JP4576929B2 - Television broadcast receiver - Google Patents

Description

  The present invention relates to a television broadcast receiving apparatus for receiving a television broadcast signal such as ATSC.

  In the North American continent where ATSC digital television broadcasting (hereinafter abbreviated as TV broadcasting) is performed, large cities are scattered in the plains, and the user side who receives TV broadcasting signals broadcast in the suburbs of each city. Since the TV broadcast signal is transmitted from various directions, it is necessary to adjust the direction of the antenna in the direction of the broadcasting station that broadcasts the program that the user wants to watch. Therefore, multidirectional antennas such as smart antennas are being put into practical use. A general antenna for terrestrial television broadcasting has a shape called a Yagi antenna, which is characterized by its ability to receive even weak radio waves due to its strong directivity. On the other hand, due to its strong directivity, it has a weak point that it can only receive radio waves from a certain broadcasting station. At the same time, the signal reception intensity changes even with a slight change in direction due to the high directivity.

  On the other hand, there is a device set in which a small indoor antenna is connected to a television broadcast receiver. In this device set, the user can adjust the direction of the antenna and change the combination of the output terminals of the loop antenna and the dipole antenna so that the best received image is obtained according to the selected channel (broadcast station). (Patent Document 1).

In addition, in a television receiver mounted on a moving body such as a train or a bus, the direction of the antenna relative to the broadcasting station changes relative to the movement, so that the current position of the moving body is determined using a GPS positioning system. There is a technique of detecting the traveling direction and driving the direction of the antenna to be displaced based on the detection (Patent Document 2).
JP-A-6-113220 JP-A-7-170464

  As described above, in the US TV broadcast, broadcast radio waves may come from all directions, and therefore a multidirectional antenna (smart antenna) is required for TV broadcast reception. According to the US EIA-909 standard, a smart antenna is defined as having a receiving direction in each direction obtained by dividing a circle into 16 parts. On the other hand, a television broadcast receiving apparatus that receives a TV broadcast signal is set so that the reception direction of the multidirectional antenna can be adjusted with respect to all 16 directions in accordance with the EIA-909 standard.

  A television broadcast receiver (hereinafter abbreviated as a TV broadcast receiver) is provided with a scanning function for searching for an antenna direction that can best receive a TV broadcast signal of a channel selected by a user. Is also present. Usually, since the position of the antenna on the broadcasting station side, that is, the transmission tower does not change, the scanning operation is performed for 16 directions for each channel, and the direction with the best reception state may be set as the reception direction of the channel. However, in the United States and the like, while a broadcasting station is newly opened relatively easily, the broadcasting station can go bankrupt. Therefore, a channel that could not be received in the past may be newly received, or a channel that has been received in the past may not be received. Furthermore, the reception state of TV broadcast signals may change due to the construction of a high-rise building. Therefore, it may be necessary to reset the optimum receiving direction for the channel selected by the user as necessary.

  The scan function searches the reception strength of all 16 reception directions for individual channels designated by the user, determines the optimum reception direction for the channels (hereinafter referred to as scan processing), and all channels. There is a whole area (all channels) scan process in which the above scan process is automatically performed in order. When a user purchases a TV broadcast receiving apparatus and does not know at all the channels that can be received in his / her place of residence, it is convenient to use the whole area scan processing, but the whole area (all channels) is covered. When the above scanning process is performed, the number of channels in the United States is extremely large (in many cases, more than 100), and thus there is a problem that it takes a considerable time to determine the optimum reception direction for all channels. That is, since the television program cannot be viewed during the entire area scan, the user simply waits for the entire area scan to end. The specific time required depends on the area, the number of channels varies, and the content of received signal processing (whether only signal strength is used as a reference for comparison, or whether conditions such as bit error rate in addition to strength are used as criteria) Depending on the situation, it may take more than one hour if it is long from several tens of minutes.

  As described above, the scanning process for the entire area (all channels) is a process that takes several tens of minutes even if it is automatically performed. It is possible to select several channels that seem to be possible individually and execute the scanning process individually for those channels, so that the optimal reception direction is determined and only the channels with good reception are viewed. There is a case to do it. After that, the user continues to watch only the channel with the good reception state found at the time of the initial setting, but as described above, the reception state of the TV broadcast signal changes constantly due to the construction of a high-rise building or the like. The user may consider that there is a possibility that viewing is possible even for a channel whose reception condition was not good at the time of initial setting or a channel that could not be received at all, and may try to watch that channel.

