JP6898288B2 - Advertising viewer dynamic measurement circuits, computer program products and methods for estimating the number of viewers of out-of-home (ООH) advertisements that pass through a specific location in a given period of time. - Google Patents

Description

The present disclosure relates roughly to an ad viewer measurement device, and more specifically to an ad viewer dynamic for estimating the number of viewers of an out-of-home (ООH) ad passing through a particular location over a predetermined period of time. The measurement circuit, and related computer program products and methods thereof.

As commercial activity becomes more active, various out-of-home (ООH) advertisements are becoming more common. As an example, many OOH advertisements are in the form of neon lamps, electronic panels, light boxes, balloons, large inflatable models, flat posters, or various streets, parks, airports, public transport vehicles. , Airships, or other forms that are easily found on the walls of corridors in various buildings.

For advertisers and advertising agencies, the number of viewers of an ad is one of the most interesting factors in assessing the effectiveness of an ad. However, estimating the number of viewers of an advertisement is very complicated. The most typical way to estimate the number of viewers for an OOH ad is to have an investigator stand beside the OOH ad to observe, count, and record the number of people viewing the OOH ad. .. However, this typical method incurs enormous labor costs, and the application of the above method is not practical when advertisements are placed in many different places.

MATHY VANHOEF, et. Al., Why MAC address Randomization is not Enough An Analysis of Wi-Fi Network Discovery Mechanisms, 2016

One of the recently developed methods to estimate the number of viewers of OOH ads is to utilize image recognition technology by installing a camera and computer at the location of OOH ads, and the face and appearance of the viewers of the advertisement. This is a method of measuring the characteristics in real time and counting and recording the number of people who are viewing OOH advertisements. However, this method requires the use of cameras, computers, and complex image recognition algorithms, and also limits the detection range (or detection angle) of the camera. Therefore, this method not only requires a considerable hardware cost, but also reduces the measurement accuracy. Moreover, such a method is not suitable when the advertisement is placed in many different places.

An exemplary embodiment of an ad-viewer dynamic measurement circuit for estimating the number of viewers of an OOH (out-of-home) ad passing through a particular location over a predetermined period of time is disclosed. The advertisement viewer dynamic measurement circuit is connected to the wireless reception circuit, the storage device that stores the computer program product in an arithmetic manner, and the wireless reception circuit and the storage device, and can execute the computer program product for executing the operation. It is equipped with a processing circuit. The operation examines the frame field structure of the target probe request frame, the step of receiving the target probe request frame transmitted by another wireless communication device, the step of recording the arrival time of the target probe request frame, and the step of recording the arrival time of the target probe request frame by the wireless reception circuit. According to the step, the arrival time and frame field structure of the target probe request frame, and the sequence control value in the header of the target probe request frame, the target probe request frame is assigned to the corresponding data group, and all in the same data group. The probe request frames have the same frame field structure, the difference in arrival time between the two latest probe request frames in the same data group is smaller than the first set value, and the same data. A specific position at a given time period based on the steps to ensure that the difference in sequence control values between the two latest probe request frames in the group is less than the second set value and the total number of data groups obtained. Includes a step of calculating the estimated number of viewers of the OOH ad that passes through.

Disclose an embodiment of a computer program product stored in a storage device of an advertising viewer dynamic measurement circuit. The computer program product enables the advertising viewer dynamic measurement circuit to perform the operation of measuring the number of viewers of the OOH advertisement. The operation of measuring the number of viewers of an OOH advertisement includes a step of receiving a target probe request frame transmitted by another wireless communication device by a wireless reception circuit, a step of recording the arrival time of the target probe request frame, and a target probe. Allocate the target probe request frame to the corresponding data group according to the step of examining the frame field structure of the request frame, the arrival time and frame field structure of the target probe request frame, and the sequence control value in the header of the target probe request frame. , All probe request frames in the same data group have the same frame field structure, and the difference in arrival time between the two latest probe request frames in the same data group is the first set value. Based on the step of making sure that the difference between the sequence control values between the two latest probe request frames in the same data group is less than the second set value, and the total number of data groups obtained. It includes the step of calculating the estimated number of viewers of the OOH advertisement passing through a specific position in a predetermined period.

One embodiment of a method of measuring the number of viewers of an OOH advertisement is disclosed. The method examines the frame field structure of the target probe request frame, the step of receiving the target probe request frame transmitted by another wireless communication device, the step of recording the arrival time of the target probe request frame, and the step of recording the arrival time of the target probe request frame by the wireless reception circuit. According to the step, the arrival time and frame field structure of the target probe request frame, and the sequence control value in the header of the target probe request frame, the target probe request frame is assigned to the corresponding data group, and all in the same data group. The probe request frames have the same frame field structure, the difference in arrival time between the two latest probe request frames in the same data group is smaller than the first set value, and the same data. A specific position at a given time period based on the steps to ensure that the difference in sequence control values between the two latest probe request frames in the group is less than the second set value and the total number of data groups obtained. Includes a step of calculating the estimated number of viewers of the OOH ad that passes through.

