JP2008082765A - Information detection device - Google Patents

Abstract

Provided is an information detection device capable of reducing the time taken to detect composition state information from a large number of composition state information as compared with a conventional one.
In an information detection apparatus (1) for detecting target composition state information from a plurality of composition state information respectively representing paper crests of paper, a linear sum calculation unit (6) for calculating a linear sum of the plurality of composition state information, and an object A correlation value calculation unit 8 for calculating a correlation value between the composition state information and the linear sum, and detection for determining whether or not the target composition state information is included in the plurality of composition state information based on the correlation value And a determination unit 9.
[Selection] Figure 1

Description

  The present invention relates to an information detection apparatus, and more particularly to an information detection apparatus that detects target composition state information from a plurality of pieces of composition state information each representing a composition state of a surface of an object.

  Paper is made by intertwining fine fibers made from wood pulp. Since the composition state of the fibers is random, it is very unlikely that a paper having the exact same fiber composition state exists. The composition state of the fibers of this paper can be used to identify every single piece of paper like a human “fingerprint”. The fiber composition state of such paper is hereinafter referred to as “paper pattern”.

  As a technique for reading a paper pattern, the surface of the paper is irradiated with a spot-shaped laser beam, and the paper pattern is scanned by scanning the paper 40 mm while detecting scattered light with four adjacent photodiodes. There is known a true / false determination device that determines whether or not a paper is a true paper (see, for example, Patent Document 1).

  This conventional authenticity determination device captures waveform data representing the intensity of light obtained by detection with four photodiodes, and the waveform represented by the waveform data is a waveform of scattered light peculiar to the paper. It becomes.

  Waveforms expressed by the same paper waveform data captured by a conventional authenticity determination device are similar, so a sharp peak (a value that protrudes from other values) is detected by correlating each waveform data. Is done. On the other hand, since the waveforms expressed by different paper waveform data captured by the conventional authenticity determination device are not similar, no peak is detected even if correlation is obtained between the respective waveform data.

Further, the paper crest of the paper obtained in this way is stored in the tracking server in association with the operation of the device for the paper, and when the paper is used, the paper crest of the paper and the paper stored in the tracking server are stored. By uniquely identifying the paper by collating it with the crest, the paper and the operation given to the paper can be traced.
International Publication No. 2005/085533 Pamphlet

  However, in the conventional technique described above, when composition state information representing a composition state such as a paper crest of a certain paper is detected from a large number of composition state information, collation is performed using a correlation between the respective composition state information. For this reason, there is a problem that the amount of calculation required for this collation becomes very large and detection time is required.

  The present invention has been made to solve the conventional problems, and provides an information detection apparatus capable of reducing the time taken to detect composition state information from a large number of composition state information as compared with the conventional one. With the goal.

  An information detection apparatus according to the present invention provides a linear sum for calculating a linear sum of a plurality of composition state information in an information detection apparatus that detects target composition state information from a plurality of composition state information each representing a composition state of an object surface. A calculation unit; a correlation value calculation unit that calculates a correlation value between the target composition state information and the linear sum; and the target composition state information is included in the plurality of composition state information based on the correlation value And a detection determination unit that determines whether or not the detection is performed.

  With this configuration, the information detection apparatus of the present invention detects target composition state information from a plurality of composition state information by taking a set of correlations between the target composition state information and a linear sum of the plurality of composition state information. Therefore, the time taken to detect the composition state information from a large number of composition state information can be shortened compared to the conventional one.

  The linear sum calculation unit is included in each group obtained by dividing the plurality of composition state information determined by the detection determination unit to include the target composition state information into a first group and a second group. Each linear sum of the composition state information is calculated, and the correlation value calculation unit calculates the target composition state information and the linear sum of the composition state information included in the first group calculated by the linear sum calculation unit. A correlation value and a correlation value between the target composition state information and a linear sum of the composition state information included in the second group calculated by the linear sum calculation unit; and the detection determination unit, Based on each correlation value, it is determined whether or not the target composition state information is included in the composition state information included in each group, and the detection determination unit determines whether the composition state information is included in the plurality of composition state information. Until the target composition state information is specified The correlation value calculation unit outputs the target composition state information and the composition state information included in the group determined by the detection determination unit to include the target composition state information. Further, each correlation value with each linear sum of the composition state information included in each group further divided may be calculated.