  However, if the optimum reception direction for the channel has not yet been determined, the user must newly instruct the scan processing for that individual channel and search for the optimum reception direction again, so that the user can view and listen. It took time and effort to get started. Even in the time required for the scanning process itself, it took about 10 seconds to compare the bit error rate in addition to the reception intensity in all 16 reception directions. Note that the user rarely remembers the channels that have been individually designated and scanned at the time of initial setting. When a user selects an arbitrary channel other than the channel that is normally viewed, the user receives the TV broadcast. Only after seeing the message that the screen of the device is blue-back or the optimum receiving direction displayed on the screen is undecided, that arbitrary channel is a channel for which the optimum receiving direction has not been decided. You will notice.

  The present invention has been made to solve the above-described problem. When a user designates an arbitrary channel in the TV broadcast receiving apparatus, information such as the optimum reception direction for the channel is displayed on the TV broadcast receiving apparatus. If there is information (optimum reception direction) about the arbitrary channel, the optimal reception direction is left as it is. Or after the verification with the reception quality of the reception direction adjacent to the optimum reception direction, if the stored optimum reception direction is still qualified as the optimum reception direction at that time, it is stored. By using the optimal reception direction as the determined optimal reception direction, the time until viewing becomes possible can be shortened, and information about the arbitrary channel can be obtained. When there is no (optimum receiving direction), a TV broadcast receiving apparatus that can save the user's trouble by automatically executing individual scanning processing for the channel and newly determining the optimum receiving direction is provided. The purpose is to do.

In order to achieve the above object, according to the first aspect of the present invention, a multi-directional antenna having a plurality of reception directions determined in advance by a standard is connected, and when a television broadcast is viewed, reception of the plurality of reception directions is performed. A television broadcast signal is received with any one of the optimum reception directions corresponding to the channel enabled, and when searching for the optimum reception direction for each reception channel, the reception direction of the multidirectional antenna is scanned to perform each reception direction. In a television broadcast receiving apparatus that determines an optimal reception direction based on data indicating reception quality such as reception strength and bit error rate in the multi-directional antenna, the multi-directional antenna covers all of the plurality of reception directions. Each receiving channel based on the reception quality data for each receiving direction received by the scanning operation. An optimum receiving direction determining means for determining an optimum receiving direction for a channel, a receiving direction table for storing the optimum receiving direction for each receiving channel determined by the optimum receiving direction determining means in association with the receiving channel, and a television Reception for detecting whether or not there is an arbitrary reception channel associated with an optimal reception direction in the reception direction table when a reception command for an arbitrary reception channel is generated by the user during broadcast viewing As a result of the confirmation by the channel information presence / absence confirmation means and the reception channel information presence / absence confirmation means, depending on the presence / absence of information on the arbitrary reception channel, if there is, the local reception direction based on the information is determined. Switch to the first processing means that searches for the optimal reception direction. Process switching means for switching to the second processing means for searching for the optimum reception direction, and the first processing means determines the optimum reception direction corresponding to the arbitrary reception channel in the reception direction table. As a reference reception direction, reception direction transition means for changing the reception direction of the multi-directional antenna to an adjacent reception direction including the reference reception direction (hereinafter referred to as an adjacent reception direction), and a reception direction by the reception direction transition means First reception quality data extraction / storage means for extracting and storing a bit error rate for each reception direction from a reception signal of a multi-directional antenna having a different signal, and extraction / storage means for the first reception quality data The bit error rate for each reception direction stored in step (b) is compared, and the bit error rate in the reference reception direction is greater than the bit error rate in the adjacent reception direction. The determination result by the reception direction pass / fail judgment means for judging the pass / fail as the optimum reception direction of the reference reception direction, which is judged to be good when it is smaller than that, and the judgment result by the reception direction pass / fail judgment means is good. If the result of determination by the optimal reception direction determination means for determining the reference reception direction as the optimal reception direction and the determination result of the reception direction pass / fail determination means is negative, the bit error rate is smaller than the reference reception direction. Receiving direction re-transition means for transitioning the receiving direction of the multi-directional antenna to an outer receiving direction (hereinafter referred to as an outer receiving direction) of the adjacent receiving direction as viewed from the reference receiving direction, and the receiving direction re-transition means Extraction and description of second reception quality data for extracting and storing the bit error rate in the reception direction from the reception signal of the multidirectional antenna whose reception direction has been changed by Means, and a bit error rate of the outer receiving direction stored by said second extraction and storage means of the reception quality data, said first reception quality bit error rate of an adjacent receiving direction stored by extracting and storing means of the data In comparison, when the bit error rate in the outer receiving direction is smaller than the bit error rate in the adjacent receiving direction, the outer receiving direction is determined as the optimum receiving direction, and the bit error rate in the adjacent receiving direction is determined. Optimal reception direction resetting means for determining the adjacent reception direction as the optimal reception direction when the bit error rate is smaller than the bit error rate in the outer reception direction, and the second processing means The reception direction determining means is activated to execute a search operation for all the reception directions for the arbitrary reception channel, and Newly determine the optimum receiving direction for channel.

