JP2005018476A - Tender host, auction host, request host, and auction tender method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tender host for appropriately tendering for auction in an auction system for selling used automobiles or the like at auction. <P>SOLUTION: When an auction value (bided-up current auction value) is not more than a reference sum, a request host unconditionally tenders for auction as shown by (a). Then, when the auction value exceeds the reference sum, and becomes not more than a rank sum, the request host tenders for auction as long as the auction host is under slow down control, and as long as the auction partner (member terminal's tender for auction) exists. On the other hand, even when the auction value exceeds the reference sum, the request host unconditionally tenders for the auction until the auction host shifts to the slow-down control regardless of whether the auction partner exists as shown by (b). <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bidding host, a bidding host, a request host, and a bidding bidding method that can appropriately bid bidding in an auction system for conducting auctions of used cars and the like.
[0002]
[Prior art]
Conventionally, auction operations such as used cars have been systemized and held by various management entities. For example, a used car auction system called a virtual auction (common name, TV auction) type or a current car auction type is widely known.
The virtual auction type is, for example, an inspector inspects an exhibition vehicle, stores the inspection information and image information in a host, and auctions between terminals at remote locations via the network based on the information. It is a system that performs.
The current car auction type is a system that collects exhibition vehicles at a specific auction site and conducts an auction on the spot. Even in the case of the current car auction type, it is possible to participate in an auction from a remote terminal via a network.
[0003]
In the above-described auction system (including the current car auction type, etc.), a plurality of terminals are connected to a seri-host or the like that advances seri through a network, and information that presents a seri (auction) value from the seri-host or the like Sent to. Then, in each terminal, a bidding signal or the like indicating that it responds to the presented seri value is generated in accordance with the operation input of the participant, and transmitted to the serihost. In response to this, the serihost increases the seri value (see, for example, Patent Document 1).
[0004]
[Patent Document 1]
Japanese Patent No. 2733553 (page 3-6, Fig. 1)
[0005]
In many cases, such an auction system is provided with an absent bid host (bid host) that can participate in Seri on an equal basis with other terminals instead of a participant who cannot participate in Seri. Such an absent bid host automatically generates a bid signal or the like according to setting information registered in advance, and transmits it to the host. Such exchanges are repeated between the host and the terminal (absence bid host), and for example, the seller who bids with the highest price exceeds the seller's desired sales price (the contract is decided) ).
[0006]
[Problems to be solved by the invention]
However, in the conventional auction system as described above, there is a case where the bid for the bid is not properly performed in the absent bid host. Specifically, since the bids of the absent bid host are uniform and unnatural, it becomes easy for other participants (exhibitors) to know that the bid is of the absent bid host. As a result, the seller may unreasonably raise the selling price, and may be closed in a situation unfavorable to the participant (bidder) who uses the absent bid host.
Even if the bidder who uses the absent bid host wants to close only one of the exhibited vehicles that wish to make a successful bid, the setting information registered in the absent bid host includes You have to set up your vehicle. For this reason, as a result, there are many cases where the absent bidder host closes a plurality of exhibited vehicles.
As described above, in the conventional auction system, there is a problem that the bid of the bid by the absent bid host is not properly performed.
[0007]
The present invention has been made in view of the above circumstances, and provides a bidding host, a bidding host, a requesting host, and a bidding bidding method that can appropriately bid bidding in an auction system for auctioning used cars and the like. With the goal.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the bidding host according to the first aspect of the present invention provides:
A bidding host that bids on the same item with multiple terminals against the host that advances the cell while sequentially increasing the cell value of the object,
Storage means for storing bidding condition information including at least two set amounts;
Receiving means for sequentially receiving auction information including a serif value sent from the serris host;
Discriminating means for discriminating whether the bid is accepted or not according to the relationship between the serri value included in the auction information received by the receiving means and the two set amounts included in the bid condition information stored in the storage means;
Transmitting means for generating bidding information and transmitting it to the host when bidding is approved by the determining means;
It is characterized by providing.
[0009]
According to this invention, the storage means stores bidding condition information including at least two set amounts (for example, a reference amount and a rank amount). The receiving means sequentially receives auction information including a cell value sent from the cell host. The discriminating unit discriminates whether or not the bidding is accepted according to the relationship between the selling value included in the auction information received by the receiving unit and the two set amounts included in the bidding condition information stored in the storage unit. The transmission means generates bidding information and sends it to the host when the bidding is approved by the discrimination means. As a result, bids can be appropriately placed in an auction system for auctioning used cars.
[0010]
The bidding host includes a clocking means for clocking a time cycle for raising a line performed by the host.
Cycle discriminating means for discriminating whether or not the time cycle timed by the time measuring means exceeds a predetermined reference cycle time;
The discriminating means is in accordance with the relationship between the selling value included in the auction information received by the receiving means, the two set amounts included in the bidding condition information stored in the storage means, and the discrimination result of the cycle discriminating means. It may be determined whether the bid is accepted or rejected.
[0011]
In order to achieve the above object, the bidding host according to the second aspect of the present invention provides:
A bidding host that bids on a seri on a par with a plurality of terminals against a seri host that advances the seri while sequentially increasing the seri value of the object for each first or second time cycle,
Storage means for storing bidding condition information including a set amount including a reference amount and a rank amount higher than the reference amount;
Receiving means for sequentially receiving auction information including a serif value sent from the serris host;
A transition determining means for determining that the serrated time cycle of the serif host has shifted from a first time cycle to a second time cycle;
Bidding according to the relationship between the seri value included in the auction information received by the receiving means, the reference amount and the rank amount included in the bidding condition information stored in the storage means, and the judgment result of transition by the transition judging means Acceptance / rejection determination means for determining acceptance / rejection,
A sending means for generating bid information and sending it to the host when a bid is accepted by the acceptance / rejection judging means;
It is characterized by providing.
[0012]
According to the present invention, the storage means stores bidding condition information including a set amount including a reference amount and a rank amount higher than the reference amount. The receiving means sequentially receives auction information including a cell value sent from the cell host. The transition determination means determines that the seri-up time cycle of the seri-host has shifted from the first time cycle (induction or the like) to the second time cycle (slow down or the like). The approval / disapproval determination means is in accordance with the relationship between the seri value included in the auction information received by the reception means, the reference amount and rank amount included in the bidding condition information stored in the storage means, and the determination result of transition by the transition determination means. Then, it is determined whether the bid is accepted or rejected. The transmission unit generates bidding information and transmits it to the host when the bidding is approved by the acceptance / rejection determination unit. As a result, bids can be appropriately placed in an auction system for auctioning used cars.
