by the transmission stream, the modulated intermediate frequency signal is up-converted to a carrier wave made of microwaves, and then transmitted from the transmitting antenna having directivity to the wireless transmission paths W1 and W2. For example, MPEG (Motion Picture Experts Group) is used as the video and audio encoding method, and digital modulation methods such as QAM (Quadrature Amplitude Modulation) and OFDM (Orthogonal Frequency Division Multiplexing) are used as the modulation method. When MPEG is used, the transmission stream is a TS (Transport Stream) signal.

  The base station BS1 is provided with a rotation receiving device 21. The rotation receiving device 21 receives a radio carrier wave transmitted from the transmitting station MS1, and includes a high-frequency receiving unit and a pan head. The high frequency receiving unit includes a receiving antenna, a band pass filter (BPF) and a low noise amplifier (LNA) 211. The pan / tilt head has a pan / tilt mechanism and varies the receiving direction of the receiving antenna of the high-frequency receiving unit in accordance with a remote control signal described later.

  The radio carrier signal received by the high-frequency receiver is down-converted by a receiver (RX) 22 and then demodulated into a transmission stream, where the reception quality is detected. Specifically, the received electric field level, margin, bit error rate (BER), delay profile, and constellation are detected. These pieces of detection information are multiplexed into the transmission stream as information indicating the reception state, and input to the transmitter (TX) 23. The transmitter 23 digitally modulates the intermediate frequency signal using the transmission stream. Then, the modulated intermediate frequency signal is up-converted into a radio carrier wave made of microwaves, further amplified to a predetermined transmission power, and then transmitted from the fixed transmission antenna 24 toward the center CS to the radio transmission path W3.

  The center CS is provided with a fixed reception antenna 41, and the radio carrier wave transmitted from the base station BS1 is received by the fixed reception antenna 41 and input to the reception unit 40. The reception unit 40 includes a receiver (RX) 42, a decoder 43, a delay profile extraction device 44, and a WEB encoder 45. The input radio carrier wave is first down-converted by the receiver 42 and then demodulated into a transmission stream. The video and audio streams are separated into information indicating the reception state, and the video and audio streams are input to the decoder 43, and the information indicating the reception state is input to the delay profile extraction device 44.

  The decoder 43 decodes the input video and audio streams. The decoded video and audio data is subjected to storage or editing processing. On the other hand, the delay profile extraction device 44 extracts received electric field level, margin, bit error rate (BER), delay profile, and constellation detection information from the input information indicating the reception state. The extracted detection information is output to the WEB encoder 45, and an operation terminal (hereinafter referred to as a square operation terminal) having a direction adjustment function from the WEB encoder 45 through a local area network (LAN) 52. Yes) to 51.

  The center CS is provided with a rotation receiving device 31. The rotation receiving device 31 receives a radio carrier wave transmitted from the transmitting station MS2, and similarly to the rotation receiving device 31 of the base station BS1, the rotation receiving device 31, a reception antenna, a band pass filter (BPF), and a low noise amplifier ( LNA) 311 and a pan head for changing the receiving direction of the receiving antenna. The radio carrier signal received by the high frequency receiving unit is input to the receiving unit 30.

  The receiving unit 30 includes a receiver (RX) 32, a decoder 33, a delay profile extracting device 34, and a WEB encoder 35. The input radio carrier wave signal is first down-converted by a receiver (RX) 32 and then demodulated into a transmission stream. The transmission stream is input to a decoder 33. The receiver 32 detects the reception quality of the radio carrier signal and the demodulated stream. Specifically, the received electric field level, margin, bit error rate (BER), delay profile, and constellation are detected. Each piece of the detected information is input to the delay profile extraction device 34 as information indicating a reception state.

  The decoder 33 decodes the input video and audio streams. The decoded video and audio data is subjected to storage or editing processing. On the other hand, the delay profile extraction device 34 extracts received electric field level, margin, bit error rate (BER), delay profile, and constellation detection information from the input information indicating the reception state. The extracted detection information is output to the WEB encoder 35 and transferred from the WEB encoder 35 to the tone control terminal 51 via the LAN 52.

