JP2016056635A5 - - Google Patents

Description

Key data control system in communication line

    The present invention relates to a key management control device that manages a plurality of key data of a building, a title terminal device that has a title to change the key data, and a key that has been changed from either the key management control device or the title terminal device. The present invention relates to a key data control system in a communication line, comprising a server that receives information and records the change point information.

    In general, in an online system, a message sent from each terminal is temporarily registered in a queue (queue). This is queuing of input messages and is one of the basic data structures of computers. The message queuing function is often provided by “middleware” equivalent to human limbs, not the OS or applications equivalent to human brains, and can be easily used from application software by calling APIs. It is like that. Putting data into a queue (queue) is called “enkey”, and taking out the data is called “dequeue”. The dequeue is generally fetched in order from the preceding data, and is called “first-in first-out list structure”, and a data buffer having the first-in first-out list structure is called “queue area”.

    On the other hand, a data buffer having a “last-in first-out list structure” is called a “stack area”, contrary to the above-described ordinary and general queues. Thus, although the memory area is called differently depending on whether it is “first-in first-out” or “last-in first-out”, the input message queuing means is a well-known matter.

    First, Patent Document 1 is a technique related to queuing of an input message, in order to delete a process waiting input message that has expired to eliminate processing waste and to effectively use a queue stack. When a message is sent from the terminal 1 to the online system center 2 with a valid time specified, the message registration unit 23 of the online system center 2 registers the input message in the stack 31 and the message. The expiration date management information is registered in the management area 32. The message registration unit 24 takes out the input message from the stack 31 and processes it, and notifies the processing result to the terminal 1, while the message expiration date control unit 25 sends the message expiration date management information in the management area 32 at regular intervals. Is searched, and if there is an expired one, the corresponding input message in the stack 31 is deleted (reference numeral is that of Patent Document 1). Note that the concept of “stack” in Patent Document 1 is presumed to be based on a general queue area method in consideration of the object of the invention.

    Next, Patent Document 2 is a technology related to a lock management system. In order to obtain a lock management system that is easy to maintain, has low installation costs and low maintenance costs, and is highly convenient for users, Using the unlocking code (key data) of the responder (tag) of the portable terminal device 6 possessed by the interrogator (tag reader) of the locking / unlocking device 2 and the response of the responder (tag) of the portable terminal device 6 Thus, on the premise that the electronic lock 1 provided on the door of the building is unlocked, “the locking and unlocking device 2 provided on the door side of the building and the storage unit of this locking and unlocking device are stored. In a lock management system comprising a lock management server 4 for managing key data and a portable terminal device 6 having the same key data as the key data managed by the lock management server 4, first and second unlocking Generate new code (key data) And the first unlocking code transmitted from the lock management server 4 to the locking / unlocking device 2 and the second unlocking code transmitted to the portable terminal device 6. The code distribution means 16, the short-range wireless communication means 10 for performing short-range wireless communication with each other between the locking / unlocking device 2 and the portable terminal device 6 and the short-range wireless communication means 10 communicate with each other, and the first The lock management system includes an unlocking control unit 13 that collates the unlocking code with the second unlocking code and unlocks the lock by the locking / unlocking device 2 when both match.

    Further, Patent Document 3 also uses a key data (identifier) of a responder (tag) as a storage medium possessed by a user, and an interrogator of a communication unit (applying / unlocking device) provided near or on the door ( It is described that an electric lock (electronic lock) provided on a building door can be unlocked by a response between the tag reader) and the responder (tag). FIG. 2 of Patent Document 2 shows a setting input device (external terminal) in the input / output unit of the communication unit (locking / unlocking device) at the site of the building where the communication unit (locking / unlocking device) exists. It is suggested that a plurality of key data of the communication unit (applying / unlocking device) can be set / updated / deleted. In this way, the electric lock (electronic lock) provided on the door of the building is unlocked in response to the interrogator (tag reader) on the door side and the responder (tag) of the portable terminal device possessed by the user. These unlocking systems are also called, for example, an entry / exit management system or an entry / exit management device (for example, Japanese Patent Laid-Open No. 10-49767, Japanese Patent No. 3376686).