With this configuration, when the number of composition state information to be detected is N, the information detection apparatus of the present invention has about 2 log ₂ N sets of target composition state information and each linear sum of a plurality of composition state information. Since the target composition state information is specified from a plurality of pieces of composition state information by taking the correlation, the time required to specify the composition state information from a large number of composition state information can be shortened compared to the conventional one.

  The information detection apparatus of the present invention further includes a linear sum storage unit that stores a linear sum calculated in advance by the linear sum calculation unit, and the correlation value calculation unit stores the target composition state information and the linear sum storage. A correlation value with the linear sum stored in the unit may be calculated.

  With this configuration, since the information detection apparatus of the present invention calculates in advance a linear sum of a plurality of composition state information, the time required to detect the composition state information from a large number of composition state information can be further shortened. it can.

  Further, the object may be paper, and the composition state information may be different information depending on how the fibers composing the paper are entangled.

  As a result, the information detection apparatus of the present invention obtains a target composition by taking a set of correlations between the composition state information representing the entanglement of the fibers composing the detection target paper and the linear sum of the plurality of composition state information. Since the state information is detected from a plurality of composition state information, the time taken to detect the composition state information from a large number of composition state information can be shortened compared to the conventional one.

  In addition, the information detection apparatus of the present invention includes a laser beam irradiation unit that irradiates the surface of the object with a laser beam while moving relative to the object, and a relative to the object together with the laser beam irradiation unit. A light receiving portion that receives the scattered light obtained by scattering the laser light on the surface of the object while moving to the surface of the object, and the composition state information represents the intensity of the scattered light received by the light receiving portion. Good.

  With this configuration, the information detection apparatus of the present invention can read composition state information representing the composition state of the surface of the object.

  Further, in the information detection apparatus of the present invention, the object is paper, and the laser light irradiation unit emits laser light having a wavelength such that the composition state information changes according to the entanglement of the fibers constituting the paper. You may make it irradiate.

  With this configuration, the information detection apparatus of the present invention can read composition state information corresponding to the degree of entanglement of the fibers composing the paper.

  Further, the laser beam irradiation unit may be configured by a laser diode, and the light receiving unit may be configured by a photodiode.

  Further, in order to solve the conventional problems, the present invention provides an information detection method for realizing the function of the information detection device, information detection for causing a computer to function as the information detection device, in addition to the information detection device described above. A program and a computer-readable recording medium on which the information detection program is recorded are provided.

  The present invention can provide an information detection apparatus capable of reducing the time taken to detect composition state information from a large number of composition state information as compared with the conventional one.

  Embodiments of the present invention will be described below with reference to the drawings. Note that various objects such as paper and plastic can be applied to the information detection apparatus according to the present invention. However, in the embodiment of the present invention described below, the information detection apparatus is applied to the information detection apparatus according to the present invention. An example in which the object to be printed is paper will be described.

(First embodiment)
An information detection apparatus according to a first embodiment of the present invention is shown in FIG.

  As shown in FIG. 1, the information detection apparatus 1 includes an input unit 2 composed of a keyboard, a pointing device, and the like, and a composition state information reading unit 3 that reads composition state information representing a paper pattern due to the entanglement of fibers constituting the paper, The composition state information reading unit 3 controls the output destination of the composition state information read by the output destination control unit 4, the composition state information storage unit 5 for storing the composition state information, and the composition state information storage unit 5. A linear sum calculation unit 6 that calculates a linear sum of the composition state information, a linear sum storage unit 7 that stores the linear sum calculated by the linear sum calculation unit 6, and a composition state information and linear sum storage unit 7 for detection purposes. In the composition state information stored in the composition state information storage unit 5 based on the correlation value calculated by the correlation value calculation unit 8. Detection purpose set A detection determination unit 9 for determining whether the state information is included, and a display unit 10 composed of a liquid crystal display for displaying the determination result by the detection determining unit 9.

