JP3594928B2 - Stolen vehicle detection system and server used for it - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a stolen vehicle detection system and a server used therein, and more particularly to a stolen vehicle detection system that detects a stolen vehicle by reading a non-contact IC chip provided in a vehicle with a reader, and a server used therefor.
[0002]
[Prior art]
2. Description of the Related Art In recent years, theft of automobiles has increased dramatically and has become a social problem. The number of thefts was 38,877 in 1989, but increased to 43,092 in 1999. It can be seen that the keyless theft is increasing and the arrest rate is decreasing. Keyless theft is thought to be due to improved theft technology. It is also believed that the lower arrest rate is due to organized crime.
[0003]
Furthermore, as a background of the increase in theft, the Export Trade Control Ordinance in 1995 was revised and the regulations on the export procedure of used vehicles may be relaxed. Note that the amount paid for automobile non-life insurance in 1999 was estimated to be 26.8 billion yen, and the burden on non-life insurance companies was extremely large.
The vehicles subject to the theft are construction vehicles, motorcycles, etc., in addition to passenger vehicles. In the following description, these are collectively referred to as "automobile" or "vehicle".
[0004]
By the way, regarding theft of a car, the problem is that the security system is originally weak. The following methods can be considered as a security system against car theft. That is, when someone moves or transports a parked car, it detects this and notifies the owner or the like of the car. In this case, a terminal is mounted on the automobile, and the current position is detected by a GPS (Global Positioning System). If the current position does not coincide with the parked position, it is determined that theft has occurred, and the fact is notified to the owner of the car.
[0005]
[Problems to be solved by the invention]
The security system described above has a drawback that it cannot be used when a parking place or a stolen storage place is inside a building or the like because it uses GPS. Further, if the criminal removes the terminal device or the power supply to the terminal device is cut off, the system cannot be used. Therefore, it has been desired to realize a system that can detect a stolen vehicle early and reliably.
[0006]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described drawbacks of the related art, and an object of the present invention is to provide a stolen vehicle detection system capable of detecting a stolen vehicle quickly and reliably, and a server used therein. .
[0007]
[Means for Solving the Problems]
A stolen vehicle detection system according to claim 1 of the present invention is a stolen vehicle detection system that detects a stolen vehicle by reading a non-contact IC chip provided on a vehicle with a reader, and responds to a contact when the theft occurs. A display control unit that displays an item of the theft information for identifying the stolen vehicle on the terminal of the contact person and prompts the user to input the item, a distribution unit that distributes the input theft information, and a distribution unit that distributes the inputted theft information. A stolen vehicle detecting means for detecting a stolen vehicle by detecting a match between the read information and the information read by the reader.
[0008]
In the stolen vehicle detection system according to the second aspect of the present invention, in the first aspect, the display control unit authenticates a contact person in response to a contact at the time of the theft, and then communicates the item of the stolen information. The contact is urged to connect to a site to be displayed on the terminal of the contactor, and the contactor inputs the item using the site.
A stolen vehicle detection system according to a third aspect of the present invention is characterized in that, in the second aspect, the connection to the site is prompted by notifying the URL of the site by e-mail.
[0009]
In the stolen vehicle detection system according to claim 4 of the present invention, in claim 2 or 3, the authentication of the contact is performed by matching the telephone number and voiceprint of the contact notified by the caller telephone number notification function. It is characterized by being performed.
In a stolen vehicle detection system according to a fifth aspect of the present invention, in the fourth aspect, the display control means displays information on car insurance and the items of the stolen information on a terminal of the contact person.
[0010]
The stolen vehicle detection system according to claim 6 of the present invention is the stolen vehicle detection system according to any one of claims 1 to 5, wherein the non-contact IC chip has unique ID data for each vehicle and the reader uses the ID data in a non-contact manner. Can be read,
The theft information includes the ID data.
The stolen vehicle detection system according to claim 7 of the present invention is the vehicle according to any one of claims 1 to 6, wherein the leader is a tollgate that collects a road toll, a vehicle repair shop, a vehicle sales office, a port facility, and a roadside. It is characterized by being provided in at least one.
[0011]
The stolen vehicle detection system according to claim 8 of the present invention is characterized in that, in any one of claims 1 to 6, the reader is provided in a mobile terminal such as a mobile phone.