The outline of the above-mentioned invention and the detailed description of the invention described later are for the purpose of exemplary explanation only, and do not limit the invention described in the claims.

It is a functional block diagram which simplified the OOH advertising system which concerns on one Embodiment of this disclosure. It is a function module diagram which simplified the computer program product in the advertisement-viewer dynamic measurement circuit of FIG. 1 which concerns on one Embodiment of this disclosure. It is a flowchart which simplified the method of measuring the number of viewers of the OOH advertisement which concerns on one Embodiment of this disclosure. It is a flowchart which simplified the method of grouping probe request frames in FIG. 3 which concerns on one Embodiment of this disclosure.

The embodiments of the present invention shown in the accompanying drawings are referred to in detail. The same reference number is used for the same or similar parts, configurations, or operations throughout the drawing.

FIG. 1 is a simplified functional block diagram of the OOH (out-of-home) advertising system 100 according to the embodiment of the present disclosure. The out-of-home advertising system 100 includes an advertising display device 110, an advertising viewer dynamic measurement circuit 120, a plurality of wireless communication devices (for example, exemplary wireless communication devices 130a to 130k shown in FIG. 1), and a remote data statistics server 150. , And one or more client devices (eg, exemplary client device 160 shown in FIG. 1). As shown in FIG. 1, the advertisement viewer dynamic measurement circuit 120 of the present embodiment includes a wireless reception circuit 121, a storage device 122, a communication circuit 123, a transmission interface 124, and a processing circuit 125. , The program 126 for measuring the number of viewers of the OOH advertisement is stored.

Throughout the specification and drawings, the letters a to k can be used as reference numbers for some devices for the sake of simplification of references for each device. The use of letters a to k does not limit the number of associated devices to a particular value.

In the embodiment of FIG. 1, the advertisement display device 110 can be realized by various electronic devices capable of displaying the contents of the OOH advertisement. As an example, the advertising display device 110 can be realized by a neon lamp, an electronic display, a light box, an audio player, or the like. The advertisement viewer dynamic measurement circuit 120 is connected to the advertisement display device 110 and is arranged so that the number of viewers of the OOH advertisement passing through a specific position in a predetermined period can be estimated. That is, the advertisement display device 110 and the advertisement viewer dynamic measurement circuit 120 are located at the same location or are close to each other.

In the advertisement viewer dynamic measurement circuit 120, the radio reception circuit 121 is arranged so as to be able to receive probe request frames transmitted from a plurality of radio communication devices near the radio reception circuit 121. The communication circuit 123 is arranged so that various data or instructions can be communicated with the remote data statistics server 150 via the network 140 or another data transmission line. The transmission interface 124 communicates various data or instructions with the advertising display device 110 and / or receives power from the advertising display device 110 required for the operation of the advertising viewer dynamic measurement circuit 120. It can be connected to the appropriate interface of the advertising display device 110. The processing circuit 125 is connected to the wireless reception circuit 121, the storage device 122, the communication circuit 123, and the transmission interface 124. The processing circuit 125 is arranged so that a program 126 for measuring the number of viewers of the OOH advertisement stored in the storage device 122 can be executed in order to execute an operation for measuring the number of viewers of the OOH advertisement.

In practice, the wireless receiving circuit 121 can be realized by various signal receiving circuits based on the 802.11 series wireless communication protocol. The communication circuit 123 can be realized as various suitable circuits conforming to a related network communication protocol, wireless communication protocol, or mobile communication protocol, such as a network interface card (NIC), Wi-Fi circuit, or mobile communication circuit. .. The transmission interface 124 can be realized as various signal interface circuits compliant with the associated network communication protocol, wired communication protocol, or wireless communication protocol. For example, according to the communication method adopted for communication with the advertisement display device 110, the transmission interface 124 includes a USB (Universal Serial Bus) interface, a UART (Universal Asynchronous Receiver / Transmitter) interface, a SATA (Serial Advanced Technology Attachment) interface, and the like. It may include a PCI (Peripheral Component Interconnect) interface, a PCI-E (Peripheral Component Interconnect Express) interface, a NIC (Network Interface Card) interface, a BLE (Bluetooth Low Energy) interface, or an NFC (Near Field Communication) interface, or It may include the combination of interfaces described above.

The program 126 for measuring the number of viewers of the OOH advertisement in the above-mentioned advertisement viewer dynamic measurement circuit 120 can be realized by a computer program product formed by one or more functional modules. For example, FIG. 2 is a diagram of a functional module that simplifies the program 126 for measuring the number of viewers of the OOH advertisement in FIG. 1 according to an embodiment of the disclosure of the present invention. In the embodiment shown in FIG. 2, the program 126 for measuring the number of viewers of the OOH advertisement includes a receiving module 210, a determination module 220, a calculation module 230, a grouping module 240, and a report module 250.

As wireless communication devices are becoming more commonplace, most modern people carry a smartphone, tablet computer, laptop, or another wireless communication device capable of performing wireless network communication when they go out. doing. Therefore, if the content of a wireless network packet sent by a wireless communication device around the location where the ad is placed (ad location) can be used to identify the source device of the packet on the wireless network, it will appear in the ad location. The number of viewers of the OOH advertisement can be estimated based on the total number of source devices for the identified wireless network packets.