  Here, the composition state information storage unit 5 and the linear sum storage unit 7 are configured by a nonvolatile storage medium such as a hard disk. The output destination control unit 4, linear sum calculation unit 6, correlation value calculation unit 8, and detection determination unit 9 include a CPU (Central Processing Unit) that executes a program in which each operation of the information detection apparatus 1 described later is described. It is comprised by the processor.

  As shown in FIG. 2A, the composition state information reading unit 3 is a laser diode (hereinafter simply referred to as “LD”) that irradiates the surface of the paper 11 that has been swept over 40 mm by a sweep mechanism (not shown). 12), cylindrical lenses 13a and 13b that change the irradiation shape of the laser light irradiated by the LD 12 on the surface of the paper 11, and a photo that receives the scattered light obtained by scattering the laser light on the surface of the paper 11. Diodes (hereinafter simply referred to as “PD”) 14a to 14d.

  The LD 12 emits a laser beam having a wavelength such that the composition state information changes according to the paper pattern of the paper 11, for example, 635 nm. The cylindrical lenses 13a and 13b change the irradiation shape of the laser light on the surface of the paper 11 to a linear shape having a length of 7 mm, for example, as shown in FIG.

  The PDs 14a to 14d are fixed to the LD 12 at different positions so that the light receiving axis passes through the center of the laser light irradiation surface on the surface of the paper 11.

  The composition state information reading unit 3 may be configured to move the LD 12 and the PDs 14a to 14d integrally with the paper 11 instead of providing a sweeping mechanism for sweeping the paper 11.

  As shown in FIG. 3, the PD 14 a includes a PD amplifier 20 that amplifies the electric signal photoelectrically converted by the PD 14 a and a high-pass filter that suppresses a low-frequency component of the electric signal amplified by the PD amplifier 20 (hereinafter simply “ HPF ”) 21, an amplifier 22 that amplifies the electrical signal in which the low frequency component is suppressed, and an analog-digital converter (hereinafter simply referred to as“ A / A ”) that converts the electrical signal amplified by the amplifier 22 into a digital signal. D ”) 23).

  The PDs 14b to 14d are similarly provided with the PD amplifier 20, the HPF 21, the amplifier 22, and the A / D 23, respectively, but are not shown. In the present embodiment, the HPF 21 having a cutoff frequency of 20 Hz is used, and the amplifier 22 having a gain of 20 is used. Thus, the digital signal converted by the A / D 23 represents the composition state information of the paper 11 and is output to the output destination control unit 4.

  In order to facilitate understanding of the present invention, a case where a channel from the PD 14a is used and channels from the other PDs 14b to 14d are unused will be described below.

  In FIG. 1, the output destination control unit 4 takes one of a registration state and a detection state, and these states are switched according to an input through the input unit 2.

  In the registered state, the output destination control unit 4 stores the composition state information read by the composition state information reading unit 3 in the composition state information storage unit 5. On the other hand, in the detection state, the output destination control unit 4 outputs the composition state information read by the composition state information reading unit 3 to the correlation value calculation unit 8.

  When the composition state information stored in the composition state information storage unit 5 is updated by adding the composition state information to the composition state information storage unit 5 or the like, the linear sum calculation unit 6 updates the composition state information after the update. The linear sum is calculated, and the calculated linear sum is stored in the linear sum storage unit 7.

  The correlation value calculation unit 8 calculates the correlation value with the linear sum while shifting the composition state information output from the output destination control unit 4 with respect to the linear sum stored in the linear sum storage unit 7, A correlation function composed of the calculated correlation values is derived.

  Here, when the composition state information read by the composition state information reading unit 3 is included in the composition state information stored in the composition state information storage unit 5, the correlation function derived by the correlation value calculation unit 8. Is shown in FIG.

  4A shows a case where the number of composition state information stored in the composition state information storage unit 5 is 1. FIG. 4B shows a case where the number of composition state information stored in the composition state information storage unit 5 In the case of 5, FIG. 4C represents the correlation function when the number of composition state information stored in the composition state information storage unit 5 is 10.

  In this way, when the composition state information read by the composition state information reading unit 3 is included in the composition state information stored in the composition state information storage unit 5, the composition state information is stored in the composition state information storage unit 5. Even if the number of composition state information is increased, a peak is observed in the correlation function.