  The direction control terminal 51 is used when remotely operating the reception direction of the rotation receiving device 21 provided in the base station BS1 and the rotation receiving device 31 provided in the center CS. The remote control signal output from is sent to the remote control master stations 54 and 56 via the control system network 53 built in the center CS.

  Among these, the remote control master station 54 converts the transmitted remote control signal into serial data, and then transmits it to the remote control slave station 26 via the modem 55, the wired dedicated line L1, and the modem 25 of the base station. The remote control slave station 26 drives and controls the pan / tilt head of the rotation receiving device 21 in accordance with the transmitted remote control signal to change the receiving direction of the receiving antenna. At the same time, information indicating the state of the pan head after changing the reception direction is transmitted as monitoring information to the remote control master station 54 in the center CS via the modem 25, the wired dedicated line L1, and the modem 55. This monitoring information is transferred from the remote control master station 54 to the tone control terminal 51 via the control system network 53.

  On the other hand, the remote control master station 56 drives and controls the pan / tilt head of the rotation receiving device 31 according to the transmitted remote control signal to vary the receiving direction of the receiving antenna. At the same time, information indicating the state of the pan head after changing the reception direction is sent as monitoring information to the tone operation terminal 51 via the control system network 53.

By the way, the tone operation terminal 51 is configured as follows. FIG. 3 is a block diagram showing the functional configuration.
That is, the tone operation terminal 51 is formed of a personal computer, and is connected to a central processing unit (CPU) 61 via a bus 62 through a program memory 63, a data memory 64, and a communication interface (communication I / F) 65. , 66 and an input / output interface (input / output I / F) 67 are connected.

  The communication I / F 65 transmits and receives data to and from the LAN 52 constructed in the center CS. The communication I / F 66 transmits / receives data to / from the control system network 53 separately provided in the center CS. The input / output I / F 67 is connected to an input device 68 including a keyboard and a mouse and a display device 69 such as a liquid crystal display. The input / output I / F 67 takes in a control command or the like input from the input device 68 under the control of the CPU 61 and causes the display device 69 to display display data.

  The data memory 64 stores an adjustment item list, a guide information list, reception state detection information necessary for tone control, and the like. The adjustment item list is information indicating a list of adjustment items prepared in advance for each device to be adjusted. In the guide information list, the adjustment item to be displayed selected by the operator from the adjustment item list is associated with the display priority set by the operator for the adjustment item.

The program memory 63 stores a direction adjustment control program 631, a guide information display control program 632, and an adjustment item setting control program 633 as application programs necessary for carrying out the present invention.
The direction adjustment control program 631 receives the detection information indicating the reception state of the rotation receiving devices 21 and 31 via the communication I / F 65 in a state where the square tone mode is set, and displays the detection information on the tone control screen of the display device 69. In addition to the display, the CPU 61 is caused to execute a process of transmitting a remote control signal corresponding to the control command input from the input device 68 from the communication I / F 66 to the rotation receiving devices 21 and 31 to be controlled.

  The guide information display control program 632 corresponds to the device type selected as the adjustment target from the data memory 64 when the guide button displayed on the tone control screen is pressed while the tone mode is set. The CPU 61 is caused to execute a process of reading a guide information list to be displayed and displaying it on the tone control screen.

  The adjustment item setting control program 633 reads the adjustment target list from the data memory 64 and displays it on the display device 69 in a state where the square tone setting mode is set, and the adjustment item to be displayed from the displayed list. When the selection operation is performed, the selected adjustment item is added to the guide information list, and the priority order designated and input to the selected adjustment item is associated with the adjustment item in the guide information list. The CPU 61 is caused to execute the storing process. FIG. 7 shows an example of the guide information list.

Next, the control operation by the tone operation terminal 51 configured as described above will be described. FIG. 4 is a flowchart showing the control procedure and control contents, and FIG. 8 shows an example of a screen displayed on the display device 69.
(1) Preparation
When the adjustment is performed, an environment in which wireless communication can be performed between the operators of the transmission stations MS1 and MS2 and the operator in charge of the tone operation of the center CS is set. This can be realized, for example, by using a public automobile / mobile communication network.