In the early stages, wireless communication devices from various vendors typically adopted a real MAC addressing mechanism. That is, the source MAC address in the wireless network packet generated by the wireless communication device is the actual hardware address of the wireless communication device and did not change over time.

However, as is known, an increasing number of vendors are adopting the random MAC address mechanism instead of the real MAC address mechanism in order to improve the information security of wireless communication devices. That is, the wireless communication device is designed to intentionally change the source MAC address in the generated wireless network packet after a while. This makes it more difficult for malicious programs or hackers to steal a user's personal information by sniffing network packets.

For this reason, it is not possible to obtain the actual number of wireless communication devices near the advertising location by simply sniffing the wireless network packets around the advertising location. Therefore, the ad viewer dynamic measurement circuit 120 described above employs a specially designed measurement method that accurately calculates the actual number of wireless communication devices in the vicinity of the ad location. This makes it possible to estimate the number of viewers of OOH advertisements based on the actual number of wireless communication devices.

The operation of the advertisement viewer dynamic measurement circuit 120 is further disclosed below with reference to FIGS. 3 and 4. FIG. 3 is a flowchart simplifying the method of measuring the number of viewers of the OOH advertisement according to the embodiment of the present disclosure. FIG. 4 shows a flowchart that simplifies the method of grouping probe request frames in FIG. 3 according to an embodiment of the present disclosure.

In the operation, the processing circuit 125 of the advertisement viewer dynamic measurement circuit 120 determines the number of viewers of the OOH advertisement stored in the storage device 122 in order to execute the method of measuring the number of viewers of the OOH advertisement of FIG. The measuring program 126 is executed. In this case, it operates in promiscuous mode or monitor mode in order to receive a plurality of probe request frames PRF_A to PRF_Q transmitted from another wireless communication device 130a to 130k near the advertisement viewer dynamic measurement circuit 120. By configuring the wireless reception circuit 121 so as to do so, the reception module 210 can control the processing circuit 125. It should be noted that throughout the specification and the drawings, the letters a to k in the reference numbers of some probe request frames are used for simplification of reference to each probe request frame, and the probe request frame. The number is not limited to a specific number.

The determination module 220 of the program 126 that measures the number of viewers of the OOH advertisement can flexibly set the start time and the end time of each predetermined period in the operation of measuring the number of viewers of the OOH advertisement. In practice, all predetermined periods can be set to the same length of time. In another aspect, the predetermined period in the morning may be set to a length of time different from the predetermined period in the afternoon. Similarly, the predetermined period during the day may be set to a different length of time from the predetermined period at night.

The advertisement viewer dynamic measurement circuit 120 can repeat the operations 302 to 308 in FIG. 3 in each predetermined period set by the determination module 220.

In operation 302, the receiving module 210 uses the wireless receiving circuit 121 to transmit a probe request frame (hereafter, probe request frame) from one of the other wireless communication devices 130a-130k near the advertising viewer dynamic measurement circuit 120. The processing circuit 125 may be controlled to receive a target probe request frame).

In operation 304, the receiving module 210 may control the processing circuit 125 to record the arrival time of the target probe request frame. As used throughout the specification and claims, the term "arrival time" is not the time value recorded in the timestamp field of the target probe request frame, but the actual time the target probe request frame was received by the radio receive circuit 121. Indicates the time.

In operation 306, the determination module 220 may control the processing circuit 125 to examine the frame field structure of the target probe request frame.

As used throughout the specification and claims, the term "frame field structure" is the sum of the number of fields in one or more predetermined tagged parameter fields in the frame body of each probe request frame, one or more. Structurally, such as the placement of predetermined tagged parameter fields, the sum of the field lengths of one or more predetermined tagged parameter fields, and / or the length of each field of one or more predetermined tagged parameter fields. Refers to the characteristics of. However, the term "frame field structure" is not related to the content recorded in the tagged parameter fields described above. The above-mentioned arrangement of the tagged parameter fields refers to the position and / or order of the above-mentioned tagged parameter fields in the frame body.

In relation to the specifications of general wireless communication protocols, the frame body of each probe request frame is usually a SSID (Service Set ID) field, a Supported Rates field, an Extended Supported Rates field, an FH (Frequency Hopping) Parameter Set field, and the like. DS (Direct Sequence) Parameter Set field, CF (Contention Free) Parameter Set field, TIM (Traffic Indication Map) field, IBSS Parameter Set field, HT Capabilities field, Extended HT Capavities field, and one or more non-essential Vice fields. including.

The frame field structure of a tagged parameter field in a probe request frame generated by a wireless communication device by collecting and analyzing large amounts of data (eg, total number of fields, placement, total field length, and / Or each field length) usually matches another wireless communication device of the same vendor. Conversely, the frame field structure of the probe request frame generated by the wireless communication device is usually different from that of another wireless communication device from a different vendor.