The server used in the stolen vehicle detection system according to the ninth aspect of the present invention is a server used in a stolen vehicle detection system that detects a stolen vehicle by reading a non-contact IC chip provided in the vehicle with a reader. Display data transmitting means for transmitting data for displaying information prompting entry of the theft information item for identifying the stolen vehicle to the terminal of the contact person in response to the communication at the terminal, and inputting from the terminal of the contact person. Distribution means for distributing the obtained stolen information, and detecting a stolen vehicle by detecting a match between the information distributed by the distribution means and the information read by the reader with the non-contact IC chip. It is characterized by.
[0012]
The server used in the stolen vehicle detection system according to claim 10 of the present invention is the server according to claim 9, wherein the display data transmitting means authenticates a contact person in response to a contact at the time of the theft, and then executes the stolen information. The contact is prompted to connect to a site for displaying the item on the terminal of the contact, and the contact uses the site to input the item.
The server used in the stolen vehicle detection system according to claim 11 of the present invention is the server according to claim 10, wherein the display data transmitting means prompts connection to the site by notifying the URL of the site by e-mail. It is characterized by having done.
[0013]
The server for use in the stolen vehicle detection system according to claim 12 of the present invention is the server according to claim 10 or 11, wherein the authentication of the contactor is performed by notifying the telephone number and voiceprint of the contactor notified by a caller telephone number notification function. It is characterized by performing by matching.
The server used in the stolen vehicle detection system according to claim 13 of the present invention is the server according to claim 12, wherein the display data transmitting unit displays the item of the stolen information on the terminal of the contact person together with information on car insurance. Features.
[0014]
The server for use in a stolen vehicle detection system according to claim 14 of the present invention is the server according to any one of claims 9 to 13, wherein the non-contact IC chip has unique ID data for each vehicle and is non-contact by the reader. The ID data can be read,
The theft information includes the ID data.
The server used in the stolen vehicle detection system according to claim 15 of the present invention is the server according to any one of claims 9 to 14, wherein the reader is a tollgate that collects road tolls, a vehicle repair shop, a vehicle sales office, a port facility, It is provided on at least one of the side of the road.
[0015]
The server used in the stolen vehicle detection system according to claim 16 of the present invention is characterized in that, in any one of claims 9 to 14, the reader is provided in a mobile terminal such as a mobile phone.
In short, in this system, a stolen vehicle is found by reading a non-contact IC chip with a reader, and an item of stolen information for identifying the stolen vehicle is displayed on the terminal of the contact person to prompt the input of the item. The stolen vehicle is discovered by distributing the inputted stolen information and detecting the coincidence between the distributed information and the information read by the reader from the non-contact IC chip. As a result, a stolen vehicle can be found early and reliably.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the present invention will be described with reference to the drawings. In the drawings referred to in the following description, the same parts as those in the other drawings are denoted by the same reference numerals.
FIG. 1 is a schematic configuration diagram showing an embodiment of a stolen vehicle detection system according to the present invention. As shown in the figure, the stolen vehicle detection system according to the present embodiment reads information recorded on the non-contact IC chip 10 provided in Discover cars. The present system includes a reader device 20 that reads a non-contact IC chip, and a center device 100 that communicates with the reader device 20.
[0017]
The center device 100 is connected to a terminal such as a mobile phone 3 owned by a contact person via an open network 101 such as the Internet or a closed network 102 such as an i-mode network (“i-mode” is a trademark, the same applies hereinafter). It is configured to be connectable. The center device 100 includes a Web server 100a, an authentication database 100b, a stolen information database 100c, and a stolen vehicle information distribution database 100d. A function of displaying items of the theft information for identifying the stolen vehicle on a screen of a terminal such as the mobile phone 3 and prompting the user to input the items; a function of distributing the input theft information to the reader 2; And a function of detecting a stolen vehicle by detecting a match between the information delivered to the non-contact IC chip 10 and the information read by the reader 2.
[0018]
It is assumed that the vehicle 1 is stolen by someone while being parked in the parking lot P, for example. Since the stolen vehicle 1 can move freely, it can pass through an expressway or be loaded on a ship at a port and sent to a foreign country. In this example, it is assumed that the movement has been performed as indicated by an arrow Y in FIG.