    By the way, a key management control device (entrance / exit management system) that manages a plurality of key data of a building such as an apartment house existing in a predetermined range (partitioned land) or a building that operates a business, for example, is in the predetermined range. The on-site key register provided by the key management control device can be changed (updated, etc.) by the original terminal device having the original right, but has the following problems.

    Conventionally, when changing the key data of the electric lock control device, a trader or an administrator having the title possesses an external terminal and changes the key data of the electric lock control device. By the way, it is convenient if a vendor or the like can change the key data of the electric lock control device at the location of the “key management control device” that collectively manages the key data. In addition, with the spread of communication lines, changing the key data is very convenient, for example, using the Internet.

    Thus, when a plurality of title terminal devices maintain the local ledger of the same key management control device arranged in a predetermined range at the same time using a local (field) or communication line, the side that changes the key data It is desirable that the parties whose key data are changed are not synchronized with each other. Therefore, at present, the appearance of an ideal key data control system is desired. Note that Patent Document 1, Patent Document 2, Patent Document 3, and the like do not disclose combining a server queuing means and a key management control device.

JP-A-5-314069 JP 2004-120257 A FIG. 2 of JP2012-36704A

The object of the present invention is that either the title terminal device or the key management control device can refer to the change point information stored in the storage unit of the server via the communication line, and thereby the latest change. It is possible to confirm or inquire whether the point information is correctly reflected . In addition, preferably either the title terminal device or the key management control device refers to the change ledger managed by the server in real time via the communication line, and confirms whether or not the latest change point information is correctly reflected. Or , even if a plurality of title terminal devices can remotely maintain the local ledger of the same key management control device arranged in a predetermined range at the same time using the local (field) or communication line Are not synchronized with each other.

    A key data control system for a communication line according to the present invention includes a key management control device that manages a plurality of key data of a building existing in a predetermined range in a field ledger, and a title terminal having a title to change the key data of the spot ledger Apparatus and a server that accepts the changed key data from at least the title terminal device or the key management control device via a communication line, and stores the received change point information in a storage unit, at least the title terminal Either the device or the key management control device is characterized in that the server can refer to the change point information stored in the storage unit via the communication line.

In the above arrangement, said one of title terminal or the key management controller, the change point information by the server is stored in the storage unit, and characterized in that you can be referenced through a communication line To do. Also, the server, when the plurality of point information in a predetermined storage area occurs, the most recent key data, characterized in that it can be held as the latest change point information.
The server includes queuing means for storing change point information in a row state, and the queuing means stores a plurality of change point information (change key data that precedes and follows over time) in a predetermined storage area. If is generated, the most recent key data, to be able to hold the "latest point information" on the stack having, for example, last-in-first-out list structure preferred. In addition, the server has queuing means for storing change point information in a row state. When a plurality of change point information is generated, the queuing means, for example, changes the latest change to a queue part area having a first-in first-out list structure. It is preferable that it can be held as point information. Further, the server has a change ledger for updating the latest change point information one after another from a predetermined area, either sequentially or after a predetermined time has elapsed, and at least either the source terminal device or the key management control device is It is preferable that the change ledger can be referred to. Further, it is preferable that the key management control device can inquire update information stored in the change ledger either after a predetermined time has elapsed or periodically. Furthermore, the key management control device is preferably an entry / exit management control device for managing a gate of a building.

    As shown in FIG. 1, the server 17 according to the embodiment has a storage unit 36 for storing a storage area (stack area or queue part area) 37 of a queuing means that may be included in the key data processing device 31, and a change ledger 36a. Have both.

    In other words, the storage area 36 of the queuing means is either a “queue part area 37” as a data buffer having a first-in first-out list structure or a “stack area 37” as a data buffer having a last-in first-out list structure. Preferably, the first-in first-out or last-in first-out change point information is stored in the server 17 as the change ledger 36a.

