JP2006162364A - Position-measuring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a position-measuring system dispensing with installation of many access points, in position detection of a moving body, and capable of performing highly accurate position measurement by using a suitably-portable terminal requiring low power consumption. <P>SOLUTION: This position-measuring system for performing position detection of the moving body is characterized by being constituted of: a position detection sensor for performing position measurement by itself; a sensor information storage part for storing successively measured data by the position detection sensor; a moving terminal equipped with a communication part for transmitting sensor information stored in the sensor information storage part intermittently to the outside, and moving together with the moving body; and a communication part provided in a position detection object domain where the moving terminal can be moved, for communicating with the moving terminal and receiving the sensor information transmitted from the moving terminal. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a position measurement system, and more particularly to measurement of position information of a moving body.

  In recent years, for example, a service for measuring the position of a moving body such as a person or a vehicle using GPS (Global Positioning System) and providing the measured position information to a user is frequently seen.

  On the other hand, there is an increasing demand for location management of moving bodies for the purpose of facility management and human flow line management. In particular, for example, in the flow management of workers and visitors in a store, it is required to be able to discriminate up to the shelf position of each product, and there is a demand for higher accuracy of position measurement for indoor moving bodies.

  However, it is difficult to directly receive the GPS signal indoors, and accurate position measurement of the moving body cannot be expected.

JP 2004-264892 A

  Patent Document 1 describes the configuration of a device that measures the spatial position, posture, and motion of a moving object using an angular velocity sensor, an acceleration sensor, a magnetic sensor, and the like. There is no description suggesting a specific configuration of accuracy.

FIG. 4 is a performance comparison diagram of various position measurement methods that are currently announced.
The applicable range of GPS is outdoors, and the error is 3 m to 200 m.
gpsOne is a technology that applies GPS, transmits the data acquired from the satellite to the base station as it is, and the actual position is determined by the base station. A-GPS (Network Associated GPS) using a network There is a time difference measurement method TDOA (Time Difference Of Arrival) using the difference between the arrival times of radio waves and radio waves. In the reception from the GPS satellite, information for searching for the satellite is transmitted from the base station to the terminal, and the time required to start reception from the satellite is greatly shortened. Indoors where GPS signals do not reach, positioning is performed using radio waves from the base station. The error is 3m to 50m. The measurement error of PHS is as large as 40m to 70m.

  In particular, when detecting the position of a mobile unit indoors, it is desirable to reduce the number of base stations (access points) installed from the viewpoint of cost, and it is necessary to increase the communicable distance between the mobile unit and the base station. .

  Although measurement errors are required to be small, the measurement errors of these GPS, gpsOne, and PHS are relatively large and are not suitable for indoor position detection.

  On the other hand, the method using wireless LAN and the method using RF-ID are methods with relatively small errors and high measurement accuracy, and can be said to be suitable for detecting the position of a moving object indoors.

  Wireless LAN systems include a RSS (Received Signal Strength) system that uses wireless signal intensity distribution and a time difference measurement system TDOA that uses the difference in arrival time of radio waves to the terminal. All of these basically adopt a three-point surveying method. That is, the position of the detection target is measured using the difference in the measurement amount between the detection target and the reference three points.

  In the RF-ID method, a large number of RF-ID tags are laid at a certain distance, and when the detection target reaches the vicinity of any RF-ID tag, the position measurement is performed assuming that the detection target exists at that point. It is.

However, the radio field strength measurement method in the wireless LAN method has a large variation in electric field strength and is greatly affected by movement of fixtures and people. Therefore, calibration is required for each measurement. Can not meet the demands of.
In addition, it cannot be ignored that the electric field strength varies with temperature change and time.
In addition, a wireless device suitable for the wireless LAN system is required as a terminal, and it is difficult to realize low power consumption suitable for carrying.

On the other hand, the time difference measurement method TDOA in the wireless LAN method requires an expensive device because it requires high-precision time synchronization.
In addition, the effect of reflected waves from walls and furniture increases indoors, increasing errors and hindering high accuracy.

  Furthermore, there is a three-point survey as an inherent problem common to both of these wireless LAN systems. In a large room, a large number of receiving devices (access points) are required to cover the entire room, so that the system cost increases. The accuracy in such a three-point surveying method is 1 m to 3 m at most, and cannot meet the demand for high accuracy (1 m or less) required for indoor position detection.