[0013]
The approval / disapproval determination means may recognize a bid when the value of the auction information received by the receiving means is equal to or less than the reference amount.
[0014]
The acceptance / rejection determination means is in a state where the seri value of the auction information received by the reception means exceeds the reference amount and is less than or equal to the rank amount, and the transition determination unit performs the second time period from the first time cycle. If it is determined that the cycle has been entered and there is a bid from the terminal, a bid may be accepted.
[0015]
The approval / disapproval determination means has a state in which the seri value of the auction information received by the receiving means is in a state exceeding the reference amount and not more than the rank amount, and the transition determination unit performs the second time cycle from the first time cycle. Bidding may be allowed if it is determined that the time cycle has not been reached.
[0016]
The above bidding host is
Group information storage means for storing group information for registering and managing a plurality of objects as one group;
In response to the bid information transmitted by the transmission means, a contract determination means for determining the presence or absence of contract confirmation information sent from the cell host,
Registration that cancels registration of group information from the group information storage means when it is determined that the contract confirmation information is sent by the contract determination means and an object is registered as group information in the group information storage means Release means,
May be further provided.
[0017]
In order to achieve the above object, a serihost according to the third aspect of the present invention provides:
It is a host that is connected to multiple terminals via a network and performs the processing of objects.
Storage means for storing bidding condition information including at least two set amounts;
Transmitting means for sequentially transmitting auction information including the seri value of the object to each terminal;
In response to the auction information transmitted by the transmitting means, receiving means for receiving bid information sent from any terminal;
In accordance with the bidding information received by the receiving means, the seri value is sequentially raised, and the seri value is successively raised according to the relationship between the current selley value and the two set amounts included in the bidding condition information stored in the storage means. Seri raising means,
Serri control means for determining a successful bid or a bid according to the relationship between the serri value raised by the serri raising means and the amount set for the object;
It is characterized by providing.
[0018]
According to this invention, the storage means stores bidding condition information including at least two set amounts (for example, a reference amount and a rank amount). The transmission means sequentially transmits auction information including the seri value of the object toward each terminal. The receiving means receives bid information sent from an arbitrary terminal in response to the auction information transmitted by the transmitting means. The bid raising means sequentially raises the bid value according to the bid information received by the receiving means, and calculates the bid value according to the relationship between the current bid value and the two set amounts included in the bid condition information stored in the storage means. Sequentially raise the line. The message control means determines a successful bid or a bid according to the relationship between the message value raised by the message raising means and the amount set for the object. As a result, bids can be appropriately placed in an auction system for auctioning used cars.
[0019]
In order to achieve the above object, the requesting host according to the fourth aspect of the present invention provides:
It is a request host that makes a request for seri to a plurality of seri hosts that perform seri of the object independently,
Request information transmitting means for transmitting request information including information for identifying an object and a seri upper limit amount to a plurality of seri-hosts;
Receiving means for receiving contract confirmation information indicating confirmation of contract from any host that performs services according to the request information transmitted by the request information transmitting means;
Stop information for transmitting request stop information for instructing to stop processing based on the request information transmitted by the request information transmitting means to the other host when the receiving means receives the contract confirmation information from any one of the host A transmission means;
It is characterized by providing.
[0020]
According to the present invention, the request information transmitting means transmits request information including information for specifying an object and a seri upper limit amount to a plurality of seri-hosts. The receiving means receives the contract confirmation information indicating the conclusion of the contract from any cell host that performs the command according to the request information transmitted by the request information transmitting means. When the receiving unit receives the contract confirmation information from any one of the host hosts, the stop information transmitting unit sends request stop information that instructs the other host to stop processing based on the request information transmitted by the request information transmitting unit. Send. As a result, bids can be appropriately placed in an auction system for auctioning used cars.
[0021]
In order to achieve the above object, the bid bidding method according to the fifth aspect of the present invention includes:
A bidding method in a bidding host that bids bidding with multiple terminals to a bilingual host, while raising the biliary value of an object sequentially.
A receiving step for sequentially receiving auction information including a serif value sent from the serif host;
A discriminating step for discriminating whether or not the bidding is accepted according to the relationship between the seri value included in the auction information received in the receiving step and the two set amounts included in the bidding condition information stored in a predetermined storage unit;
A sending step of generating bid information and sending it to the host when a bid is accepted in the determination step;
It is characterized by providing.
[0022]
According to the present invention, the receiving step sequentially receives auction information including a cell value sent from the cell host. The determination step is a relationship between the selling value included in the auction information received in the receiving step and the two set amounts (for example, the reference amount and the rank amount) included in the bidding condition information stored in the predetermined storage unit. To determine whether the bid is accepted or not. In the transmission step, when a bid is accepted in the determination step, bid information is generated and transmitted to the host. As a result, bids can be appropriately placed in an auction system for auctioning used cars.
[0023]
In order to achieve the above object, the bid bidding method according to the sixth aspect of the present invention includes:
A bidding method in a bidding host for bidding bids on a par with a plurality of terminals against a bilingual host while sequentially raising the biliary value of an object for each first or second time cycle,
A receiving step for sequentially receiving auction information including a serif value sent from the serif host;
A transition discriminating step for determining that the seri-hosting time cycle of the seri-host has shifted from the first time cycle to the second time cycle;
Seri value included in the auction information received in the receiving step, reference amount and rank amount included in the bidding condition information stored in a predetermined storage unit, and determination of transition determined in the transition determination step An acceptance / rejection determination step for determining acceptance / rejection of the bid according to the relationship with the result;
When a bid is accepted in the acceptance / rejection determination step, a transmission step of generating bid information and sending it to the host,
It is characterized by providing.
[0024]
According to the present invention, the receiving step sequentially receives auction information including a cell value sent from the cell host. In the transition determination step, it is determined in accordance with the auction information received in the reception step that the time-up period of the seri-host has shifted from the first time cycle (guidance, etc.) to the second time cycle (slowdown, etc.). . The acceptance / rejection determination step is determined in the transition determination step, the seri value included in the auction information received in the reception step, the reference amount and the rank amount included in the bidding condition information stored in the predetermined storage unit, The acceptance / rejection of the bid is determined according to the relationship with the determination result of the transition. In the transmission step, when a bid is accepted in the acceptance / rejection determination step, bid information is generated and transmitted to the host. As a result, bids can be appropriately placed in an auction system for auctioning used cars.