  In FIG. 1, the detection determination unit 9 is read by the composition state information reading unit 3 in the composition state information stored in the composition state information storage unit 5 based on the correlation function derived by the correlation value calculation unit 8. It is determined whether or not the composition state information is included.

  For example, the detection determination unit 9 specifies the maximum value taken by the correlation function, calculates an amplitude ratio between the maximum value and another correlation value, and when the calculated amplitude ratio is equal to or greater than a predetermined threshold, When it is determined that there is a peak in the correlation function, it is determined that the composition state information read by the composition state information reading unit 3 is included in the composition state information stored in the composition state information storage unit 5. If it is determined that there is no peak in the correlation function, the composition state information read by the composition state information reading unit 3 is not included in the composition state information stored in the composition state information storage unit 5. It comes to judge.

  In addition, the detection determination unit 9 displays a result of determination as to whether or not the composition state information read by the composition state information reading unit 3 is included in the composition state information stored in the composition state information storage unit 5. The information is displayed on the part 10.

  The operation of the information detection apparatus 1 configured as described above will be described with reference to FIGS. FIG. 5 shows a registration operation of the information detection apparatus 1 when the output destination control unit 4 is in the registration state.

  First, when the composition state information reading unit 3 reads composition state information representing a paper print (S1), the composition state information is stored in the composition state information storage unit 5 (S2). Next, the linear sum of the composition state information stored in the composition state information storage unit 5 is calculated by the linear sum calculation unit 6 (S3), and the calculated linear sum is stored in the linear sum storage unit 7 (S4). .

  FIG. 6 shows the detection operation of the information detection apparatus 1 when the output destination control unit 4 is in the detection state.

  First, when composition state information representing a paper crest of paper is read by the composition state information reading unit 3 (S11), a correlation value between the composition state information and the linear sum stored in the linear sum storage unit 7 is calculated as a correlation value. The correlation function is derived by the unit 8 (S12).

  Next, the detection determination unit 9 determines whether or not there is a peak in the correlation function derived by the correlation value calculation unit 8 (S13). When it is determined that there is a peak in the correlation function, the composition state information read by the composition state information reading unit 3 is included in the composition state information stored in the composition state information storage unit 5, that is, Then, a message indicating that the paper whose composition state information has been read by the composition state information reading unit 3 has been registered is displayed on the display unit 10 by the detection determination unit 9 (S14).

  On the other hand, when it is determined that there is no peak in the correlation function, a message indicating that the paper whose composition state information has been read by the composition state information reading unit 3 is not registered is displayed on the display unit 10 by the detection determination unit 9. (S15).

  As described above, the information detection apparatus 1 according to the first embodiment of the present invention includes a set of the composition state information read by the composition state information reading unit 3 and the linear sum stored in the linear sum storage unit 7. By obtaining the correlation, the composition state information read by the composition state information reading unit 3 is detected from the composition state information stored in the composition state information storage unit 5. The time required for detection can be shortened compared to the conventional one.

  As shown in FIG. 7, the information detection device 1 communicates with at least one terminal device 31 having the input unit 2, the composition state information reading unit 3, the display unit 10, and the network interface 30 via the network 32. The network interface 33 is provided in place of the input unit 2, the composition state information reading unit 3 and the display unit 10, and the composition state information is received from the terminal device 31, and the composition state information is registered or detected. Also good.

  In the present embodiment, the case where the channel from the PD 14a is used and the channels from the other PDs 14b to 14d are unused has been described. However, the linear sum calculation by the linear sum calculation unit 6 and the correlation value calculation unit are described. The calculation of the correlation value by 8 and the determination by the detection determination unit 9 may be performed for each channel.

  In this case, for example, the detection determination unit 9 includes the composition state information read by the composition state information reading unit 3 in the composition state information stored in the composition state information storage unit 5 in two or more channels. If it is determined that the paper whose composition state information has been read by the composition state information reading unit 3 has been registered, the message indicating that the paper has been registered is displayed on the display unit 10, and the composition state information is displayed on one or less channels. When it is determined that the composition state information read by the reading unit 3 is included in the composition state information stored in the composition state information storage unit 5, the composition state information is read by the composition state information reading unit 3. A message indicating that the printed paper is not registered may be displayed on the display unit 10.