(2) Method control
In the tone operation terminal 51, the operator first operates the input device 68 to adjust the transmission path to be adjusted, that is, the transmission path for transmitting the broadcast material transmitted from the transmission station MS1 via the rotary receiver 21, and the transmission station. After selecting one of the transmission paths for transmitting the broadcast material transmitted from the MS 2 via the rotary receiver 31, the tone screen display button 71 displayed on the screen is pressed.

  Then, the CPU 61 detects the operation of the tone button 71 in step S41 and proceeds to step S42, where the template for the tone screen is read from the data memory 64 and this data is displayed on the display device 69. Among the display information shown in FIG. 8, the received tone level display unit 72, the current angle display area 73 of the rotary receiver, the delay profile display button 75, the status display area 77 of the rotary receiver, and the rotary reception are displayed on the screen for the tone. A device control information area 78 and a guide button 81 are included.

By the way, when performing the adjustment, the operator first determines whether an analog method (FM method) or a digital modulation method (QAM or OFDM method) is used as the wireless modulation method in the transmission system. When the digital modulation method is used, the input device 68 is operated to press the delay profile display button 75 displayed on the screen. Then, the CPU 61 detects the operation of the delay profile display button 75 in step S43 and proceeds to step S44, where the tone support screen 76 is displayed in a predetermined area in the map screen 74. As shown in FIG. 8, the reception assistance level 76 displays reception electric field level, margin, BER, delay profile, and constellation detection information.
Note that, when the analog modulation method is used, adjustment is possible only by the information displayed on the received electric field level display unit 72. Therefore, it is necessary to press the delay profile display button 75 to display the tone support screen 76. There is no.

  Next, the operator presses the guide button 81. Then, the CPU 61 detects that the guide button 81 is pressed in step S45, and proceeds to step S46, where the display control of the guide information is executed as follows. FIG. 5 is a flowchart showing the control procedure and control contents.

  That is, the CPU 61 reads the guide information 82 from the data memory 64 in step S51 and displays it in a predetermined area on the map screen 74 of the display device 69. The guide information 82 includes a guidance message display unit 821 and an indicator 822 that displays an adjustment achievement rate.

  Among these, the guidance message display unit 821 is hierarchized according to the device type to be adjusted, and when a label representing the device type is selected, a guidance message for each adjustment item according to the selected device type is displayed. The For example, when the operator selects “confirm receiver mode”, a guidance message corresponding to the adjustment item of the receiver 22 or 32 is displayed as shown in FIG. 9, and “confirm rotation receiver” is displayed. If selected, a guidance message corresponding to the adjustment item of the rotary receiver 21 or 31 is displayed as shown in FIG. In the state where the operator does not select the device type, the default setting is such that the guidance message corresponding to “confirm receiver mode” is displayed first.

  The display order of the guidance messages is determined by the priority order set in advance for the adjustment items. This priority order is stored in the guide information list as shown in FIG. The guidance message is described in a question format such as “Do you do?” As illustrated in FIGS. 9 and 10. The guidance message display unit 821 displays a confirmation button 83 in association with the guidance message of each adjustment item.

  The operator performs adjustment operations in order according to the displayed guide information. For example, in the confirmation of the receiver mode, first, according to the guide information shown in FIG. 9, it is first confirmed whether the frequency channel corresponds to the transmitter 11 of the transmission station MS1 or the transmitter 12 of the transmission station MS2. It is confirmed whether the modulation mode corresponds to the transmitter 11 of the transmitting station MS1 or the transmitter 12 of the transmitting station MS2. Thereafter, the transmission bit rate and the occupied bandwidth are confirmed sequentially. The mode confirmation of the receiver 22 of the base station BS1 or the receiver 32 of the center CS is executed while communicating with the operator of the transmitting station MS1 or MS2 by wireless communication.