[0025]
The above bid bidding method is
In response to the bidding information transmitted in the transmission step, a contract determination step of determining presence / absence of contract confirmation information sent from the host.
When it is determined in the contract determination step that the contract confirmation information has been sent, and the object is registered as group information for managing a plurality of objects as one group in a predetermined storage unit, the group is stored from the storage unit. A deregistration step for deregistering information may be further included.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
An auction system according to an embodiment of the present invention will be described below with reference to the drawings, taking as an example the case where the auction target is a used vehicle (used car).
[0027]
FIG. 1 is a schematic diagram showing an example of the configuration of an auction system applied to the embodiment of the present invention. As shown in the figure, this system includes an auction center 1, a member terminal 2, a member personal computer 3, and an inspector personal computer 4. The auction center 1 and the member terminal 2 are connected via an access point 5, and the auction center 1 and the member personal computer 3 / inspector personal computer 4 are connected via a provider access point 6. Furthermore, the auction center 1 and the member terminal 2 (downlink with reference to the member terminal 2 side) are connected via a satellite transmission center 7 and a communication satellite 8. The access point 5 and the provider access point 6 are connected via a network authentication server 9.
Further, the auction operation server 15 is connected to an auction system outside this system, and the request host 16 is connected to a request host outside this system. A request can be input in conjunction with an auction system (serihost) outside this system. At that time, it is possible to receive a request from the member terminal 2 or the like by obtaining the exhibition vehicle information from an auction system outside this system and distributing the information to the member terminal 2 or the member personal computer 3.
[0028]
The auction center 1 is a center that manages and manages the entire auction system that performs used vehicle seri (bidding), as shown in the drawing, a plurality of sub-hosts 10, a seri-host 11, a plurality of price adjustment tables 12, The server includes a plurality of authentication servers 13, an intranet server 14, an auction operation server 15, a request host 16, an auction accounting server 17, an Internet server 18, and an exhibition information input server 19.
The auction center 1 can manage auctions held by a plurality of operators by dividing them into channels, and can realize a plurality of different auctions (multi-channel auctions) at the same time.
[0029]
For example, four sub-hosts 10 are installed in the auction center 1 (for a total of four channels), and the bids from the network side are totaled for each channel.
Specifically, the sub-host 10 totals bid information sent from the member terminal 2 via the access point 5. The bidding information includes information such as a member number (POS number) for identifying the member (member terminal 2) and the bidding price. Then, the sub-host 10 obtains the member number of the member who showed the highest amount (bid amount) and the total number of bidder members at the time of aggregation, and transmits the obtained information to the host 11.
[0030]
The serihost 11 advances the sericulture of used vehicles (exhibited vehicles) according to information sent from the subhost 10 or the like. Note that the serihost 11 can receive information from each of the sub-hosts 10 and can, for example, advance a total of 4 channels of seri in parallel.
Specifically, the seri-host 11 advances the seri while comparing the bidding information obtained from the sub-host 10 with the bidding information obtained from the request host 16. At that time, the host 11 according to the instruction information supplied from the price adjustment console 12 and the member terminal 2 (in this case, the seller's terminal) or the amount information (start amount, set amount, etc.) set for the exhibit vehicle. Slow down control and selling out control are automatically performed.
Here, the slowdown control means that the time interval (time cycle) in which the seri value (bid price) rises is increased, the speed of the seri is reduced, the bidding from the member terminal 2 is made easier to receive, and the automatic seri This is the control to switch from real to real. In the slow-down control, a bid is received from the member terminal 2 or the like, and a bid is made by comparing the bidder's member number.
In addition, selling control means that if there are bids from two or more people at the same time (for example, within 2 seconds), raise the price (increase the price by the specified amount), or from only one person This is a control that determines a successful bid (decides a deal) when there is a bid (more specifically, if only one person bids, even if you are bidding on the highest price) (For example, if the amount is not the maximum amount and it is not the maximum amount, the amount is increased, and if there is no other bid after a certain period of time, a successful bid is determined.)
In addition, the host 11 transmits necessary auction information (information such as the current price and the number of bidders) to the member terminal 2 via the satellite transmission center 7 and the like as the progress of the payment. The host 11 also sends auction information to the request host 16.
[0031]
As an example, four price adjustment consoles 12 are installed in the auction center 1 (for a total of four channels) and operated by an operator or the like. For example, the operator operates the price adjustment console 12 and selects an arbitrary channel that is progressing in the host 11. Then, instruction information such as a slow-down instruction (instruction to shift to slow-down control) and a sell-out instruction (instruction to shift to sell-out control) are supplied to the host 11.
The price adjustment console 12 may be connected to the outside through a dedicated line or the like so that the host 11 can be controlled from a remote location. For example, by connecting the price adjustment console 12 to the system of the business operator that hosts the seri, the seri host 11 can be controlled from the business system.
[0032]
The authentication server 13 is a server that authenticates the member terminal 2 (specifically, a member who operates the terminal). That is, the authentication server 13 transmits and receives predetermined information to and from the member terminal 2 that requests connection via the access point 5 to authenticate the validity of the member terminal 2 and the like. Further, the authentication server 13 communicates with the auction operation server 15 and the auction accounting server 17 and acquires credit information including the payment status from the contracted members.
[0033]
In response to the access from the member terminal 2 via the access point 5, the intranet server 14 reads various information related to the auction from the auction operation server 15 and returns it to the member terminal 2. For example, the intranet server 14 reads information on the contract amount (successful bid amount) of a specific vehicle type in a past auction from the auction operation server 15 and the auction accounting server 17, generates list information, and transmits it to the member terminal 2.
[0034]
The auction operation server 15 displays vehicle information (vehicle type, vehicle name, year, mileage, evaluation contents, images, etc.) of used vehicles to be auctioned and member information (member number, name, address, credit information) about the member. Etc.). Then, in response to access from the intranet server 14 and the Internet server 18, the exhibition vehicle information and member information are transmitted to the member terminal 2 and the member personal computer 3.
As described above, in the auction center 1, auctions by different operators (operating entities) can be held at the same time. For this reason, the auction operation server 15 acquires predetermined information from the authentication server 13 or the like, and a member of one operating entity (member who has contracted with the operating entity) Referencing and updating vehicle information can be prohibited.