In order to find the moving vehicle 1, a non-contact IC chip 10 is provided in advance on the body of the vehicle 1. The non-contact IC chip 10 is embedded in a portion of the vehicle body that cannot be seen from the outside, or is attached so that it cannot be removed. In the case of embedding in a vehicle body, it is necessary to perform it at the stage of manufacturing the vehicle.
[0019]
The non-contact IC chip 10 uses, for example, an RFID (radio frequency identification). The RFID is charged by radio waves transmitted from a reader and transmits ID data by power generated by the principle of electromagnetic induction. This ID data is unique data for each vehicle. Unlike a terminal used in a system using GPS, the non-contact IC chip 10 is small and lightweight, and thus has an advantage that there is little restriction on a mounting position on a vehicle body.
[0020]
On the other hand, the reader device 20 is provided on the side of the road R along the movement route. Then, the information recorded on the non-contact IC chip 10 is read by the reader device 20. The reader device 20 performs a reading process on the non-contact IC chip 10, a stolen vehicle information database 2 c that stores and holds information distributed from the center device 100, and reads the stored information and the reader 2. It is configured to include a personal computer (PC) 2a that performs confirmation of coincidence with information and the like, and a communication device 2b that communicates with the center device 100 via the packet communication network 200. The reader device 20 is desirably provided at a tollgate that collects road tolls, a vehicle repair shop, a vehicle sales office, a port facility, and the like, in addition to the side of the road.
[0021]
Alternatively, the reader 2 may be built in a portable terminal such as a mobile phone, and the information recorded on the IC chip provided in the vehicle may be read while carrying the portable terminal with the built-in reader. For example, a case may be considered in which a manager of a parking lot finds a stolen vehicle by bringing a mobile terminal with a built-in reader closer to each parked vehicle. In addition, the port manager may consider bringing a portable terminal with a built-in reader closer to each vehicle just before being loaded on a ship to detect a stolen vehicle and prevent it from being exported overseas. Can be
[0022]
In these cases, if the communication function is provided in the portable terminal with a built-in reader, it is possible to easily communicate with the center device 100, easily receive the stolen vehicle information to be distributed, and Can be notified immediately.
Hereinafter, the operation of this system is described in (1) connection to portal site and registration of stolen vehicle, (2) distribution of stolen vehicle information, (3) detection of stolen vehicle and information distribution / processing after arrest. I will explain separately.
[0023]
▲ 1 ▼ Connection to portal site and registration of stolen vehicles
First, connection to a portal site and registration of a stolen vehicle will be described. As shown in FIG. 2, connection to the portal site is performed as follows. That is, connection to a call center is made (step S201). This connection is made by telephone communication such as a mobile phone. In this case, automatic reception (automatic reception) is performed by the center device of the call center. At this time, the telephone number of the caller, that is, the contact person is acquired by the well-known caller telephone number notification function. If non-notification of the caller's telephone number has been set, the user is instructed to reset to the notification state and call again.
[0024]
Further, the center device of the call center outputs a message such as "Please say your name" to obtain a voiceprint. In response, when the contactor answers his / her name by voice, authentication is performed by confirming that the voiceprints match (step S202).
Thereafter, a message such as "Please hang up and wait" is output. Thus, the contact person once disconnects the telephone line and waits. When the contact person is on standby, the center device of the call center searches the authentication database and checks whether the telephone number and voiceprint match.
[0025]
If the telephone number of the contact is already registered in the authentication database and the voiceprint matches the one registered in the authentication database, information about the person and the vehicle is transmitted by e-mail or i-mode mail.
If at least one of the telephone number and the voiceprint does not match, it is an identity verification error (step S203), and the fact is notified. The case of this identity verification error is as follows.
[0026]
If the telephone number of the contact is already registered in the authentication database, but the voiceprints do not match, the user is prompted to connect to the portal site to perform authentication by another method. Specifically, by notifying the URL (uniform resource locator) of the site by e-mail, the connection to the site is prompted. Then, an instruction for inputting a name, a date of birth, a password, and the like is given, and authentication of the contact person is performed by confirming that these information match.