According to the invention of claim 2, a multi-directional antenna having a plurality of reception directions determined in advance by a standard is connected, and when viewing a television broadcast, any one of the plurality of reception directions corresponding to a reception channel is selected. When receiving the TV broadcast signal with one optimum receiving direction enabled and searching for the optimum receiving direction for each receiving channel, the receiving direction of the multi-directional antenna is scanned and the receiving quality such as the receiving strength in each receiving direction is received. In the television broadcast receiving apparatus that determines the optimum reception direction based on the data indicating, when the optimum reception direction is searched, the multidirectional antenna is scanned in all of the plurality of reception directions and received by the scan operation. Optimal to determine the optimal reception direction for each reception channel based on the reception quality data for each reception direction A reception direction table that stores the optimum reception direction of each reception channel determined by the optimum reception direction determination unit in association with the reception channel, and any reception channel by the user when viewing the television broadcast. A reception channel information presence / absence checking means for detecting whether or not there is an arbitrary reception channel and an optimum reception direction associated therewith in the reception direction table when a reception command is generated for As a result of the confirmation by the reception channel information presence / absence confirmation means, if the arbitrary reception channel and its optimum reception direction exist, the optimum reception direction is set as the reference reception direction, and the reception quality data and the reference reception direction in the reference reception direction Compare the received quality data in multiple receiving directions adjacent to the One receive direction from among a plurality of receiving directions to direction and adjacent a definite optimum receiving direction of the multi-directional antenna, if the arbitrary reception channel and its optimum receiving direction does not exist, the optimum reception direction The determination unit is activated to execute a search operation over all reception directions for the arbitrary reception channel, and newly determine the optimum reception direction.

The invention according to claim 3, in the television broadcast receiving apparatus according to claim 2, wherein the receiving direction determiner means, reception quality data of the received signals for a plurality of receiving directions adjacent to said reference reception direction, the reference On the condition that the received quality data is worse than the received quality data of the received signal for the receiving direction, the optimum receiving direction corresponding to the arbitrary receiving channel in the receiving direction table is the optimum receiving direction determined by the multidirectional antenna. To do.

  According to the first aspect of the present invention, in the TV broadcast receiving apparatus, when the user designates an arbitrary channel, it is confirmed whether or not information such as the optimum reception direction for the channel exists in the TV broadcast receiving apparatus. If present, the local optimum reception direction is searched based on the stored optimum reception direction and the optimum reception direction or the adjacent reception direction is used as the optimum reception direction. Compared to the scanning operation for all reception directions without confirming the presence / absence, the time required for viewing can be shortened and the optimal reception direction should be more qualified. it can. In addition, when there is no information such as the optimum reception direction for an arbitrary channel, the scanning operation for that channel is automatically performed and the optimum reception direction is newly determined.

  According to the invention of claim 2, when the user designates an arbitrary channel in the TV broadcast receiving apparatus, it is confirmed whether or not information such as the optimum receiving direction for the channel exists in the TV broadcast receiving apparatus. If present, the stored optimal reception direction is used as the determined optimal reception direction as it is, so that viewing is always performed as compared with the case where the scanning operation is always performed for all reception directions without confirming the presence or absence of information. Time until it becomes possible can be greatly shortened. In addition, when there is no information such as the optimum reception direction for an arbitrary channel, the scanning operation for that channel is automatically performed and the optimum reception direction is newly determined.

  According to the third aspect of the present invention, it is confirmed whether or not information such as the optimum reception direction for an arbitrary channel designated by the user exists in the TV broadcast receiving apparatus. Based on the direction, the eligibility of the stored optimal reception direction as the determined optimal reception direction is simply verified between adjacent reception directions, and if the eligibility is confirmed, the stored optimal reception direction is determined. Since it is used as the determined optimum reception direction, it takes a short time until viewing is possible, and the reliability of the optimum reception direction obtained in this way is also high.

  Hereinafter, a TV broadcast receiving apparatus according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a situation where a user receives a TV broadcast signal at home. In an area where digital (terrestrial) TV broadcasting is performed, if the intensity of the received digital TV broadcasting signal is equal to or greater than a certain threshold value, an image with a certain image quality can be obtained by correction or the like. Therefore, as shown in FIG. 1, a TV program can be viewed by receiving TV broadcast signals transmitted from a plurality of broadcasting stations such as A area, B area, and C area. In response to such a situation, a multidirectional antenna called a smart antenna having a plurality of reception directions has been put into practical use.