In addition, the auction operation server 15 aggregates the auction exhibition information and the results (contract information, etc.) at a predetermined timing, and transmits them to the auction accounting server 17.
[0035]
The request host 16 is a host for bidding on the subject vehicle vehicles instead of being a member who cannot participate in the auction (member terminal 2). Specifically, the request host 16 stores the bidding condition information registered with the member via the member terminal 2 or the like in a storage device (not shown), and is directed to the celery host 11 in progress according to the stored bidding condition information. Bidding information etc. is sent as appropriate.
The bidding condition information stored in advance in the storage device includes, for example, the exhibition number of the target used vehicle and two set amounts (reference amount and rank amount) that serve as the basis for bidding. . The reference amount and the rank amount are provided so that bidding (transmission of bidding information) to the request host 16 behaves more naturally, and details thereof will be described later.
The bidding condition information can also include group registration information, which can be used when only one vehicle is to be closed from a plurality of used vehicles.
Specifically, group registration is performed for all exhibited vehicles that the member wishes to purchase (seize removal) (group registration information is set). In accordance with this group registration information, the request host 16 sequentially bids on the subject vehicle vehicles. Then, when any one of the exhibited vehicles can be concluded, the setting of the remaining group registration information is cancelled. The group registration information can be set across multiple channels, so if you are bidding on multiple vehicles at the same time, the other bidding will be completed when you can close one vehicle. Shall be immediately stopped.
[0036]
The auction accounting server 17 generates auction total information according to the contract information supplied from the auction operation server 15. In addition, since the accounting system is physically different if the auction operating entity is different, the auction accounting server 17 generates different auction aggregate information corresponding to the operating entity.
[0037]
The Internet server 18 responds to access from the member personal computer 3 etc. via the provider access point 6, reads various information related to the auction from the auction operation server 15 and the auction accounting server 17, and returns them to the member personal computer 3 etc. For example, the Internet server 18 reads information such as past auction performance of the self (same member) from the auction operation server 15 and the auction accounting server 17, generates list information, and transmits it to the member personal computer 3.
[0038]
The exhibition information input server 19 inputs the exhibition information (information on the exhibition vehicle) supplied from the inspector personal computer 4 through the provider access point 6. Then, the input exhibition information is supplied to the auction operation server 15. At that time, the auction operation server 15 assigns an exhibition number and the like.
The exhibition information input server 19 may acquire the contents of the exhibition information sent by facsimile or the like by manual input by staff or the like when the exhibition information cannot be obtained directly from the inspector personal computer 4.
[0039]
The member terminal 2 is a dedicated terminal that is distributed to each member. For example, a display device that displays information related to the vehicle to be exhibited, auction information, etc., a joystick for inputting instructions such as bids, communication via a ground line (public line, etc.) And a communication device (such as a modem) capable of performing communication and a satellite communication device (such as a parabolic antenna, a tuner, and a decoder) capable of performing communication via a satellite line.
Specifically, the member terminal 2 is connected to the access point 5 through a public line or the like as an uplink (including a part of the downlink), and transmits bid information etc. to the sub-host 10 or the like via the access point 5. Further, the member terminal 2 receives the exhibition vehicle information, the auction information, and the like sent from the communication satellite 8 as the downlink, and displays the auction contents such as the selling value and the bidding status on the display device. Note that, when the satellite line downlink speed cannot keep up with the speed of seri, the price information on the downlink may be received using the ground line.
That is, the member terminal 2 generates bid information and displays the bid information to the host 11 (sub-host 10) when a predetermined button (POS switch or the like) of the joystick is pressed by the member while displaying the button value or the like on the display device. Send.
The member terminal 2 can be used in the same manner even when a member participates in an auction as an exhibitor. In other words, the member terminal 2 of the exhibitor displays the seri value and the like on the display device, and when the predetermined button of the joystick is pressed by the member, generates the slowdown instruction information, the selling instruction information, etc. Send to 10).
In the member terminal 2, a unique member number (POS number or the like) for identifying the terminal (member) is stored in a nonvolatile memory or a hard disk. The member terminal 2 adds the member number and transmits the information when transmitting information to the sub-host 10 or the like.
[0040]
The member personal computer (personal computer) 3 is connected to the provider access point 6 through a public line or the like, and transmits / receives various information to / from the Internet server 18 via the provider access point 6.
[0041]
The inspector personal computer 4 is composed of personal computers distributed to commissioned inspectors scattered throughout the country. The inspector personal computer 4 connects to the provider access point 6 through a public line, and transmits / receives predetermined information to / from the exhibition information input server 19 via the provider access point 6.
Specifically, when the inspector personal computer 4 inputs an image of an exhibition vehicle imaged by a digital camera or the like, the inspector personal computer 4 performs a compression process on the image and transmits it to the exhibition information input server 19. Further, the inspector personal computer 4 transmits the exhibition information including the evaluation contents inputted by the inspector to the exhibition information input server 19.
In addition, the inspector can also send the exhibition form filled with the exhibition information to the auction center 1 by facsimile without using the inspector personal computer 4. At that time, the contents of the exhibition information sent by facsimile are manually input into the exhibition information input server 19 by a staff member or the like.
[0042]
The access point 5 is a receiving port on the intranet side set in the auction center 1 and is connected to the member terminal 2 and the sub-host 10 through a public line (or dedicated line). The provider access point 6 is a receiving port on the Internet side set in the auction center 1 and connects the member personal computer 3 and the Internet server 18 and the like via a public line or the like.
Furthermore, the satellite transmission center 7 is a transmission center that performs CS (Communication Satellite) data communication, for example, and transmits auction information and the like to the communication satellite 8. In addition, the communication satellite 8 is composed of, for example, a CS satellite and the like, and simultaneously transmits auction information and the like sent from the satellite transmission center 7 to each member terminal 2.
Further, the network authentication server 9 exists separately from the authentication server 13, and allows both the access point 5 and the provider access point 6 to pass through with one user account. And the authentication server 13 implement | achieves double security with respect to the user (member terminal 2, member personal computer 3, etc.) connected to the network, and performs authentication including credit information.
[0043]
Hereinafter, the details of the host 11 and the request host 16 in the auction center 1 will be described.