[0027]
Some voiceprints match those registered in the authentication database, but if the telephone number of the contact is not registered, the user is prompted to connect to the portal site to perform authentication by another method. Specifically, the connection to the site is prompted by notifying the URL of the site by e-mail. Then, in the same manner as described above, the user is instructed to input a name, a date of birth, a password, and the like, and the contact is authenticated by confirming that the information matches.
[0028]
If there is no match for the telephone number and there is no match for the voiceprint, a guide message is sent to guide the call center to make an inquiry by another method.
After the authentication is performed as described above, personal information and vehicle information are transmitted from the center device side at the portal site (step S204). The personal information and the vehicle information are entered and registered at the time of contract for a service provided by the present system. At the time of an automobile insurance contract, it is common to input and register information on the insurance contractor, information on the insured person, and information on the insured vehicle, so that a part or all of the information may be transmitted. The system may be provided with a stolen vehicle detection service for only those who have a car insurance contract.
[0029]
The information on the policyholder is, for example, the postal code, address, name (in the case of a natural person) or name (in the case of a corporation), mobile phone number, e-mail or i-mode mail address of the policyholder.
The information on the insured person includes, for example, the date of birth of the insured person, the presence or absence of a spouse, the number of years after obtaining a license, the color of the license (such as gold), and the occupation.
The information on the insured vehicle includes a vehicle registration number, a vehicle body number, a vehicle name / specification, a displacement, and the like.
[0030]
When connected to the portal site (step S205), in addition to the above information, items indicating the theft status (hereinafter, referred to as theft information) are displayed on the display screen of the terminal of the contact person. After confirming these pieces of information, the contact person refers to the items displayed on the display screen and inputs the theft information. The items of the theft information include, for example, the date and time of discovery of the theft, the estimated time of the theft (from what time to what time), the location of the theft, and the presence or absence of a key indicating whether or not the stolen vehicle has a key. Or not). The theft information input by the contact person through the above procedure is registered in the theft information database (step S206).
[0031]
By referring to the site, items necessary for registering the theft information to be distributed are displayed, so that the user can input while checking the displayed contents. Therefore, when the occurrence of the theft is known, the stolen vehicle information can be registered in the theft information database promptly and with a simple operation. Therefore, theft information can be distributed in a short time after the theft occurs. If the stolen vehicle information is distributed early, it is considered that the stolen vehicle can be found earlier.
[0032]
The screen display control on the terminal of the contact person may use a well-known compact hypertext markup language (CHTML). If CHTML is used, the above information and the like can be displayed on the screen of the mobile phone, so that the above information can be easily input using the mobile phone.
(2) Delivery of stolen car information
Next, distribution of stolen vehicle information will be described. In FIG. 3, when the theft information is registered in the theft information database 100c, the occurrence of a stolen vehicle is detected, and the theft information is pushed and distributed. In this case, the stolen information is read from the theft information database 100c, and the distribution destination address is obtained from the theft information distribution database 100d, so that the information is distributed to the address (step S301).
[0033]
The distribution destination address registered in the theft information distribution database 100d is an address of a reader device installed at a tollgate that collects a road toll, a vehicle repair shop, a vehicle sales office, a port facility, a roadside, or the like. The reader devices provided at each of these facilities read information recorded on the non-contact IC chip, and stolen information is distributed to the reader devices. The distributed theft information is stored and held in a hard disk or the like in the PC 2a. In order to detect a stolen vehicle at an early stage, it is desirable to distribute stolen information to all of them, but the distribution destination may be limited as necessary.
[0034]
A part of the theft information may be distributed first, and if the coincidence is confirmed, the rest may be distributed only to the reader device and reconfirmed.
When a portable terminal having a built-in reader is used, distribution may be made to the terminal. In this case, distribution may be performed using a network for mobile terminals such as an i-mode network (step S302). Also, distribution may be performed by packet communication.
In this example, the stolen information to be delivered to each reader includes stolen vehicle information and stolen situation notification information. In this example, the stolen vehicle information is information including a non-contact IC chip number, a vehicle registration number, a vehicle body number, a vehicle name / specification, and a displacement. In this example, the notification information of the theft status is information including the date and time of the theft occurrence, the estimated theft time, the theft location, and the presence / absence of a key. These pieces of information are stored and held in the stolen vehicle information database 2c.