Although it is experimentally possible to lay many RF-ID tags in the RF-ID tag system, it is difficult to lay in an existing general office for practical use, and the feasibility is poor. .
In addition, there is also a problem that the initial investment is increased due to the removal and re-laying of the RF-ID tag in a place such as a factory production line where the changeover is frequently performed.

  The present invention solves these conventional problems. The purpose of the present invention is to detect a position of a mobile body by using a terminal with low power consumption that is not required to install many access points and is suitable for carrying. An object of the present invention is to provide a position measurement system capable of performing the following highly accurate position measurement.

In order to achieve such a problem, the invention according to claim 1 of the present invention is:
A position measurement system for detecting the position of a moving object,
A position detection sensor that performs position measurement by itself, a sensor information storage unit that sequentially stores measurement data of the position detection sensor, and a communication unit that intermittently transmits the sensor information stored in the sensor information storage unit to the outside, A mobile terminal that moves with the mobile body;
A communication unit that is provided in a position detection target area where the mobile terminal can move, communicates with the mobile terminal, and receives sensor information transmitted from the mobile terminal;
It is characterized by comprising.

The invention according to claim 2 is the position measurement system according to claim 1,
The position detection sensor of the mobile terminal is a sensor that detects at least one of acceleration and angular velocity.

The invention according to claim 3 is the position measurement system according to claim 1,
An object detection unit is provided at the entrance / exit of the position detection target area to detect the moving body and authenticate the moving body based on the attribute.

The invention according to claim 4 is the position measurement system according to claim 1,
When the moving body is stationary, the position detection sensor of the mobile terminal is initialized.

The invention according to claim 5 is the position measurement system according to claim 1,
A communication unit that performs wireless transmission / reception is used.

The invention according to claim 6 is the position measurement system according to claim 1,
An automatic correction unit is provided that automatically corrects the position detection data as if it moved within the latest movable area when the moving body shows a movement history deviating from the movable area.

  According to the present invention, only a common communication unit provided in a position detection target area in which a mobile terminal can move is required, and it is not necessary to install a large number of access points as in the past, and low power consumption suitable for carrying. High-precision position measurement can be performed using this terminal.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a specific example of a position measurement system for performing indoor position detection based on the present invention.

  In FIG. 1, a mobile terminal 1 is carried by a position detection target person who is a mobile body (not shown), and incorporates a position detection sensor such as an acceleration sensor or a gyro sensor. That is, the mobile terminal 1 is an autonomous terminal that performs position measurement by itself, and its configuration example is shown in FIG.

  The mobile terminal 1 includes a CPU 11, an acceleration sensor 12 used as a position detection sensor, a gyro sensor 13 that measures angular velocity, a sensor information storage unit 14, a wireless transmission / reception unit 15 used as a communication unit, a battery 16, a power supply circuit 17, an antenna 18, and the like. Composed. In an environment where the influence of external magnetism can be ignored, a geomagnetic sensor can be added to correct the direction. In the case of three-dimensional movement, an atmospheric pressure sensor can be added for height detection. Specific examples of such a mobile terminal 1 include a card type, a button type, and an embedded type embedded in a shopping basket or a part of a cart.

  Here, since position detection using an acceleration sensor or angular velocity sensor requires integration of acceleration twice, a cumulative error is likely to occur, and a large measurement error will occur if they cannot be initialized properly. Therefore, in the present invention, in order to eliminate these errors and enable highly accurate position detection, the stationary state of the position detection target person is detected, and the speed and position are initialized.

  If the output of the acceleration sensor at time t is α (t), the distance L moved from time t = 0 to t = t0 is expressed by equation (1).

Here, L ₀ is an initial position at t = 0.
The output α (t) of the acceleration sensor includes errors due to output noise, frequency characteristics, etc. in addition to linearity and bias drift. Thus, if the true acceleration is α _t (t) and the error is α _e (t), equation (1) becomes equation (2).

  The first term on the right side of Equation (2) indicates the true movement distance, the second term indicates the distance error caused by the sensor error, and is accumulated with time t. Among these errors, the influence of bias drift is particularly large, and the sensor performance can be roughly estimated from this value. In initialization, the second and third terms on the right side of Equation (2) are set to zero.

  In FIG. 1 again, the LAN 2 includes a wireless transmission / reception unit 3 used as a communication unit capable of wireless communication over a relatively wide range including at least a position detection target region, a position measurement server 4, a position information storage unit 5, a display unit. 6, the individual attribute information storage unit 7, the object detection unit 8, and the like are connected to each other.