  In the above confirmation work, the operator clicks the corresponding confirmation button 83 every time confirmation is completed for one adjustment item. Then, the CPU 61 detects the operation of the confirmation button 83 in step S52, and changes the confirmation button display to “confirmed” in step S53. Each time the confirmation button 83 is clicked for one adjustment item, the CPU 61 updates the display of the indicator 822 indicating the achievement rate of the adjustment in step S54. Thus, the operator can confirm the presence / absence of each adjustment item and the progress of the adjustment work.

  Each time the confirmation button 83 is clicked, the CPU 61 determines in step S55 whether or not all adjustment items corresponding to one device type have been confirmed. If all the adjustment items corresponding to one device type are “confirmed”, an adjustment end message is generated in step S56, and this adjustment end message is displayed in the guide information display area.

  When the confirmation operation for the “confirmation of the receiver mode” is completed, the operator subsequently selects the “confirm rotation receiver” label of the guide information 82. Then, the CPU 61 reads out the guidance message of the adjustment items necessary for checking the rotary receiver from the data memory 64 and displays it as shown in FIG. In this state, the operator performs confirmation work for each adjustment item of the rotation receiving device 21 or 31 according to the displayed guidance message. Then, the confirmation button 83 corresponding to the adjustment item for which confirmation has been completed is clicked.

  In addition, the operation mode confirmation process for the rotation receiving device 21 or 31 includes an adjustment operation of the reception direction of the rotation receiving device 21 or 31 as shown in FIG. The adjustment of the reception direction of the rotation receiving device 21 or 31 is performed when the operator inputs a control command for adjusting the direction by the input device 68.

  That is, when a control command is input, the CPU 61 proceeds from step S47 to step S48, where a remote control signal is generated based on the control command, and this remote control signal is transmitted from the communication I / F 66 to the control system. The data is transmitted to the remote control master station 54 or 56 via the network 53. Then, the remote control signal sent to the remote control master station 54 is transferred to the remote control slave station 26 in the base station BS1 via the modem 55, the wired dedicated line L1, and the modem 25. The remote control slave station 26 drives the pan of the rotary receiver 21 in accordance with the remote control signal, thereby adjusting the reception direction of the reception antenna with respect to the transmission station MS1. On the other hand, the remote control master station 56 drives the pan of the rotary receiver 31 according to the transmitted remote control signal, thereby adjusting the receiving direction of the receiving antenna with respect to the transmitting station MS2.

  Information indicating the state of the camera platform after the adjustment of the reception direction, that is, information indicating the angle in the horizontal direction and the vertical direction is returned to the tone operation terminal 51 of the center CS as monitoring information. Then, the CPU 61 receives the returned monitoring information in step S48, and displays the received monitoring information in the area 73 for displaying the current set angle of the rotation receiving device 21 or 31.

  Thereafter, similarly, adjustment or confirmation processing for each adjustment item is sequentially performed for each device to be adjusted according to guide information displayed on the display screen. 9 and 10 show the case where only the guide information of “Confirm receiver mode” and “Confirm rotary receiver” is displayed for the sake of simplicity. Guide information corresponding to “confirmation of equipment” and “other confirmations” is also displayed.

  When adjustment or confirmation for all the adjustment items is completed, the operator performs a tone end operation on the input device 68. Then, the CPU 61 detects this tone end operation in step S49 and ends the control.

(3) Adjustment item setting change
Adjustment items to be displayed as guide information are set as defaults corresponding to operators having general knowledge. For this reason, an adjustment item that is not substantially necessary depending on the operator may be displayed as guide information, or on the contrary, a necessary adjustment item may not be displayed. In such a case, the operator uses the adjustment item setting control program 633 included in the tone operation terminal 51 to change the guide information list to one suitable for itself.

  When changing the guide information list, the operator operates the input device 68 to start the adjustment item setting control program 633. The CPU 61 executes adjustment item setting control as follows in accordance with the activated adjustment item setting control program 633. FIG. 6 is a flowchart showing the control procedure and control contents.