[0035]
When the distributed information is received, a reception confirmation is returned from each reader (step S303). This reception confirmation is information including the stolen vehicle registration number, the receiver, and the reception date and time. This reception confirmation is registered in the stolen vehicle information distribution database.
In the stolen vehicle information distribution database 100d, a mail address for packet communication, a mail address for i-mode, a zip code and a road name of a reader installation location, a mail address for i-mode of a reader installation operator, and the like are registered.
[0036]
The information distributed to the reader device 20 of each facility is compared with the information read by the reader. If they match, it is determined that a stolen vehicle has been found.
The stolen vehicle information database 2c includes a stolen vehicle registration number, a non-contact IC chip number, a vehicle registration number, a vehicle body number, a vehicle name / specification, a displacement, a theft occurrence date and time, an estimated theft time, a theft location, a key attached, a stolen vehicle. , Which indicates that the item has been found. In addition, as a contact address when a stolen vehicle is found, an e-mail address for contacting an insurance company, an e-mail address of a victim, and an e-mail address of a reader installation operator are registered in the stolen vehicle information database 2c.
[0037]
▲ 3 ▼ Detection of stolen vehicles, information distribution and post-arrest processing
Next, detection of a stolen vehicle, information distribution, and processing after the arrest will be described with reference to FIG. As shown in the figure, when the distributed information matches the information read by the reader and it detects that a stolen vehicle is approaching, it sends detection information indicating that (step S401). This detection information includes information about a stolen vehicle registration number, a contactless IC number, and a reader installation location.
[0038]
When the stolen vehicle discovery information is received by this notification, the contact information at the time of stolen vehicle discovery is extracted from the theft information database 100c. Then, the stolen vehicle discovery information is distributed to all the reader devices (step S402).
Thereafter, a notification is made about the place where the stolen vehicle was found or the place where the passage was confirmed (step S403). If the notification of the discovery of the stolen vehicle is received, an e-mail or i-mode mail is transmitted to the insurance company, the victim, and the reader installation operator (step S404).
[0039]
Thereafter, when a stolen vehicle is cleared, the center operator performs registration, and a notification of the stolen vehicle is transmitted by e-mail or the like (step S405) and registered in the theft information database 100c (step S406). . As a result, the registration of the stolen vehicle information registered in the stolen vehicle information distribution database 100d is immediately canceled, and the fact is transmitted to each reader device (step S407). Each reader device receiving this deletes the stolen vehicle information. As a result, the registration of the stolen vehicle information is canceled. In the portable terminal with a built-in reader, the registered stolen vehicle information is similarly deleted, and the registration is canceled.
[0040]
By the way, in this system performing the above operations, the server used is configured as follows. That is, it is a server used in a stolen vehicle detection system that detects a stolen vehicle by reading a non-contact IC chip provided on the vehicle with a reader, and responds to a contact at the time of the theft to identify the stolen vehicle. The display function includes a display data transmission function of transmitting data for displaying information prompting input of information items to the contact terminal, and a distribution function of distributing theft information input from the contact terminal. It is configured to detect a stolen vehicle by detecting a match between the distributed information and the information read by the reader from the non-contact IC chip.
[0041]
The display data transmission function authenticates a contact in response to a contact in the event of theft, and then prompts the contact to connect to a site for displaying items of stolen information on the contact's terminal. And the contact person uses the site to enter those items. In this case, the URL of the site is notified by e-mail to prompt connection to the site.
The authentication of the contact is performed by matching the telephone number and voiceprint of the contact notified by the well-known caller telephone number notifying function. The display data transmission function transmits the item of the theft information together with the information on the car insurance and displays it on the terminal of the contact person.
[0042]
The non-contact IC chip has unique ID data for each vehicle and can read ID data by a reader in a non-contact manner, and the theft information includes ID data. The reader of the non-contact IC chip is provided in at least one of a tollgate that collects a road toll, a vehicle repair shop, a vehicle sales office, a port facility, and a roadside. Note that the reader may be provided in a mobile terminal such as a mobile phone.
Here, a stolen vehicle detection method that can be realized by the present system performing the above operation will be described with reference to FIG. In the figure, when the owner of a car or the like notices the occurrence of theft, the center device of the call center is notified of the fact. This notification is made using a mobile phone, and becomes a theft notification (step S1). When a mobile phone terminal capable of transmitting an e-mail such as an i-mode is used, the e-mail may be used to notify the theft.
