CN112910930B - Method and system for calibrating number list by intelligent access gateway - Google Patents

Abstract

The invention provides a method and a system for calibrating a number list by an intelligent access gateway, which specifically comprise the following steps: receiving a remote number list, wherein the remote number list is composed of at least one of numbers, letters and special characters; acquiring a local terminal number list, wherein the local terminal number list is configured in a storage space of the intelligent access gateway in advance; acquiring protocol modes, wherein the protocol modes comprise a master-slave mode and a non-master-slave mode, and are pre-configured to a storage space of the intelligent access gateway or control equipment communicated with the intelligent access gateway; and calibrating the local number table according to the protocol mode and the remote number table. The method for calibrating the number list of the intelligent access gateway can autonomously select the calibration strategy according to the user requirement, thereby selectively calibrating the number list of the local terminal and improving the user dialing experience of the intelligent access gateway.

Description

Method and system for calibrating number list by intelligent access gateway

(the application is a divisional application with the application date of 2019, 03 and 27 months, the application number of CN201910238415.5 and the application name of 'a method and a system for configuring a number table by an intelligent access gateway')

Technical Field

The invention relates to the technical field of intelligent access gateway calibration number list; in particular to a method and a system for calibrating a number list by an intelligent access gateway.

Background

Under the IMS network architecture, the intelligent access gateway can provide both voice services and data services, and is increasingly widely used. The voice service provided by the intelligent access gateway must be regulated and limited in the range of receiving number by means of number list, and all the numbers called by the intelligent access gateway must be in accordance with the rule of number list. An intelligent access gateway generally stores a default number table, and when the intelligent access gateway accesses an IMS network, IMS core network devices generally set parameters such as the number table stored in the intelligent access gateway in batches, and especially when the parameters of the number table set in batches are inconsistent with the rules or number receiving ranges stored in the intelligent access gateway, user experience is deteriorated, and in severe cases, number receiving failure and voice service breakdown are caused. Therefore, when the parameters set in batches are received, the number list of the intelligent access gateway is calibrated, and the method is a very necessary link, so that the number list set in batches can not only keep the original number receiving habit, but also enlarge the number receiving range and the number receiving rule on the premise of ensuring the consistency of the rules, and further improve the dialing experience of users.

The invention with publication number CN104993985A provides a method for self-adaptive calibration of number table rules of access gateway equipment, which comprises the following steps: the gateway server issues a number list rule to the access gateway equipment; the gateway equipment analyzes the number table rule; and the gateway equipment compares the analysis result with the configuration in the local storage system, judges whether the number table rule issued by the gateway server meets the user requirement, and if not, calibrates the number table rule. Although the technical scheme can calibrate the number table when receiving the number table which is sent by the gateway server and does not meet the requirements of the user; the following technical problems still remain unsolved: firstly, the access gateway cannot selectively calibrate the local number table according to the user requirements, for example, if the user selects the master-slave mode, the number table of the access gateway should be completely controlled by the number table issued by the gateway server, and if the user selects the non-master-slave mode, the access gateway can selectively extract a part of the number table issued by the gateway server and add the part to the end of the number table of the access gateway; secondly, the number list of the access gateway after calibration may lose part of the original number receiving rules; thirdly, the calibration process must depend on the local inter-receiving-digit type configuration and the local outgoing call type configuration in the local storage system of the access gateway, and many access gateways do not separately set the configurations, so that the commercial application range of the method is narrow.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the art described above. For this purpose,

the first purpose of the present invention is to provide a method for calibrating a number list by an intelligent access gateway, which can perform an autonomous selection of a calibration policy according to user requirements, thereby selectively calibrating a local number list to improve user dialing experience of the intelligent access gateway.

The second purpose of the present invention is to provide a system for calibrating a number table of an intelligent access gateway, which can perform an autonomous selection of a calibration policy according to user requirements, thereby selectively calibrating a local number table to improve user dialing experience of the intelligent access gateway.

In order to achieve the above object, an embodiment of a first aspect of the present invention provides a method for calibrating a number table by an intelligent access gateway, where the method includes: receiving a remote number list, wherein the remote number list is composed of at least one of numbers, letters and special characters; acquiring a local terminal number list, wherein the local terminal number list is configured in a storage space of the intelligent access gateway in advance; acquiring protocol modes, wherein the protocol modes comprise a master-slave mode and a non-master-slave mode, and are pre-configured to a storage space of the intelligent access gateway or control equipment communicated with the intelligent access gateway; and calibrating the local number table according to the protocol mode and the remote number table.