(Second Embodiment)
An information detection apparatus according to the second embodiment of the present invention is shown in FIG. In addition, in each structure of the information detection apparatus 51 of the 2nd Embodiment of this invention, the same code | symbol is attached | subjected to each structure same as each structure of the information detection apparatus 1 of the 1st Embodiment of this invention. Therefore, the description is omitted.

  As shown in FIG. 8, the information detection device 51 is stored in the input unit 2, the composition state information reading unit 3, the output destination control unit 4, the composition state information storage unit 5, and the composition state information storage unit 5. A linear sum calculation unit 56 for calculating a linear sum of the composition state information, a linear sum storage unit 57 for storing the linear sum calculated by the linear sum calculation unit 56, and a composition state information and linear sum storage unit 57 for detection. In the composition state information stored in the composition state information storage unit 5 based on the correlation value calculated by the correlation value calculation unit 58. A detection determination unit 59 for determining whether or not composition state information for detection is included, and a display unit 10 are provided.

  Here, the linear sum storage unit 57 is configured by a non-volatile storage medium together with the composition state information storage unit 5, and the linear sum calculation unit 56, the correlation value calculation unit 58, and the detection determination unit 59 together with the output destination control unit 4. Consists of a processor.

  When the composition state information stored in the composition state information storage unit 5 is updated by adding the composition state information to the composition state information storage unit 5 or the like, as shown in FIG. The binary tree data generated by generating data having a data structure of all binary trees (hereinafter simply referred to as “binary tree data”) each having the composition state information stored in the composition state information storage unit 5 as external nodes. A linear sum of each child is calculated as each internal node of, and binary tree data reflecting the calculated linear sum is stored in the linear sum storage unit 57.

  The correlation value calculation unit 58 shifts the composition state information output from the output destination control unit 4 with respect to the linear sum corresponding to the root of the entire binary tree represented by the binary tree data stored in the linear sum storage unit 57. The correlation value with the linear sum is calculated, and a correlation function composed of the calculated correlation values is derived.

  Based on the correlation function derived by the correlation value calculation unit 58, the detection determination unit 59 reads the composition state information read by the composition state information reading unit 3 in the composition state information that is the calculation source of the linear sum corresponding to the root. Whether or not is included is determined.

  Here, when the detection determination unit 59 determines that the composition state information read by the composition state information reading unit 3 is included in the composition state information that is a calculation source of the linear sum corresponding to the root, The correlation value calculation unit 58 derives each correlation function between the composition state information output from the output destination control unit 4 and each linear sum corresponding to a child of the route, and the detection determination unit 59 becomes a calculation source of each linear sum. It is determined whether or not the composition state information read by the composition state information reading unit 3 is included in the composition state information.

  As described above, the correlation value calculation unit 58 externally selects a node determined to contain the composition state information read by the composition state information reading unit 3 in the composition state information that is the source of the linear sum calculation. Searches toward the node.

  The detection determination unit 59 finally has the same composition state information output from the output destination control unit 4 and the composition state information corresponding to the external node of the binary tree data stored in the linear sum storage unit 57. When it is determined, information on the specified composition state information is displayed on the display unit 10.

  Here, the information related to the composition state information is, for example, the composition state information such as the registration date and time of the composition state information and the identification information of the composition state information input via the input unit 2 when the composition state information is registered. This refers to information related to attributes.

  The operation of the information detection apparatus 51 configured as described above will be described with reference to FIGS. FIG. 10 shows the registration operation of the information detection device 51 when the output destination control unit 4 is in the registration state.

  First, when composition state information representing a paper crest of paper is read by the composition state information reading unit 3 (S21), the composition state information is stored in the composition state information storage unit 5 (S22). Next, binary tree data having a data structure of all binary trees with the composition state information stored in the composition state information storage unit 5 as external nodes is generated by the linear sum calculation unit 56 (S23).

  Next, as each internal node of the binary tree data, the linear sum of each child is calculated by the linear sum calculation unit 56 (S24), and the binary tree data calculated for each internal node is stored in the linear sum storage unit 57. (S25).