  The TV broadcast receiving apparatus mentioned here can receive an analog TV broadcast signal in addition to a digital TV broadcast signal. As with the digital TV broadcast signal, the number of reception directions of the multi-directional antenna is confirmed and wasted. It is possible to perform optimal reception direction control without any interference. Accordingly, when there is no need to distinguish between a digital TV broadcast signal and an analog TV broadcast signal, the TV broadcast signal is simply used.

  On the other hand, a TV broadcast receiver compliant with the EIA-909 standard must be able to switch over all 16 reception directions regardless of the type of multidirectional antennas connected and the number of reception directions. .

  FIG. 2 shows the configuration of the TV broadcast receiving apparatus 1 according to the present embodiment. The TV broadcast receiving apparatus 1 is connected to a multidirectional antenna 2 and is a tuner 11 that receives a TV broadcast signal, and an ATSC front end 12 that performs predetermined signal processing on the digital TV broadcast signal received by the tuner 11 and decodes it. An NTSC decoder 13 for decoding an analog TV broadcast signal received by the tuner 11, an MPEG decoder 14 for decoding an MPEG compressed TV broadcast signal, and an on-screen display for superimposing a predetermined display image on the decoded TV broadcast signal 15, a control unit comprising a microcomputer that detects the reception state of the TV broadcast signal received by the tuner 11 and controls the control unit 21 of the multidirectional antenna 2 and controls the ATSC front end 12, the NTSC decoder 13, and the like. 16. Decoded TV Temporarily stores the transmission signal, and is also constituted by a memory 17 for storing display image to be superimposed on the decoded TV broadcast signals. The TV broadcast signal image decoded by the MPEG decoder 14 is output to the monitor device 3 via the on-screen display unit 15 and displayed.

  In addition, a remote controller 22 for switching the operation state of the TV broadcast receiving apparatus is attached, and a light receiving unit 23 for receiving infrared light from the remote controller 22 is provided. An instruction signal from the remote controller 22 is input to the control unit 16 via the light receiving unit 23, and the control unit 16 executes the instruction content. There are various instruction signals from the remote controller 22 such as switching of a reception channel and increase / decrease in volume. Note that an instruction signal substantially similar to that of the remote controller 22 can also be generated by the operation unit 24 including a key switch provided in the TV broadcast receiving apparatus 1.

  The control unit 21 of the multi-directional antenna 2 is activated in response to the control signal c from the control unit 16 and, when viewing TV broadcast, only the designated direction is valid among the plurality of reception directions of the multi-directional antenna 2. To. When the multi-directional antenna 2 is a type that switches the receiving direction by rotating the antenna with a motor, the control unit 21 controls the rotation of the motor and directs the antenna in the designated direction. On the other hand, when the multidirectional antenna 2 is a type that switches the effective antenna direction by turning on / off the electronic switch, only the electronic switch connected to the antenna in the designated direction is turned on, and the other electronic switches are turned off. To do.

  FIG. 3 shows an example of a reception state due to a difference in antenna direction when the multidirectional antenna 2 (smart antenna) has 16 reception directions defined in the EIA-909 standard. In the figure, reference numerals D01 to D16 denote 16 reception directions defined by the EIA-909 standard, respectively. The direction of radio wave arrival of each channel of TV broadcasting is shown as an example in CH-2 (hereinafter, CH is an abbreviation for a channel) in a bold arrow.

  Hereinafter, a procedure (scan process procedure) for executing a scan operation for a certain channel and determining an optimum reception direction of the channel will be described with reference to a flowchart shown in FIG. First, when an instruction for optimum reception direction search for a channel (for example, two channels) on which the remote controller 22 is operated by the user is issued, a scanning operation is started and the channel (two channels) is set via the control unit 16. (S1). Next, the control unit 16 sets the value of the counter n provided therein to 16 (S2), and outputs a control signal c designating the nth direction to the antenna control unit 21 (S3). After the time required for switching the reception direction of the multidirectional antenna 2 has elapsed, the tuner 11 receives a 2-channel TV broadcast signal (S4). When receiving the TV broadcast signal, the control unit 16 measures the received signal strength of the received TV broadcast signal and stores the measurement result in the memory 17 (S5). Then, the counter n is decremented by 1 (S6), and it is determined whether or not the signal intensity of the TV broadcast signal is measured for all 16 reception directions (S7). When the signal strength of the TV broadcast signal is not measured for all 16 reception directions (NO in S7), the process returns to step S3, and the reception signal strength of the TV broadcast signal is measured for the next reception direction.