Various wireless communication devices have different penetration rates in different countries or regions. Therefore, some or all of the tagged parameter fields that may be present in the probe request frame are examined by the processing circuit 125 in operation 306, depending on the country or region to which the out-of-home advertising system 100 will be applied. Can be selected as a given predetermined tagged parameter field.

In certain embodiments, a given tagged parameter field refers to one or more Vendor Specific fields.

In another embodiment, the predetermined tagging parameter field is one or more Vendor Specialistic fields in the probe request frame and at least one of the Supported Rates field, the Extended Supported Rates field, and the FH Parameter Set field in the probe request frame. Refers to a combination.

The determination module 220 only needs to examine the frame field structure of the target probe request frame in the operation 306, and does not need to read the contents of the predetermined tagged parameter field.

In operation 308, the grouping module 240 and the compute module 230 are assigned to the corresponding data set according to the arrival time of the target probe request frame, the frame field structure of the target probe request frame, and the sequence control values in the header of the target probe request frame. The processing circuit 125 is controlled to allocate the target probe request frame. When assigning the target probe request frame to the corresponding data group, the processing circuit 125 makes sure that all the probe request frames in the same data group have the same frame field structure, and that the two latest probe request frames in the same data group have the same frame field structure. The time difference between the arrival times is smaller than the first set value, and the difference in the sequence control value between the two latest probe request frames in the same data group is smaller than the second predetermined value. Confirm. In this embodiment, each data group is a virtual group corresponding to a specific frame field structure.

In the operation, the receiving module 210, the determination module 220, the calculation module 230, and the grouping module 240 assign a plurality of probe request frames received by the wireless receiving circuit 121 to the corresponding data group, thereby performing a plurality of data. The above operations 302 to 308 are repeated in each of the other probe request frames received by the radio receive circuit 121 to establish the group continuously.

At the end of the predetermined period set by the determination module 220, the advertising viewer dynamic measurement circuit 120 may perform the operation 310 in FIG.

In operation 310, the processing circuit 125 is configured such that the compute module 230 generates an estimated number of wireless communication devices passing through the advertising location in the predetermined time period described above based on the total number of data groups resulting from performing operation 308. Control. In this embodiment, the compute module 230 determines that the probe request frames assigned to the same data group were generated by the same wireless communication device, and each of the two probe request frames assigned to different data groups Determined to have been generated by a different wireless communication device. The calculation module 230 may simply use the sum of the established data sets as the estimated number of wireless communication devices passing through the advertising location during the predetermined period described above. Next, the determination module 220 determines the estimated number of viewers of the OOH advertisement passing through the above-mentioned specific position (for example, the advertisement location) in the above-mentioned predetermined period based on the estimated value generated by the wireless communication device. The processing circuit 125 is controlled so as to calculate.

As an example, the processing circuit 125 may be controlled so that the determination module 220 directly uses the generated estimated value of the wireless communication device as the estimated value of the number of viewers of the OOH advertisement. As another example, the determination module 220 controls the processing circuit 125 to perform a weighting operation on the estimated value of the wireless communication device in order to generate an estimated value corresponding to the number of viewers of the OOH advertisement.

In operation 312, the calculation module 230 estimates the length of time that the wireless communication device corresponding to the target data group stays within a specific position (that is, the wireless signal reception range of the wireless reception circuit 121). , The processing circuit 125 is controlled to calculate the time difference between the arrival time of the latest probe request frame and the arrival time of the first probe request frame in the target data group. As an example, the calculation module 230 uses the processing circuit 125 so that the wireless communication device corresponding to the target data group simply uses the difference in arrival time as an estimate of the length of time that the wireless communication device is staying at a specific position. You may control it. As another example, the calculation module 230 performs a weighting operation on the arrival time in order to generate an estimate of the length of time that the wireless communication device corresponding to the target data group stays at a specific position. The processing circuit 125 may be controlled so as to do so.

By executing the operation 312 described above, the calculation module 230 can control the processing circuit 125 so as to estimate the length of residence time at a specific position for each wireless communication device.

In operation 314, the report module 250 uses the communication circuit 123 to estimate the number of viewers of the OOH advertisement passing through the specific position within the predetermined period described above and the residence time at the specific position of each wireless communication device. The processing circuit 125 is controlled so that the estimated value of the length of is transmitted to the remote data statistics server 150 via the network.

Based on the data transmitted from the ad viewer dynamic measurement circuit 120, the remote data statistics server 150 performs OOH ad profit analysis, population flow analysis at a particular location, and / or offline customer preference analysis. Then, the analysis result is transmitted to the client device 160 via the network or another appropriate data transmission method. This allows advertisers and advertising agencies to obtain relevant analysis results.

The method of grouping probe request frames in operation 308 described above is further disclosed below with reference to FIG.

As shown in FIG. 4, when the advertisement viewer dynamic measurement circuit 120 executes the operation 308 for the target probe request frame, the operation 402 is executed first. In operation 402, the grouping module 240 controls the processing circuit 125 to determine whether the frame field structure of the target probe request frame corresponds to any existing data set.