First, a state where the cell host 11 performs cell control in consideration of a transmission delay (communication delay) of bid information will be described with reference to FIG.
[0044]
Due to differences in line distance, line quality, etc. between each member terminal 2 and the access point 5, a communication delay may occur, and a bidding time for each member terminal 2 may not be uniform. That is, in the member terminal 2 connected to the line with a large communication delay, the seri value may greatly increase while bidding information is being transmitted. In this case, a large price difference will occur between the bid price recognized by the member and the amount determined by the price host 11 (subhost 10).
In order to prevent such a problem, the cell host 11 (sub-host 10) determines the validity of the bid information. Specifically, the bidding information sent from each member terminal 2 includes not only the member number (POS number) but also the amount at the time of bidding (the price at the time when the member terminal 2 bids, that is, the bidding amount). ing. Then, when the bidding price in the bidding information sent from the member terminal 2 is significantly different from the current bidding value managed by the bilingual terminal 11, the bilingual host 11 (sub-host 10) is affected by the communication delay. It is determined that the bidding information is not valid, and the received bidding information is discarded as it is.
[0045]
More specifically, as shown in FIG. 2A, the member terminal 2 (the member terminal 2 on the left side in the figure) is connected through a line with a small communication delay in the state where the seri value in the host 11 is “500,000 yen”. Suppose that the bidding information SJ1 including the bidding price “500,000 yen” is transmitted. In this case, since the current host value is equal to the bid price of the bid information SJ1, the host 11 increases the bid value by a specified amount (3,000 yen in this case) and sets it to “503,000 yen”. .
In this state, it is assumed that the bidding information SJ2 including the bidding price “500,000 yen” is subsequently transmitted from the member terminal 2 (member terminal 2 on the right side in the figure) through a line with a large communication delay. In this case, since the price difference between the current bid value and the bid price of the bid information SJ2 is within an allowable range (for example, less than 6,000 yen), the host 11 determines the validity of the bid information and sets the bid value. Increase the amount of money by the specified amount to “506,000 yen”.
[0046]
On the other hand, as shown in FIG. 2B, when the current seri value in the seri-host 11 is “506,000 yen”, from the member terminal 2 (member terminal 2 on the right side in the figure) through a line with a large communication delay. Suppose that the bidding information SJ3 including the bidding price “500,000 yen” is transmitted. In this case, the host 11 determines that the bidding information is not valid because the price difference between the current bidding price and the bidding price of the bidding information SJ3 is outside the allowable range (for example, 6,000 yen or more). The bid information SJ3 is discarded as it is.
Thus, since the bidding information includes not only the membership number but also the bidding price, it is possible to determine the validity of the bidding information at the host 11 (sub-host 10). When it is determined that the bidding information is not valid (the bidding price is significantly different from the current bid price), the bidding information is discarded as it is. For this reason, the price difference between the bid value bid by the member and the bid price determined by the bid host 11 (subhost 10) can be minimized.
Note that the validity of the bidding information may be determined based on the complete match between the current price value and the bidding price of the bidding information without providing the above-described allowable range.
[0047]
Next, how the request host 16 performs more natural bidding using two set amounts (reference amount and rank amount) will be described with reference to FIG.
As described above, the bidding condition information including the reference amount and the rank amount is stored in the storage device of the request host 16. The request host 16 uses the reference amount and the rank amount to appropriately transmit bid information and the like to the host 11.
Specifically, as shown in FIG. 3A, the request host 16 bids unconditionally if the seri value (the current seri value that has risen) is within the reference amount (below). That is, the bidding information is generated and transmitted to the host 11 in the same manner as the normal member terminal 2. Then, if the seri value exceeds the reference amount and falls within the rank amount (below), bidding is performed as long as the seri host 11 is in slowdown control and the seri partner (member terminal 2) exists.
For example, the request host 16 measures the time cycle of the rise of the seri value and determines whether or not the time cycle exceeds the predetermined reference cycle time. It is determined whether or not it is shifted to. Further, the control status or the like may be acquired directly from the cell host 11.
[0048]
On the other hand, as shown in FIG. 3B, the request host 16 does not have the other party (member terminal 2) until the seri host 11 shifts to the slow-down control even if the seri value exceeds the reference amount. Both bid unconditionally.
In this way, the request host 16 enables more natural bidding using the reference amount and the rank amount. Thus, unlike a conventional bidding system or the like, the seri value is not unreasonably raised, and it is possible to conclude a contract in an advantageous situation for the member.
[0049]
Further, the request host 16 cancels the settings of the remaining group registration information when any one of the registered vehicles registered in the group can be closed according to the group registration information as described above.
For this reason, it is possible to prevent the request host 16 from accidentally closing a plurality of vehicles.
[0050]
The operation of the auction system according to the embodiment of the present invention will be described below with reference to the drawings.
FIG. 4 is a flowchart illustrating an example of a message progress process executed by the message host 11. FIG. 5 is a flowchart showing an example of the absence bid process executed by the request host 16. These processes are executed in parallel at the auction center 1 during the auction.
[0051]
First, the seri progression process shown in FIG. 4 will be described. Note that this seri progression process is a process for one channel. Therefore, when the seri host 11 advances seri for a plurality of channels (for example, 4 channels) at the same time, this seri progress processing is performed in parallel according to the number of channels.
[0052]
First, the host 11 (auction operation server 15) reads the next exhibition vehicle information and distributes it to each member terminal 2 (step S11).
Specifically, the seri-host 11 controls the auction operation server 15 to simultaneously transmit the exhibition vehicle information and the like of the used vehicles to be subjected to the next seri to the member terminals 2 and the like. In other words, the image information of the exhibited vehicle and the exhibited vehicle information are simultaneously transmitted to each member terminal 2 via the satellite transmission center 7 and the communication satellite 8. Also, the exhibition vehicle information is transmitted to the request host 16.
[0053]
The seri host 11 waits for subsequent processing until a predetermined waiting time before the seri start elapses, and then starts seri (step S12). During standby, the display device of each member terminal 2 displays an image, detailed information, etc. of the exhibition vehicle to be sold.
[0054]
When the command is started, the command host 11 determines whether or not there is a guidance setting (step S13).
If there is no guidance setting, the host 11 starts actual processing and determines whether there is a bid (step S14). That is, the seri-host 11 transmits auction information including the current seri value and the like simultaneously to each member terminal 2 via the satellite transmission center 7 and the communication satellite 8. The host 11 also transmits auction information to the request host 16 in the same manner.