[0043]
When this theft notification is performed, after predetermined authentication processing, a search for vehicle information is performed based on the telephone number (step S2). Since the telephone number can be known by the caller telephone number notification function, vehicle information is searched based on the telephone number. This vehicle information is registered by the service user of the present system at the time of the service use contract or included in the contents registered at the time of the automobile insurance contract. If a car insurance contract is made, insurance collateral information (such as the type of insurance) and insurance policy information (such as the insurance period) are also registered in the database.
[0044]
The searched vehicle information is transmitted to a mobile phone or the like, and at the same time, items to be input as theft information are also transmitted. This item is displayed on a display screen of a mobile phone or the like. When an input is made from a mobile phone or the like in accordance with this item, the vehicle is registered in the database as a stolen vehicle (step S3).
The information registered in the database is distributed and received by a tollgate having a reader or the like (step S4). At a toll gate or the like, the vehicle registration number recorded on the non-contact IC chip is read for the passing vehicle. Then, the vehicle registration number read from the non-contact IC chip is compared with the stolen vehicle registration number (step S5). If the result of the comparison is a match, a notification that a stolen vehicle has been found is provided (step S6). The fact that the stolen vehicle was found is also notified to the contact person's mobile phone or the like (step S7).
[0045]
In the stolen vehicle detection method described above, an item of the theft information for identifying the stolen vehicle is displayed on the terminal of the contact person to prompt the input of the item, and the input theft information is distributed. Since the stolen vehicle is detected by detecting the coincidence between the information and the information read from the non-contact IC chip by the reader, the stolen vehicle can be detected quickly and reliably.
Regarding the description of the claims, the present invention can further take the following aspects.
[0046]
(1) A stolen vehicle detection method for detecting a stolen vehicle by reading a non-contact IC chip provided on the vehicle with a reader, wherein theft information for identifying the stolen vehicle in response to a notification when the theft occurs A display control step of displaying the item on the terminal of the contact person to prompt the input of the item, a distribution step of distributing the inputted theft information, and a reader for distributing the information distributed in the distribution step and the non-contact IC chip. A stolen vehicle detection step of detecting a stolen vehicle by detecting a match with the information read by the stolen vehicle.
[0047]
(2) In the display control step, after authenticating the contactor in response to the contact at the time of the theft occurrence, the connection to the site for displaying the item of the theft information on the contactor's terminal is established. The stolen vehicle detection method according to (1), wherein a contact person is prompted, and the contact person inputs the item using the site.
(3) The stolen vehicle detection method according to (2), wherein a connection to the site is prompted by notifying a URL of the site by e-mail.
[0048]
(4) The stolen vehicle according to (2) or (3), wherein the authentication of the contact is performed by matching the telephone number and voiceprint of the contact notified by the caller telephone number notifying function. Discovery method.
(5) The stolen vehicle detection method according to (4), wherein in the display control step, an item of the stolen information is displayed on a terminal of the contact person together with information on car insurance.
[0049]
(6) The non-contact IC chip has unique ID data for each vehicle and can read the ID data in a non-contact manner by the reader,
The stolen vehicle detection method according to any one of (1) to (5), wherein the stolen information includes the ID data.
(7) The reader is provided at at least one of a tollgate that collects a road toll, a vehicle repair shop, a vehicle sales office, a port facility, and a roadside (1) to (6). The stolen vehicle detection method according to any of the above.
[0050]
(8) The stolen vehicle detection method according to any one of (1) to (6), wherein the reader is provided in a mobile terminal such as a mobile phone.
[0051]
【The invention's effect】
As described above, the present invention displays an item of stolen information for identifying a stolen vehicle on the terminal of a contact person, prompts the user to input the item, distributes the inputted theft information, and distributes the distributed information. Then, the stolen vehicle is detected by detecting the coincidence with the information read by the reader from the non-contact IC chip, so that the stolen vehicle can be detected quickly and reliably.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an embodiment of a stolen vehicle detection system according to the present invention.