  When the measurement of the reception signal strength of the TV broadcast signal is completed for all 16 reception directions (YES in S7), the control unit 16 reads the measurement data stored in the memory 17 and compares the signal strengths in all reception directions. (S8), the optimum reception direction with the maximum reception signal strength in the reception channel (two channels) and the optimum reception signal strength in this direction are detected and stored (S9), and stored in the reception direction table (FIG. 5). Store (S10). Further, it is determined whether or not the reception intensity in the optimum reception direction is equal to or greater than a predetermined value (S11). If it is equal to or greater than the predetermined value (YES in S11), the ADD flag in the reception direction table is turned on and the process is terminated ( S12). On the other hand, if the reception intensity in the optimum reception direction is equal to or less than the predetermined value (NO in S11), the ADD flag is not turned on (that is, the ADD flag is kept off), and the scanning process for that channel is ended. Here, for example, if there are two reception channels that have been scanned, the data is stored in the channel number 2 item (ADD flag 42 and optimum reception direction 43) in the reception direction table 40 of FIG. Become. In the reception direction table 40 of FIG. 5, the on state of the ADD flag is indicated by a circle, and the off state is indicated by a cross. Note that the above-described scan processing procedure (step S1 to step S12) constitutes the optimum reception direction determining means.

  The reception direction table 40 in FIG. 5 shows a state in which scan processing is performed for the 2nd channel, the 3rd channel, and the 128th channel, and data is stored for each channel. Here, since the ADD flag 42 is turned on for the 2nd channel and the 128th channel, it can be seen that there is sufficient reception intensity and a good received image can be obtained, but the ADD flag is turned off for the 3rd channel. Therefore, even if the multidirectional antenna 2 is effective in the optimum reception direction D15, a satisfactory received image cannot be obtained. Further, the other channels have not been scanned yet, and any data (information) associated with the channel number is not stored.

  Note that the entire area (all channels) scan processing for determining the optimum reception direction for all channels is performed by automatically repeating the scan processing for one channel. Specifically, the counter provided in the control unit 16 is first set to the same number as the number of channels, and then the above scanning process is performed to obtain the optimum reception direction and ADD flag on / off information for one channel. To do. Thereafter, the counter is decremented by 1 to perform scan processing for the next channel, and thereafter the same reception is repeated to obtain the optimum reception direction and ADD flag data for all channels and store them in the reception direction table 40.

  Therefore, if the entire area scan processing is executed by the TV broadcast receiving apparatus equipped with the entire area scan processing function, the data for all the channels is acquired and some data is stored for all the channels in the reception direction table 40. In the embodiment, it is assumed that a TV broadcast receiving apparatus not equipped with the entire area scan processing function or a TV broadcast receiving apparatus equipped with the function does not execute the entire area scan processing. That is, the user purchases the TV broadcast receiving apparatus 1 and, at the time of initial setting, selects only the channel that the user seems to be able to receive in the area and executes the scanning process for each individual channel. Then, as shown in FIG. 5, in the reception direction table 40 in that case, some of the 129 channels have information (ADD flag, optimum reception direction) associated with the channel, but the remaining channels remain. There is no information about that channel. The user usually selects and views a channel (channel from which a good received image can be obtained) with the ADD flag turned on on the reception direction table 40. However, because of the circumstances described above, In addition, there is a possibility that the channel may be matched by desiring to view the channel for which no information exists or the channel for which the received image is defective (channel with the ADD flag turned off).

  Hereinafter, a reception direction determination process when the user sets a channel in order to view an arbitrary channel will be described with reference to the flowchart of FIG. That is, first, when the user sets an arbitrary channel (S21), the control unit 16 determines whether there is information (optimum reception direction) in the reception direction table 40 for the set channel (S22). (Yes in step S22) executes a process (first process) for searching for an optimum reception direction for a local reception direction based on the information, and if there is no (no in step S22) A process (second process) for searching the reception direction is executed. For example, according to the reception direction table 40 of FIG. 5, if the user sets 3 channels, information associated with the 3 channels exists, so the first processing is performed, and if 1 channel is set, 1 channel is set. Since there is no associated information, the second process is performed. Step S22 constitutes reception channel information presence / absence confirmation means and processing switching means.