Then, the host 11 determines whether bid information has been acquired.
[0055]
If it is determined that there is a bid, the host 11 increases the amount of money by a specified amount (step S15).
As described with reference to FIG. 2, the host 11 determines the validity of the bid information. For this reason, even if the bidding information sent from the member terminal 2 or the like is received, if it is determined that the bidding information is not valid due to a communication delay, the bidding information is discarded as it is. That is, the host 11 determines whether or not valid bid information has been received.
If the price increases the price, the host 11 advances the process to step S21 described later.
[0056]
On the other hand, when there is no bid, the host 11 determines whether or not a predetermined time for starting the timer has elapsed (step S16). If it is determined that it has not elapsed, the process returns to step S14 described above. If the time for starting the timer has elapsed, the host 11 starts a timer for measuring the reference time (step S17).
[0057]
After starting the timer, the host 11 again determines whether there is a bid (step S18).
If it is determined that there is no bid, the host 11 executes the bid process (step S19). That is, the bid for the target exhibition vehicle is terminated without making a successful bid for any member terminal 2 or the like.
[0058]
After the execution of the tag processing (or after execution of the contract processing described later), the seri-host 11 determines whether or not all seri has been completed (step S20). That is, it is determined whether or not all exhibition vehicles have been closed in the auction to be held.
If it is determined that not all of the cells have been completed, the cell host 11 returns the process to step S11 described above.
[0059]
After raising the price in the above step S15 or when there is a bid in the above step S18, the host 11 determines whether or not the current price is equal to or higher than the set price ( Step S21).
If it is determined that the price is less than the set price, the host 11 determines whether or not there is a state change instruction (step S22). For example, when a clear instruction or the like is input from the member terminal 2 (in this case, the seller's terminal) or when the current seri value is a slowdown price, it is determined that the seri state has been changed. .
[0060]
If it is determined that there is no instruction to change the state, the host 11 returns the process to step S13 described above.
On the other hand, when there is an instruction to change the state, the host 11 determines whether it is clear or slowdown (step S23).
If it is determined that the host is clear, the set host 11 clears the set price (step S24). That is, after that, if there is a bid, the set price is cleared so as to immediately shift to the selling state.
[0061]
After clearing the set price, the host 11 determines whether or not the bidder is held (step S25). If no bidder is held, the host 11 waits for time-up (step S27) while determining again whether there is a bid (step S26).
Here, when the time is up, the host 11 advances the process to the above-described step S19 and executes the tag processing.
On the other hand, if it is determined in step S25 that a bidder is held, or if it is determined in step S26 that there is a bidder, the host 11 transitions to a sellout state (step S28).
[0062]
When transitioning to the sellout state, the host 11 determines whether there is a bid (step S29), and if there is a bid, raises the price (step S30). If there are no more bids, the process waits for time up (step S31), and executes a closing process after the time is up (step S32).
After executing the contract process, the host 11 advances the process to step S20 described above.
[0063]
If it is determined in step S13 that there is a guidance setting, the host 11 performs automatic guidance raising (step S33).
Then, after the automatic set up, the set host 11 advances the process to step S21 described above.
[0064]
If it is determined in step S23 that the host is slowing down, the host 11 transitions to the slowdown state (step S34). In other words, the seri-host 11 reduces the seri speed and switches from automatic seri-up to real seri.
[0065]
When transitioning to the slow-down state, the host 11 determines whether or not the bidder is held (step S35). If no bidder is held, the host 11 determines again whether or not there is a bid (step S36). Also, the time-up is determined (step S37).
Here, when the time is up, the host 11 advances the process to the above-described step S19 and executes the tag processing.
[0066]
On the other hand, if it is determined in step S35 that a bidder is held, or if it is determined in step S36 that there is a bidder, the host 11 returns the process to step S22 described above.
[0067]
In addition, the seri-host 11 ends the seri progression process when it is determined in step S20 that all the seri has been completed.
[0068]
Next, the absence bid process executed by the request host 16 will be described with reference to FIG. This absent bid processing is performed after bidding condition information including an exhibition number, a reference amount, a rank amount, etc. is input by a member (member who cannot participate in an auction) and stored (registered) in the storage device of the request host 16. Be started. Then, the absent bid processing is executed in parallel with the above-described processing of FIG.
[0069]
First, the request host 16 receives exhibition vehicle information and the like sent from the host 11 (auction operation server 15) (step S41). That is, the request host 16 receives the exhibition vehicle information indicating the detailed contents of the exhibition vehicle sent from the auction operation server 15 controlled by the host 11.
[0070]
The request host 16 determines whether there is a bid reservation (step S42). If it is determined that there is no bidding reservation, the request host 16 returns the process to step S41 described above.
On the other hand, when there is a bidding reservation, the request host 16 generates group information from a plurality of bidding reservation information (step S43).
Then, the request host 16 waits for the start of seri (step S44).
[0071]
When the message is started, the request host 16 receives the message execution information (step S45). And it is discriminate | determined whether seri is implemented (step S46).
If it is determined that the message has not been executed, the request host 16 returns the process to step S41 described above. On the other hand, when it is determined that the bid is being executed, the request host 16 starts bidding and sends bidding information to the bid host 11 (step S47).
It is assumed that the request host 16 sequentially receives auction information including the current value of seri and the like sent from the seri host 11.
[0072]
When bidding is started, the request host 16 determines whether or not the seri-host 11 is guiding the seri value (step S48). If it is determined that guidance is in progress, the request host 16 returns the process to step S47 described above.
On the other hand, when determining that the guidance is not in progress, the request host 16 determines whether or not the seri value is equal to or less than the reference amount (step S49). If it is determined that the amount is equal to or less than the reference amount, the request host 16 returns the process to step S47 described above.
[0073]
Further, when it is determined that the amount is not less than the reference amount (exceeds the reference amount), the request host 16 determines whether or not it is the highest value of seri (step S50). When determining that the value is not the highest value, the request host 16 returns the process to step S47 described above.
On the other hand, if it is determined that the value is the highest value, the request host 16 determines whether it is within the rank amount (step S51). If it is determined that it is not within the rank amount, the request host 16 returns the process to step S47 described above.
[0074]
If it is determined that the amount is within the rank amount, the request host 16 determines whether or not a partner is present (step S52). If it is determined that the other party is present, the request host 16 returns the process to step S47 described above.