If the processing circuit 125 determines that there is no existing data group corresponding to the frame field structure of the target probe request frame, the advertisement viewer dynamic measurement circuit 120 will execute the operation 404. As an example, if the frame field structure of all existing data groups established by the grouping module 240 is different from the frame field structure of the target probe request frame, or the grouping module 240 can establish any data group. If not, the ad viewer dynamic measurement circuit 120 will perform operation 404.

In operation 404, the grouping module 240 establishes a new data group, allocates the target probe request frame to the new data group, and corresponds to the same frame field structure as the frame field structure of the target probe request frame. The processing circuit 125 is controlled so as to construct. The grouping module 240 then performs operation 406 and waits for the next probe request frame to which operation 308 of FIG. 3 should be applied.

Conversely, if the processing circuit 125 determines that the frame field structure of the current probe request frame is the same as the frame field structure corresponding to one or more existing data groups established by the grouping module 240, the advertisement. The viewer dynamic measurement circuit 120 will execute the operation 408.

As an example, it is assumed that the target probe request frame described above is the probe request frame PRF_A, and the probe request frame PRF_A is the first probe request frame received by the radio reception circuit 121 in the current predetermined period. In other words, there is no existing data set before the grouping module 240 controls the processing circuit 125 to perform operation 308 for probe request frame PRF_A.

In this case, when the grouping module 240 controls the processing circuit 125 to perform operation 402 for the probe request frame PRF_A, the processing circuit 125 corresponds to the same frame field structure as the probe request frame PRF_A. It is determined that there is no data group of, and the process proceeds to operation 404.

In operation 404, the grouping module 240 establishes a new data group (the first data group established in the current predetermined period), assigns the probe request frame PRF_A to the first data group, and frames the probe request frame PRF_A. The processing circuit 125 is controlled so as to construct the initial data group corresponding to the same frame field structure as the field structure. For the purpose of exemplification, the first data group is hereinafter referred to as the first data group. As an example, the grouping module 240 can assign a first configuration identification code to the frame field structure of the probe request frame PRF_A, and can associate the first data group with the first configuration identification code.

The grouping module 240 then performs operation 406 and waits for the next probe request frame to which operation 308 of FIG. 3 should be applied.

As another example, it is assumed that the target probe request frame described above is the probe request frame PRF_C, and the probe request frame PRF_C is not the first probe request frame received by the radio reception circuit 121 during the current predetermined period. In other words, there must be one or more established data sets before the grouping module 240 controls the processing circuit 125 to perform operation 308 for probe request frame PRF_C.

In this case, when the grouping module 240 controls the processing circuit 125 to execute the operation 402 for the probe request frame PRF_C, the frame field structure of the existing data group having the frame field structure of the probe request frame PRF_C of 1 or more is one or more. If it is the same as, the advertisement viewer dynamic measurement circuit 120 will execute the operation 408 for the probe request frame PRF_C. Conversely, if the frame field structure for all existing data groups established by the grouping module 240 is different from the frame field structure of the probe request frame PRF_C, the grouping module 240 will perform operation 404. ..

In operation 408, the calculation module 230 determines the difference in arrival time and the difference in sequence control value between the probe request frame PRF_C and the latest probe request frame in the target data group corresponding to the same frame field structure as the probe request frame PRF_C. The processing circuit 125 is controlled so as to calculate. Further, the grouping module 240 executes the related condition determination process based on the calculation result of the calculation module 230.

If the probe request frame PRF_C satisfies the first condition and the second condition, the grouping module 240 will execute the operation 410 for the probe request frame PRF_C. The first condition indicates that the difference in arrival time between the probe request frame PRF_C and the latest probe request frame in the target data group is smaller than the first set value. The second condition indicates that the difference between the sequence control value of the probe request frame PRF_C and the latest probe request frame in the target data group is smaller than the second set value.

In operation 410, the grouping module 240 controls the processing circuit 125 to allocate the probe request frame PRF_C to the current target data group.

As an example, assuming that the target data group is the above-mentioned first data group (that is, the data group corresponding to the above-mentioned probe request frame PRF_A) and the probe request frame PRF_C satisfies the first condition and the second condition. The processing circuit 125 allocates the probe request frame PRF_C to the first data group.

If the probe request frame PRF_C does not meet at least one of the first and second conditions and there is no other data group corresponding to the same frame field structure, the grouping module 240 will be placed in the probe request frame PRF_C. On the other hand, the operation 404 is executed.

In operation 404, the grouping module 240 controls the processing circuit 125 to establish a new data group and allocate the probe request frame PRF_C to the new data group. As an example, the grouping module 240 generates a second data group different from the first data group described above, allocates the probe request frame PRF_C to the second data group, and has the same frame as the frame field structure of the probe request frame PRF_C. The processing circuit 125 can be controlled so as to construct a frame field structure corresponding to the second data group having a field structure. As an example, the grouping module 240 can assign a second configuration identification code to the frame field structure of the probe request frame PRF_C and associate the second data group with the second configuration identification code.

It is understood in the preceding description that the frame field structure corresponding to the second data group may be the same as or different from the frame field structure corresponding to the first data group. There will be.