(A) The invention according to claim 1 is a title terminal having a key management control device that manages a plurality of key data of buildings existing in a predetermined range in a site ledger, and a title that changes the key data of the site ledger. Apparatus and a server that accepts the changed key data from at least the title terminal device or the key management control device via a communication line, and stores the received change point information in a storage unit, at least the title terminal Since either the device or the key management control device can refer to the change point information stored in the storage unit by the server via the communication line, a number of title terminal devices can be ) Or even if remote maintenance is performed on the field ledger of the same key management control device arranged in a predetermined range at the same time using the communication line, they are not synchronized with each other. Further, the key data can be easily changed using the communication line. In addition, either the title terminal device or the key management control device refers to the change ledger managed by the server in real time via the communication line, and confirms or inquires whether the latest change point information is correctly reflected. can do.
(B) In the invention described in claim 2, either the title terminal device or the key management control device can refer to the change point information stored in the storage unit by the server via the communication line. Therefore, the effect (a) can be obtained with certainty.
(C) In addition, depending on the embodiment, there are effects such as that the reliability of maintenance can be obtained and the convenience of changing work is further improved .

1 to 10 are explanatory views showing an embodiment of the present invention.
The key data control system figure which shows the whole concept. The key data control system figure which shows the whole concept. Explanatory drawing centering on the key management control apparatus 15. FIG. Explanatory drawing which shows the data structure of the change point information transmitted. Schematic explanatory drawing of transmission (terminal) and reception (server) of change point information. Explanatory drawing centering on the server 17. FIG. Explanatory drawing of the stack area | region which comprises a queuing means. The schematic explanatory drawing of transfer of change point information. Explanatory drawing which shows the specific example of operation | movement of the title original terminal apparatus 18 grade | etc.,. Explanatory drawing of the queue part area | region which comprises a queuing means.

    1 to 10 show a key data control system in a communication line according to an embodiment of the present invention. FIG. 1 is a schematic explanatory diagram of a key data control system X showing the overall concept of the present invention. FIG. 2 shows an electric lock 4 provided on the door 3, an electric lock control device 5 provided on or near the door, an interrogator 11 provided on the passage, near the door, the door, etc. It is explanatory drawing which shows the responder 12, the key management control apparatus 15, the communication line 16, and the server 17 which manage several key data of the building 2. FIG.

    First, in FIG. 1 and FIG. 2, reference numeral 1 of a virtual line is a predetermined range (partitioned land), and at least one condominium, a for-profit corporation or a public interest corporation conducts business in this predetermined range 1. There is a building 2 such as a building (hereinafter referred to as “building”). The concept of “building” includes 1-chome, neighborhood associations, etc., if it is possible to specify a predetermined area by name, etc. In addition, a large number of private houses in one area are also included.

    Reference numeral 3 denotes a door corresponding to the gate of the building 2. For example, in the case of a gate that distinguishes between a shared part and an exclusive part of the building 2, the door 3 is provided with an electric lock 4. Note that the concept of the door 3 includes, for example, an automatic opening / closing door of the entrance, a meeting place managed by a management association, and an equipment warehouse if the building 2 is a collective housing.

    Therefore, there are a plurality of doors 3 (3a, 3b, 3c... 3n) in one building, and each door 3 is provided with an electric lock 4 (4a, 4b, 4c... 4n). . There are a plurality of electric lock control devices 5 (5a, 5b, 5c... 5n) for controlling each electric lock, and each storage unit 6 (6a, 6b, 6c... 6n) of each electric lock control device 5 is provided. Each stores the required number of key data (authentication lists ID1 to IDn: key data 1, key data 2, key data 3... Key data n) of the door.

    In FIG. 2, 7 is a control unit of the electric lock control device 5, 8 is an authentication unit, 9 is a transmission / reception unit, 10 is an input / output unit, 11 is an interrogator (tag reader), 12 is a resident, employee. It is a responder (tag) possessed by.

    Reference numeral 15 denotes one or a plurality of key management control devices arranged in the predetermined range 1. For example, if the building 2 is a single apartment (apartment house), this key management control device 15 is arranged in a common part, and the electric lock control device 5 (5a, 5b) in an appropriate connection mode, for example, LAN format. 5c... 5n).

    Accordingly, the single or plural key management control devices 15 installed in the predetermined range 1 are respectively connected to the electric lock control devices 5 that control the electric locks 4 of the doors 3 of the building 2, as will be described later. In the embodiment, it has a site ledger for managing a large number of key data (authentication list: ID1, ID2 to IDn) of one building 2, a transmission application (hereinafter referred to as “transmission application”), and the like.