On the other hand, if the partner does not exist, the request host 16 determines whether or not the contract result has been received (step S53). Here, the request host 16 determines the presence of the other party until the contract result is received.
[0075]
When the contract result is received, it is determined whether or not the contract has been completed (step S54). If it is determined that the contract has not been concluded, the request host 16 returns the process to step S41 described above.
On the other hand, if the contract is successful, the request host 16 searches for group information (step S55). Then, it is determined whether or not there is group information (step S56).
[0076]
When there is group information, the request host 16 deletes the group information (step S57). That is, since any one of the registered vehicles registered in the group has been closed, the setting of the remaining group registration information is cancelled.
Then, after deleting the group information or when there is no group information, the request host 16 returns the process to step S41 described above.
[0077]
With such absence bid processing, the request host 16 enables a natural bid for the presented price using the reference amount and the rank amount. For this reason, unlike the conventional absence answering system, the seri value is not unreasonably raised, and it is possible to conclude the contract in an advantageous situation for the member.
The request host 16 cancels the setting of the remaining group registration information when any one of the registered vehicles registered in the group can be closed according to the group registration information. For this reason, it is possible to prevent the request host 16 from accidentally closing a plurality of vehicles.
[0078]
In the above-described embodiment, in the auction center 1, the host host 11 and the request host 16 are separately configured, and the host host 11 executes the above-described processing of the queue shown in FIG. The case where the absent bid processing shown in FIG. However, in the auction center 1 that does not include the request host 16, the seri-host 11 may serve as the request host 16 and execute a process corresponding to the absence bid process.
That is, the bidder host 11 stores bidding condition information including the reference price and the rank price in its storage device, and in the above-described bid progress process shown in FIG. 4, the current bid value, the reference price, and the rank price are set. The timing for bidding is determined according to the relationship. Then, at the bidding timing, it is assumed that bidding information has been sent from the member (member terminal 2) who registered bidding condition information, and the host 11 performs an increase in the bidding value and determines a contract.
In this case, not only the configuration of the auction center 1 is simplified, but bidding information transmission / reception is not required in the auction center 1, so that the communication load and the processing load can be reduced accordingly.
[0079]
In the above embodiment, an auction in one auction center 1 has been described. However, many members wish to participate in auctions held at the same time at a plurality of auction centers 1. For example, a case where a vehicle of a vehicle type that a member desires to purchase is exhibited at the same time at a plurality of auction centers 1. In such a case, it is conceivable to connect the member terminal 2 to each auction center 1 and instruct the cell host 11 or the like.
Still, since the member can actually operate only one member terminal 2, the member can participate only in an auction held at any one of the auction centers 1 or the request host 16 of each auction center 1 (in the case of the seri-host 11). Or ask for an absent bid.
However, if the request host 16 or the like of the plurality of auction centers 1 is requested for the absent bid, each request host 16 may close the vehicle for exhibition. Therefore, a mechanism that can appropriately control the request host 16 and the like of each auction center 1 is required.
[0080]
Hereinafter, an auction system capable of appropriately controlling the request host 16 and the like of each auction center 1 will be briefly described with reference to FIG.
FIG. 6 is a block diagram showing an example of a configuration of an auction system according to another embodiment of the present invention.
As shown in the figure, the auction system is composed of a plurality of auction centers 1, a member terminal 2, and a request server 20, and each is connected via a network N such as an intranet or the Internet.
[0081]
The configuration of each auction center 1 in the figure is the same as the configuration of the auction center 1 shown in FIG. That is, each auction center 1 similarly includes a service host 11, a request host 16, and the like.
The member terminal 2 transmits / receives necessary information to / from the request server 20 in addition to transmitting / receiving predetermined information to / from the auction center 1 connected via the network N. Specifically, the member terminal 2 transmits group request information to the request server 20.
This group request information is request information for performing group registration for all the exhibited vehicles that the member desires to purchase among the vehicles that are exhibited in the auction held at each auction center 1. The request information includes information for specifying the exhibition vehicle, a seri upper limit amount, and the like.
[0082]
The request server 20 transmits (registers) bidding condition information to the request host 16 (or the host 11) of each corresponding auction center 1 according to the group request information sent from the member terminal 2. When the auction is started at the same time, the request server 20 sequentially accesses the request host 16 of each auction center 1 and determines whether or not the exhibited vehicle can be closed by a bid according to the bid condition information registered by itself. To check. When any one auction vehicle in the group can be closed at any auction center 1, the request server 20 sends the release information (based on the request information) to the request host 16 of the other auction center 1. All the bidding condition information during bidding or scheduled bidding is canceled by transmitting (instruction for stopping processing).
Thereby, since the request server 20 appropriately controls the request host 16 and the like of each auction center 1, it is possible to prevent the auction center 1 from accidentally closing a plurality of vehicles.
[0083]
Instead of sending bid condition information from the request server 20 to each request host 16 and causing the request host 16 to bid, the request server 20 replaces the member terminal 2 and sends it to the host 11 of each auction center 1. Bidding information may be transmitted to bid for the subject vehicle. Also in this case, when any one auction vehicle in the group can be closed at any auction center 1, the request server 20 stops bidding on the host 11 of the other auction center 1.
[0084]
In the above embodiment, an auction of a used car (used vehicle) has been described as an example. However, the object to be received in the auction system is not limited to a used car, and can be appropriately applied to any exhibit. .
[0085]
In the above-described embodiment, the case where the satellite transmission center 7 and the communication satellite 8 (satellite line) are used as the downlinks with the member terminal 2 as a reference has been described. It can be changed.
[0086]
【The invention's effect】
As described above, according to the present invention, bidding for seri can be appropriately performed in an auction system for auctioning used cars and the like.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an example of an auction system according to an embodiment of the present invention.
FIGS. 2A and 2B are schematic diagrams for explaining a state in which a host performs a line control in consideration of a bidding information transmission delay (communication delay) and the like.
FIGS. 3A and 3B are schematic diagrams for explaining how the request host performs more natural bidding using the reference amount and the rank amount.
FIG. 4 is a flowchart for explaining a cell progress process according to the embodiment of the present invention;
FIG. 5 is a flowchart for explaining absent bid processing according to an embodiment of the present invention.
FIG. 6 is a schematic diagram showing an example of an auction system according to another embodiment of the present invention.