Preferably, the protocol mode is set by default when the intelligent access gateway leaves a factory, and is flexibly modified and/or queried by a user through a human-computer interaction interface.

Preferably, when the protocol mode is configured as a master-slave mode, the calibrating the local number table includes: and covering the remote number table with the local number table, so that the local number table is completely controlled by the remote number table.

Preferably, when the protocol mode is configured as a master-slave mode, the calibrating the local number table includes: extracting an internal line number table item from the local terminal number table; and linking the remote number list to the tail of the internal line number list item, and separating by using a separator, so that the local number list is controlled by the remote number list, and the original internal line number list item can be kept.

Preferably, when the protocol mode is configured as a non-master-slave mode, the calibrating the local number table includes: analyzing the remote number list to obtain a first number receiving rule; analyzing the local terminal number list to obtain a second number receiving rule; comparing the first number receiving rule and the second number receiving rule to determine a comparison result; and calibrating the local terminal number list according to the comparison result.

Preferably, the first number receiving rule and the second number receiving rule at least comprise one of a number receiving time interval and a number calling mode.

Preferably, the number outgoing call mode includes at least one of an immediate outgoing call, an end plus dial # immediate outgoing call, and an end wait timer timeout outgoing call mode.

Preferably, when the comparison result is inconsistent, the remote number table is linked to the end of the local number table, and the remote number table and the local number table are separated by a separator.

Preferably, when the comparison result is consistent, the calibrating the local number table includes:

analyzing the remote number table to obtain a first number receiving range; analyzing the local terminal number list to obtain a second number receiving range; and calibrating the local terminal number list according to the inclusion relation of the first number receiving range and the second number receiving range.

Preferably, calibrating the local terminal number table according to the inclusion relationship between the first number receiving range and the second number receiving range includes: when the first number receiving range and the second number receiving range have no intersection or partial intersection, the remote number table is linked to the tail of the local number table, repeated items are removed, and the remote number table and the local number table are separated by a separator; or, when the first number receiving range includes the second number receiving range, covering the remote number table with the local number table; or when the first number receiving range is contained by the second number receiving range, the local number list does not need to be calibrated.

In order to achieve the above object, an embodiment of a second aspect of the present invention provides a system for calibrating a number table by an intelligent access gateway, where the system includes: the remote number list receiving module is used for receiving the remote number list, wherein the remote number list is composed of at least one of numbers, letters and special characters; a local terminal number list acquisition module, wherein the local terminal number list is configured in advance to a storage space of the intelligent access gateway; a protocol mode acquisition module, wherein the protocol mode comprises a master-slave mode and a non-master-slave mode, and is pre-configured to a storage space of the intelligent access gateway or a control device communicated with the intelligent access gateway; and the local terminal number table calibration module calibrates the local terminal number table according to the protocol mode and the remote terminal number table.

Preferably, the protocol mode acquired by the protocol mode acquisition module is set by default when the intelligent access gateway leaves a factory, and is flexibly modified and/or queried by a user through a human-computer interaction interface.

Preferably, when the protocol mode acquired by the protocol mode acquisition module is configured as a master-slave mode, the home number table calibration module covers the remote number table on the home number table, so that the home number table is completely controlled by the remote number table.

Preferably, when the protocol mode acquired by the protocol mode acquisition module is configured as a master-slave mode, the home number table calibration module extracts an internal line number table entry from the home number table; and linking the remote number list to the tail of the internal number list item, and separating the remote number list by using a separator, so that the local number list is controlled by the remote number list and the original internal number list item can be reserved.

Preferably, when the protocol mode acquired by the protocol mode acquisition module is configured as a non-master-slave mode, the home terminal number table calibration module includes: the first number receiving rule analysis module is used for analyzing the remote number list to obtain a first number receiving rule; the second number receiving rule analysis module is used for analyzing the local terminal number list to obtain a second number receiving rule; the comparison module is used for comparing the first number receiving rule with the second number receiving rule to determine a comparison result; and the first calibration module is used for calibrating the local terminal number list according to the comparison result.

Preferably, the first number receiving rule and the second number receiving rule at least comprise one of a number receiving time interval and a number calling mode.