FIG. 2 is a diagram showing connection to a portal site and registration of a stolen vehicle in the stolen vehicle detection system of FIG. 1;
FIG. 3 is a diagram showing distribution of stolen vehicle information in the stolen vehicle detection system of FIG. 1;
FIG. 4 is a diagram showing processing after detection of a stolen vehicle and information distribution / arrest in the stolen vehicle detection system of FIG. 1;
FIG. 5 is a diagram for explaining a stolen vehicle detection method that can be realized by the stolen vehicle detection system of FIG. 1;
[Explanation of symbols]
1 vehicle
2 Reader
2a Personal computer
2b communication device
2c Stolen vehicle information database
3 mobile phones
10 Non-contact IC chip
20 Reader device
100 center equipment
100a Web server
100b authentication database
100c Theft information database
100d Stolen car information distribution database

Claims (16)

A stolen vehicle detection system that detects a stolen vehicle by reading a non-contact IC chip provided on a vehicle with a reader, and responds to a contact at the time of the theft and stores items of the theft information for identifying the stolen vehicle. A display control means for displaying on the terminal of the contact person to prompt the input of the item, a distribution means for distributing the inputted theft information, and the information distributed by the distribution means and the non-contact IC chip are read by a reader. Stolen vehicle detection means for detecting a stolen vehicle by detecting a match with the information. The display control means authenticates the contactor in response to the contact at the time of the theft occurrence, and then prompts the contactor to connect to a site for displaying the item of the theft information on the contactor's terminal. 2. The stolen vehicle detection system according to claim 1, wherein said contact person inputs said item using said site. 3. The stolen vehicle discovery system according to claim 2, wherein a connection to the site is prompted by notifying the URL of the site by an e-mail. 4. The stolen vehicle detection system according to claim 2, wherein the authentication of the contact is performed by matching the telephone number and voiceprint of the contact notified by the caller telephone number notifying function. The stolen vehicle discovery system according to claim 4, wherein the display control means displays the item of the stolen information on the terminal of the contact person together with information on car insurance. The non-contact IC chip has unique ID data for each vehicle and can read the ID data in a non-contact manner by the reader,
The stolen vehicle detection system according to any one of claims 1 to 5, wherein the theft information includes the ID data. The said leader is provided in at least one of the tollgate which collects a road toll, a vehicle repair shop, a vehicle sales office, a port facility, and the side of a road, The said leader is provided in any one of Claims 1-6 characterized by the above-mentioned. Stolen car detection system. The stolen vehicle detection system according to any one of claims 1 to 6, wherein the reader is provided in a mobile terminal such as a mobile phone. A server for use in a stolen vehicle detection system for detecting a stolen vehicle by reading a non-contact IC chip provided in a vehicle with a reader, the theft information for identifying a stolen vehicle in response to a contact when the theft occurs A display data transmitting means for transmitting data for displaying information prompting input of the item to the terminal of the contact person; a distribution means for distributing theft information inputted from the terminal of the contact person; A stolen vehicle is detected by detecting a match between the information distributed by the non-contact IC chip and the information read by the reader. The display data transmitting means, after responding to the contact in the event of the theft and authenticating the contact person, connects the contact to a site for displaying the item of the theft information on the contact terminal. 10. The server used in the stolen vehicle discovery system according to claim 9, wherein the contact is prompted to input the item using the site. 11. The server used in the stolen vehicle discovery system according to claim 10, wherein the display data transmitting unit prompts a connection to the site by notifying a URL of the site by e-mail. 12. The server used in the stolen vehicle discovery system according to claim 10, wherein the authentication of the contact is performed by matching the telephone number and voiceprint of the contact notified by a caller telephone number notifying function. 13. The server used in the stolen vehicle discovery system according to claim 12, wherein the display data transmitting means displays the item of the theft information on the terminal of the contact person together with information on car insurance. The non-contact IC chip has unique ID data for each vehicle and can read the ID data in a non-contact manner by the reader,
14. The server used in the stolen vehicle discovery system according to claim 9, wherein the theft information includes the ID data. The said leader is provided in at least one of the tollgate which collects a road toll, a vehicle repair shop, a vehicle sales office, a port facility, and the side of a road, The leader is provided in any one of Claims 9-14 characterized by the above-mentioned. A server used in the stolen vehicle detection system described in Crab. The server used in the stolen vehicle detection system according to any one of claims 9 to 14, wherein the reader is provided in a mobile terminal such as a mobile phone.

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