If the probe request frame PRF_C does not meet at least one of the first or second conditions, but there is another set of data corresponding to the same frame field structure as the probe request frame PRF_C, the ad viewer dynamic measurement circuit 120 Performs operation 412 for probe request frame PRF_C.

In operation 412, the calculation module 230 is made to calculate the difference in arrival time and the difference in sequence control value between the probe request frame PRF_C and the latest probe request frame in the next data group corresponding to the same frame field structure. Controls the processing circuit 125.

Then, the grouping module 240 compares the difference in arrival time with the above-mentioned first set value, and compares the difference in sequence control value with the above-mentioned second set value. Thereby, it is determined whether or not to allocate the probe request frame PRF_C to the next data group corresponding to the same frame field structure.

In the following description, for convenience, it is assumed that the next data group corresponding to the frame field structure in the operation 412 is a third data group different from the first data group and the second data group. Similar to the determination described above, when the probe request frame PRF_C satisfies the first condition and the second condition, the grouping module 240 controls the processing circuit 125 so as to allocate the probe request frame PRF_C to the third data group. It will be. If the probe request frame PRF_C does not meet at least one of the first and second conditions, the grouping module 240 will check for other data groups corresponding to the same frame field structure. .. If there is no other data group corresponding to the same frame field structure, the grouping module 240 will establish an additional new data group. When there is a fourth data group corresponding to the same frame field structure, the grouping module 240 has the probe request frame PRF_C and the next data group corresponding to the same frame field structure (for example, the fourth data group). The difference in arrival time and the difference in sequence control value from the latest probe request frame in

As can be understood from the above description, after the grouping module 240 controls the processing circuit 125 to execute the grouping operation 308 for each of the plurality of probe request frames PRF_A to PRF_Q received by the radio receiving circuit 121. , The grouping module 240 generates a plurality of data groups corresponding to different frame field structures, and all probe request frames in the same data group have the same frame field structure. The difference in arrival time between the two latest probe request frames is smaller than the first set value described above, and the difference in the sequence control value between the two latest probe request frames in the same data group. Confirm that it is smaller than the second set value described above.

Furthermore, it can be seen from the above description that the two different data groups may each correspond to a different frame field structure, or both may correspond to the same frame field structure.

The advertisement viewer dynamic measurement circuit 120 cannot directly determine whether or not the source devices of different probe request frames are the same wireless communication device based on the content of the probe request frame, but the advertisement viewer dynamic measurement circuit 120. The 120 sets the true source device for all probe request frames by performing the operation 308 described above for grouping probe request frames based on their arrival time, frame field structure, and sequence control values. It can be determined more effectively. As a result, the advertising viewer dynamic measurement circuit 120 effectively prevents the same source device from being mistakenly identified as a different source device.

Therefore, the disclosed method for estimating the number of viewers of OOH advertisements passing through a specific position in a given time period, based on the total number of source devices of probe request frames, obtains an estimate that is very close to the actual number. Is possible.

As described above, the determination module 220 only needs to check the frame field structure of the target probe request frame in operation 306 described above and reads the content recorded in the predetermined tagged parameter field. Is not necessary. Therefore, the calculation required for the determination module 220 can be minimized. Therefore, even in an environment with a considerable number of wireless communication devices, the disclosed advertisement viewer dynamic measurement circuit 120 can operate as usual.

Further, since the wireless reception circuit 121 used in the advertisement viewer dynamic measurement circuit 120 is hardware that is extremely cheaper than a normal camera and has a wider detection range than the camera, various types are available. It is more affordable to place a large number of advertising viewer dynamic measurement circuits 120 in the OOH advertising application than the conventional method.

Further, in the operation of measuring the number of viewers of the OOH advertisement, the start time and the end time in each predetermined period can be flexibly set by the advertisement viewer dynamic measurement circuit 120, so that the advertisement viewer dynamic measurement circuit 120 provides an estimate of the number of viewers of an OOH ad passing through an OOH ad location in a short period of time (for example, 10 minutes, 5 minutes, or 1 minute) by simply setting the length of the predetermined period shorter. It becomes possible to acquire. As a result, the advertisement viewer dynamic measurement circuit 120 can obtain more detailed and accurate estimation results that could not be realized by the conventional technique for estimating the number of viewers of the advertisement. Therefore, the advertisement viewer dynamic measurement circuit 120 is very useful for profit analysis caused by OOH advertisement, population flow analysis for a specific position, and offline customer preference analysis.

In another aspect, the method for estimating the number of viewers of the OOH advertisement described above does not read the personal information stored in each wireless communication device or rely on the personal information. Therefore, there is no infringement of the user's privacy and there is no concern about leakage of the user's personal information.

It should be noted that the order in which the operations of FIGS. 3 and 4 are executed is merely an exemplary embodiment and does not limit practical implementation. For example, the order in which operations 304 and 306 of FIG. 3 are executed may be changed, or these operations may be executed at the same time. Further, the order in which the operations 310 and 312 of FIG. 3 are executed may be changed, or these operations may be executed at the same time.

In some embodiments, operation 312 may be omitted.