    In addition, since the response mode of the interrogator 11 and the responder, the specific configuration of the interrogator 11, the data processing of the electric lock control device 5, the control mode of the electric lock control device 5 for the electric lock 4 and the like are well-known matters, here I will omit the detailed explanation.

    Next, the configuration of the key management control device 15 will be briefly described with reference to FIG. In FIG. 3, 21 is a control unit, and this control unit includes a transmission / reception control unit 21a and a change point information control unit 21b. A program 24 includes a transmission application 24a and a reception application 24b. Here, the transmission application 24a and the reception application 24b are referred to as “transmission-side applications” for convenience of explanation.

    The program 24 of the embodiment has both applications 24a and 24b, but may be only the transmission application 24a that transmits change point information. However, preferably, it also has a reception application 24b that receives log information (history information including the latest information) regarding the change point information from the server 17.

    25 is a transmission / reception unit corresponding to an interface, 26 is a timer for knowing a predetermined time or setting a transmission time of change point information, and 27 is an operation state of the transmission side application and control of the change point information control unit described above. A process monitoring unit that monitors states (process creation, abnormality, termination, etc.), and 28 is a storage unit.

    The storage unit 28 stores a plurality of (preferably almost all) key data (authentication list ID: key data 1, key data 2, key data 3... Key data n) of the building 2 described above, so-called “merchant account book”. The key data store ledger (list) 28a and the log information 28b related to the change point information of the key data received from the server 17 by the receiving application 24b are respectively stored.

    In the above-mentioned configuration, the title terminal device 18 accesses the key management control device 15 via the communication line (for example, the Internet) 16, inputs the title (password, etc.), logs in, and stores the key data on-site register. Can be changed (updated, etc.).

    In the embodiment, when the title terminal device 18 changes a part of the on-site ledger, in the embodiment, (a) the key management control device 15 automatically sends the change point information to the server 17 based on its own program 24. (B) Instead of the key management control device 15, the right source terminal device 18 transmits the change point information to the server 17 having the same program (sending side application) 24A as the key management control device 15. There are cases. That is, the server 17 accepts at least key data changed from either the title terminal device 18 or the key management control device 15 via the communication line 16, and stores the accepted change point information in the storage units (36a, 36). To do.

    Further, in addition, the title terminal device 18 or the key management control device 15 arbitrarily transmits the changed key data to the server 17 as “change point information (P)” based on the transmission application 24a. As shown in FIG. 4, the data structure at that time is “key management control device identifier a”, “change point information (updated key data) identifier b”, “change point information transmission time c”, “communication path” (Socket designation) d ”,“ other e ”, etc.

    Although not specifically shown, there are a plurality of (for example, eight) buildings 2 in the predetermined range 1, and a plurality (for example, eight) of key management control devices 15 corresponding to each building 2 are appropriately arranged. When provided, each key management control device 15 is connected to the centralized management device via a switching hub.

    Next, change point information as a main part of the present invention will be described with reference to FIG. FIG. 5 shows the states of the right source terminal device 18 (18a, 18b, 18c... 18n) “before correction” and “after correction” of the key data (ID information) of room information of certain property information (left of the drawing). On the other hand, the receiving side application of the server 17 that has received the changing point information P transmitted from the original terminal device 18 that has changed a part of the on-site ledger 28a of the key data and the changing point information P via the communication line 16. The contents of the key data (ID information) of the room information of (hereinafter referred to as “reception side application”) are shown.

    As is apparent from FIG. 5, the title terminal device 18 plays a part of the site ledger, for example, the ID3 identifier (10000003), changes (updates) it to “ID3 (10000013)”, and others When the identifiers ID1, ID2, and IDn are not changed, only the change point information “ID3 (10000013)” is transmitted, and other information regarding ID1, ID2, and IDn is not transmitted.

    Therefore, although the key management control device 15 has the on-site ledger 28a, the receiving-side application of the server 17 only receives only the change point information from each of the right source terminal devices 18 (18a, 18b, 18c... 18n). As shown in FIG. 8, only the change point information P is managed through queuing means described later, and the change point information P is held as “change ledger (change table) 36a”. In addition, the server 17 does not have the same on-site ledger 28 a as the key management control device 15.