Preferably, the number outgoing call mode includes at least one of an immediate outgoing call, an end plus dial # immediate outgoing call, and an end wait timer timeout outgoing call mode.

Preferably, when the comparison result determined by the comparison module is inconsistent, the remote number table is linked to the end of the local number table, and the remote number table and the local number table are separated by a separator.

Preferably, when the comparison result determined by the comparison module is consistent, the first calibration module includes: the first number receiving range analysis module is used for analyzing the remote number list to obtain a first number receiving range; the second number receiving range analysis module is used for analyzing the local terminal number list to obtain a second number receiving range; and the second calibration module is used for calibrating the local terminal number list according to the inclusion relation of the first number receiving range and the second number receiving range.

Preferably, calibrating the local terminal number table according to the inclusion relationship between the first number receiving range and the second number receiving range includes: when the first number receiving range and the second number receiving range have no intersection or partial intersection, the remote number table is linked to the tail of the local number table, repeated items are removed, and the remote number table and the local number table are separated by a separator; or, when the first number receiving range includes the second number receiving range, covering the remote number table with the local number table; or when the first number receiving range is contained by the second number receiving range, the local number list does not need to be calibrated.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

The invention is further described with reference to the following figures and examples.

Drawings

Fig. 1 is a schematic diagram of a network structure of an intelligent access gateway and an IMS control device according to an embodiment of the present invention.

Fig. 2 is a schematic block diagram of an intelligent access gateway receiving a remote number table according to an embodiment of the present invention.

FIG. 3 is a diagram illustrating each special character in the number list according to an embodiment of the present invention.

Fig. 4 is a block diagram of a structure of a method for calibrating a number table by an intelligent access gateway according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of a network structure of an inline voice service in an intelligent access gateway according to an embodiment of the present invention.

Fig. 6 is a block diagram of a system for calibrating a number table by an intelligent access gateway according to an embodiment of the present invention.

Detailed Description

Example one

As shown in fig. 1-2, an IMS control device and an intelligent access gateway form a signaling flow network structure of a voice service, where the IMS control device is located at a core layer of an IMS architecture, and the IMS control device belongs to an IMS core network device, and mainly includes functions of signaling control and forwarding, parameter batch delivery setting, protocol control, and the like of the IMS voice service. The IMS control device may be a single physical device, or may be a server group formed by multiple physical devices, such as an IMS server, an application server, a media gateway device, and the like. The intelligent access gateway is positioned at an access layer of the IMS architecture, is directly oriented to a user, receives a user instruction, and the instruction can be directly acted on the intelligent access gateway by the user or can be transmitted to the intelligent access gateway through equipment such as a fixed telephone, a Bluetooth handle, an intelligent terminal and the like which are mutually connected with the intelligent access gateway. A network connection is established between the intelligent access gateway and the IMS control device, and signal transmission between the intelligent access gateway and the IMS control device follows a specific communication protocol, such as communication protocols and specifications of H.248, SIP, MGCP, H.232, TR069, TR104 and the like.

As shown in fig. 1-2, in the IMS network structure, from the perspective of the intelligent access gateway, the IMS control device is a remote device, and the intelligent access gateway is a home device. It can also be understood that the core layer device is a remote device and the access layer device is a local device. In practical application, when the intelligent access gateway is accessed to the IMS network architecture, the IMS control device, which is a remote device, will usually open some services to the intelligent access gateway or issue some parameters or configurations in batches. For example, the IMS control device may issue parameters such as call forwarding, malicious call, number table, call waiting, and the like to the intelligent access device that has just accessed the network, and some of the parameters belong to parameters of switching values, such as call forwarding, malicious call, and call waiting, and only have two options of turning on and off; the other parameters belong to configuration parameters, such as a number list, and are composed of at least one of numbers, letters and special characters, wherein the numbers and the letters can find corresponding keys or buttons for inputting on an operation panel or an interface of equipment such as a fixed telephone, a Bluetooth handle, an intelligent terminal and the like; the special characters include, x, #, T, etc. which represent special meaning characters and separators | and a detailed description of these special meanings is shown in fig. 3.