In some embodiments, the ad viewer dynamic measurement circuit 120 and the remote data statistics server 150 may be integrated. In this case, the communication circuit 123 may be omitted.

In some embodiments, instead of the advertising display device 110, data communication with the advertising viewer dynamic measurement circuit 120 is not possible, or power cannot be transmitted to the advertising viewer dynamic measurement circuit 120. Electronic devices may be used. The advertising display device 110 may be a balloon, a large inflatable model, a flat poster, or other object representing static advertising content. In this case, the transmission interface 124 may be omitted.

Certain terms are used to refer to individual components throughout the specification and claims. Those skilled in the art will appreciate that the components can be referred to by different names. The present disclosure is not intended to distinguish between components that have different names but the same function. In the specification and claims, "comprise" is used in an open-ended fashion and should be understood to mean "including, but not limited to,". "Joining" means including any indirect or direct connection. Therefore, when it is mentioned in the present disclosure that the first device is coupled to the second device, the first device is associated with the second device by electrical connection, wireless communication, optical communication, or another relay device or. It means that it is possible to connect directly or indirectly through a signal connection using or not using a relay connection means.

"And / or" can include any combination of one or more in the list of related items. Furthermore, the singular form in the present disclosure is meant to include the plural form unless it is clear from the context that this is not the case.

Considering the specification and examples of the present invention disclosed in this document, it is clear to those skilled in the art that there may be other embodiments of the present invention. The specification and examples are intended to be considered merely exemplary to the true scope and gist of the invention as set forth in the claims.

Claims (9)