    Next, the configuration of the server 17 will be briefly described with reference to FIG. In FIG. 6, reference numeral 31 denotes a control unit, and this control unit 31 includes a transmission / reception control unit similar to the key management control device 15 and a change point information control unit, although not particularly shown. Reference numeral 32 denotes a program. This program includes a reception application 32a and a transmission application 32b similar to those of the key management control device 15. Here, the reception application 32a and the transmission application 32b are referred to as “reception side application” for convenience of explanation.

    The program 32 according to the embodiment includes both applications 32a and 32b, but may include only the reception application 32a that receives the change point information P. In the case of such an embodiment, as a matter of course, the right source terminal device 18 and / or the management control device 15 only refers to (views) the change ledger 36 a regarding the change point information of the server 17.

    However, preferably, when there is a request for change point information from the title terminal device 18 and / or the management control device 15, a part or all of the change ledger regarding the change point information is changed to “change point” via the communication line 16. Since it is convenient if it is transmitted as “log information related to information”, it has a transmission application 32 b that transmits received change point information from the server 17. In this case, the title terminal device 18 and / or the management control device 15 can request log information regarding the change point information by setting a predetermined time or a predetermined period (for example, one week).

    By the way, 33 is a change point information cube (so to speak, a warehouse or a reception place) provided with middleware (a so-called carrier or transport vehicle that carries change point information) 33a. The change point information cube 33 temporarily stores a large number of change point information P1, P2, P3,... Pn. 34 is a timer for setting the reception time or the middleware 33a to operate, 35 is the operation status of the receiving application 32 and the control state of the change point information control unit (process creation, abnormality, termination). , Etc.) is a process monitoring unit, and 36 is a storage unit. As described above, the storage unit 36 stores the “change ledger 36a” regarding the change point information.

    Here, the queuing means (33, 33a, 37) of the embodiment will be described with reference to FIGS. Although the memory area is called differently depending on whether it is “first-in first-out” or “last-in first-out”, the queuing means of the input message is a well-known item. Conceptually illustrated.

    The queuing means of the embodiment has, for example, the last-in first-out list structure when the plurality of pieces of change point information (change key data that precedes and follows with time) occurs in the change point information queue 33. It can be held in the stack area 37 as “latest change point information”. Of course, as shown in FIG. 10, it can also be stored in the queue area 37 as “latest change point information”.

    FIG. 7 shows a basic conceptual diagram of, for example, a stack area 37 (in other words, a place holding the latest information carried from the warehouse via the stack 33a), while FIG. FIG. 3 schematically shows the flow of change point information of ID information when 32 receives change point information.

    In FIG. 7, in the stack area 37, the pushed values are stacked from the bottom. When popping, it is taken from the value on top. Therefore, if the change point information P1 and P2 are held in the stack area 37, when popping, the “change point information P2” is started sequentially or the timer 34 is started. First-in and later-out after a predetermined time (for example, after 30 seconds, 1 minute, 5 minutes, etc.) (third diagram from the left), and now only “change point information P1” is held in the stack area 37. In the case of popping, “change point information P1” is output, and the stack area 37 becomes null data (NULL). If the stack area 37 becomes null data (there is no data), the middleware 33 a carries the latest change point information n from the change point information queue 33 and puts it in the stack area 37.

    FIG. 8 means that the change point information Pn (ID3, 10000013) is the newest latest change point information. The change point information Pn is changed by a stack (for example, a transport vehicle) by a change point information cube (for example, storage). (Reservoir) 33 is transferred to the stack area 37 (place for maintaining the latest information). In the embodiment, the change point information P1 to Pn reflected as the latest information is recorded in the “change ledger (change table) 36a” regarding the change point information in the storage unit 36 after a predetermined time has elapsed.

    Thus, since the server 17 has the change ledger 36a for storing the change point information P in the storage unit 36, at least one of the right terminal device 18 and the key management control device 15 passes through the communication line 16 after a predetermined time has elapsed. By referring to the change ledger 36a managed by the server 17 in real time, it is possible to confirm or inquire whether or not the latest change point information is correctly reflected.