For example, the number table x.T | x. # is a compliance number table, which is composed of two parts, x.T and x. # which are divided by | to indicate that both parts belong to the number table, and the two parts are combined together by a separator to form a complete compliance number table. By the above-mentioned expression logic of the remote device and the local device, the number table issued by the remote device may be called the remote number table, and the number table stored in the intelligent access gateway as the local device may be called the local number table. It can be understood that the number table provides a number receiving rule and a number receiving range, the number receiving rule specifies numbers that the intelligent access gateway allows the user to input and numbers that the user does not allow to input, for example, the number table of the home terminal is x.T | x #, which means that the intelligent access gateway as the home terminal device allows the user to input numeric keys or buttons, but cannot allow the user to input such as a letter and/or a letter; the number receiving range specifies which numbers the smart access gateway can accept input by the user, i.e. the range of the numbers input by the user, or the number table of the home terminal is x.T | x. # for example, which means that the smart access gateway can accept the number keys or buttons with any number of digits input by the user, i.e. the smart access gateway can receive all the pure number keys without limiting the number of the input pure number keys. It should be understood that for a purely digital key scenario, the home-end number table achieves full coverage without omission, with a number receiving range of one hundred percent.

Fig. 4 shows a method for calibrating a number table by an intelligent access gateway according to an embodiment of the present invention, which includes the following steps:

s1, receiving a remote number list, wherein the remote number list is composed of at least one of numbers, letters and special characters;

as shown in fig. 2, an intelligent access gateway as a local device receives a remote number table issued by an IMS control device as a remote device, where the remote number table is associated with a control signaling sent by the IMS control device to the intelligent access gateway, and a specific field in the control signaling carries the remote number table. Generally, the IMS control device sends a Notify signaling to the smart access gateway, where the value of a specific field digitmap in the signaling is the remote number table. The far-end number table is made up of at least one of numbers, letters, and special characters, such as x.T | x.

S2, acquiring a local terminal number list, wherein the local terminal number list is configured in a storage space of the intelligent access gateway in advance;

the intelligent access gateway is provided with a local number list in the storage space in advance, and the local number list is similar to the remote number list and is composed of at least one of numbers, letters and special characters. After receiving the remote number list sent by the remote device, the intelligent access gateway reads the local number list pre-configured in the storage space. Thus, the intelligent access gateway obtains two number tables which are a remote number table and a local number table. The remote number table and the home number table both follow the special character description shown in fig. 3.

It can be understood that the premise of obtaining the local number table is that a local number table configuration item must be set in the storage space of the intelligent access gateway in advance, and a specific local number table must be configured for the local number table configuration item. For example, if the local number table configuration entry is localdigimmap, and the specific local number table is x.T | x. #, then the fact that the local number table is pre-configured in the storage space of the smart access gateway means that localdigimmap = x.T | x. # is pre-configured in the storage space of the smart access gateway.

S3, acquiring protocol modes, wherein the protocol modes comprise a master-slave mode and a non-master-slave mode, and are pre-configured to a storage space of the intelligent access gateway or control equipment communicated with the intelligent access gateway;

the protocol mode can determine the strategy of calibrating the number list of the intelligent access gateway, and the selection of different protocol modes means that the strategy of calibrating the number list of the home terminal is different, thereby causing different calibration results and different user experiences. The intelligent access gateway acquires the protocol mode, namely, in order to leave the option of the calibration strategy to the user, the user can select the protocol mode according to the number receiving rule and the number receiving range, so that the strategy for calibrating the number list of the local terminal and the user experience brought by the strategy are determined autonomously. The protocol mode comprises a master-slave mode and a non-master-slave mode, wherein the master-slave mode is to make the intelligent access gateway completely controlled by the IMS control equipment, and it can be understood that the principle of calibrating the home terminal number after the intelligent access gateway receives the remote number list is that the home terminal number list is completely controlled by the received remote number list; in the non-master-slave mode, the remote number table and the local number table are integrated without being completely controlled by the remote number table, so that the local number table is calibrated.

The protocol mode is configured in the storage space of the intelligent access gateway in advance, that is, the storage space of the intelligent access gateway must be preset with a protocol mode configuration item, and the intelligent access gateway can acquire a value corresponding to the protocol mode configuration item by reading the protocol mode configuration item in the storage space. For example, the protocol mode configuration item is an MSMode, and the corresponding value is TRUE, which indicates that the obtained protocol mode is a master-slave mode; and if the corresponding value is FLASE, indicating that the obtained protocol mode is a non-master-slave mode.