  11 and 12 show a detection operation of the information detection device 51 when the output destination control unit 4 is in the detection state.

  First, when composition state information representing a paper crest of paper is read by the composition state information reading unit 3 (S31), the detection operation of the information detection device 51 performs the root of the binary tree data stored in the linear sum storage unit 57. The operation proceeds to a node detection operation described later as a target (S32).

  As shown in FIG. 12, in the node detection operation, a correlation value between the linear sum or composition state information corresponding to the target node and the composition state information read by the composition state information reading unit 3 is first calculated by the correlation value calculation unit 58. Then, a correlation function is derived (S41).

  Next, the detection determination unit 59 determines whether or not there is a peak in the correlation function derived by the correlation value calculation unit 58 (S42). Here, when it is determined that there is no peak in the correlation function, the node detection operation returns to the operation before the transition to the node detection operation.

  On the other hand, if it is determined that there is a peak in the correlation function, the detection determination unit 59 determines whether the target node is an external node (S43). Here, when it is determined that the target node is an external node, information on the composition state information corresponding to the external node is displayed on the display unit 10 by the detection determination unit 59 (S44), and the information detection device 51 detects the information. The operation ends.

  On the other hand, when it is determined that the target node is not an external node, the node detection operation moves to a node detection operation for each child of the target node (S45 to S47).

  In FIG. 11, when the node detection operation for the route is completed without completing the detection operation of the information detection device 51, the paper on which the composition state information is read by the composition state information reading unit 3 is unregistered. Is displayed on the display unit 10 by the detection determination unit 59 (S33), and the detection operation of the information detection device 51 ends.

Thus, in order to specify the composition state information read by the composition state information reading unit 3 from the composition state information stored in the composition state information storage unit 5, the information detection device 51 includes a composition state information storage unit. When the number of the composition state information stored in 5 is N, about 2 log ₂ N sets of the composition state information read by the composition state information reading unit 3 and the linear sum stored in the linear sum storage unit 57 Correlation is taken.

  For example, according to the information detection device 51, when the number of composition state information stored in the composition state information storage unit 5 is 128, the number of sets that need to be correlated is about 1/19, When the number of composition state information stored in the composition state information storage unit 5 is 1024, the number of sets that need to be correlated is about 1/51.

  Therefore, the information detection apparatus 51 according to the second embodiment of the present invention can shorten the time required to specify the composition state information from a large number of composition state information as compared with the conventional one.

  In addition, the information detection device 51 has a network interface for communicating with at least one terminal device via a network, the composition state, as in the information detection device 1 according to the first embodiment of the present invention. It may replace with the information reading part 3 and the display part 10, may receive composition state information from a terminal device, and may make it register or detect this composition state information.

  Further, in the present embodiment, the case where the channel from the PD 14a is used and the channels from the other PDs 14b to 14d are not used has been described. However, the information detection apparatus 1 according to the first embodiment of the present invention Similarly, linear sum calculation by the linear sum calculation unit 56, correlation value calculation by the correlation value calculation unit 58, and determination by the detection determination unit 59 are performed for each channel, and the detection determination unit 59 responds to the determination result of each channel. The composition state information read by the composition state information reading unit 3 may be specified from the composition state information stored in the composition state information storage unit 5.