  That is, first, a list of device types is displayed on the display device 69. In this state, when the operator selects the device type to be changed, the CPU 61 proceeds from step S61 to step S62, reads a list of all adjustment items corresponding to the selected device type from the data memory 64, and displays the display device. 69 is displayed. Of the adjustment items displayed at this time, the adjustment items set in the current guide information list are marked, or displayed in bold or different colors.

  When the operator operates the input device 68 in this state and selects an additional item from the displayed adjustment item list, the CPU 61 adds the selected additional item to the guide information list in step S63 and It will be in the state which receives the input of the priority order with respect to. When the operator operates the input device 68 to input the priority order, the CPU 61 stores the input priority order in the guide information list in association with the selected additional item. If a deletion operation is performed while one of the items in the displayed adjustment item list is selected, the CPU 61 deletes the selected item from the guide information list.

  Thereafter, similarly, each time one of the displayed adjustment items is selected, the CPU 61 returns from step S65 to step S63, and adds the adjustment item and sets the priority in steps S63 and S64, or Execute item deletion processing. Note that if the priority order is input while the adjustment item being set in the guide information list is selected, the priority order for the adjustment item being set in the guide information list can be changed.

  The above adjustment item setting control ends when the operator performs an end operation on the input device 68. When changing the guide information list of another device type, after the adjustment item setting control is once ended, the adjustment item setting control program 633 is started again to display the device type list, or the device type is displayed. It is possible to perform the same operation by performing an operation for displaying the list.

  As described above, in this embodiment, in the center CS, radio carriers transmitted from the transmitting stations MS1 and MS2 are properly received by the rotation receiving device 21 of the base station BS1 and the rotation receiving device 31 of the center CS. When the rotary receiver 21 or 31 is remotely controlled by the tone operation terminal 51 provided in the operation, in addition to information indicating the reception state of the rotary receiver 21 or 31 at the tone operation terminal 51, operation confirmation or adjustment is performed. The guide information of the target adjustment item is displayed on the display device 69.

  Therefore, even if an operator is unfamiliar with the adjustment, or there are many adjustment items, the operation of the adjustment item can be checked or adjusted according to the guide information displayed above, so that the adjustment operation of the appropriate content can always be performed in an appropriate procedure. This makes it possible to set the reception state in the rotary receiver 21 or 31 to a good state. In addition, it is possible to shorten the time required for the operation check or adjustment work and increase the work efficiency.

  In this embodiment, priorities are set for a plurality of adjustment items displayed as guide information, and guidance messages for the adjustment items are sequentially displayed in accordance with the set priorities. For this reason, the operator can perform an operation check or an adjustment operation in order from an adjustment item having a higher priority, and thus can perform a more appropriate adjustment operation.

  Furthermore, by providing a function for setting and changing the adjustment items to be displayed as the guide information and the priority order, the operator can generate and use appropriate guide information according to his / her skill level. As a result, for example, a highly skilled operator can display only guidance messages for important adjustment items, thereby making it possible to perform reliable adjustment work while maintaining high work efficiency. On the other hand, an inexperienced operator can add not only important adjustment items but also general adjustment items to the guide information, so that an accurate adjustment operation without error can always be performed.

  The present invention is not limited to the above embodiment. For example, in the above-described embodiment, the guide information is displayed in response to pressing of the guide button. However, the guide information may be displayed together with various information indicating the reception state in accordance with the operation of the tone button. At that time, guide information corresponding to the selected device type may be selected and displayed in accordance with the operation for selecting the device type to be adjusted.

  Further, in the above-described embodiment, the information (reception electric field level) indicating the current reception state of the rotary receiver 21 or 31 transmitted from the receiver 22 of the base station BS1 and the receiver 32 of the center CS in the tone operation terminal 51. , Margin, BER, delay profile, and constellation) are displayed on the tone support screen 76. However, in addition to the transmitted information indicating the current reception state, the reception state adjustment information set by the operator in the tone operation terminal 51 may be displayed side by side. In this way, the operator can perform the adjustment work while comparing the information indicating the current reception state of the rotation receiving device 21 or 31 with the adjustment information of the reception state set by the operator.