A viewer dynamic measurement circuit (120) for an advertisement for estimating the number of viewers of an OOH (out-of-home) advertisement that passes through a specific position in a predetermined period.
Wireless reception circuit (121) and
A storage device (122) that stores a computer program product (126) in an arithmetic manner, and
A processing circuit (125) that is connected to the radio reception circuit (121) and can execute the computer program product (126) for executing an operation is provided.
The operation is
The step of receiving the target probe request frame transmitted by another wireless communication device (130a to 130k) by the wireless reception circuit (121), and
The step of recording the arrival time of the target probe request frame and
The step of examining the frame field structure of the target probe request frame and
According to the arrival time of the target probe request frame, the frame field structure, and the sequence control value in the header of the target probe request frame, the target probe request frame is assigned to the corresponding data group and the same data group is assigned. All probe request frames have the same frame field structure, the arrival time difference between two latest probe request frames in the same data group is smaller than the first set value, and , The step of confirming that the difference in the sequence control value between the two latest probe request frames in the same data group is smaller than the second set value, and
Based on the total number of data groups obtained, an estimated number of wireless communication devices passing through a specific position in a predetermined period is generated, and a weighting operation is performed on the estimated number to generate an estimated number of OOH advertisement viewers. Including the step of calculating the estimated number of people,
The frame field structure of the target probe request frame is that of one or more predetermined tagged parameter fields in the target probe request frame.
The total number of fields in one or more tagged parameter fields,
Arrangement of one or more tagged parameter fields,
The sum of the field lengths of one or more tagged parameter fields, and
Each field length of one or more tagged parameter fields,
Selected from the group consisting of the characteristics
The advertising viewer dynamic measurement circuit (120), wherein the one or more tagged parameter fields include one or more Vendor Specific fields within the target probe request frame. The executed by the processing circuit (125), said Starring target to assign a probe request frame calculated for the corresponding data group,
The step of calculating the difference in arrival time and the difference in sequence control value between the target probe request frame and the latest probe request frame in the target data group corresponding to the same frame field structure as the target probe request frame. When,
The first condition for specifying that the difference in arrival time between the target probe request frame and the latest probe request frame in the target data group is smaller than the first set value, and the above-mentioned target probe request frame. The target satisfies the second condition that specifies that the difference between the sequence control value between the target probe request frame and the latest probe request frame in the target data group is smaller than the second set value. The step of allocating the probe request frame to the target data group and
If the target probe request frame does not satisfy one of the first condition and the second condition, and there is no other data group corresponding to the frame field structure that is the same as the target probe request frame, a new data group is used. And assigning the target probe request frame to the new data group,
When the target probe request frame does not satisfy one of the first condition and the second condition and there is another data group corresponding to the frame field structure which is the same as the target probe request frame, the target probe The difference in arrival time between the request frame and the latest probe request frame in the next data group corresponding to the same frame field structure as the target probe request frame is calculated, and the difference in arrival time and the first set value are calculated. The difference between the target probe request frame and the latest probe request frame in the next data group is calculated, and the difference between the sequence control value and the second set value are calculated. The advertisement viewer according to claim 1, further comprising a step of comparing and determining whether or not to allocate the target probe request frame to the next data group based on these comparison results. Dynamic measurement circuit (120). It is stored in the storage device (122) of the advertisement viewer dynamic measurement circuit (120), and the advertisement viewer dynamic measurement circuit (120) can perform an operation of measuring the number of viewers of an OOH (out-of-home) advertisement. Computer program product (126)
The measurement operation
The step of receiving the target probe request frame transmitted by another wireless communication device (130a to 130k) by the wireless reception circuit (121), and
The step of recording the arrival time of the target probe request frame and
The step of examining the frame field structure of the target probe request frame and
According to the arrival time of the target probe request frame, the frame field structure, and the sequence control value in the header of the target probe request frame, the target probe request frame is assigned to the corresponding data group, and all in the same data group. The probe request frames of are having the same frame field structure, the difference in arrival time between two latest probe request frames in the same data group is smaller than the first set value, and the same data group. The step of confirming that the difference in the sequence control value between the two latest probe request frames in is smaller than the second set value, and
Based on the total number of data groups obtained, an estimated number of wireless communication devices passing through a specific position in a predetermined period is generated, and a weighting operation is performed on the estimated number to generate an estimated number of OOH advertisement viewers. Including the step of calculating the estimated number of people,
The frame field structure of the target probe request frame is that of one or more predetermined tagged parameter fields in the target probe request frame.
The total number of fields in one or more tagged parameter fields,
Arrangement of one or more tagged parameter fields,
The sum of the field lengths of one or more tagged parameter fields, and
Each field length of one or more tagged parameter fields,
Selected from the group consisting of the characteristics
The computer program product (126), wherein the one or more tagged parameter fields include one or more Vendor Specific fields within the target probe request frame. The operation of allocating the target probe request frame to the corresponding data group is
The step of calculating the difference in arrival time and the difference in sequence control value between the target probe request frame and the latest probe request frame in the target data group corresponding to the same frame field structure as the target probe request frame. When,
The first condition for specifying that the difference in arrival time between the target probe request frame and the latest probe request frame in the target data group is smaller than the first set value, and the above-mentioned target probe request frame. The target satisfies the second condition that specifies that the difference between the sequence control value between the target probe request frame and the latest probe request frame in the target data group is smaller than the second set value. The step of allocating the probe request frame to the data group and
If the target probe request frame does not meet one of the first condition and the second condition, and there is no other target data group corresponding to the frame field structure that is the same as the target probe request frame, new data. The step of establishing a group and assigning the target probe request frame to the new data group,
When the target probe request frame does not satisfy one of the first condition and the second condition and there is another data group corresponding to the frame field structure which is the same as the target probe request frame, the target probe The difference in arrival time between the request frame and the latest probe request frame in the next data group corresponding to the same frame field structure as the target probe request frame is calculated, and the difference in arrival time and the first set value are calculated. The difference between the target probe request frame and the latest probe request frame in the next data group is calculated, and the difference between the sequence control value and the second set value are calculated. The computer program product according to claim 3, further comprising a step of comparing and determining whether or not to allocate the target probe request frame to the next data group based on these comparison results. (126). The operation for measuring the number of viewers of the OOH advertisement is
The residence time, which is the time for the target source device corresponding to the target data group to stay at the specific position based on the difference in arrival time between the latest probe request frame and the first probe request frame in the target data group. The computer program product (126) according to claim 4, wherein the computer program product (126) includes a step of calculating an estimated length. The operation for measuring the number of viewers of the OOH advertisement is
5. The communication circuit (123) includes a step of transmitting the estimated number of viewers of the OOH advertisement and the estimated value of the length of the residence time to the remote data statistics server (150). The computer program product (126) described in. The computer program product according to claim 4, wherein the length of the predetermined period is less than one minute, and the specific position is within the radio signal reception range of the radio reception circuit (121). (126). The one or more tagged parameter fields are included in the target probe request frame among the Supported Rates field, the Extended Supported Rates field, the FH (frequency hopping) Parameter Set field, and the HT (high throughout) Computers field. The computer program product (126) according to claim 3, further comprising at least one. A method of measuring the number of viewers of OOH (Out of Home) advertisements.
The step of receiving the target probe request frame transmitted from another wireless communication device (130a to 130k) by the wireless reception circuit (121), and
The step of recording the arrival time of the target probe request frame and
The step of examining the frame field structure of the target probe request frame and
According to the arrival time of the target probe request frame, the frame field structure, and the sequence control value in the header of the target probe request frame, the target probe request frame is assigned to the corresponding data group, and the target probe request frame is assigned to the same data group. All probe request frames have the same frame field structure, the difference in arrival time between two latest probe request frames in the same data group is smaller than the first set value, and the same data group. The step of confirming that the difference in the sequence control value between the two latest probe request frames in is smaller than the second set value, and
Based on the total number of data groups obtained, an estimated number of wireless communication devices passing through a specific position in a predetermined period is generated, and a weighting operation is performed on the estimated number to generate an estimated number of OOH advertisement viewers. Including the step of calculating the estimated number of people,
The frame field structure of the target probe request frame is that of one or more predetermined tagged parameter fields in the target probe request frame.
The total number of fields in one or more tagged parameter fields,
Arrangement of one or more tagged parameter fields,
The sum of the field lengths of one or more tagged parameter fields, and
Each field length of one or more tagged parameter fields,
Selected from the group consisting of the characteristics
The method, wherein the one or more tagged parameter fields include one or more Vendor Specific fields within the target probe request frame.

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