  The LAN 2 is not limited to a wired LAN, and may be anything that constitutes a general network. Further, the wireless communication between the mobile terminal 1 and the communication unit 3 does not have to be a wireless LAN, and may be a wireless method with low power consumption such as a specific low power wireless or a weak wireless. Furthermore, the communication is not limited to radio communication, and infrared communication, ultrasonic communication, or the like may be used depending on the environment.

The operation of the system configured as described above will be described.
As shown in FIG. 3, the presence of the position detection target person as a moving body carrying the mobile terminal 1 is recognized by the target detection unit 8 at an indoor entrance which is a position detection target area. The detection data of the object detection unit 8 is verified by collating with the individual attribute information stored in advance in the individual attribute information storage unit 7, and it is determined whether or not the mobile object is permitted to enter. If the moving body is allowed to enter, open the door.

  Then, while performing such a series of authentication processes, the position detection sensor for detecting the speed and position for improving the position detection accuracy as described above is initialized. As the object detection unit 8, an RF-ID tag, a weight sensor, a surveillance camera, or the like is used.

  In the individual attribute information storage unit 7, individual attribute data of a position detection target person as various moving objects is stored according to the use of the system. For example, when managing the flow of a worker in a store, a personal identification code and biometric information such as a face photograph, fingerprint, iris, palm print, and blood vessel pattern are stored.

  For store visitors, it is difficult to store personal attribute data of an unspecified number of visitors each time the store visits. Therefore, as mobile unit information, unique attribute information for each mobile terminal 1 is stored, and for example, an operator of a POS register stores the mobile terminal 1 in the location information for each mobile terminal 1 stored in the location information storage unit 5. Enter the outline of the appearance profile such as the gender and age of the shoppers who were carrying the phone.

  The position detection target person possessing the mobile terminal 1 that has received initialization and authentication of the position detection sensor of the mobile terminal 1 then moves in the building. The movement trajectory of the position detection target person as a moving body is detected by a position detection sensor such as the acceleration sensor 12 or the gyro sensor 13 of the mobile terminal 1, and is sequentially stored in the sensor information storage unit 14 as sensor information.

  The sensor information stored in the sensor information storage unit 14 is intermittently positioned when the sensor information stored in the sensor information storage unit 14 reaches a predetermined data amount or when a predetermined time has elapsed. The data is transmitted to the position measurement server 4 via the wireless transmission / reception unit 3 common to a plurality of mobile terminals that can communicate over the entire detection target area.

  The position measurement server 4 performs various correction calculations and filter processes to calculate the position information of the mobile terminal 1 based on the position detection information received via the wireless transmission / reception unit 3. The calculated position information is sequentially stored and accumulated in the position information storage unit 5 as movement history information of a position detection target person who is a mobile body carrying the mobile terminal 1.

  The movement history information of each moving body stored and accumulated in the position information storage unit 5 is read individually or for each attribute group as necessary, and displayed on the display unit 6 in a predetermined display form selected and set by the user. . Here, as a display form, the movement history of each moving object is displayed as text position data, the movement history of each moving object is displayed in dots on the floor map of the position detection target area, May be displayed as a continuous line segment after data interpolation.

  Moreover, based on these movement histories, it is possible to perform a flow line analysis of a position detection target person who carries the mobile terminal 1. For example, when managing the flow lines of workers in a store, the movement history information of a plurality of workers is read for each work field, and is used to improve analysis of useless work and unreasonable work postures for each work field.

  In addition, in managing the flow of visitors, the movement history information can be read by, for example, the appearance profile of the person whose position is to be detected, so that the tendency of the visitors to flow by appearance profile can be known. This can be reflected in the arrangement and the appropriate shelf height according to the purchase class of the product. At this time, it is possible to visually recognize the difference in the flow line for each appearance profile by simultaneously displaying a plurality of appearance profiles by changing the display color of the flow line for each appearance profile.

  By adopting such a configuration, a plurality of radio wave transmitters are installed in the position detection target area to measure the position of the position detection target person carrying the mobile terminal 1 as in the conventional wireless LAN system. There is no need to measure amplitude information, signal strength, time, etc., and high-accuracy position measurement can be performed without being affected by movement of people, screens, or relocation of fixtures.