  At that time, the CPU 61 collates the transmitted information indicating the current reception state of the rotary receiving device 21 or 31 with the adjustment information of the reception state set by the operator, and the collation result, for example, a message indicating whether or not there is a match. Or you may make it display the information which shows the quantity of a difference, and also the operation guidance information for reducing this difference on the display device 69. FIG. In this way, even an inexperienced operator can perform adjustment work more easily and accurately.

  Further, as the guide information presenting means, in addition to displaying the guide information on the display device 69, it may be converted into a sound by using a speech synthesizing means, and the contents of the guide information, the presentation layout, etc. May be set in any way. The configuration of the base station BS1, the center CS, and the tone operation terminal 51, the tone control procedure and its contents, the use of the transmission system, and the like can be variously modified without departing from the scope of the present invention.

  In short, the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. Further, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine suitably the component covering different embodiment.

1 is a schematic configuration diagram of a transmission system with an FPU remote control function in which a direction adjustment control device according to an embodiment of the present invention is used. It is a block diagram which shows the structure of each station of the transmission system with FPU remote control function shown in FIG. It is a block diagram which shows the function structure of the direction operation terminal as a direction adjustment control apparatus shown in FIG. It is a flowchart which shows the direction control procedure and control content by the direction operation terminal shown in FIG. It is a flowchart which shows the procedure and content of guide information display control in the tone control procedure shown in FIG. It is a flowchart which shows the procedure and content of adjustment item setting control by the tone operation terminal shown in FIG. It is a figure which shows an example of the adjustment item displayed on guide tone operation terminal shown in FIG. 3 as guide information. It is a figure which shows an example of the display screen in the tone operation terminal shown in FIG. It is a figure which shows the 1st example of a display of a guide screen. It is a figure which shows the 2nd example of a display of a guide screen.

Explanation of symbols

  MS1, MS2 ... transmitting station, BS1 ... base station, CS ... center, W1, W2, W3 ... wireless transmission path, L1 ... wired dedicated line, 11, 12, 23 ... transmitter, 21, 31 ... rotary receiver, 22 , 32, 42 ... receiver, 24 ... base station transmitting antenna, 25, 55 ... modem, 26 ... remote control slave station, 33, 43 ... decoder, 34, 44 ... delay profile extracting device, 35, 45 ... WEB encoder, 51... Operation terminal 52. LAN 53 control network 54 and 56 remote control master station 30 and 40 center receiving unit 61 CPU 62 bus 63 program memory 64 data Memory, 65, 66 ... Communication interface (communication I / F), 67 ... Input / output interface (input / output I / F), 68 ... Input device, 69 ... Display device, 70 ... Tone control screen, 71 ... tone button, 72 ... received electric field level display section, 73 ... current angle display area of rotary receiver, 74 ... map screen, 75 ... delay profile display button, 76 ... tone support screen, 77 ... Rotation receiving device status display area, 78... Rotation receiving device control area, 81. Guide button, 82. Guide screen, 83. Confirmation button, 84.

Claims (3)

A transmission device that is arranged at a transmission point and wirelessly transmits an information signal from an antenna having directivity, and a reception device that is arranged at a reception point and wirelessly transmits the information signal from the transmission device by an antenna having directivity In the direction adjustment control device for remotely controlling the receiving direction of the antenna of the receiving device of the transmission system,
Means for acquiring and displaying information representing the reception state of the information signal in the receiving device from the receiving device;
Means for generating a remote control signal in response to an adjustment operation by an operator, and transmitting the remote control signal to the receiving device to remotely control the receiving direction of the antenna of the receiving device;
A direction adjustment control device comprising: guide information presentation control means for generating operation guide information for supporting the adjustment operation and presenting the generated operation guide information to the operator. The guide information presentation control means includes
Means for storing a plurality of adjustment items and the priority order set for each of the adjustment items in association with each other;
The direction adjustment control device according to claim 1, further comprising means for presenting operation guide information corresponding to the plurality of adjustment items according to an order represented by the stored priority order. The guide information presentation control means includes
The direction adjustment control device according to claim 1, further comprising means for changing a priority set for each of the plurality of adjustment items according to an input operation of an operator.

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