    Finally, FIG. 9 is an explanatory diagram showing a specific example of the operation of the title terminal device 18 and the like. In FIG. 9, the left side is the server 17, the right side is the key management control device 15, and the middle is the title terminal device 18. For example, it is assumed that a trader (for example, an SD store) who also has the same information as the site ledger of a specific building possesses the title terminal device 18. For example, when a resident (customer) of a building requests that the key data be changed, the trader has the right to change the key data of the building.

    Therefore, the key data of the building of the resident (customer) is changed, and this is transmitted as change point information to the key management control device 15 via the communication line (Step 1). In this embodiment, in order to avoid synchronization with the right source terminal device 18 of another trader (SD store), after the site ledger including the building key data is drawn out and changed, the key management control device 15 It is not returned to the on-site ledger (so-called overwriting). Therefore, the management control device 15 receives only the change point information (Step 2). After receiving the change point information, the management control device 15 registers the change point information in the on-site ledger (Step 3). Then, after registration, the fact that it has been automatically registered (for example, including text) is transmitted to the title terminal device 18 of the trader (SD store) via the communication line. The title terminal device 18 can confirm the change point information by receiving the registration (Step 4).

    Next, the title terminal device 18 transmits the change point information to the server 17 via the communication line (Step 5), and the server 17 receives the change point information (Step 6). At this time, the server 17 may receive the change point information from the key management control device 15 via the communication line. The server 17 that has received the change point information finally registers the change point information in the change ledger 36a of the storage unit through the operation of the queuing means (33, 33a, 37) shown in FIG. 8 (Step 7). Therefore, the change ledger 36a stores only change point information. Therefore, after a predetermined time (for example, 1 minute) elapses, the title terminal device 18 can access the server 17 via the communication line and refer to (view) the change ledger 36a (Step 8). The key management control device 15 can also inquire update information stored in the change ledger after a predetermined time has elapsed (Step 9).

    The embodiment of the present invention is an embodiment in which a plurality of key data of a specific building is maintained by using a title terminal device possessed by, for example, a trader (SD store). Key management system for offices, key management system for offices, key management system for traders using the title terminal device, key management system for accommodation facilities having key data for the room information together with a plurality of room information, and keys for nursing care facilities It can be applied to management systems.

    The present invention can be used, for example, as a residential key management system or an office key management system.

X: Key data control system in communication line,
1 ... predetermined range (partitioned land),
2 ... Building,
3 ... door, 4 ... electric lock,
5 ... Electric lock control device,
6 ... Storage part of electric lock control device (having door key data),
11 ... Interrogator, 12 ... Responder,
15 ... Key management control device,
16 ... communication line,
17 ... server,
18 ... Gonhara terminal device,
P: Change point information,
21 ... Control unit of the key management control device,
24, 24A ... program (transmission side application),
25. Transmission / reception unit (interface),
26 ... Timer, 27 ... Process monitoring unit,
28: Storage unit of key management control device,
28a ... Site ledger (list),
28b: Log information related to change point information of key data,
a: identifier of the key management control device,
b: identifier of change point information (updated key data),
c: Change point information transmission time,
d ... Communication path (socket designation),
31 ... Server control unit,
32 ... Program (receiver application),
33 ... Change point information cube, 33a ... Middleware,
34 ... Timer, 35 ... Process monitor,
36 ... Storage unit, 36a ... Change ledger (change table)
37: Stack area or queue area.

Claims (3)

A key management control device that manages a plurality of key data of a building existing in a predetermined range in a site ledger, a title terminal device having a title to change the key data of the site ledger, and at least the title terminal device or key management control A key data control system in a communication line that includes a server that accepts the changed key data from any of the devices via the communication line and stores the received change point information in a storage unit. 2. The key data control system for a communication line according to claim 1 , wherein either the original terminal device or the key management control device refers to the change point information stored in the storage unit by the server via the communication line. key data control system in the communication line, characterized in that you can be. 2. The key data control system for a communication line according to claim 1, wherein when a plurality of change point information is generated in a predetermined storage area, the server holds the newest key data as the latest change point information. A key data control system in a communication line, characterized by being capable of doing so.