  The communication from the mobile terminal 1 according to the present invention only requires intermittent transmission / reception of the sensor information stored in the sensor information storage unit 14 as described above, and the communication frequency is greatly reduced.

  Since the communication frequency can be reduced, the power consumption of the mobile terminal 1 can be reduced, and the life of the battery 16 for driving the mobile terminal 1 can be extended.

  Since the mobile terminal 1 itself is an autonomous terminal that performs position measurement without using radio waves as in the case of position detection of the position detection target person carrying the mobile terminal 1, the position measurement operation is subject to environmental changes and disturbances. Strong and not affected by building structure.

  Since the sensor output incorporated in the mobile terminal 1 can be initialized appropriately, the measurement result can be highly accurate.

  The mobile terminal 1 itself only collects and transmits sensor information, and the position measurement server 4 performs advanced processing such as various correction calculations and filter processing for calculating the positional information of the mobile terminal 1. Therefore, the cost of the mobile terminal 1 can be reduced.

  In the above embodiment, the position detection sensor is initialized by temporarily stopping the position detection target person carrying the mobile terminal 1 at the entrance of the building. It is possible to detect and initialize the position detection sensor.

  As a detection state of a stationary state, a seated state in a predetermined seat, a continuation of a stationary state exceeding a predetermined time set in advance, a change amount of a measurement signal value of a position detection sensor exceeds a predetermined threshold value Or not.

  Detection of a seated state in a predetermined seat can be performed by an RF-ID tag installed on the seat or the desk, or a weight sensor provided on the seat.

  Alternatively, the position detection sensor may be initialized when the moving body reaches a predetermined area. The arrival state to the predetermined area can be confirmed using an RF-ID tag, a weight sensor, a surveillance camera, and the like, similarly to the entrance / exit.

  Further, depending on the measurement accuracy of the mobile terminal 1, there may be a case where the position detection data of the position detection target person indicates a walking movement history such as walking on a desk where the position detection data deviates from the walkable area in the floor map. When such a measurement error occurs, the LAN 2 may be provided with an automatic correction unit that automatically corrects the position detection data as if it moved within the latest walkable area.

  Furthermore, although the above embodiment has mainly described the position detection of a moving body indoors, the present invention can also be applied to the position detection of a moving body in a region corresponding to an indoor outdoors.

  As described above, according to the present invention, it is not necessary to install a large number of access points when detecting the position of a moving body, and position measurement can be performed with high accuracy using a mobile terminal with low power consumption suitable for carrying. A system can be realized.

It is a block diagram which shows the specific example of the position measurement system based on this invention. 2 is a configuration example of a mobile terminal 1. It is an example of position detection by the mobile terminal 1. It is a performance comparison diagram of various position measurement methods that have been announced.

Explanation of symbols

1 Mobile terminal 2 LAN
3 Communication unit (wireless transmission / reception unit)
4 position measurement server 5 position information storage unit 6 display unit 7 individual attribute information storage unit 8 target detection unit 11 CPU
12 Acceleration sensor 13 Gyro sensor 14 Sensor information storage unit 15 Communication unit (wireless transmission / reception unit)
16 Battery 17 Power supply circuit 18 Antenna

Claims (6)

A position measurement system for detecting the position of a moving object,
A position detection sensor that performs position measurement by itself, a sensor information storage unit that sequentially stores measurement data of the position detection sensor, and a communication unit that intermittently transmits sensor information stored in the sensor information storage unit to the outside, A mobile terminal that moves with the mobile body;
A communication unit that is provided in a position detection target area where the mobile terminal can move, communicates with the mobile terminal, and receives sensor information transmitted from the mobile terminal;
A position measurement system characterized by comprising.   The position measurement system according to claim 1, wherein the position detection sensor of the mobile terminal is a sensor that detects at least one of acceleration and angular velocity.   2. The position measurement system according to claim 1, wherein a target detection unit that detects a moving body and authenticates the moving body based on the attribute is provided at an entrance / exit in the position detection target area.   The position measurement system according to claim 1, wherein the position detection sensor of the mobile terminal is initialized when the moving body is stationary.   The position measurement system according to claim 1, wherein a communication unit that performs wireless transmission / reception is used. 2. An automatic correction unit that automatically corrects position detection data as if it moved within the latest movable area when a moving body shows a movement history deviating from the movable area. The position measurement system described in 1.