  Hereinafter, the first processing procedure (S23) will be described with reference to the flowchart of FIG. Now, assuming that the set channels are 3 channels, the optimum reception direction (hereinafter referred to as reference reception direction) n * stored in the reception direction table 40 is D15, so that the multidirectional antenna 2 is connected to the reception direction of D15. The bit error rate is extracted from the received signal in this state and stored in the memory 17 (S41). Next, the reception direction is set to (n * -1) D14 immediately before the reference reception direction, the bit error rate is extracted from the reception signal in that state, and stored in the memory 17 (S42). Further, the reception direction is set to (n * + 1) D16 one after the reference reception direction, and the bit error rate is extracted from the reception signal in that state, and stored in the memory 17 (S43). The bit error rate values in the reference reception direction n * thus extracted and the adjacent reception directions (n * -1) and (n * + 1) are compared (S44), and the value in the reference reception direction n * is the best. If it is (detailed later) (Yes in step S44), the reference reception direction (optimum reception direction stored in the reception direction table) n * D15 is set as the determined optimum reception direction (S45). Steps S41 to S43 constitute reception direction transition means and first reception quality data extraction / storage means, step S44 constitutes reception direction pass / fail judgment means, and step S45 constitutes optimum reception direction determination means. To do.

  The determination in step S44 will be described with reference to FIGS. FIG. 8 shows a specific example of the bit error rate extracted for the reference reception direction D15 and the adjacent reception directions D14 and D16. In this example, the value in the reference reception direction D15 is smaller than the values in the other directions D14 and D16. Therefore, the bit error rate value (40%) in the reference reception direction D15 is the best. FIG. 9 is a graph in which the horizontal axis represents the receiving direction and the vertical axis represents the bit error rate, and is a bit error rate generation curve in which a dotted line is estimated. Even in this graph, the eligibility of the reference reception direction D15 as the optimum reception direction is clear.

  Next, when the determination in step S44 is no (when the bit error rate in the reference reception direction n * is not the best), the bit error rate is the best (the numerical value is the smallest) in the adjacent reception direction ( It is determined whether it is n * -1) or (n * + 1) (S46). As a result, when the reception direction (n * + 1) is the best, the reception direction of the multi-directional antenna is set to (n * + 2), and the bit error rate in that state is extracted and stored in the memory. (S47). Then, the bit error rate values in the receiving direction (n * + 2) and the receiving direction (n * + 1) are compared (S48), and the value in the receiving direction (n * + 1) is the receiving direction (n * + 2). If the value is better than (), the reception direction (n * + 1) is determined as the determined optimum reception direction (S49), and vice versa, the reception direction (n * + 2) is determined as the optimal reception. The direction is set (S50).

  Steps S46 to S50 will be specifically described with reference to FIGS. Since the bit error rate values for the reference reception direction D15 and the adjacent reception directions D14 and D16 illustrated in FIG. 10 are 50%, 70%, and 40%, respectively, the reception direction with the best bit error rate value is D16 (n * + 1). Therefore, in this case, there is a possibility that there is a reception direction in which a better reception state can be obtained outside the reception direction of D16. In step S47, the reception direction is set to D17. If the bit error rate in the reception direction D17 is 60%, for example, the bit error rate in the reception direction D16 is the minimum, and the reception direction D16 is determined as the optimum reception direction.

  FIG. 11 is a graph in which the horizontal axis represents the reception direction and the vertical axis represents the bit error rate, and is a plot of the specific example shown in FIG. As apparent from FIG. 11, the bit error rate is poor outside the reception direction D16. In this case, the most appropriate reception direction as the optimal reception direction is D16. If the bit error rate in the reception direction D17 is smaller than the reception direction D16, D17 is adopted as the determined optimum reception direction.

  In step S46, if the bit error rate is smaller in the reception direction (n * -1), the reception direction is set to (n * -2) and the bit error rate in that state is extracted. • Store (S51). Then, the bit error rate value in the receiving direction (n * -1) is compared with the bit error rate value in the receiving direction (n * -2) (S52), and if the former is smaller, the receiving direction (n * -1) is set as the determined optimum receiving direction (S53), and if the latter is smaller, the receiving direction (n * -2) is set as the determined optimum receiving direction (S54). Steps S47 and S51 constitute reception direction re-transition means and second reception quality data extraction / storage means, and steps S48 to S50 and steps S52 to S54 constitute optimum reception direction resetting means.

  In practice, the optimum reception direction rarely fluctuates greatly, so in most cases the determination in step S44 is YES, and the optimum reception direction (reference reception direction) stored in the reception direction table 40 is determined. The optimal reception direction. Further, in this embodiment, when the determination in each of Step S48 and Step S52 is No (that is, when the outer receiving direction has a better value for the bit error rate), The receiving directions (n * + 2) and (n * -2) were determined as the optimum receiving directions. Here, a procedure for searching for the outer receiving directions (n * + 3) and (n * -3) on the outer side is also conceivable, but it is rare that the optimum receiving direction fluctuates greatly as described above. As the search range is expanded to the outside of the reference reception direction, the time required to determine the optimum reception direction becomes longer and does not meet the purpose of the invention. Therefore, as in the present embodiment, the local search range is increased. It is considered that two steps are appropriate outside the reference reception direction. When the above first processing procedure (S23) is completed and the optimal reception direction is determined, the multidirectional antenna 2 is validated in the determined optimal reception direction (S24).