Further, the protocol mode is set by default when the intelligent access gateway leaves a factory; that is, the protocol mode configuration items and the corresponding values are set by default when the intelligent access gateway leaves a factory, and can be flexibly and freely modified and/or inquired through a human-computer interaction interface when the intelligent access gateway is used by a user. The man-machine interaction interface comprises at least one of a physical panel, a touch screen, a voice interaction interface, a joystick, a liquid crystal display and the like. Although the protocol mode is set into the intelligent access gateway by default, the protocol mode configuration supports multiple modifications and/or queries, considering that users can customize according to different requirements. For example, the user may conveniently and quickly complete the modification and/or query of the protocol mode configuration through a modification page displayed on the display screen.

The protocol mode may be preconfigured into a control device in communication with the intelligent access gateway, in addition to being preconfigured into a memory space of the intelligent access gateway. For example, the protocol mode is pre-configured to the memory space of the TR069 or TR104 device. In this case, in order to obtain the protocol mode, the intelligent access gateway needs to perform the following steps: sending a protocol mode request for requesting the control device communicating with the intelligent access gateway to acquire a protocol mode; and receiving and analyzing a protocol mode response to acquire the protocol mode. The protocol mode response is to extract the value corresponding to the protocol mode configuration item from the received response message, so as to obtain the protocol mode.

And S4, calibrating the local number list according to the protocol mode and the remote number list.

And the intelligent access gateway calibrates the remote number list with the local number list according to the acquired protocol mode and the remote number list by different strategies so as to enable the local number list to be matched with the selection of the protocol mode.

Further, when the protocol mode is configured as a master-slave mode, the strategy for calibrating the local number table is to overlay the remote number table on the local number table, so that the local number table is completely controlled by the remote number table. For example:

the remote number list received by the intelligent access gateway is as follows:

110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx|0[1,2]xxxxxxxxx|0[3-9]xxxx xxxxx|x.T|x.#

if the acquired protocol mode is a master-slave protocol, the local number table is calibrated as follows:

110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx|0[1,2]xxxxxxxxx|0[3-9]xxxx xxxxx|x.T|x.#

the above calibration technical solution is to cover the remote number table with the local number table, because the internal line voice operation of the intelligent access gateway is not considered, the local number table may include internal line number table entries of service requirements such as internal line dial call, internal line call forwarding, internal line three-party call, etc., resulting in that the internal line voice operation that the intelligent access gateway may originally support may fail, thereby resulting in the problems that the user needs to find out that the user cannot meet, the user experience is poor, etc.

The internal line and the external line are the result of artificial division according to the path of the voice signaling flow, that is, when the intelligent access gateway establishes the voice service control signaling, if the signaling passes through the IMS control device located in the core layer as shown in fig. 1 or 2, the voice service is classified as the external line voice service; if the signaling is only looped back inside the intelligent access gateway, and the signaling flow does not flow out of the intelligent access gateway, the voice service is classified as an internal line voice service. Typical internal voice services include internal dial calling, internal call forwarding, internal three-way calling and the like, and the internal voice services can be realized only by means of a single intelligent access gateway device.

As shown in fig. 5, the smart access gateway has several physical interfaces for connecting devices such as a fixed telephone, a bluetooth handle, a smart terminal, etc. The physical interface shown in fig. 5 is a LAN port, where a telephone 1 and a telephone 2 are connected to LAN0 and LAN3 ports, respectively. It can be understood that the telephone 1 connected to LAN0 port and the telephone 2 connected to LAN3 port can implement an internal voice call in the intelligent access gateway by means of loopback without the participation of a core layer control device, and the experience or feeling of the user is the same as that of an external voice call.

Further, when the protocol mode is configured as a master-slave mode, the strategy for calibrating the local number table includes: extracting an interior line number table item from the home terminal number table; and linking the remote number list to the tail of the internal line number list item, and separating by using a separator, so that the local number list is controlled by the remote number list, and the original internal line number list item can be kept. The structure of the internal line number table entry is different from that of the external line number table entry, and the extraction of the internal line number table entry from the local terminal number table is easy to realize. For example:

the remote number list received by the intelligent access gateway is:

110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx|0[1,2]xxxxxxxxx|0[3-9]xxxx xxxxx|x.T|x.#

the obtained local number list is as follows: * # xx 1. X.T. 1#x # | x.T. X

Then, the list items of the internal line numbers extracted from the local number list are: * # xx 1# | x.T | 1#x #