[Explanation of symbols]
1 Auction center
2 member terminals
3 member PC
4 inspector personal computer
5 access points
6 Provider access points
7 Satellite transmission center
8 Communication satellite
9 Network authentication server
10 Subhost
11 Serihost
12 Price survey table
13 Authentication server
14 Intranet server
15 Auction operation server
16 Request host
17 Auction accounting server
18 Internet server
19 Exhibition information input server
20 Request server

Claims (12)

A bidding host that bids on the same item with multiple terminals against the host that advances the cell while sequentially increasing the cell value of the object,
Storage means for storing bidding condition information including at least two set amounts;
Receiving means for sequentially receiving auction information including a serif value sent from the serris host;
Discriminating means for discriminating whether the bid is accepted or not according to the relationship between the serri value included in the auction information received by the receiving means and the two set amounts included in the bid condition information stored in the storage means;
Transmitting means for generating bidding information and transmitting it to the host when bidding is approved by the determining means;
A bidding host characterized by comprising: A time measuring means for measuring a time cycle of raising the seri performed by the seri host;
Cycle discriminating means for discriminating whether or not the time cycle timed by the time measuring means exceeds a predetermined reference cycle time;
The discriminating means is in accordance with the relationship between the selling value included in the auction information received by the receiving means, the two set amounts included in the bidding condition information stored in the storage means, and the discrimination result of the cycle discriminating means. , Determine whether the bid is accepted,
The bid host according to claim 1, wherein: A bidding host that bids on a seri on a par with a plurality of terminals against a seri host that advances the seri while sequentially increasing the seri value of the object for each first or second time cycle,
Storage means for storing bidding condition information including a set amount including a reference amount and a rank amount higher than the reference amount;
Receiving means for sequentially receiving auction information including a serif value sent from the serris host;
A transition determining means for determining that the serrated time cycle of the serif host has shifted from a first time cycle to a second time cycle;
Bidding according to the relationship between the seri value included in the auction information received by the receiving means, the reference amount and the rank amount included in the bidding condition information stored in the storage means, and the judgment result of transition by the transition judging means Acceptance / rejection determination means for determining acceptance / rejection,
A sending means for generating bid information and sending it to the host when a bid is accepted by the acceptance / rejection judging means;
A bidding host characterized by comprising: The approval / disapproval determination means accepts a bid when the value of the auction information received by the receiving means is equal to or less than the reference amount.
The bid host according to claim 3, wherein: The acceptance / rejection determination means is in a state where the seri value of the auction information received by the reception means exceeds the reference amount and is less than or equal to the rank amount, and the transition determination unit performs the second time period from the first time cycle. A bid is accepted if it is determined that a transition has been made to the cycle and a bid has been made from the terminal,
The bid host according to claim 3 or 4, characterized in that The approval / disapproval determination means has a state in which the seri value of the auction information received by the receiving means is in a state exceeding the reference amount and not more than the rank amount, and the transition determination unit performs the second time cycle from the first time cycle. Accept bids if it is determined that the time cycle has not been reached,
The bid host according to claim 3, 4, or 5. Group information storage means for storing group information for registering and managing a plurality of objects as one group;
In response to the bid information transmitted by the transmission means, a contract determination means for determining the presence or absence of contract confirmation information sent from the cell host,
Registration that cancels registration of group information from the group information storage means when it is determined that the contract confirmation information is sent by the contract determination means and an object is registered as group information in the group information storage means A release means,
The bid host according to any one of claims 1 to 6, characterized in that It is a host that is connected to multiple terminals via a network and performs the processing of objects.
Storage means for storing bidding condition information including at least two set amounts;
Transmitting means for sequentially transmitting auction information including the seri value of the object to each terminal;
In response to the auction information transmitted by the transmitting means, receiving means for receiving bid information sent from any terminal;
In accordance with the bidding information received by the receiving means, the seri value is sequentially raised, and the seri value is successively raised according to the relationship between the current selley value and the two set amounts included in the bidding condition information stored in the storage means. Seri raising means,
Serri control means for determining a successful bid or a bid according to the relationship between the serri value raised by the serri raising means and the amount set for the object;
A seri-host characterized by comprising: It is a request host that makes a request for seri to a plurality of seri hosts that perform seri of the object independently,
Request information transmitting means for transmitting request information including information for identifying an object and a seri upper limit amount to a plurality of seri-hosts;
Receiving means for receiving contract confirmation information indicating confirmation of contract from any host that performs services according to the request information transmitted by the request information transmitting means;
Stop information for transmitting request stop information for instructing to stop processing based on the request information transmitted by the request information transmitting means to the other host when the receiving means receives the contract confirmation information from any one of the host A transmission means;
A request host characterized by comprising: A bidding method in a bidding host that bids bidding with multiple terminals to a bilingual host, while raising the biliary value of an object sequentially.
A receiving step for sequentially receiving auction information including a serif value sent from the serif host;
A discriminating step for discriminating whether or not the bidding is accepted according to the relationship between the seri value included in the auction information received in the receiving step and the two set amounts included in the bidding condition information stored in a predetermined storage unit;
A sending step of generating bid information and sending it to the host when a bid is accepted in the determination step;
A bidding method for selling bids, comprising: A bidding method in a bidding host for bidding bids on a par with a plurality of terminals against a bilingual host while sequentially raising the biliary value of an object for each first or second time cycle,
A receiving step for sequentially receiving auction information including a serif value sent from the serif host;
A transition discriminating step for determining that the seri-hosting time cycle of the seri-host has shifted from the first time cycle to the second time cycle;
Seri value included in the auction information received in the receiving step, reference amount and rank amount included in the bidding condition information stored in a predetermined storage unit, and determination of transition determined in the transition determination step An acceptance / rejection determination step for determining acceptance / rejection of the bid according to the relationship with the result;
When a bid is accepted in the acceptance / rejection determination step, a transmission step of generating bid information and sending it to the host,
A bidding method for selling bids, comprising: In response to the bidding information transmitted in the transmission step, a contract determination step of determining presence / absence of contract confirmation information sent from the host.
When it is determined in the contract determination step that the contract confirmation information has been sent, and the object is registered as group information for managing a plurality of objects as one group in a predetermined storage unit, the group is stored from the storage unit. A deregistration step for deregistering information;
12. The bid bidding method according to claim 10 or 11, wherein:

Images