  Next, returning to FIG. 6, the second processing procedure will be described. In step S22, when it is determined that there is no information (optimum reception direction) in the reception direction table 40 for an arbitrary channel set by the user, the control unit 16 scans the channel (one channel) (see FIG. 4). (Flowchart) is executed, and the optimum receiving direction for the channel is newly determined (S25). Then, the multidirectional antenna 2 is enabled in the determined new optimum reception direction (S26). Since the newly determined optimum reception direction is stored in the reception direction table 40 in association with the channel, the next time the same channel is set by the user, the stored optimum reception direction is used. The

  As described above, in the present embodiment, when the user desires to view and sets an arbitrary channel, the reception direction table 40 confirms whether there is information (optimum reception direction) about the channel, and information If there is a local search for adjacent reception directions based on the information (optimum reception direction) and it is found that the stored optimum reception direction is eligible, the optimum reception direction Is used as the determined optimal reception direction, and compared with the process of determining the optimal reception direction by performing a scanning operation over the entire reception direction, the time required for determining the optimal reception direction is short, and the user can view the video. The time until is shortened. Also, the reception quality in the reception direction adjacent to the stored optimal reception direction is compared, and the reception direction with the better reception quality is set as the determined optimal reception direction, so the eligibility of the determined optimal reception direction is high. . Furthermore, since the search range for determining the optimum reception direction is narrow, it takes time for extraction as data to be extracted for each reception direction in order to compare reception quality, but a highly reliable bit error rate is used. It can be adopted, and the suitability of the optimum receiving direction can be judged more accurately.

The conceptual diagram which shows the condition where a user receives a digital TV broadcast signal in a home. The electric block diagram which shows the structure of the TV broadcast receiver which concerns on one Embodiment of this invention. The figure which shows an example of the receiving direction of the direction of an antenna and TV broadcast signal. The flowchart which shows the scanning process about one channel by the TV broadcast receiver which concerns on one Embodiment of this invention. The figure which shows the receiving direction table produced by implementing the scanning process in the TV broadcast receiver. The flowchart which shows the receiving direction determination process in the TV broadcast receiver. The flowchart which shows the 1st process sequence in the same TV broadcast receiver. The figure which shows the specific example of the value of a receiving direction and a bit error rate. The figure which plotted and showed the example of the bit error rate. The figure which shows the specific example of the value of a receiving direction and a bit error rate when the search range is expanded. The figure which plotted and showed the example of the bit error rate at the time of expanding the search range.

Explanation of symbols

1 TV broadcast receiver 2 Multidirectional antenna (smart antenna)
16 Control section (optimal reception direction determination means, reception channel information presence / absence confirmation means, first processing means, second processing means, processing switching means, reception direction transition means, first reception quality data extraction / storage means Reception direction quality determination means, optimum reception direction determination means, reception direction re-transition means, second reception quality data extraction / storage means, optimum reception direction resetting means)
17 Memory 21 Control Unit 22 Remote Control 24 Operation Unit 40 Reception Direction Table 41 Channel Number 43 Optimal Reception Direction n Counter (Reception Direction Counter)
n * reference reception direction (n * -1) adjacent reception direction (n * + 1) adjacent reception direction (n * -2) reception direction (n * + 2) reception direction

Claims (3)