Then, the home number table will be calibrated as:

*#xx|*1#x.T|*1#x.#|110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx|0[1,2]x xxxxxxxx|0[3-9]xxxxxxxxx|x.T|x.#

thus, as shown in fig. 5, dialing #03 from the telephone 1 can realize an extension voice call of the telephone 2 connected to the LAN3 port; similarly, the telephone 2 can realize the internal voice call of the telephone 1 connected with the LAN0 port by dialing the # 00. Therefore, the calibrated local number table is controlled by the remote number table, and internal line number table items necessary for the intelligent access gateway to realize the internal line voice operation are also reserved, so that the intelligent access gateway meets the requirements of the remote number table and the requirements of local equipment for internal line voice services, and the diversified experience of the internal line voice services and the external line voice services in dialing of users is greatly improved.

Further, when the protocol mode is configured as a non-master-slave mode, the step of calibrating the local number table includes:

s401, analyzing the remote number list to obtain a first number receiving rule;

s402, analyzing the local terminal number list to obtain a second number receiving rule;

further, the first number receiving rule and the second number receiving rule at least comprise one of a number receiving bit time length and a number calling mode. The time length between receiving numbers and the calling mode of the numbers are obtained by analyzing the number list, the time length between receiving numbers is the time interval of inputting one number by the user according to the number list, and if no number is input in the time interval, the user is meant to finish receiving numbers. The number outgoing call mode includes at least one of an immediate outgoing call, an end plus dial # immediate outgoing call, and an end wait timer timeout outgoing call mode.

S403, comparing the first number receiving rule with the second number receiving rule to determine a comparison result;

further, if the time length between receiving digits in the first receiving rule is consistent with the time length between receiving digits in the second receiving rule, and the time length between receiving digits in the first receiving rule is consistent with the number calling mode in the second receiving rule, the comparison result between the first receiving rule and the second receiving rule is consistent; otherwise it is inconsistent.

S404, calibrating the local terminal number list according to the comparison result.

Further, when the comparison result is inconsistent, calibrating the local number table means that the remote number table is linked to the end of the local number table, and the remote number table and the local number table are separated by a separator.

For example:

the remote number list received by the intelligent access gateway is:

110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx

the obtained local terminal number list is as follows: * # xx # | 1#x # | x #

Then, the first number-receiving rule is: the time length between the number receiving positions is a long timer, and the number calling mode is immediate calling; and the second number receiving rule is as follows: the time length between the number receiving positions is a short timer, and the number calling mode is a tail dialing plus # immediate calling mode. Therefore, the comparison result is inconsistent, and the local end number table after calibration is:

*#xx#|*1#x.#|x.#|110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx

further, when the comparison result is consistent, the step of calibrating the local number table includes:

s4041, analyzing the remote number list to obtain a first number receiving range;

s4042, analyzing the local terminal number list to obtain a second number receiving range;

s4043, calibrating the local terminal number list according to the inclusion relation of the first number receiving range and the second number receiving range.

Further, calibrating the local terminal number table according to the inclusion relationship between the first number receiving range and the second number receiving range includes: when the first number receiving range and the second number receiving range have no intersection or partial intersection, the remote number table is linked to the tail of the local number table, repeated items are removed, and the remote number table and the local number table are separated by a separator; or, when the first number receiving range includes the second number receiving range, covering the remote number table with the local number table; or when the first number receiving range is contained by the second number receiving range, the local number list does not need to be calibrated.

For example:

the remote number list received by the intelligent access gateway is:

110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx

the obtained local terminal number list is as follows: * # xx |. 1# xxxxxxxxxx

Then, there is no intersection between the first number receiving range obtained by analyzing the remote number table and the second number receiving range obtained by analyzing the local number table, and the local number table after calibration is:

*#xx|*1#xxxxxxxx|110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx

another example is:

the remote number list received by the intelligent access gateway is as follows:

110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx

the obtained local terminal number list is as follows: 110 without 120 cells 119 |. 1# xxxxxxxxxx

Then, there is a partial intersection between the first number receiving range obtained by analyzing the remote number table and the second number receiving range obtained by analyzing the local number table, and the local number table after calibration is:

110|120|119|*1#xxxxxxxx|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx

for another example:

the remote number list received by the intelligent access gateway is as follows:

110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx

the obtained local terminal number list is as follows: 110 assay 120 assay

Then, analyzing the first number receiving range obtained by the remote number table includes (covers) analyzing the second number receiving range obtained by the home number table, and the calibrated home number table is:

110|120|119|1[3,4,5,6,7,8]xxxxxxxxx|[2-9]xxxxxxxx

for another example:

the far-end number table received by the intelligent access gateway is 110 count 120 count 119 count

The obtained local terminal number list is as follows: 110 without a light of 120 circuitry 1[ 1 ], [3,4,5,6,7,8], [2-9], [ xxxxxxxxxx ]

Then, the first number receiving range obtained by analyzing the remote number table is included in the second number receiving range obtained by analyzing the local number table, and the local number table does not need to be calibrated.

Example two

Fig. 6 is a block diagram illustrating a structure of a system for calibrating a number table of an intelligent access gateway according to an embodiment of the present invention, where the system includes: a remote number table receiving module 610, a home number table obtaining module 620, a protocol mode obtaining module 630 and a home number table calibrating module 640.

The remote number table receiving module 610 is configured to receive a remote number table formed by at least one of numbers, letters, and special characters; a home terminal number list obtaining module 620, configured to obtain the home terminal number list preconfigured in the storage space of the intelligent access gateway; a protocol mode obtaining module 630, configured to obtain the protocol mode of a control device preconfigured in a storage space of the intelligent access gateway or in communication with the intelligent access gateway, where the protocol mode includes a master-slave mode and a non-master-slave mode; and the home terminal number table calibration module 640 is configured to calibrate the home terminal number table according to the protocol mode and the remote number table.

Further, the protocol mode obtained by the protocol mode obtaining module 630 is set by default when the intelligent access gateway leaves the factory, and is flexibly modified and/or queried by a user through a human-computer interaction interface.

Further, when the protocol mode acquired by the protocol mode acquisition module 630 is configured as a master-slave mode, the home number table calibration module 640 covers the remote number table with the home number table, so that the home number table is completely controlled by the remote number table.

Further, when the protocol mode acquired by the protocol mode acquisition module 630 is configured as a master-slave mode, the home terminal number table calibration module 640 extracts an internal line number table entry from the home terminal number table; and linking the remote number list to the tail of the internal line number list, and separating by using a separator, so that the local number list is controlled by the remote number list, and the original internal line number list items can be kept.

Further, when the protocol mode acquired by the protocol mode acquiring module 630 is configured as a non-master-slave mode, the home terminal number table calibrating module 640 includes: the first number receiving rule analysis module is used for analyzing the remote number list to obtain a first number receiving rule; the second number receiving rule analysis module is used for analyzing the local terminal number list to obtain a second number receiving rule; the comparison module is used for comparing the first number receiving rule with the second number receiving rule to determine a comparison result; and the first calibration module is used for calibrating the local terminal number list according to the comparison result.

Further, the first number receiving rule and the second number receiving rule at least comprise one of a number receiving bit time length and a number calling mode.

Further, the number outgoing call mode includes at least one of an immediate outgoing call, an end plus dial # immediate outgoing call, and an end wait timer timeout outgoing call mode.

Further, when the comparison result determined by the comparison module is inconsistent, the remote number table is linked to the end of the home number table, and the remote number table and the home number table are separated by a separator.

Further, when the comparison result determined by the comparison module is consistent, the first calibration module includes: the first number receiving range analysis module is used for analyzing the remote number list to obtain a first number receiving range; the second number receiving range analysis module is used for analyzing the local terminal number list to obtain a second number receiving range; and the second calibration module is used for calibrating the local terminal number list according to the inclusion relation of the first number receiving range and the second number receiving range.

Further, calibrating the local terminal number table according to the inclusion relationship between the first number receiving range and the second number receiving range includes: when the first number receiving range and the second number receiving range have no intersection or partial intersection, the remote number table is linked to the tail of the local number table, repeated items are removed, and the remote number table and the local number table are separated by a separator; or, when the first number receiving range includes the second number receiving range, covering the remote number table with the local number table; or when the first number receiving range is contained by the second number receiving range, the local number list does not need to be calibrated.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

The above-mentioned embodiments are only for illustrating the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the same, and the present invention is not limited to the embodiments, i.e. all equivalent changes or modifications made according to the spirit of the present invention are still within the scope of the present invention.