The block diagram of the information detection apparatus in the 1st Embodiment of this invention Sectional drawing of the composition state information reading part which comprises the information detection apparatus in the 1st Embodiment of this invention The block diagram of the composition state information reading part which comprises the information detection apparatus in the 1st Embodiment of this invention The graph which shows the correlation function derived | led-out by the correlation value calculation part which comprises the information detection apparatus in the 1st Embodiment of this invention The flowchart which shows registration operation | movement of the information detection apparatus in the 1st Embodiment of this invention The flowchart which shows the detection operation of the information detection apparatus in the 1st Embodiment of this invention. The block diagram which shows the other aspect of the information detection apparatus in the 1st Embodiment of this invention The block diagram of the information detection apparatus in the 2nd Embodiment of this invention The conceptual diagram which shows the data structure of the binary tree data produced | generated by the linear sum calculation part which comprises the information detection apparatus in the 2nd Embodiment of this invention The flowchart which shows registration operation | movement of the information detection apparatus in the 2nd Embodiment of this invention. The flowchart which shows the detection operation | movement of the information detection apparatus in the 2nd Embodiment of this invention. Flowchart following FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,51 Information detection apparatus 2 Input part 3 Composition state information reading part 4 Output destination control part 5 Composition state information storage part 6, 56 Linear sum calculation part 7, 57 Linear sum storage part 8, 58 Correlation value calculation part 9, 59 Detection judgment unit 10 Display unit 11 Paper 12 LD (Laser diode)
13a, 13b Cylindrical lenses 14a, 14b, 14c, 14d PD (photodiode)
20 PD amplifier 21 HPF
22 Amplifier 23 A / D
30, 33 Network interface 31 Terminal device 32 Network

Claims (10)

In an information detection apparatus for detecting target composition state information from a plurality of pieces of composition state information each representing the composition state of the surface of an object,
A linear sum calculator for calculating a linear sum of the plurality of composition state information;
A correlation value calculation unit for calculating a correlation value between the target composition state information and the linear sum;
An information detection apparatus comprising: a detection determination unit that determines whether or not the target composition state information is included in the plurality of composition state information based on the correlation value. Composition states included in each group obtained by dividing the plurality of composition state information into a first group and a second group, wherein the linear sum calculation unit is determined by the detection determination unit to include the target composition state information. Calculate each linear sum of information,
The correlation value calculation unit includes a correlation value between the target composition state information and a linear sum of the composition state information included in the first group calculated by the linear sum calculation unit, and the target composition state information. And a correlation value between the linear sum of the composition state information included in the second group calculated by the linear sum calculation unit,
The detection determination unit determines whether the target composition state information is included in the composition state information included in each group based on each correlation value;
Until the detection determination unit identifies the target composition state information from the plurality of composition state information, the correlation value calculation unit uses the target composition state information and the detection determination unit to determine the target composition. Calculating each correlation value with each linear sum of the composition state information included in each group obtained by further dividing the composition state information included in the group determined to include the state information into the first group and the second group; The information detection apparatus according to claim 1, wherein A linear sum storage unit that stores the linear sum calculated in advance by the linear sum calculation unit;
The information detection apparatus according to claim 1, wherein the correlation value calculation unit calculates a correlation value between the target composition state information and the linear sum stored in the linear sum storage unit. . The object is paper;
The information detection apparatus according to claim 1, wherein the composition state information is information that differs depending on a degree of entanglement of the fibers constituting the paper. A laser beam irradiation unit configured to irradiate the surface of the object with a laser beam while moving relative to the object;
A light receiving unit that receives the scattered light in which the laser light is scattered on the surface of the object while moving relative to the object together with the laser light irradiation unit;
The information detection apparatus according to claim 1, wherein the composition state information represents an intensity of scattered light received by the light receiving unit. The object is paper;
The information detection apparatus according to claim 5, wherein the laser beam irradiation unit irradiates a laser beam having a wavelength such that the composition state information changes according to a degree of entanglement of fibers constituting the paper. The laser beam irradiation unit is constituted by a laser diode,
The information detection apparatus according to claim 5, wherein the light receiving unit includes a photodiode. In an information detection method for detecting target composition state information from a plurality of pieces of composition state information each representing a composition state of a surface of an object,
A linear sum calculation step of calculating a linear sum of the plurality of composition state information;
A correlation value calculating step for calculating a correlation value between the target composition state information and the linear sum;
A detection determination step of determining whether or not the target composition state information is included in the plurality of composition state information based on the correlation value. In an information detection program for causing a computer to detect target composition state information from a plurality of composition state information respectively representing the composition state of the surface of an object,
A linear sum calculation step of calculating a linear sum of the plurality of composition state information;
A correlation value calculating step for calculating a correlation value between the target composition state information and the linear sum;
An information detection program for causing the computer to execute a detection determination step of determining whether or not the target composition state information is included in the plurality of composition state information based on the correlation value.   A computer-readable recording medium on which the information detection program according to claim 9 is recorded.