A multi-directional antenna having a plurality of reception directions defined in advance in the standard is connected, and when viewing a television broadcast, one of the plurality of reception directions is made effective according to the reception channel. Data indicating reception quality such as reception intensity and bit error rate in each reception direction by scanning the reception direction of the multi-directional antenna when searching for the optimal reception direction for each reception channel. In the television broadcast receiving apparatus that determines the optimum receiving direction based on
When searching for the optimum reception direction, the multi-directional antenna is scanned over all of the plurality of reception directions, and the optimum for each reception channel is based on the reception quality data for each reception direction received in the scan operation. An optimum receiving direction determining means for determining a receiving direction;
A reception direction table for storing the optimum reception direction for each reception channel determined by the optimum reception direction determination means in association with the reception channel;
When a reception command for an arbitrary reception channel is generated by the user when watching a television broadcast, it is detected whether the arbitrary reception channel associated with the optimal reception direction exists in the reception direction table. Means for confirming the presence / absence of receiving channel information,
As a result of confirmation by the means for confirming presence / absence of the reception channel information, in response to presence / absence of information on the arbitrary reception channel, if there is, a search for an optimum reception direction for a local reception direction based on the information is performed. Switching to one processing means, and in the case of none, a processing switching means for switching to a second processing means for searching for the optimum receiving direction for the entire receiving direction,
The first processing means includes
Reception of the multidirectional antenna in an adjacent reception direction (hereinafter referred to as an adjacent reception direction) including the reference reception direction, with the optimum reception direction corresponding to the arbitrary reception channel in the reception direction table as a reference reception direction. Receiving direction transition means for transitioning the direction;
First reception quality data extraction / storage means for extracting and storing a bit error rate for each reception direction from the reception signal of the multidirectional antenna whose reception direction is changed by the reception direction transition means;
The bit error rate in each reception direction stored by the first reception quality data extraction / storage means is compared, and the bit error rate in the reference reception direction is smaller than the bit error rate in the adjacent reception direction. A receiving direction pass / fail judgment means for judging pass / fail as the optimum receiving direction of the reference receiving direction, which is determined to be good when there is not, and when not small ;
An optimal reception direction determination means for determining the reference reception direction as an optimal reception direction when the determination result by the reception direction quality determination means is good;
When the determination result by the reception direction quality determination means is negative, the adjacent reception direction whose bit error rate is smaller than the reference reception direction, the reception direction further outward from the reference reception direction (hereinafter, outer reception) the receiving direction again transition means for shifting the receiving direction of the multi-directional antenna in the direction),
Second reception quality data extraction / storage means for extracting and storing a bit error rate in the reception direction from the received signal of the multidirectional antenna whose reception direction has been changed by the reception direction re-transition means;
The bit error rate in the outer reception direction stored by the second reception quality data extraction / storage means is compared with the bit error rate in the adjacent reception direction stored by the first reception quality data extraction / storage means. When the bit error rate in the outer receiving direction is smaller than the bit error rate in the adjacent receiving direction, the outer receiving direction is determined as the optimum receiving direction, and the bit error rate in the adjacent receiving direction is Optimal reception direction resetting means for determining the adjacent reception direction as the optimal reception direction when the bit error rate of the outer reception direction is smaller ,
The second processing means includes
The optimum reception direction determining means is activated to execute a search operation in all reception directions for the arbitrary reception channel, and to newly determine the optimum reception direction for the arbitrary reception channel, A television broadcast receiver. A multi-directional antenna having a plurality of reception directions defined in advance in the standard is connected, and when viewing a television broadcast, one of the plurality of reception directions is made effective according to the reception channel. When searching for the optimal reception direction for each reception channel, the reception direction of the multi-directional antenna is scanned to perform optimal reception based on data indicating reception quality such as reception intensity in each reception direction. In a television broadcast receiver that determines the direction,
When searching for the optimum reception direction, the multi-directional antenna is scanned over all of the plurality of reception directions, and the optimum for each reception channel is based on the reception quality data for each reception direction received in the scan operation. An optimum receiving direction determining means for determining a receiving direction;
A reception direction table for storing the optimum reception direction for each reception channel determined by the optimum reception direction determination means in association with the reception channel;
When a reception command for an arbitrary reception channel is generated by the user when watching a television broadcast, whether or not there is an optimal reception direction associated with the arbitrary reception channel in the reception direction table. Means for confirming presence / absence of reception channel information to be detected;
As a result of confirmation by the means for confirming presence / absence of the reception channel information, if the arbitrary reception channel and its optimum reception direction exist, the optimum reception direction is set as a reference reception direction, and reception quality data and reference reception in the reference reception direction After comparing the reception quality data in a plurality of reception directions adjacent to the direction, one reception direction from the reference reception direction and the plurality of adjacent reception directions is set as the optimum reception direction determined by the multidirectional antenna, When the arbitrary reception channel and the optimum reception direction do not exist, the optimum reception direction determination means is activated, and a search operation for all the reception directions for the arbitrary reception channel is performed, and the optimum reception direction is determined. A television broadcast receiving apparatus, comprising: a receiving direction determining means for newly determining. The receiving direction determiner means, reception quality data of the received signals for a plurality of receiving directions adjacent to said reference reception direction, on condition that the reception is poor data than the quality data of the received signal for the reference reception direction The television broadcast receiver according to claim 2, wherein the optimum reception direction corresponding to the arbitrary reception channel in the reception direction table is the optimum reception direction determined by the multidirectional antenna.

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