Claims (6)

1. The method for calibrating the number list by the intelligent access gateway is characterized by comprising the following steps:

receiving a remote number list, wherein the remote number list is composed of at least one of numbers, letters and special characters;

acquiring a local terminal number list, wherein the local terminal number list is configured in a storage space of the intelligent access gateway in advance;

acquiring protocol modes, wherein the protocol modes comprise a master-slave mode and a non-master-slave mode, and are pre-configured to a storage space of the intelligent access gateway or control equipment communicated with the intelligent access gateway;

calibrating the local number table according to the protocol mode and the remote number table;

when the protocol mode is configured as a master-slave mode, the calibrating the local number table comprises:

extracting an interior line number table item from the home terminal number table;

linking the remote number list to the tail of the interior number list item, and separating by using a separator;

when the protocol mode is configured as a non-master-slave mode, the calibrating the local terminal number table comprises:

analyzing the remote number list to obtain a first number receiving rule;

analyzing the local terminal number list to obtain a second number receiving rule;

comparing the first number receiving rule with the second number receiving rule to determine a comparison result;

and calibrating the local terminal number list according to the comparison result.

2. The method of claim 1, wherein when the comparison result is inconsistent, the remote number table is linked to the end of the home number table, and the remote number table and the home number table are separated by a separator.

3. The method of claim 1, wherein when the comparison result is consistent, the calibrating the local number table comprises:

analyzing the remote number list to obtain a first number receiving range;

analyzing the local terminal number list to obtain a second number receiving range;

and calibrating the local terminal number list according to the inclusion relation of the first number receiving range and the second number receiving range.

4. The method of claim 3, wherein calibrating the local number table according to the inclusion relationship between the first number receiving range and the second number receiving range comprises:

when the first number receiving range and the second number receiving range have no intersection or partial intersection, the remote number table is linked to the tail of the local number table, repeated items are removed, and the remote number table and the local number table are separated by using separators; alternatively, the first and second electrodes may be,

when the first number receiving range comprises the second number receiving range, covering the remote number table with the local number table; alternatively, the first and second electrodes may be,

when the first number receiving range is contained by the second number receiving range, the local number list does not need to be calibrated.

5. System for intelligent access gateway calibration number table, the system comprising:

the remote number table receiving module is used for receiving a remote number table formed by at least one of numbers, letters and special characters;

the local terminal number list acquisition module is used for acquiring a local terminal number list which is configured to the storage space of the intelligent access gateway in advance;

the protocol mode acquisition module is used for acquiring the protocol modes of control equipment which is configured in advance to a storage space of the intelligent access gateway or is communicated with the intelligent access gateway, and the protocol modes comprise a master-slave mode and a non-master-slave mode;

the home terminal number table calibration module is used for calibrating the home terminal number table according to the protocol mode and the remote number table;

when the protocol mode acquired by the protocol mode acquisition module is configured to be a master-slave mode, the home terminal number table calibration module extracts an internal line number table item from the home terminal number table; linking the remote number list to the tail of the internal line number list item, and separating by using a separator;

when the protocol mode acquired by the protocol mode acquisition module is configured as a non-master-slave mode, the home terminal number table calibration module comprises:

the first number receiving rule analysis module is used for analyzing the remote number list to obtain a first number receiving rule;

the second number receiving rule analysis module is used for analyzing the local terminal number list to obtain a second number receiving rule;

the comparison module is used for comparing the first number receiving rule with the second number receiving rule to determine a comparison result;

and the first calibration module is used for calibrating the local terminal number list according to the comparison result.

6. The system of claim 5, wherein when the comparison module determines that the comparison results are consistent, the first calibration module comprises:

the first number receiving range analysis module is used for analyzing the remote number list to obtain a first number receiving range;

the second number receiving range analysis module is used for analyzing the local terminal number list to obtain a second number receiving range;

the second calibration module is used for calibrating the local terminal number table according to the inclusion relation between the first number receiving range and the second number receiving range: when the first number receiving range and the second number receiving range have no intersection or partial intersection, the remote number table is linked to the tail of the local number table, repeated items are removed, and the remote number table and the local number table are separated by a separator; or, when the first number receiving range includes the second number receiving range, covering the remote number table with the local number table; or when the first number receiving range is contained by the second number receiving range, the local number list does not need to be calibrated.

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